diff options
Diffstat (limited to 'techlibs')
139 files changed, 32665 insertions, 1779 deletions
diff --git a/techlibs/achronix/speedster22i/cells_map.v b/techlibs/achronix/speedster22i/cells_map.v index 95f5d59c5..9f647cbef 100755 --- a/techlibs/achronix/speedster22i/cells_map.v +++ b/techlibs/achronix/speedster22i/cells_map.v @@ -32,7 +32,7 @@ endmodule // > end buffers < // > Look-Up table < -// > VT: I still think Achronix folks would have choosen a better \ +// > VT: I still think Achronix folks would have chosen a better \ // > logic architecture. // LUT Map module \$lut (A, Y); @@ -43,30 +43,30 @@ module \$lut (A, Y); generate if (WIDTH == 1) begin // VT: This is not consistent and ACE will complain: assign Y = ~A[0]; - LUT4 #(.lut_function({4{LUT}})) _TECHMAP_REPLACE_ + LUT4 #(.lut_function({4{LUT}})) _TECHMAP_REPLACE_ (.dout(Y), .din0(A[0]), .din1(1'b0), .din2(1'b0), .din3(1'b0)); end else if (WIDTH == 2) begin - LUT4 #(.lut_function({4{LUT}})) _TECHMAP_REPLACE_ + LUT4 #(.lut_function({4{LUT}})) _TECHMAP_REPLACE_ (.dout(Y), .din0(A[0]), .din1(A[1]), .din2(1'b0), .din3(1'b0)); end else if(WIDTH == 3) begin - LUT4 #(.lut_function({2{LUT}})) _TECHMAP_REPLACE_ + LUT4 #(.lut_function({2{LUT}})) _TECHMAP_REPLACE_ (.dout(Y), .din0(A[0]), .din1(A[1]), .din2(A[2]), .din3(1'b0)); end else if(WIDTH == 4) begin - LUT4 #(.lut_function(LUT)) _TECHMAP_REPLACE_ + LUT4 #(.lut_function(LUT)) _TECHMAP_REPLACE_ (.dout(Y), .din0(A[0]), .din1(A[1]), .din2(A[2]), .din3(A[3])); end else wire _TECHMAP_FAIL_ = 1; endgenerate -endmodule +endmodule // > end LUT < // > Flops < // DFF flop module \$_DFF_P_ (input D, C, output Q); - DFF _TECHMAP_REPLACE_ + DFF _TECHMAP_REPLACE_ (.q(Q), .d(D), .ck(C)); -endmodule +endmodule diff --git a/techlibs/achronix/speedster22i/cells_sim.v b/techlibs/achronix/speedster22i/cells_sim.v index da23fed7e..a0c60b4be 100755 --- a/techlibs/achronix/speedster22i/cells_sim.v +++ b/techlibs/achronix/speedster22i/cells_sim.v @@ -30,7 +30,7 @@ endmodule module PADOUT (output padout, input padin, input oe); assign padout = padin; assign oe = oe; -endmodule +endmodule module LUT4 (output dout, input din0, din1, din2, din3); @@ -61,19 +61,19 @@ reg [1:0] s1; end endfunction -always @(dataa_w or datab_w or datac_w or datad_w or cin_w) begin +always @(dataa_w or datab_w or datac_w or datad_w) begin combout_rt = lut_data(lut_function, dataa_w, datab_w, datac_w, datad_w); end assign dout = combout_rt & 1'b1; -endmodule +endmodule module DFF (output q, input d, ck); reg q; always @(posedge ck) q <= d; - + endmodule diff --git a/techlibs/achronix/synth_achronix.cc b/techlibs/achronix/synth_achronix.cc index 7f4503070..626860d9c 100755 --- a/techlibs/achronix/synth_achronix.cc +++ b/techlibs/achronix/synth_achronix.cc @@ -28,7 +28,7 @@ PRIVATE_NAMESPACE_BEGIN struct SynthAchronixPass : public ScriptPass { SynthAchronixPass() : ScriptPass("synth_achronix", "synthesis for Acrhonix Speedster22i FPGAs.") { } - virtual void help() YS_OVERRIDE + void help() YS_OVERRIDE { // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| log("\n"); @@ -63,7 +63,7 @@ struct SynthAchronixPass : public ScriptPass { string top_opt, family_opt, vout_file; bool retime, flatten; - virtual void clear_flags() YS_OVERRIDE + void clear_flags() YS_OVERRIDE { top_opt = "-auto-top"; vout_file = ""; @@ -71,7 +71,7 @@ struct SynthAchronixPass : public ScriptPass { flatten = true; } - virtual void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE { string run_from, run_to; clear_flags(); @@ -95,8 +95,8 @@ struct SynthAchronixPass : public ScriptPass { run_to = args[argidx].substr(pos+1); continue; } - if (args[argidx] == "-flatten") { - flatten = true; + if (args[argidx] == "-noflatten") { + flatten = false; continue; } if (args[argidx] == "-retime") { @@ -108,7 +108,7 @@ struct SynthAchronixPass : public ScriptPass { extra_args(args, argidx, design); if (!design->full_selection()) - log_cmd_error("This comannd only operates on fully selected designs!\n"); + log_cmd_error("This command only operates on fully selected designs!\n"); log_header(design, "Executing SYNTH_ACHRONIX pass.\n"); log_push(); @@ -118,7 +118,7 @@ struct SynthAchronixPass : public ScriptPass { log_pop(); } - virtual void script() YS_OVERRIDE + void script() YS_OVERRIDE { if (check_label("begin")) { diff --git a/techlibs/anlogic/Makefile.inc b/techlibs/anlogic/Makefile.inc new file mode 100644 index 000000000..9426b5ca5 --- /dev/null +++ b/techlibs/anlogic/Makefile.inc @@ -0,0 +1,12 @@ + +OBJS += techlibs/anlogic/synth_anlogic.o +OBJS += techlibs/anlogic/anlogic_eqn.o +OBJS += techlibs/anlogic/anlogic_fixcarry.o + +$(eval $(call add_share_file,share/anlogic,techlibs/anlogic/cells_map.v)) +$(eval $(call add_share_file,share/anlogic,techlibs/anlogic/arith_map.v)) +$(eval $(call add_share_file,share/anlogic,techlibs/anlogic/cells_sim.v)) +$(eval $(call add_share_file,share/anlogic,techlibs/anlogic/eagle_bb.v)) +$(eval $(call add_share_file,share/anlogic,techlibs/anlogic/drams.txt)) +$(eval $(call add_share_file,share/anlogic,techlibs/anlogic/drams_map.v)) +$(eval $(call add_share_file,share/anlogic,techlibs/anlogic/dram_init_16x4.vh)) diff --git a/techlibs/anlogic/anlogic_eqn.cc b/techlibs/anlogic/anlogic_eqn.cc new file mode 100644 index 000000000..070d39a20 --- /dev/null +++ b/techlibs/anlogic/anlogic_eqn.cc @@ -0,0 +1,113 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2018 Miodrag Milanovic <miodrag@symbioticeda.com> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +#include "kernel/yosys.h" +#include "kernel/sigtools.h" + +USING_YOSYS_NAMESPACE +PRIVATE_NAMESPACE_BEGIN + +struct AnlogicEqnPass : public Pass { + AnlogicEqnPass() : Pass("anlogic_eqn", "Anlogic: Calculate equations for luts") { } + void help() YS_OVERRIDE + { + log("\n"); + log(" anlogic_eqn [selection]\n"); + log("\n"); + log("Calculate equations for luts since bitstream generator depends on it.\n"); + log("\n"); + } + + Const init2eqn(Const init, int inputs) + { + std::string init_bits = init.as_string(); + const char* names[] = { "A" , "B", "C", "D", "E", "F" }; + + std::string eqn; + int width = (int)pow(2,inputs); + for(int i=0;i<width;i++) + { + if (init_bits[width-1-i]=='1') + { + eqn += "("; + for(int j=0;j<inputs;j++) + { + if (i & (1<<j)) + eqn += names[j]; + else + eqn += std::string("~") + names[j]; + + if (j!=(inputs-1)) eqn += "*"; + } + eqn += ")+"; + } + } + if (eqn.empty()) return Const("0"); + eqn = eqn.substr(0, eqn.length()-1); + return Const(eqn); + } + + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + { + log_header(design, "Executing ANLOGIC_EQN pass (calculate equations for luts).\n"); + + extra_args(args, args.size(), design); + + int cnt = 0; + for (auto module : design->selected_modules()) + { + for (auto cell : module->selected_cells()) + { + if (cell->type == "\\AL_MAP_LUT1") + { + cell->setParam("\\EQN", init2eqn(cell->getParam("\\INIT"),1)); + cnt++; + } + if (cell->type == "\\AL_MAP_LUT2") + { + cell->setParam("\\EQN", init2eqn(cell->getParam("\\INIT"),2)); + cnt++; + } + if (cell->type == "\\AL_MAP_LUT3") + { + cell->setParam("\\EQN", init2eqn(cell->getParam("\\INIT"),3)); + cnt++; + } + if (cell->type == "\\AL_MAP_LUT4") + { + cell->setParam("\\EQN", init2eqn(cell->getParam("\\INIT"),4)); + cnt++; + } + if (cell->type == "\\AL_MAP_LUT5") + { + cell->setParam("\\EQN", init2eqn(cell->getParam("\\INIT"),5)); + cnt++; + } + if (cell->type == "\\AL_MAP_LUT6") + { + cell->setParam("\\EQN", init2eqn(cell->getParam("\\INIT"),6)); + cnt++; + } + } + } + log_header(design, "Updated %d of AL_MAP_LUT* elements with equation.\n", cnt); + } +} AnlogicEqnPass; + +PRIVATE_NAMESPACE_END diff --git a/techlibs/anlogic/anlogic_fixcarry.cc b/techlibs/anlogic/anlogic_fixcarry.cc new file mode 100644 index 000000000..87164d375 --- /dev/null +++ b/techlibs/anlogic/anlogic_fixcarry.cc @@ -0,0 +1,130 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2019 Miodrag Milanovic <miodrag@symbioticeda.com> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +#include "kernel/yosys.h" +#include "kernel/sigtools.h" + +USING_YOSYS_NAMESPACE +PRIVATE_NAMESPACE_BEGIN + +static SigBit get_bit_or_zero(const SigSpec &sig) +{ + if (GetSize(sig) == 0) + return State::S0; + return sig[0]; +} + +static void fix_carry_chain(Module *module) +{ + SigMap sigmap(module); + + pool<SigBit> ci_bits; + dict<SigBit, SigBit> mapping_bits; + + for (auto cell : module->cells()) + { + if (cell->type == "\\AL_MAP_ADDER") { + if (cell->getParam("\\ALUTYPE") != Const("ADD")) continue; + SigBit bit_i0 = get_bit_or_zero(cell->getPort("\\a")); + SigBit bit_i1 = get_bit_or_zero(cell->getPort("\\b")); + if (bit_i0 == State::S0 && bit_i1== State::S0) { + SigBit bit_ci = get_bit_or_zero(cell->getPort("\\c")); + SigSpec o = cell->getPort("\\o"); + if (GetSize(o) == 2) { + SigBit bit_o = o[0]; + ci_bits.insert(bit_ci); + mapping_bits[bit_ci] = bit_o; + } + } + } + } + vector<Cell*> adders_to_fix_cells; + for (auto cell : module->cells()) + { + if (cell->type == "\\AL_MAP_ADDER") { + if (cell->getParam("\\ALUTYPE") != Const("ADD")) continue; + SigBit bit_ci = get_bit_or_zero(cell->getPort("\\c")); + SigBit bit_i0 = get_bit_or_zero(cell->getPort("\\a")); + SigBit bit_i1 = get_bit_or_zero(cell->getPort("\\b")); + SigBit canonical_bit = sigmap(bit_ci); + if (!ci_bits.count(canonical_bit)) + continue; + if (bit_i0 == State::S0 && bit_i1== State::S0) + continue; + + adders_to_fix_cells.push_back(cell); + log("Found %s cell named %s with invalid 'c' signal.\n", log_id(cell->type), log_id(cell)); + } + } + + for (auto cell : adders_to_fix_cells) + { + SigBit bit_ci = get_bit_or_zero(cell->getPort("\\c")); + SigBit canonical_bit = sigmap(bit_ci); + auto bit = mapping_bits.at(canonical_bit); + log("Fixing %s cell named %s breaking carry chain.\n", log_id(cell->type), log_id(cell)); + Cell *c = module->addCell(NEW_ID, "\\AL_MAP_ADDER"); + SigBit new_bit = module->addWire(NEW_ID); + SigBit dummy_bit = module->addWire(NEW_ID); + SigSpec bits; + bits.append(dummy_bit); + bits.append(new_bit); + c->setParam("\\ALUTYPE", Const("ADD_CARRY")); + c->setPort("\\a", bit); + c->setPort("\\b", State::S0); + c->setPort("\\c", State::S0); + c->setPort("\\o", bits); + + cell->setPort("\\c", new_bit); + } + +} + +struct AnlogicCarryFixPass : public Pass { + AnlogicCarryFixPass() : Pass("anlogic_fixcarry", "Anlogic: fix carry chain") { } + void help() YS_OVERRIDE + { + // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| + log("\n"); + log(" anlogic_fixcarry [options] [selection]\n"); + log("\n"); + log("Add Anlogic adders to fix carry chain if needed.\n"); + log("\n"); + } + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + { + log_header(design, "Executing anlogic_fixcarry pass (fix invalid carry chain).\n"); + + size_t argidx; + for (argidx = 1; argidx < args.size(); argidx++) + { + break; + } + extra_args(args, argidx, design); + + Module *module = design->top_module(); + + if (module == nullptr) + log_cmd_error("No top module found.\n"); + + fix_carry_chain(module); + } +} AnlogicCarryFixPass; + +PRIVATE_NAMESPACE_END diff --git a/techlibs/anlogic/arith_map.v b/techlibs/anlogic/arith_map.v new file mode 100644 index 000000000..1186543da --- /dev/null +++ b/techlibs/anlogic/arith_map.v @@ -0,0 +1,84 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2018 Miodrag Milanovic <miodrag@symbioticeda.com> + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +(* techmap_celltype = "$alu" *) +module _80_anlogic_alu (A, B, CI, BI, X, Y, CO); + parameter A_SIGNED = 0; + parameter B_SIGNED = 0; + parameter A_WIDTH = 1; + parameter B_WIDTH = 1; + parameter Y_WIDTH = 1; + + input [A_WIDTH-1:0] A; + input [B_WIDTH-1:0] B; + output [Y_WIDTH-1:0] X, Y; + + input CI, BI; + output [Y_WIDTH-1:0] CO; + + wire CIx; + wire [Y_WIDTH-1:0] COx; + + wire _TECHMAP_FAIL_ = Y_WIDTH <= 2; + + wire [Y_WIDTH-1:0] A_buf, B_buf; + \$pos #(.A_SIGNED(A_SIGNED), .A_WIDTH(A_WIDTH), .Y_WIDTH(Y_WIDTH)) A_conv (.A(A), .Y(A_buf)); + \$pos #(.A_SIGNED(B_SIGNED), .A_WIDTH(B_WIDTH), .Y_WIDTH(Y_WIDTH)) B_conv (.A(B), .Y(B_buf)); + + wire [Y_WIDTH-1:0] AA = A_buf; + wire [Y_WIDTH-1:0] BB = BI ? ~B_buf : B_buf; + wire [Y_WIDTH-1:0] C = { COx, CIx }; + + wire dummy; + AL_MAP_ADDER #( + .ALUTYPE("ADD_CARRY")) + adder_cin ( + .a(CI), + .b(1'b0), + .c(1'b0), + .o({CIx, dummy}) + ); + + genvar i; + generate for (i = 0; i < Y_WIDTH; i = i + 1) begin: slice + AL_MAP_ADDER #( + .ALUTYPE("ADD") + ) adder_i ( + .a(AA[i]), + .b(BB[i]), + .c(C[i]), + .o({COx[i],Y[i]}) + ); + + wire cout; + AL_MAP_ADDER #( + .ALUTYPE("ADD")) + adder_cout ( + .a(1'b0), + .b(1'b0), + .c(COx[i]), + .o({cout, CO[i]}) + ); + end: slice + endgenerate + + /* End implementation */ + assign X = AA ^ BB; +endmodule diff --git a/techlibs/anlogic/cells_map.v b/techlibs/anlogic/cells_map.v new file mode 100644 index 000000000..cfc743a4b --- /dev/null +++ b/techlibs/anlogic/cells_map.v @@ -0,0 +1,61 @@ +module \$_DFF_N_ (input D, C, output Q); AL_MAP_SEQ #(.DFFMODE("FF"), .REGSET(1'bx), .SRMUX("SR"), .SRMODE("SYNC")) _TECHMAP_REPLACE_ (.d(D), .q(Q), .clk(~C), .ce(1'b1), .sr(1'b0)); endmodule +module \$_DFF_P_ (input D, C, output Q); AL_MAP_SEQ #(.DFFMODE("FF"), .REGSET(1'bx), .SRMUX("SR"), .SRMODE("SYNC")) _TECHMAP_REPLACE_ (.d(D), .q(Q), .clk(C), .ce(1'b1), .sr(1'b0)); endmodule + +module \$_DFFE_NN_ (input D, C, E, output Q); AL_MAP_SEQ #(.DFFMODE("FF"), .REGSET(1'bx), .SRMUX("SR"), .SRMODE("SYNC")) _TECHMAP_REPLACE_ (.d(D), .q(Q), .clk(~C), .ce(E), .sr(1'b0)); endmodule +module \$_DFFE_NP_ (input D, C, E, output Q); AL_MAP_SEQ #(.DFFMODE("FF"), .REGSET(1'bx), .SRMUX("SR"), .SRMODE("SYNC")) _TECHMAP_REPLACE_ (.d(D), .q(Q), .clk(~C), .ce(E), .sr(1'b0)); endmodule +module \$_DFFE_PN_ (input D, C, E, output Q); AL_MAP_SEQ #(.DFFMODE("FF"), .REGSET(1'bx), .SRMUX("SR"), .SRMODE("SYNC")) _TECHMAP_REPLACE_ (.d(D), .q(Q), .clk(C), .ce(E), .sr(1'b0)); endmodule +module \$_DFFE_PP_ (input D, C, E, output Q); AL_MAP_SEQ #(.DFFMODE("FF"), .REGSET(1'bx), .SRMUX("SR"), .SRMODE("SYNC")) _TECHMAP_REPLACE_ (.d(D), .q(Q), .clk(C), .ce(E), .sr(1'b0)); endmodule + +module \$_DFF_NN0_ (input D, C, R, output Q); AL_MAP_SEQ #(.DFFMODE("FF"), .REGSET(1'b0), .SRMUX("INV"), .SRMODE("SYNC")) _TECHMAP_REPLACE_ (.d(D), .q(Q), .clk(~C), .ce(1'b1), .sr(R)); endmodule +module \$_DFF_NN1_ (input D, C, R, output Q); AL_MAP_SEQ #(.DFFMODE("FF"), .REGSET(1'b1), .SRMUX("INV"), .SRMODE("SYNC")) _TECHMAP_REPLACE_ (.d(D), .q(Q), .clk(~C), .ce(1'b1), .sr(R)); endmodule +module \$_DFF_NP0_ (input D, C, R, output Q); AL_MAP_SEQ #(.DFFMODE("FF"), .REGSET(1'b0), .SRMUX("SR"), .SRMODE("SYNC")) _TECHMAP_REPLACE_ (.d(D), .q(Q), .clk(~C), .ce(1'b1), .sr(R)); endmodule +module \$_DFF_NP1_ (input D, C, R, output Q); AL_MAP_SEQ #(.DFFMODE("FF"), .REGSET(1'b1), .SRMUX("SR"), .SRMODE("SYNC")) _TECHMAP_REPLACE_ (.d(D), .q(Q), .clk(~C), .ce(1'b1), .sr(R)); endmodule +module \$_DFF_PN0_ (input D, C, R, output Q); AL_MAP_SEQ #(.DFFMODE("FF"), .REGSET(1'b0), .SRMUX("INV"), .SRMODE("SYNC")) _TECHMAP_REPLACE_ (.d(D), .q(Q), .clk(C) , .ce(1'b1), .sr(R)); endmodule +module \$_DFF_PN1_ (input D, C, R, output Q); AL_MAP_SEQ #(.DFFMODE("FF"), .REGSET(1'b1), .SRMUX("INV"), .SRMODE("SYNC")) _TECHMAP_REPLACE_ (.d(D), .q(Q), .clk(C), .ce(1'b1), .sr(R)); endmodule +module \$_DFF_PP0_ (input D, C, R, output Q); AL_MAP_SEQ #(.DFFMODE("FF"), .REGSET(1'b0), .SRMUX("SR"), .SRMODE("SYNC")) _TECHMAP_REPLACE_ (.d(D), .q(Q), .clk(C), .ce(1'b1), .sr(R)); endmodule +module \$_DFF_PP1_ (input D, C, R, output Q); AL_MAP_SEQ #(.DFFMODE("FF"), .REGSET(1'b1), .SRMUX("SR"), . SRMODE("SYNC")) _TECHMAP_REPLACE_ (.d(D), .q(Q), .clk(C), .ce(1'b1), .sr(R)); endmodule + +module \$_DLATCH_N_ (E, D, Q); + wire [1023:0] _TECHMAP_DO_ = "simplemap; opt"; + input E, D; + output Q = !E ? D : Q; +endmodule + +module \$_DLATCH_P_ (E, D, Q); + wire [1023:0] _TECHMAP_DO_ = "simplemap; opt"; + input E, D; + output Q = E ? D : Q; +endmodule + +`ifndef NO_LUT +module \$lut (A, Y); + parameter WIDTH = 0; + parameter LUT = 0; + + input [WIDTH-1:0] A; + output Y; + + generate + if (WIDTH == 1) begin + AL_MAP_LUT1 #(.EQN(""),.INIT(LUT)) _TECHMAP_REPLACE_ (.o(Y), .a(A[0])); + end else + if (WIDTH == 2) begin + AL_MAP_LUT2 #(.EQN(""),.INIT(LUT)) _TECHMAP_REPLACE_ (.o(Y), .a(A[0]), .b(A[1])); + end else + if (WIDTH == 3) begin + AL_MAP_LUT3 #(.EQN(""),.INIT(LUT)) _TECHMAP_REPLACE_ (.o(Y), .a(A[0]), .b(A[1]), .c(A[2])); + end else + if (WIDTH == 4) begin + AL_MAP_LUT4 #(.EQN(""),.INIT(LUT)) _TECHMAP_REPLACE_ (.o(Y), .a(A[0]), .b(A[1]), .c(A[2]), .d(A[3])); + end else + if (WIDTH == 5) begin + AL_MAP_LUT5 #(.EQN(""),.INIT(LUT)) _TECHMAP_REPLACE_ (.o(Y), .a(A[0]), .b(A[1]), .c(A[2]), .d(A[3]), .e(A[4])); + end else + if (WIDTH == 6) begin + AL_MAP_LUT6 #(.EQN(""),.INIT(LUT)) _TECHMAP_REPLACE_ (.o(Y), .a(A[0]), .b(A[1]), .c(A[2]), .d(A[3]), .e(A[4]), .f(A[5])); + end else begin + wire _TECHMAP_FAIL_ = 1; + end + endgenerate +endmodule +`endif diff --git a/techlibs/anlogic/cells_sim.v b/techlibs/anlogic/cells_sim.v new file mode 100644 index 000000000..0fba43572 --- /dev/null +++ b/techlibs/anlogic/cells_sim.v @@ -0,0 +1,192 @@ +module AL_MAP_SEQ ( + output reg q, + input ce, + input clk, + input sr, + input d +); + parameter DFFMODE = "FF"; //FF,LATCH + parameter REGSET = "RESET"; //RESET/SET + parameter SRMUX = "SR"; //SR/INV + parameter SRMODE = "SYNC"; //SYNC/ASYNC + + wire clk_ce; + assign clk_ce = ce ? clk : 1'b0; + + wire srmux; + generate + case (SRMUX) + "SR": assign srmux = sr; + "INV": assign srmux = ~sr; + default: assign srmux = sr; + endcase + endgenerate + + wire regset; + generate + case (REGSET) + "RESET": assign regset = 1'b0; + "SET": assign regset = 1'b1; + default: assign regset = 1'b0; + endcase + endgenerate + + initial q = regset; + + generate + if (DFFMODE == "FF") + begin + if (SRMODE == "ASYNC") + begin + always @(posedge clk_ce, posedge srmux) + if (srmux) + q <= regset; + else + q <= d; + end + else + begin + always @(posedge clk_ce) + if (srmux) + q <= regset; + else + q <= d; + end + end + else + begin + // DFFMODE == "LATCH" + if (SRMODE == "ASYNC") + begin + always @(clk_ce, srmux) + if (srmux) + q <= regset; + else + q <= d; + end + else + begin + always @(clk_ce) + if (srmux) + q <= regset; + else + q <= d; + end + end + endgenerate +endmodule + +module AL_MAP_LUT1 ( + output o, + input a +); + parameter [1:0] INIT = 2'h0; + parameter EQN = "(A)"; + + assign o = a ? INIT[1] : INIT[0]; +endmodule + +module AL_MAP_LUT2 ( + output o, + input a, + input b +); + parameter [3:0] INIT = 4'h0; + parameter EQN = "(A)"; + + wire [1:0] s1 = b ? INIT[ 3:2] : INIT[1:0]; + assign o = a ? s1[1] : s1[0]; +endmodule + +module AL_MAP_LUT3 ( + output o, + input a, + input b, + input c +); + parameter [7:0] INIT = 8'h0; + parameter EQN = "(A)"; + + wire [3:0] s2 = c ? INIT[ 7:4] : INIT[3:0]; + wire [1:0] s1 = b ? s2[ 3:2] : s2[1:0]; + assign o = a ? s1[1] : s1[0]; +endmodule + +module AL_MAP_LUT4 ( + output o, + input a, + input b, + input c, + input d +); + parameter [15:0] INIT = 16'h0; + parameter EQN = "(A)"; + + wire [7:0] s3 = d ? INIT[15:8] : INIT[7:0]; + wire [3:0] s2 = c ? s3[ 7:4] : s3[3:0]; + wire [1:0] s1 = b ? s2[ 3:2] : s2[1:0]; + assign o = a ? s1[1] : s1[0]; +endmodule + +module AL_MAP_LUT5 ( + output o, + input a, + input b, + input c, + input d, + input e +); + parameter [31:0] INIT = 32'h0; + parameter EQN = "(A)"; + assign o = INIT >> {e, d, c, b, a}; +endmodule + + +module AL_MAP_LUT6 ( + output o, + input a, + input b, + input c, + input d, + input e, + input f +); + parameter [63:0] INIT = 64'h0; + parameter EQN = "(A)"; + assign o = INIT >> {f, e, d, c, b, a}; +endmodule + +module AL_MAP_ALU2B ( + input cin, + input a0, b0, c0, d0, + input a1, b1, c1, d1, + output s0, s1, cout +); + parameter [15:0] INIT0 = 16'h0000; + parameter [15:0] INIT1 = 16'h0000; + parameter FUNC0 = "NO"; + parameter FUNC1 = "NO"; +endmodule + +module AL_MAP_ADDER ( + input a, + input b, + input c, + output [1:0] o +); + parameter ALUTYPE = "ADD"; + + generate + case (ALUTYPE) + "ADD": assign o = a + b + c; + "SUB": assign o = a - b - c; + "A_LE_B": assign o = a - b - c; + + "ADD_CARRY": assign o = { a, 1'b0 }; + "SUB_CARRY": assign o = { ~a, 1'b0 }; + "A_LE_B_CARRY": assign o = { a, 1'b0 }; + default: assign o = a + b + c; + endcase + endgenerate + +endmodule diff --git a/techlibs/anlogic/dram_init_16x4.vh b/techlibs/anlogic/dram_init_16x4.vh new file mode 100644 index 000000000..32fb1578c --- /dev/null +++ b/techlibs/anlogic/dram_init_16x4.vh @@ -0,0 +1,16 @@ +.INIT_D0({INIT[15*4+0], INIT[14*4+0], INIT[13*4+0], INIT[12*4+0], + INIT[11*4+0], INIT[10*4+0], INIT[9*4+0], INIT[8*4+0], + INIT[7*4+0], INIT[6*4+0], INIT[5*4+0], INIT[4*4+0], + INIT[3*4+0], INIT[2*4+0], INIT[1*4+0], INIT[0*4+0]}), +.INIT_D1({INIT[15*4+1], INIT[14*4+1], INIT[13*4+1], INIT[12*4+1], + INIT[11*4+1], INIT[10*4+1], INIT[9*4+1], INIT[8*4+1], + INIT[7*4+1], INIT[6*4+1], INIT[5*4+1], INIT[4*4+1], + INIT[3*4+1], INIT[2*4+1], INIT[1*4+1], INIT[0*4+1]}), +.INIT_D2({INIT[15*4+2], INIT[14*4+2], INIT[13*4+2], INIT[12*4+2], + INIT[11*4+2], INIT[10*4+2], INIT[9*4+2], INIT[8*4+2], + INIT[7*4+2], INIT[6*4+2], INIT[5*4+2], INIT[4*4+2], + INIT[3*4+2], INIT[2*4+2], INIT[1*4+2], INIT[0*4+2]}), +.INIT_D3({INIT[15*4+3], INIT[14*4+3], INIT[13*4+3], INIT[12*4+3], + INIT[11*4+3], INIT[10*4+3], INIT[9*4+3], INIT[8*4+3], + INIT[7*4+3], INIT[6*4+3], INIT[5*4+3], INIT[4*4+3], + INIT[3*4+3], INIT[2*4+3], INIT[1*4+3], INIT[0*4+3]}) diff --git a/techlibs/anlogic/drams.txt b/techlibs/anlogic/drams.txt new file mode 100644 index 000000000..4e903c0a2 --- /dev/null +++ b/techlibs/anlogic/drams.txt @@ -0,0 +1,16 @@ +bram $__ANLOGIC_DRAM16X4 + init 1 + abits 4 + dbits 4 + groups 2 + ports 1 1 + wrmode 0 1 + enable 0 1 + transp 0 0 + clocks 0 1 + clkpol 0 1 +endbram + +match $__ANLOGIC_DRAM16X4 + make_outreg +endmatch diff --git a/techlibs/anlogic/drams_map.v b/techlibs/anlogic/drams_map.v new file mode 100644 index 000000000..084e2a25f --- /dev/null +++ b/techlibs/anlogic/drams_map.v @@ -0,0 +1,22 @@ +module \$__ANLOGIC_DRAM16X4 (CLK1, A1ADDR, A1DATA, B1ADDR, B1DATA, B1EN); + parameter [63:0]INIT = 64'bx; + input CLK1; + + input [3:0] A1ADDR; + output [3:0] A1DATA; + + input [3:0] B1ADDR; + input [3:0] B1DATA; + input B1EN; + + EG_LOGIC_DRAM16X4 #( + `include "dram_init_16x4.vh" + ) _TECHMAP_REPLACE_ ( + .di(B1DATA), + .waddr(B1ADDR), + .wclk(CLK1), + .we(B1EN), + .raddr(A1ADDR), + .do(A1DATA) + ); +endmodule diff --git a/techlibs/anlogic/eagle_bb.v b/techlibs/anlogic/eagle_bb.v new file mode 100644 index 000000000..7cbec331a --- /dev/null +++ b/techlibs/anlogic/eagle_bb.v @@ -0,0 +1,1028 @@ +// Anlogic Eagle - Blackbox cells +// FIXME: Create sim models + +(* blackbox *) +module EG_LOGIC_BUF( + output o, + input i +); +endmodule + +(* blackbox *) +module EG_LOGIC_BUFG( + output o, + input i +); +endmodule + +(* blackbox *) +module EG_LOGIC_BUFIO( + input clki, + input rst, + input coe, + output clko, + output clkdiv1, + output clkdivx +); + parameter GSR = "DISABLE"; + parameter DIV = 2; + parameter STOPCLK = "DISABLE"; +endmodule + +(* blackbox *) +module EG_LOGIC_BUFGMUX( + output o, + input i0, + input i1, + input s +); + parameter INIT_OUT = "0"; + parameter PRESELECT_I0 = "TRUE"; + parameter PRESELECT_I1 = "FALSE"; +endmodule + +(* blackbox *) +module EG_LOGIC_MBOOT( + input rebootn, + input [7:0] dynamic_addr +); + parameter ADDR_SOURCE_SEL = "STATIC"; + parameter STATIC_ADDR = 8'b00000000; +endmodule + +(* blackbox *) +module EG_LOGIC_DNA( + output dout, + input clk, + input din, + input shift_en +); +endmodule + +(* blackbox *) +module EG_LOGIC_GCTRL( + output done, + output highz +); +endmodule + +(* blackbox *) +module EG_LOGIC_GSRN( + input gsrn, + input sync_clk +); + parameter GSRN_SYNC_SEL = "DISABLE"; + parameter USR_GSRN_EN = "DISABLE"; +endmodule + +(* blackbox *) +module EG_LOGIC_CCLK( + output cclk, + input en +); + parameter FREQ = "4.5"; +endmodule + +(* blackbox *) +module EG_LOGIC_IDELAY( + output o, + input i +); + parameter INDEL = 0; +endmodule + +(* blackbox *) +module EG_LOGIC_IDDR( + output q1, + output q0, + input clk, + input d, + input rst +); + parameter ASYNCRST = "ENABLE"; + parameter PIPEMODE = "PIPED"; +endmodule + +(* blackbox *) +module EG_LOGIC_ODDR( + output q, + input clk, + input d1, + input d0, + input rst +); + parameter ASYNCRST = "ENABLE"; +endmodule + +(* blackbox *) +module EG_LOGIC_IDDRx2( + output q3, + output q2, + output q1, + output q0, + input pclk, + input sclk, + input d, + input rst +); + parameter ASYNCRST = "ENABLE"; +endmodule + +(* blackbox *) +module EG_LOGIC_ODELAY( + output o, + input i +); + parameter OUTDEL = 0; +endmodule + +(* blackbox *) +module EG_LOGIC_ODDRx2( + output q, + input pclk, + input sclk, + input d3, + input d2, + input d1, + input d0, + input rst +); + parameter ASYNCRST = "ENABLE"; +endmodule + +(* blackbox *) +module EG_LOGIC_ODDRx2l( + output q, + input sclk, + input d3, + input d2, + input d1, + input d0, + input rst +); + parameter ASYNCRST = "ENABLE"; +endmodule + +(* blackbox *) +module EG_LOGIC_FIFO( + input rst, + input [DATA_WIDTH_W-1:0] di, + output [DATA_WIDTH_R-1:0] do, + input clkw, + input we, + input clkr, + input re, + input ore, + input [2:0] csw, + input [2:0] csr, + output empty_flag, + output aempty_flag, + output full_flag, + output afull_flag +); + parameter DATA_WIDTH_W = 9; + parameter DATA_WIDTH_R = DATA_WIDTH_W; + parameter DATA_DEPTH_W = 1024; + parameter DATA_DEPTH_R = DATA_WIDTH_W * DATA_DEPTH_W / DATA_WIDTH_R; + parameter MODE = "FIFO8K"; + parameter REGMODE_W = "NOREG"; + parameter REGMODE_R = "NOREG"; + parameter E = 0; + parameter AE = 6; + parameter AF = DATA_DEPTH_W - 6; + parameter F = DATA_DEPTH_W; + parameter GSR = "DISABLE"; + parameter RESETMODE = "ASYNC"; + parameter ASYNC_RESET_RELEASE = "SYNC"; + parameter ENDIAN = "LITTLE"; +endmodule + +(* blackbox *) +module EG_LOGIC_DRAM( + input [DATA_WIDTH_W-1:0] di, + input [ADDR_WIDTH_W-1:0] waddr, + input wclk, + input we, + output [DATA_WIDTH_R-1:0] do, + input [ADDR_WIDTH_R-1:0] raddr +); + parameter DATA_WIDTH_W = 9; + parameter ADDR_WIDTH_W = 10; + parameter DATA_DEPTH_W = 2 ** ADDR_WIDTH_W; + parameter DATA_WIDTH_R = 9; + parameter ADDR_WIDTH_R = 10; + parameter DATA_DEPTH_R = 2 ** ADDR_WIDTH_R; + parameter INIT_FILE = "NONE"; +endmodule + +(* blackbox *) +module EG_LOGIC_DRAM16X4( + input [3:0] di, + input [3:0] waddr, + input wclk, + input we, + input [3:0]raddr, + output [3:0]do +); + parameter INIT_D0=16'h0000; + parameter INIT_D1=16'h0000; + parameter INIT_D2=16'h0000; + parameter INIT_D3=16'h0000; +endmodule + +(* blackbox *) +module EG_LOGIC_MULT( + output [OUTPUT_WIDTH-1:0] p, + input [INPUT_WIDTH_A-1:0] a, + input [INPUT_WIDTH_B-1:0] b, + input cea, + input ceb, + input cepd, + input clk, + input rstan, + input rstbn, + input rstpdn +); + parameter INPUT_WIDTH_A = 18; + parameter INPUT_WIDTH_B = 18; + parameter OUTPUT_WIDTH = 36; + parameter INPUTFORMAT = "SIGNED"; + parameter INPUTREGA = "ENABLE"; + parameter INPUTREGB = "ENABLE"; + parameter OUTPUTREG = "ENABLE"; + parameter SRMODE = "ASYNC"; + parameter IMPLEMENT = "AUTO"; +endmodule + +(* blackbox *) +module EG_LOGIC_SEQ_DIV( + input clk, + input rst, + input start, + input [NUMER_WIDTH-1:0] numer, + input [DENOM_WIDTH-1:0] denom, + output [NUMER_WIDTH-1:0] quotient, + output [DENOM_WIDTH-1:0] remain, + output done +); + parameter NUMER_WIDTH = 16; + parameter DENOM_WIDTH = 16; +endmodule + +(* blackbox *) +module EG_PHY_BRAM( + output [8:0] doa, + output [8:0] dob, + input [8:0] dia, + input [8:0] dib, + input [2:0] csa, + input [2:0] csb, + input cea, + input ocea, + input clka, + input wea, + input rsta, + input ceb, + input oceb, + input clkb, + input web, + input rstb, + input [12:0] addra, + input [12:0] addrb +); + parameter MODE = "DP8K"; + parameter DATA_WIDTH_A = "9"; + parameter DATA_WIDTH_B = "9"; + parameter READBACK = "OFF"; + parameter REGMODE_A = "NOREG"; + parameter REGMODE_B = "NOREG"; + parameter WRITEMODE_A = "NORMAL"; + parameter WRITEMODE_B = "NORMAL"; + parameter GSR = "ENABLE"; + parameter RESETMODE = "SYNC"; + parameter ASYNC_RESET_RELEASE = "SYNC"; + parameter CEAMUX = "SIG"; + parameter CEBMUX = "SIG"; + parameter OCEAMUX = "SIG"; + parameter OCEBMUX = "SIG"; + parameter RSTAMUX = "SIG"; + parameter RSTBMUX = "SIG"; + parameter CLKAMUX = "SIG"; + parameter CLKBMUX = "SIG"; + parameter WEAMUX = "SIG"; + parameter WEBMUX = "SIG"; + parameter CSA0 = "SIG" ; + parameter CSA1 = "SIG" ; + parameter CSA2 = "SIG" ; + parameter CSB0 = "SIG" ; + parameter CSB1 = "SIG" ; + parameter CSB2 = "SIG" ; + parameter INIT_FILE = "NONE"; + parameter INITP_00 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INITP_01 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INITP_02 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INITP_03 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_00 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_01 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_02 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_03 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_04 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_05 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_06 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_07 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_08 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_09 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_10 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_11 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_12 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_13 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_14 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_15 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_16 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_17 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_18 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_19 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1F = 256'h0000000000000000000000000000000000000000000000000000000000000000; +endmodule + +(* blackbox *) +module EG_PHY_BRAM32K( + output [15:0] doa, + output [15:0] dob, + input [15:0] dia, + input [15:0] dib, + input [10:0] addra, + input [10:0] addrb, + input bytea, + input bytewea, + input byteb, + input byteweb, + input csa, + input wea, + input csb, + input web, + input clka, + input rsta, + input clkb, + input rstb, + input ocea, + input oceb +); + parameter MODE = "DP16K"; + parameter DATA_WIDTH_A = "16"; + parameter DATA_WIDTH_B = "16"; + parameter REGMODE_A = "NOREG"; + parameter REGMODE_B = "NOREG"; + parameter WRITEMODE_A = "NORMAL"; + parameter WRITEMODE_B = "NORMAL"; + parameter SRMODE = "SYNC"; + parameter CSAMUX = "SIG"; + parameter CSBMUX = "SIG"; + parameter OCEAMUX = "SIG"; + parameter OCEBMUX = "SIG"; + parameter RSTAMUX = "SIG"; + parameter RSTBMUX = "SIG"; + parameter CLKAMUX = "SIG"; + parameter CLKBMUX = "SIG"; + parameter WEAMUX = "SIG"; + parameter WEBMUX = "SIG"; + parameter READBACK = "OFF"; + parameter INIT_FILE = ""; + parameter INIT_00 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_01 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_02 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_03 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_04 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_05 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_06 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_07 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_08 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_09 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_10 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_11 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_12 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_13 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_14 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_15 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_16 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_17 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_18 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_19 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_20 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_21 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_22 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_23 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_24 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_25 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_26 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_27 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_28 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_29 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_2A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_2B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_2C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_2D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_2E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_2F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_30 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_31 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_32 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_33 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_34 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_35 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_36 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_37 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_38 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_39 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_3A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_3B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_3C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_3D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_3E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_3F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_40 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_41 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_42 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_43 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_44 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_45 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_46 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_47 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_48 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_49 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_4A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_4B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_4C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_4D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_4E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_4F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_50 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_51 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_52 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_53 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_54 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_55 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_56 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_57 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_58 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_59 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_5A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_5B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_5C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_5D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_5E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_5F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_60 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_61 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_62 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_63 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_64 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_65 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_66 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_67 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_68 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_69 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_6A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_6B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_6C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_6D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_6E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_6F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_70 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_71 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_72 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_73 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_74 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_75 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_76 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_77 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_78 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_79 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_7A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_7B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_7C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_7D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_7E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_7F = 256'h0000000000000000000000000000000000000000000000000000000000000000; +endmodule + +(* blackbox *) +module EG_PHY_FIFO( + input [8:0] dia, + input [8:0] dib, + input [2:0] csr, + input [2:0] csw, + input we, + input re, + input clkw, + input clkr, + input rst, + input rprst, + input orea, + input oreb, + output [8:0] dob, + output [8:0] doa, + output empty_flag, + output aempty_flag, + output afull_flag, + output full_flag +); + parameter MODE = "FIFO8K"; + parameter DATA_WIDTH_A = "18"; + parameter DATA_WIDTH_B = "18"; + parameter READBACK = "OFF"; + parameter REGMODE_A = "NOREG"; + parameter REGMODE_B = "NOREG"; + parameter [13:0] AE = 14'b00000001100000; + parameter [13:0] AF = 14'b01111110010000; + parameter [13:0] F = 14'b01111111110000; + parameter [13:0] AEP1 = 14'b00000001110000; + parameter [13:0] AFM1 = 14'b01111110000000; + parameter [13:0] FM1 = 14'b01111111100000; + parameter [4:0] E = 5'b00000; + parameter [5:0] EP1 = 6'b010000; + parameter GSR = "ENABLE"; + parameter RESETMODE = "ASYNC"; + parameter ASYNC_RESET_RELEASE = "SYNC"; + parameter CEA = "SIG"; + parameter CEB = "SIG"; + parameter OCEA = "SIG"; + parameter OCEB = "SIG"; + parameter RSTA = "SIG"; + parameter RSTB = "SIG"; + parameter CLKA = "SIG"; + parameter CLKB = "SIG"; + parameter WEA = "SIG"; + parameter WEB = "SIG"; + parameter CSA0 = "SIG"; + parameter CSA1 = "SIG"; + parameter CSA2 = "SIG"; + parameter CSB0 = "SIG"; + parameter CSB1 = "SIG"; + parameter CSB2 = "SIG"; +endmodule + +(* blackbox *) +module EG_PHY_MULT18( + output [17:0] acout, + output [17:0] bcout, + output [35:0] p, + input signeda, + input signedb, + input [17:0] a, + input [17:0] b, + input [17:0] acin, + input [17:0] bcin, + input cea, + input ceb, + input cepd, + input clk, + input rstan, + input rstbn, + input rstpdn, + input sourcea, + input sourceb +); + parameter INPUTREGA = "ENABLE"; + parameter INPUTREGB = "ENABLE"; + parameter OUTPUTREG = "ENABLE"; + parameter SRMODE = "ASYNC"; + parameter MODE = "MULT18X18C"; + parameter CEAMUX = "SIG"; + parameter CEBMUX = "SIG"; + parameter CEPDMUX = "SIG"; + parameter RSTANMUX = "SIG"; + parameter RSTBNMUX = "SIG"; + parameter RSTPDNMUX = "SIG"; + parameter CLKMUX = "SIG"; + parameter SIGNEDAMUX = "SIG"; + parameter SIGNEDBMUX = "SIG"; + parameter SOURCEAMUX = "SIG"; + parameter SOURCEBMUX = "SIG"; +endmodule + +(* blackbox *) +module EG_PHY_GCLK( + input clki, + output clko +); +endmodule + +(* blackbox *) +module EG_PHY_IOCLK( + input clki, + input stop, + output clko +); + parameter STOPCLK = "DISABLE"; +endmodule + +(* blackbox *) +module EG_PHY_CLKDIV( + output clkdiv1, + output clkdivx, + input clki, + input rst, + input rls +); + parameter GSR = "DISABLE"; + parameter DIV = 2; +endmodule + +(* blackbox *) +module EG_PHY_CONFIG( + output jrstn, + output [1:0] jrti, + output jshift, + output jtck, + output jtdi, + output jupdate, + output [1:0] jscanen, + output jtms, + input [1:0] jtdo, + input [7:0] jtag8_ipa, + input [7:0] jtag8_ipb, + output done, + output highz, + output cclk, + input cclk_en, + input gsrn_sync_clk, + input usr_gsrn, + output dna_dout, + input dna_clk, + input dna_din, + input dna_shift_en, + input mboot_rebootn, + input [7:0] mboot_dynamic_addr +); + parameter MBOOT_AUTO_SEL = "DISABLE"; + parameter ADDR_SOURCE_SEL = "STATIC"; + parameter STATIC_ADDR = 8'b0; + parameter DONE_PERSISTN = "ENABLE"; + parameter INIT_PERSISTN = "ENABLE"; + parameter PROGRAMN_PERSISTN = "DISABLE"; + parameter JTAG_PERSISTN = "DISABLE"; + parameter GSRN_SYNC_SEL = "DISABLE"; + parameter FREQ = "2.5"; + parameter USR_GSRN_EN = "DISABLE"; +endmodule + +(* blackbox *) +module EG_PHY_OSC( + input osc_dis, + output osc_clk +); + parameter STDBY = "DISABLE"; +endmodule + +(* blackbox *) +module EG_PHY_PWRMNT( + output pwr_dwn_n, + input sel_pwr, + input pwr_mnt_pd +); + parameter MNT_LVL = 0; +endmodule + +(* blackbox *) +module EG_PHY_DDR_8M_16( + input clk, + input clk_n, + input ras_n, + input cas_n, + input we_n, + input cs_n, + input [11:0] addr, + input [1:0] ba, + inout [15:0] dq, + input ldqs, + input udqs, + input ldm, + input udm, + input cke +); +endmodule + +(* blackbox *) +module EG_PHY_SDRAM_2M_32( + input clk, + input ras_n, + input cas_n, + input we_n, + input [10:0] addr, + input [1:0] ba, + inout [31:0] dq, + input cs_n, + input dm0, + input dm1, + input dm2, + input dm3, + input cke +); +endmodule + +(* blackbox *) +module EG_PHY_PAD( + input ipad, + output opad, + inout bpad, + input rst, + input ce, + input isclk, + input ipclk, + input osclk, + input opclk, + input ts, + input [3:0] do, + output di, + output [3:0] diq +); + parameter DEDCLK = "DISABLE"; + parameter GSR = "ENABLE"; + parameter SRMODE = "SYNC"; + parameter TSMUX = "1"; + parameter INSCLKMUX = "0"; + parameter INPCLKMUX = "CLK"; + parameter INCEMUX = "CE"; + parameter INRSTMUX = "0"; + parameter IN_REGSET = "RESET"; + parameter IN_DFFMODE = "NONE"; + parameter IDDRMODE = "OFF"; + parameter IDDRPIPEMODE = "NONE"; + parameter INDELMUX = "NODEL"; + parameter INDEL = 0; + parameter OUTSCLKMUX = "0"; + parameter OUTPCLKMUX = "CLK"; + parameter OUTCEMUX = "CE"; + parameter OUTRSTMUX = "0"; + parameter DO_REGSET = "RESET"; + parameter DO_DFFMODE = "NONE"; + parameter ODDRMODE = "OFF"; + parameter OUTDELMUX = "NODEL"; + parameter OUTDEL = 0; + parameter TO_REGSET = "RESET"; + parameter TO_DFFMODE = "NONE"; + parameter MODE = "IN"; + parameter DRIVE = "NONE"; + parameter IOTYPE = "LVCMOS25"; +endmodule + +(* blackbox *) +module EG_PHY_MSLICE( + input [1:0] a, + input [1:0] b, + input [1:0] c, + input [1:0] d, + input [1:0] mi, + input clk, + input ce, + input sr, + input fci, + output [1:0] f, + output [1:0] fx, + output [1:0] q, + output fco, + input dpram_mode, + input [1:0] dpram_di, + input dpram_we, + input dpram_wclk, + input [3:0] dpram_waddr +); + parameter INIT_LUT0 = 16'h0000; + parameter INIT_LUT1 = 16'h0000; + parameter MODE = "LOGIC"; + parameter ALUTYPE = "ADD"; + parameter MSFXMUX = "OFF"; + parameter GSR = "ENABLE"; + parameter TESTMODE = "OFF"; + parameter CEMUX = "CE"; + parameter SRMUX = "SR"; + parameter CLKMUX = "CLK"; + parameter SRMODE = "ASYNC"; + parameter DFFMODE = "FF"; + parameter REG0_SD = "MI"; + parameter REG1_SD = "MI"; + parameter REG0_REGSET = "SET"; + parameter REG1_REGSET = "SET"; +endmodule + +(* blackbox *) +module EG_PHY_LSLICE( + input [1:0] a, + input [1:0] b, + input [1:0] c, + input [1:0] d, + input [1:0] e, + input [1:0] mi, + input clk, + input ce, + input sr, + input fci, + output [1:0] f, + output [1:0] fx, + output [1:0] q, + output fco, + output [3:0] dpram_di, + output [3:0] dpram_waddr, + output dpram_wclk, + output dpram_we, + output dpram_mode +); + parameter INIT_LUTF0 = 16'h0000; + parameter INIT_LUTG0 = 16'h0000; + parameter INIT_LUTF1 = 16'h0000; + parameter INIT_LUTG1 = 16'h0000; + parameter MODE = "LOGIC"; + parameter GSR = "ENABLE"; + parameter TESTMODE = "OFF"; + parameter CEMUX = "1"; + parameter SRMUX = "SR"; + parameter CLKMUX = "CLK"; + parameter SRMODE = "ASYNC"; + parameter DFFMODE = "FF"; + parameter REG0_SD = "MI"; + parameter REG1_SD = "MI"; + parameter REG0_REGSET = "SET"; + parameter REG1_REGSET = "SET"; + parameter DEMUX0 = "D"; + parameter DEMUX1 = "D"; + parameter CMIMUX0 = "C"; + parameter CMIMUX1 = "C"; + parameter LSFMUX0 = "LUTF"; + parameter LSFXMUX0 = "LUTG"; + parameter LSFMUX1 = "LUTF"; + parameter LSFXMUX1 = "LUTG"; +endmodule + +(* blackbox *) +module EG_PHY_PLL( + output [4:0] clkc, + output extlock, + input stdby, + input refclk, + input fbclk, + input reset, + output psdone, + input psclk, + input psdown, + input psstep, + input [2:0] psclksel, + output [7:0] do, + input dclk, + input dcs, + input dwe, + input [7:0] di, + input [5:0] daddr +); + parameter DYNCFG = "DISABLE"; + parameter IF_ESCLKSTSW = "DISABLE"; + parameter REFCLK_SEL = "INTERNAL"; + parameter FIN = "100.0000"; + parameter REFCLK_DIV = 1; + parameter FBCLK_DIV = 1; + parameter CLKC0_DIV = 1; + parameter CLKC1_DIV = 1; + parameter CLKC2_DIV = 1; + parameter CLKC3_DIV = 1; + parameter CLKC4_DIV = 1; + parameter CLKC0_ENABLE = "DISABLE"; + parameter CLKC1_ENABLE = "DISABLE"; + parameter CLKC2_ENABLE = "DISABLE"; + parameter CLKC3_ENABLE = "DISABLE"; + parameter CLKC4_ENABLE = "DISABLE"; + parameter CLKC0_DIV2_ENABLE = "DISABLE"; + parameter CLKC1_DIV2_ENABLE = "DISABLE"; + parameter CLKC2_DIV2_ENABLE = "DISABLE"; + parameter CLKC3_DIV2_ENABLE = "DISABLE"; + parameter CLKC4_DIV2_ENABLE = "DISABLE"; + parameter FEEDBK_MODE = "NORMAL"; + parameter FEEDBK_PATH = "VCO_PHASE_0"; + parameter STDBY_ENABLE = "ENABLE"; + parameter CLKC0_FPHASE = 0; + parameter CLKC1_FPHASE = 0; + parameter CLKC2_FPHASE = 0; + parameter CLKC3_FPHASE = 0; + parameter CLKC4_FPHASE = 0; + parameter CLKC0_CPHASE = 1; + parameter CLKC1_CPHASE = 1; + parameter CLKC2_CPHASE = 1; + parameter CLKC3_CPHASE = 1; + parameter CLKC4_CPHASE = 1; + parameter GMC_GAIN = 7; + parameter GMC_TEST = 14; + parameter ICP_CURRENT = 14; + parameter KVCO = 7; + parameter LPF_CAPACITOR = 3; + parameter LPF_RESISTOR = 1; + parameter PLLRST_ENA = "ENABLE"; + parameter PLLMRST_ENA = "DISABLE"; + parameter PLLC2RST_ENA = "DISABLE"; + parameter PLLC34RST_ENA = "DISABLE"; + parameter PREDIV_MUXC0 = "VCO"; + parameter PREDIV_MUXC1 = "VCO"; + parameter PREDIV_MUXC2 = "VCO"; + parameter PREDIV_MUXC3 = "VCO"; + parameter PREDIV_MUXC4 = "VCO"; + parameter ODIV_MUXC0 = "DIV"; + parameter ODIV_MUXC1 = "DIV"; + parameter ODIV_MUXC2 = "DIV"; + parameter ODIV_MUXC3 = "DIV"; + parameter ODIV_MUXC4 = "DIV"; + parameter FREQ_LOCK_ACCURACY = 2; + parameter PLL_LOCK_MODE = 0; + parameter INTFB_WAKE = "DISABLE"; + parameter DPHASE_SOURCE = "DISABLE"; + parameter VCO_NORESET = "DISABLE"; + parameter STDBY_VCO_ENA = "DISABLE"; + parameter NORESET = "DISABLE"; + parameter SYNC_ENABLE = "ENABLE"; + parameter DERIVE_PLL_CLOCKS = "DISABLE"; + parameter GEN_BASIC_CLOCK = "DISABLE"; +endmodule + +(* blackbox *) +module EG_LOGIC_BRAM( + output [DATA_WIDTH_A-1:0] doa, + output [DATA_WIDTH_B-1:0] dob, + input [DATA_WIDTH_A-1:0] dia, + input [DATA_WIDTH_B-1:0] dib, + input cea, + input ocea, + input clka, + input wea, + input rsta, + input ceb, + input oceb, + input clkb, + input web, + input rstb, + input [BYTE_A - 1 : 0] bea, + input [BYTE_B - 1 : 0] beb, + input [ADDR_WIDTH_A-1:0] addra, + input [ADDR_WIDTH_B-1:0] addrb +); + parameter DATA_WIDTH_A = 9; + parameter DATA_WIDTH_B = DATA_WIDTH_A; + parameter ADDR_WIDTH_A = 10; + parameter ADDR_WIDTH_B = ADDR_WIDTH_A; + parameter DATA_DEPTH_A = 2 ** ADDR_WIDTH_A; + parameter DATA_DEPTH_B = 2 ** ADDR_WIDTH_B; + parameter BYTE_ENABLE = 0; + parameter BYTE_A = BYTE_ENABLE == 0 ? 1 : DATA_WIDTH_A / BYTE_ENABLE; + parameter BYTE_B = BYTE_ENABLE == 0 ? 1 : DATA_WIDTH_B / BYTE_ENABLE; + parameter MODE = "DP"; + parameter REGMODE_A = "NOREG"; + parameter REGMODE_B = "NOREG"; + parameter WRITEMODE_A = "NORMAL"; + parameter WRITEMODE_B = "NORMAL"; + parameter RESETMODE = "SYNC"; + parameter DEBUGGABLE = "NO"; + parameter PACKABLE = "NO"; + parameter FORCE_KEEP = "OFF"; + parameter INIT_FILE = "NONE"; + parameter FILL_ALL = "NONE"; + parameter IMPLEMENT = "9K"; +endmodule + +(* blackbox *) +module EG_PHY_ADC( + input clk, + input pd, + input [2:0] s, + input soc, + output eoc, + output [11:0] dout +); + parameter CH0 = "DISABLE"; + parameter CH1 = "DISABLE"; + parameter CH2 = "DISABLE"; + parameter CH3 = "DISABLE"; + parameter CH4 = "DISABLE"; + parameter CH5 = "DISABLE"; + parameter CH6 = "DISABLE"; + parameter CH7 = "DISABLE"; + parameter VREF = "DISABLE"; +endmodule diff --git a/techlibs/anlogic/synth_anlogic.cc b/techlibs/anlogic/synth_anlogic.cc new file mode 100644 index 000000000..b87fc8566 --- /dev/null +++ b/techlibs/anlogic/synth_anlogic.cc @@ -0,0 +1,218 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2018 Miodrag Milanovic <miodrag@symbioticeda.com> + * Copyright (C) 2018 Clifford Wolf <clifford@clifford.at> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +#include "kernel/register.h" +#include "kernel/celltypes.h" +#include "kernel/rtlil.h" +#include "kernel/log.h" + +USING_YOSYS_NAMESPACE +PRIVATE_NAMESPACE_BEGIN + +struct SynthAnlogicPass : public ScriptPass +{ + SynthAnlogicPass() : ScriptPass("synth_anlogic", "synthesis for Anlogic FPGAs") { } + + void help() YS_OVERRIDE + { + // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| + log("\n"); + log(" synth_anlogic [options]\n"); + log("\n"); + log("This command runs synthesis for Anlogic FPGAs.\n"); + log("\n"); + log(" -top <module>\n"); + log(" use the specified module as top module\n"); + log("\n"); + log(" -edif <file>\n"); + log(" write the design to the specified EDIF file. writing of an output file\n"); + log(" is omitted if this parameter is not specified.\n"); + log("\n"); + log(" -json <file>\n"); + log(" write the design to the specified JSON file. writing of an output file\n"); + log(" is omitted if this parameter is not specified.\n"); + log("\n"); + log(" -run <from_label>:<to_label>\n"); + log(" only run the commands between the labels (see below). an empty\n"); + log(" from label is synonymous to 'begin', and empty to label is\n"); + log(" synonymous to the end of the command list.\n"); + log("\n"); + log(" -noflatten\n"); + log(" do not flatten design before synthesis\n"); + log("\n"); + log(" -retime\n"); + log(" run 'abc' with -dff option\n"); + log("\n"); + log("\n"); + log("The following commands are executed by this synthesis command:\n"); + help_script(); + log("\n"); + } + + string top_opt, edif_file, json_file; + bool flatten, retime; + + void clear_flags() YS_OVERRIDE + { + top_opt = "-auto-top"; + edif_file = ""; + json_file = ""; + flatten = true; + retime = false; + } + + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + { + string run_from, run_to; + clear_flags(); + + size_t argidx; + for (argidx = 1; argidx < args.size(); argidx++) + { + if (args[argidx] == "-top" && argidx+1 < args.size()) { + top_opt = "-top " + args[++argidx]; + continue; + } + if (args[argidx] == "-edif" && argidx+1 < args.size()) { + edif_file = args[++argidx]; + continue; + } + if (args[argidx] == "-json" && argidx+1 < args.size()) { + json_file = args[++argidx]; + continue; + } + if (args[argidx] == "-run" && argidx+1 < args.size()) { + size_t pos = args[argidx+1].find(':'); + if (pos == std::string::npos) + break; + run_from = args[++argidx].substr(0, pos); + run_to = args[argidx].substr(pos+1); + continue; + } + if (args[argidx] == "-noflatten") { + flatten = false; + continue; + } + if (args[argidx] == "-retime") { + retime = true; + continue; + } + break; + } + extra_args(args, argidx, design); + + if (!design->full_selection()) + log_cmd_error("This command only operates on fully selected designs!\n"); + + log_header(design, "Executing SYNTH_ANLOGIC pass.\n"); + log_push(); + + run_script(design, run_from, run_to); + + log_pop(); + } + + void script() YS_OVERRIDE + { + if (check_label("begin")) + { + run("read_verilog -lib +/anlogic/cells_sim.v +/anlogic/eagle_bb.v"); + run(stringf("hierarchy -check %s", help_mode ? "-top <top>" : top_opt.c_str())); + } + + if (flatten && check_label("flatten", "(unless -noflatten)")) + { + run("proc"); + run("flatten"); + run("tribuf -logic"); + run("deminout"); + } + + if (check_label("coarse")) + { + run("synth -run coarse"); + } + + if (check_label("dram")) + { + run("memory_bram -rules +/anlogic/drams.txt"); + run("techmap -map +/anlogic/drams_map.v"); + run("setundef -zero -params t:EG_LOGIC_DRAM16X4"); + } + + if (check_label("fine")) + { + run("opt -fast -mux_undef -undriven -fine"); + run("memory_map"); + run("opt -undriven -fine"); + run("techmap -map +/techmap.v -map +/anlogic/arith_map.v"); + if (retime || help_mode) + run("abc -dff", "(only if -retime)"); + } + + if (check_label("map_ffs")) + { + run("dffsr2dff"); + run("techmap -D NO_LUT -map +/anlogic/cells_map.v"); + run("dffinit -strinit SET RESET -ff AL_MAP_SEQ q REGSET -noreinit"); + run("opt_expr -mux_undef"); + run("simplemap"); + } + + if (check_label("map_luts")) + { + run("abc -lut 4:6"); + run("clean"); + } + + if (check_label("map_cells")) + { + run("techmap -map +/anlogic/cells_map.v"); + run("clean"); + } + + if (check_label("map_anlogic")) + { + run("anlogic_fixcarry"); + run("anlogic_eqn"); + } + + if (check_label("check")) + { + run("hierarchy -check"); + run("stat"); + run("check -noinit"); + } + + if (check_label("edif")) + { + if (!edif_file.empty() || help_mode) + run(stringf("write_edif %s", help_mode ? "<file-name>" : edif_file.c_str())); + } + + if (check_label("json")) + { + if (!json_file.empty() || help_mode) + run(stringf("write_json %s", help_mode ? "<file-name>" : json_file.c_str())); + } + } +} SynthAnlogicPass; + +PRIVATE_NAMESPACE_END diff --git a/techlibs/common/Makefile.inc b/techlibs/common/Makefile.inc index ab961ac0b..de94798af 100644 --- a/techlibs/common/Makefile.inc +++ b/techlibs/common/Makefile.inc @@ -25,5 +25,7 @@ $(eval $(call add_share_file,share,techlibs/common/techmap.v)) $(eval $(call add_share_file,share,techlibs/common/pmux2mux.v)) $(eval $(call add_share_file,share,techlibs/common/adff2dff.v)) $(eval $(call add_share_file,share,techlibs/common/dff2ff.v)) +$(eval $(call add_share_file,share,techlibs/common/gate2lut.v)) +$(eval $(call add_share_file,share,techlibs/common/cmp2lut.v)) $(eval $(call add_share_file,share,techlibs/common/cells.lib)) - +$(eval $(call add_share_file,share,techlibs/common/dummy.box)) diff --git a/techlibs/common/cmp2lut.v b/techlibs/common/cmp2lut.v new file mode 100644 index 000000000..0d0757767 --- /dev/null +++ b/techlibs/common/cmp2lut.v @@ -0,0 +1,105 @@ +// Certain arithmetic operations between a signal of width n and a constant can be directly mapped +// to a single k-LUT (where n <= k). This is preferable to normal alumacc techmapping process +// because for many targets, arithmetic techmapping creates hard logic (such as carry cells) which often +// cannot be optimized further. +// +// TODO: Currently, only comparisons with 1-bit output are mapped. Potentially, all arithmetic cells +// with n <= k inputs should be techmapped in this way, because this shortens the critical path +// from n to 1 by avoiding carry chains. + +(* techmap_celltype = "$eq $ne $lt $le $gt $ge" *) +module _90_lut_cmp_ (A, B, Y); + +parameter A_SIGNED = 0; +parameter B_SIGNED = 0; +parameter A_WIDTH = 0; +parameter B_WIDTH = 0; +parameter Y_WIDTH = 0; + +input [A_WIDTH-1:0] A; +input [B_WIDTH-1:0] B; +output [Y_WIDTH-1:0] Y; + +parameter _TECHMAP_CELLTYPE_ = ""; + +parameter _TECHMAP_CONSTMSK_A_ = 0; +parameter _TECHMAP_CONSTVAL_A_ = 0; +parameter _TECHMAP_CONSTMSK_B_ = 0; +parameter _TECHMAP_CONSTVAL_B_ = 0; + +function automatic [(1 << `LUT_WIDTH)-1:0] gen_lut; + input integer width; + input integer operation; + input integer swap; + input integer sign; + input integer operand; + integer n, i_var, i_cst, lhs, rhs, o_bit; + begin + gen_lut = width'b0; + for (n = 0; n < (1 << width); n++) begin + if (sign) + i_var = n[width-1:0]; + else + i_var = n; + i_cst = operand; + if (swap) begin + lhs = i_cst; + rhs = i_var; + end else begin + lhs = i_var; + rhs = i_cst; + end + if (operation == 0) + o_bit = (lhs < rhs); + if (operation == 1) + o_bit = (lhs <= rhs); + if (operation == 2) + o_bit = (lhs > rhs); + if (operation == 3) + o_bit = (lhs >= rhs); + if (operation == 4) + o_bit = (lhs == rhs); + if (operation == 5) + o_bit = (lhs != rhs); + gen_lut = gen_lut | (o_bit << n); + end + end +endfunction + +generate + if (_TECHMAP_CELLTYPE_ == "$lt") + localparam operation = 0; + if (_TECHMAP_CELLTYPE_ == "$le") + localparam operation = 1; + if (_TECHMAP_CELLTYPE_ == "$gt") + localparam operation = 2; + if (_TECHMAP_CELLTYPE_ == "$ge") + localparam operation = 3; + if (_TECHMAP_CELLTYPE_ == "$eq") + localparam operation = 4; + if (_TECHMAP_CELLTYPE_ == "$ne") + localparam operation = 5; + + if (A_WIDTH > `LUT_WIDTH || B_WIDTH > `LUT_WIDTH || Y_WIDTH != 1) + wire _TECHMAP_FAIL_ = 1; + else if (&_TECHMAP_CONSTMSK_B_) + \$lut #( + .WIDTH(A_WIDTH), + .LUT({ gen_lut(A_WIDTH, operation, 0, A_SIGNED && B_SIGNED, _TECHMAP_CONSTVAL_B_) }) + ) _TECHMAP_REPLACE_ ( + .A(A), + .Y(Y) + ); + else if (&_TECHMAP_CONSTMSK_A_) + \$lut #( + .WIDTH(B_WIDTH), + .LUT({ gen_lut(B_WIDTH, operation, 1, A_SIGNED && B_SIGNED, _TECHMAP_CONSTVAL_A_) }) + ) _TECHMAP_REPLACE_ ( + .A(B), + .Y(Y) + ); + else + wire _TECHMAP_FAIL_ = 1; +endgenerate + +endmodule diff --git a/techlibs/common/dummy.box b/techlibs/common/dummy.box new file mode 100644 index 000000000..0c18070a0 --- /dev/null +++ b/techlibs/common/dummy.box @@ -0,0 +1 @@ +(dummy) 1 0 0 0 diff --git a/techlibs/common/gate2lut.v b/techlibs/common/gate2lut.v new file mode 100644 index 000000000..99c123f4a --- /dev/null +++ b/techlibs/common/gate2lut.v @@ -0,0 +1,87 @@ +(* techmap_celltype = "$_NOT_" *) +module _90_lut_not (A, Y); + input A; + output Y; + + wire [`LUT_WIDTH-1:0] AA; + assign AA = {A}; + + \$lut #( + .WIDTH(`LUT_WIDTH), + .LUT(4'b01) + ) lut ( + .A(AA), + .Y(Y) + ); +endmodule + +(* techmap_celltype = "$_OR_" *) +module _90_lut_or (A, B, Y); + input A, B; + output Y; + + wire [`LUT_WIDTH-1:0] AA; + assign AA = {B, A}; + + \$lut #( + .WIDTH(`LUT_WIDTH), + .LUT(4'b1110) + ) lut ( + .A(AA), + .Y(Y) + ); +endmodule + +(* techmap_celltype = "$_AND_" *) +module _90_lut_and (A, B, Y); + input A, B; + output Y; + + wire [`LUT_WIDTH-1:0] AA; + assign AA = {B, A}; + + \$lut #( + .WIDTH(`LUT_WIDTH), + .LUT(4'b1000) + ) lut ( + .A(AA), + .Y(Y) + ); +endmodule + +(* techmap_celltype = "$_XOR_" *) +module _90_lut_xor (A, B, Y); + input A, B; + output Y; + + wire [`LUT_WIDTH-1:0] AA; + assign AA = {B, A}; + + \$lut #( + .WIDTH(`LUT_WIDTH), + .LUT(4'b0110) + ) lut ( + .A(AA), + .Y(Y) + ); +endmodule + +(* techmap_celltype = "$_MUX_" *) +module _90_lut_mux (A, B, S, Y); + input A, B, S; + output Y; + + wire [`LUT_WIDTH-1:0] AA; + assign AA = {S, B, A}; + + \$lut #( + .WIDTH(`LUT_WIDTH), + // A 1010 1010 + // B 1100 1100 + // S 1111 0000 + .LUT(8'b_1100_1010) + ) lut ( + .A(AA), + .Y(Y) + ); +endmodule diff --git a/techlibs/common/prep.cc b/techlibs/common/prep.cc index cc977f97e..cdd21c3b3 100644 --- a/techlibs/common/prep.cc +++ b/techlibs/common/prep.cc @@ -29,7 +29,7 @@ struct PrepPass : public ScriptPass { PrepPass() : ScriptPass("prep", "generic synthesis script") { } - virtual void help() YS_OVERRIDE + void help() YS_OVERRIDE { // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| log("\n"); @@ -81,7 +81,7 @@ struct PrepPass : public ScriptPass string top_module, fsm_opts; bool autotop, flatten, ifxmode, memxmode, nomemmode, nokeepdc, nordff; - virtual void clear_flags() YS_OVERRIDE + void clear_flags() YS_OVERRIDE { top_module.clear(); @@ -94,7 +94,7 @@ struct PrepPass : public ScriptPass nordff = true; } - virtual void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE { string run_from, run_to; @@ -153,7 +153,7 @@ struct PrepPass : public ScriptPass extra_args(args, argidx, design); if (!design->full_selection()) - log_cmd_error("This comannd only operates on fully selected designs!\n"); + log_cmd_error("This command only operates on fully selected designs!\n"); log_header(design, "Executing PREP pass.\n"); log_push(); @@ -163,7 +163,7 @@ struct PrepPass : public ScriptPass log_pop(); } - virtual void script() YS_OVERRIDE + void script() YS_OVERRIDE { if (check_label("begin")) @@ -195,9 +195,11 @@ struct PrepPass : public ScriptPass run(nokeepdc ? "opt" : "opt -keepdc"); if (!ifxmode) { if (help_mode) - run("wreduce [-memx]"); - else + run("wreduce -keepdc [-memx]"); + else if (nokeepdc) run(memxmode ? "wreduce -memx" : "wreduce"); + else + run(memxmode ? "wreduce -keepdc -memx" : "wreduce -keepdc"); } if (!nomemmode) { run(string("memory_dff") + (help_mode ? " [-nordff]" : nordff ? " -nordff" : "")); diff --git a/techlibs/common/simcells.v b/techlibs/common/simcells.v index 937512e7c..64720e598 100644 --- a/techlibs/common/simcells.v +++ b/techlibs/common/simcells.v @@ -230,6 +230,25 @@ endmodule // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| //- +//- $_NMUX_ (A, B, S, Y) +//- +//- A 2-input inverting MUX gate. +//- +//- Truth table: A B S | Y +//- -------+--- +//- 0 - 0 | 1 +//- 1 - 0 | 0 +//- - 0 1 | 1 +//- - 1 1 | 0 +//- +module \$_NMUX_ (A, B, S, Y); +input A, B, S; +output Y; +assign Y = S ? !B : !A; +endmodule + +// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| +//- //- $_MUX4_ (A, B, C, D, S, T, Y) //- //- A 4-input MUX gate. @@ -465,7 +484,7 @@ endmodule //- //- $_SR_NP_ (S, R, Q) //- -//- A set-reset latch with negative polarity SET and positive polarioty RESET. +//- A set-reset latch with negative polarity SET and positive polarity RESET. //- //- Truth table: S R | Q //- -----+--- @@ -489,7 +508,7 @@ endmodule //- //- $_SR_PN_ (S, R, Q) //- -//- A set-reset latch with positive polarity SET and negative polarioty RESET. +//- A set-reset latch with positive polarity SET and negative polarity RESET. //- //- Truth table: S R | Q //- -----+--- diff --git a/techlibs/common/simlib.v b/techlibs/common/simlib.v index 8e43fe058..7845a3fed 100644 --- a/techlibs/common/simlib.v +++ b/techlibs/common/simlib.v @@ -532,14 +532,26 @@ endmodule // -------------------------------------------------------- +// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| +//- +//- $lcu (P, G, CI, CO) +//- +//- Lookahead carry unit +//- A building block dedicated to fast computation of carry-bits used in binary +//- arithmetic operations. By replacing the ripple carry structure used in full-adder +//- blocks, the more significant bits of the sum can be expected to be computed more +//- quickly. +//- Typically created during `techmap` of $alu cells (see the "_90_alu" rule in +//- +/techmap.v). module \$lcu (P, G, CI, CO); parameter WIDTH = 1; -input [WIDTH-1:0] P, G; -input CI; +input [WIDTH-1:0] P; // Propagate +input [WIDTH-1:0] G; // Generate +input CI; // Carry-in -output reg [WIDTH-1:0] CO; +output reg [WIDTH-1:0] CO; // Carry-out integer i; always @* begin @@ -555,6 +567,17 @@ endmodule // -------------------------------------------------------- +// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| +//- +//- $alu (A, B, CI, BI, X, Y, CO) +//- +//- Arithmetic logic unit. +//- A building block supporting both binary addition/subtraction operations, and +//- indirectly, comparison operations. +//- Typically created by the `alumacc` pass, which transforms: +//- $add, $sub, $lt, $le, $ge, $gt, $eq, $eqx, $ne, $nex +//- cells into this $alu cell. +//- module \$alu (A, B, CI, BI, X, Y, CO); parameter A_SIGNED = 0; @@ -563,12 +586,16 @@ parameter A_WIDTH = 1; parameter B_WIDTH = 1; parameter Y_WIDTH = 1; -input [A_WIDTH-1:0] A; -input [B_WIDTH-1:0] B; -output [Y_WIDTH-1:0] X, Y; +input [A_WIDTH-1:0] A; // Input operand +input [B_WIDTH-1:0] B; // Input operand +output [Y_WIDTH-1:0] X; // A xor B (sign-extended, optional B inversion, + // used in combination with + // reduction-AND for $eq/$ne ops) +output [Y_WIDTH-1:0] Y; // Sum -input CI, BI; -output [Y_WIDTH-1:0] CO; +input CI; // Carry-in (set for $sub) +input BI; // Invert-B (set for $sub) +output [Y_WIDTH-1:0] CO; // Carry-out wire [Y_WIDTH-1:0] AA, BB; @@ -584,6 +611,7 @@ endgenerate wire y_co_undef = ^{A, A, B, B, CI, CI, BI, BI}; assign X = AA ^ BB; +// Full adder assign Y = (AA + BB + CI) ^ {Y_WIDTH{y_co_undef}}; function get_carry; @@ -1271,6 +1299,181 @@ endmodule // -------------------------------------------------------- +module \$specify2 (EN, SRC, DST); + +parameter FULL = 0; +parameter SRC_WIDTH = 1; +parameter DST_WIDTH = 1; + +parameter SRC_DST_PEN = 0; +parameter SRC_DST_POL = 0; + +parameter T_RISE_MIN = 0; +parameter T_RISE_TYP = 0; +parameter T_RISE_MAX = 0; + +parameter T_FALL_MIN = 0; +parameter T_FALL_TYP = 0; +parameter T_FALL_MAX = 0; + +input EN; +input [SRC_WIDTH-1:0] SRC; +input [DST_WIDTH-1:0] DST; + +localparam SD = SRC_DST_PEN ? (SRC_DST_POL ? 1 : 2) : 0; + +`ifdef SIMLIB_SPECIFY +specify + if (EN && SD==0 && !FULL) (SRC => DST) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && SD==0 && FULL) (SRC *> DST) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && SD==1 && !FULL) (SRC +=> DST) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && SD==1 && FULL) (SRC +*> DST) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && SD==2 && !FULL) (SRC -=> DST) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && SD==2 && FULL) (SRC -*> DST) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); +endspecify +`endif + +endmodule + +// -------------------------------------------------------- + +module \$specify3 (EN, SRC, DST, DAT); + +parameter FULL = 0; +parameter SRC_WIDTH = 1; +parameter DST_WIDTH = 1; + +parameter EDGE_EN = 0; +parameter EDGE_POL = 0; + +parameter SRC_DST_PEN = 0; +parameter SRC_DST_POL = 0; + +parameter DAT_DST_PEN = 0; +parameter DAT_DST_POL = 0; + +parameter T_RISE_MIN = 0; +parameter T_RISE_TYP = 0; +parameter T_RISE_MAX = 0; + +parameter T_FALL_MIN = 0; +parameter T_FALL_TYP = 0; +parameter T_FALL_MAX = 0; + +input EN; +input [SRC_WIDTH-1:0] SRC; +input [DST_WIDTH-1:0] DST, DAT; + +localparam ED = EDGE_EN ? (EDGE_POL ? 1 : 2) : 0; +localparam SD = SRC_DST_PEN ? (SRC_DST_POL ? 1 : 2) : 0; +localparam DD = DAT_DST_PEN ? (DAT_DST_POL ? 1 : 2) : 0; + +`ifdef SIMLIB_SPECIFY +specify + // DD=0 + + if (EN && DD==0 && SD==0 && ED==0 && !FULL) ( SRC => (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==0 && SD==0 && ED==0 && FULL) ( SRC *> (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==0 && SD==0 && ED==1 && !FULL) (posedge SRC => (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==0 && SD==0 && ED==1 && FULL) (posedge SRC *> (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==0 && SD==0 && ED==2 && !FULL) (negedge SRC => (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==0 && SD==0 && ED==2 && FULL) (negedge SRC *> (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + + if (EN && DD==0 && SD==1 && ED==0 && !FULL) ( SRC +=> (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==0 && SD==1 && ED==0 && FULL) ( SRC +*> (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==0 && SD==1 && ED==1 && !FULL) (posedge SRC +=> (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==0 && SD==1 && ED==1 && FULL) (posedge SRC +*> (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==0 && SD==1 && ED==2 && !FULL) (negedge SRC +=> (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==0 && SD==1 && ED==2 && FULL) (negedge SRC +*> (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + + if (EN && DD==0 && SD==2 && ED==0 && !FULL) ( SRC -=> (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==0 && SD==2 && ED==0 && FULL) ( SRC -*> (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==0 && SD==2 && ED==1 && !FULL) (posedge SRC -=> (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==0 && SD==2 && ED==1 && FULL) (posedge SRC -*> (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==0 && SD==2 && ED==2 && !FULL) (negedge SRC -=> (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==0 && SD==2 && ED==2 && FULL) (negedge SRC -*> (DST : DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + + // DD=1 + + if (EN && DD==1 && SD==0 && ED==0 && !FULL) ( SRC => (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==1 && SD==0 && ED==0 && FULL) ( SRC *> (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==1 && SD==0 && ED==1 && !FULL) (posedge SRC => (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==1 && SD==0 && ED==1 && FULL) (posedge SRC *> (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==1 && SD==0 && ED==2 && !FULL) (negedge SRC => (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==1 && SD==0 && ED==2 && FULL) (negedge SRC *> (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + + if (EN && DD==1 && SD==1 && ED==0 && !FULL) ( SRC +=> (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==1 && SD==1 && ED==0 && FULL) ( SRC +*> (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==1 && SD==1 && ED==1 && !FULL) (posedge SRC +=> (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==1 && SD==1 && ED==1 && FULL) (posedge SRC +*> (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==1 && SD==1 && ED==2 && !FULL) (negedge SRC +=> (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==1 && SD==1 && ED==2 && FULL) (negedge SRC +*> (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + + if (EN && DD==1 && SD==2 && ED==0 && !FULL) ( SRC -=> (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==1 && SD==2 && ED==0 && FULL) ( SRC -*> (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==1 && SD==2 && ED==1 && !FULL) (posedge SRC -=> (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==1 && SD==2 && ED==1 && FULL) (posedge SRC -*> (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==1 && SD==2 && ED==2 && !FULL) (negedge SRC -=> (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==1 && SD==2 && ED==2 && FULL) (negedge SRC -*> (DST +: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + + // DD=2 + + if (EN && DD==2 && SD==0 && ED==0 && !FULL) ( SRC => (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==2 && SD==0 && ED==0 && FULL) ( SRC *> (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==2 && SD==0 && ED==1 && !FULL) (posedge SRC => (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==2 && SD==0 && ED==1 && FULL) (posedge SRC *> (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==2 && SD==0 && ED==2 && !FULL) (negedge SRC => (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==2 && SD==0 && ED==2 && FULL) (negedge SRC *> (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + + if (EN && DD==2 && SD==1 && ED==0 && !FULL) ( SRC +=> (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==2 && SD==1 && ED==0 && FULL) ( SRC +*> (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==2 && SD==1 && ED==1 && !FULL) (posedge SRC +=> (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==2 && SD==1 && ED==1 && FULL) (posedge SRC +*> (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==2 && SD==1 && ED==2 && !FULL) (negedge SRC +=> (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==2 && SD==1 && ED==2 && FULL) (negedge SRC +*> (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + + if (EN && DD==2 && SD==2 && ED==0 && !FULL) ( SRC -=> (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==2 && SD==2 && ED==0 && FULL) ( SRC -*> (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==2 && SD==2 && ED==1 && !FULL) (posedge SRC -=> (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==2 && SD==2 && ED==1 && FULL) (posedge SRC -*> (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==2 && SD==2 && ED==2 && !FULL) (negedge SRC -=> (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); + if (EN && DD==2 && SD==2 && ED==2 && FULL) (negedge SRC -*> (DST -: DAT)) = (T_RISE_MIN:T_RISE_TYP:T_RISE_MAX, T_FALL_MIN:T_FALL_TYP:T_FALL_MAX); +endspecify +`endif + +endmodule + +// -------------------------------------------------------- + +module \$specrule (EN_SRC, EN_DST, SRC, DST); + +parameter TYPE = ""; +parameter T_LIMIT = 0; +parameter T_LIMIT2 = 0; + +parameter SRC_WIDTH = 1; +parameter DST_WIDTH = 1; + +parameter SRC_PEN = 0; +parameter SRC_POL = 0; + +parameter DST_PEN = 0; +parameter DST_POL = 0; + +input EN_SRC, EN_DST; +input [SRC_WIDTH-1:0] SRC; +input [DST_WIDTH-1:0] DST; + +`ifdef SIMLIB_SPECIFY +specify + // TBD +endspecify +`endif + +endmodule + +// -------------------------------------------------------- + module \$assert (A, EN); input A, EN; @@ -1863,4 +2066,5 @@ end endmodule `endif + // -------------------------------------------------------- diff --git a/techlibs/common/synth.cc b/techlibs/common/synth.cc index 4ca34839e..a176357a7 100644 --- a/techlibs/common/synth.cc +++ b/techlibs/common/synth.cc @@ -29,7 +29,7 @@ struct SynthPass : public ScriptPass { SynthPass() : ScriptPass("synth", "generic synthesis script") { } - virtual void help() YS_OVERRIDE + void help() YS_OVERRIDE { // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| log("\n"); @@ -51,6 +51,9 @@ struct SynthPass : public ScriptPass log(" -encfile <file>\n"); log(" passed to 'fsm_recode' via 'fsm'\n"); log("\n"); + log(" -lut <k>\n"); + log(" perform synthesis for a k-LUT architecture.\n"); + log("\n"); log(" -nofsm\n"); log(" do not run FSM optimization\n"); log("\n"); @@ -72,16 +75,20 @@ struct SynthPass : public ScriptPass log(" from label is synonymous to 'begin', and empty to label is\n"); log(" synonymous to the end of the command list.\n"); log("\n"); + log(" -abc9\n"); + log(" use new ABC9 flow (EXPERIMENTAL)\n"); + log("\n"); log("\n"); log("The following commands are executed by this synthesis command:\n"); help_script(); log("\n"); } - string top_module, fsm_opts, memory_opts; + string top_module, fsm_opts, memory_opts, abc; bool autotop, flatten, noalumacc, nofsm, noabc, noshare; + int lut; - virtual void clear_flags() YS_OVERRIDE + void clear_flags() YS_OVERRIDE { top_module.clear(); fsm_opts.clear(); @@ -89,13 +96,15 @@ struct SynthPass : public ScriptPass autotop = false; flatten = false; + lut = 0; noalumacc = false; nofsm = false; noabc = false; noshare = false; + abc = "abc"; } - virtual void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE { string run_from, run_to; clear_flags(); @@ -130,6 +139,10 @@ struct SynthPass : public ScriptPass flatten = true; continue; } + if (args[argidx] == "-lut") { + lut = atoi(args[++argidx].c_str()); + continue; + } if (args[argidx] == "-nofsm") { nofsm = true; continue; @@ -150,12 +163,19 @@ struct SynthPass : public ScriptPass noshare = true; continue; } + if (args[argidx] == "-abc9") { + abc = "abc9"; + continue; + } break; } extra_args(args, argidx, design); if (!design->full_selection()) - log_cmd_error("This comannd only operates on fully selected designs!\n"); + log_cmd_error("This command only operates on fully selected designs!\n"); + + if (abc == "abc9" && !lut) + log_cmd_error("ABC9 flow only supported for FPGA synthesis (using '-lut' option)\n"); log_header(design, "Executing SYNTH pass.\n"); log_push(); @@ -165,7 +185,7 @@ struct SynthPass : public ScriptPass log_pop(); } - virtual void script() YS_OVERRIDE + void script() YS_OVERRIDE { if (check_label("begin")) { @@ -186,19 +206,25 @@ struct SynthPass : public ScriptPass { run("proc"); if (help_mode || flatten) - run("flatten", "(if -flatten)"); + run("flatten", " (if -flatten)"); run("opt_expr"); run("opt_clean"); run("check"); run("opt"); run("wreduce"); + run("peepopt"); + run("opt_clean"); + if (help_mode) + run("techmap -map +/cmp2lut.v", " (if -lut)"); + else + run(stringf("techmap -map +/cmp2lut.v -D LUT_WIDTH=%d", lut)); if (!noalumacc) - run("alumacc"); + run("alumacc", " (unless -noalumacc)"); if (!noshare) - run("share"); + run("share", " (unless -noshare)"); run("opt"); if (!nofsm) - run("fsm" + fsm_opts); + run("fsm" + fsm_opts, " (unless -nofsm)"); run("opt -fast"); run("memory -nomap" + memory_opts); run("opt_clean"); @@ -210,12 +236,33 @@ struct SynthPass : public ScriptPass run("memory_map"); run("opt -full"); run("techmap"); + if (help_mode) + { + run("techmap -map +/gate2lut.v", "(if -noabc and -lut)"); + run("clean; opt_lut", " (if -noabc and -lut)"); + } + else if (noabc && lut) + { + run(stringf("techmap -map +/gate2lut.v -D LUT_WIDTH=%d", lut)); + run("clean; opt_lut"); + } run("opt -fast"); if (!noabc) { #ifdef YOSYS_ENABLE_ABC - run("abc -fast"); - run("opt -fast"); + if (help_mode) + { + run(abc + " -fast", " (unless -noabc, unless -lut)"); + run(abc + " -fast -lut k", "(unless -noabc, if -lut)"); + } + else + { + if (lut) + run(stringf("%s -fast -lut %d", abc.c_str(), lut)); + else + run(abc + " -fast"); + } + run("opt -fast", " (unless -noabc)"); #endif } } diff --git a/techlibs/coolrunner2/coolrunner2_sop.cc b/techlibs/coolrunner2/coolrunner2_sop.cc index 431e0a127..de0cbb29d 100644 --- a/techlibs/coolrunner2/coolrunner2_sop.cc +++ b/techlibs/coolrunner2/coolrunner2_sop.cc @@ -25,7 +25,7 @@ PRIVATE_NAMESPACE_BEGIN struct Coolrunner2SopPass : public Pass { Coolrunner2SopPass() : Pass("coolrunner2_sop", "break $sop cells into ANDTERM/ORTERM cells") { } - virtual void help() + void help() YS_OVERRIDE { log("\n"); log(" coolrunner2_sop [options] [selection]\n"); @@ -33,7 +33,7 @@ struct Coolrunner2SopPass : public Pass { log("Break $sop cells into ANDTERM/ORTERM cells.\n"); log("\n"); } - virtual void execute(std::vector<std::string> args, RTLIL::Design *design) + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE { log_header(design, "Executing COOLRUNNER2_SOP pass (break $sop cells into ANDTERM/ORTERM cells).\n"); extra_args(args, 1, design); @@ -60,10 +60,8 @@ struct Coolrunner2SopPass : public Pass { dict<SigBit, pool<tuple<Cell*, std::string>>> special_pterms_inv; for (auto cell : module->selected_cells()) { - if (cell->type == "\\FDCP" || cell->type == "\\FDCP_N" || cell->type == "\\FDDCP" || - cell->type == "\\FTCP" || cell->type == "\\FTCP_N" || cell->type == "\\FTDCP" || - cell->type == "\\FDCPE" || cell->type == "\\FDCPE_N" || cell->type == "\\FDDCPE" || - cell->type == "\\LDCP" || cell->type == "\\LDCP_N") + if (cell->type.in("\\FDCP", "\\FDCP_N", "\\FDDCP", "\\FTCP", "\\FTCP_N", "\\FTDCP", + "\\FDCPE", "\\FDCPE_N", "\\FDDCPE", "\\LDCP", "\\LDCP_N")) { if (cell->hasPort("\\PRE")) special_pterms_no_inv[sigmap(cell->getPort("\\PRE")[0])].insert( @@ -257,10 +255,8 @@ struct Coolrunner2SopPass : public Pass { pool<SigBit> sig_fed_by_ff; for (auto cell : module->selected_cells()) { - if (cell->type == "\\FDCP" || cell->type == "\\FDCP_N" || cell->type == "\\FDDCP" || - cell->type == "\\LDCP" || cell->type == "\\LDCP_N" || - cell->type == "\\FTCP" || cell->type == "\\FTCP_N" || cell->type == "\\FTDCP" || - cell->type == "\\FDCPE" || cell->type == "\\FDCPE_N" || cell->type == "\\FDDCPE") + if (cell->type.in("\\FDCP", "\\FDCP_N", "\\FDDCP", "\\LDCP", "\\LDCP_N", + "\\FTCP", "\\FTCP_N", "\\FTDCP", "\\FDCPE", "\\FDCPE_N", "\\FDDCPE")) { auto output = sigmap(cell->getPort("\\Q")[0]); sig_fed_by_ff.insert(output); @@ -270,13 +266,11 @@ struct Coolrunner2SopPass : public Pass { // Look at all the FF inputs for (auto cell : module->selected_cells()) { - if (cell->type == "\\FDCP" || cell->type == "\\FDCP_N" || cell->type == "\\FDDCP" || - cell->type == "\\LDCP" || cell->type == "\\LDCP_N" || - cell->type == "\\FTCP" || cell->type == "\\FTCP_N" || cell->type == "\\FTDCP" || - cell->type == "\\FDCPE" || cell->type == "\\FDCPE_N" || cell->type == "\\FDDCPE") + if (cell->type.in("\\FDCP", "\\FDCP_N", "\\FDDCP", "\\LDCP", "\\LDCP_N", + "\\FTCP", "\\FTCP_N", "\\FTDCP", "\\FDCPE", "\\FDCPE_N", "\\FDDCPE")) { SigBit input; - if (cell->type == "\\FTCP" || cell->type == "\\FTCP_N" || cell->type == "\\FTDCP") + if (cell->type.in("\\FTCP", "\\FTCP_N", "\\FTDCP")) input = sigmap(cell->getPort("\\T")[0]); else input = sigmap(cell->getPort("\\D")[0]); @@ -300,7 +294,7 @@ struct Coolrunner2SopPass : public Pass { xor_cell->setPort("\\IN_PTC", and_to_xor_wire); xor_cell->setPort("\\OUT", xor_to_ff_wire); - if (cell->type == "\\FTCP" || cell->type == "\\FTCP_N" || cell->type == "\\FTDCP") + if (cell->type.in("\\FTCP", "\\FTCP_N", "\\FTDCP")) cell->setPort("\\T", xor_to_ff_wire); else cell->setPort("\\D", xor_to_ff_wire); diff --git a/techlibs/coolrunner2/synth_coolrunner2.cc b/techlibs/coolrunner2/synth_coolrunner2.cc index 2e94c3449..21bbcaef4 100644 --- a/techlibs/coolrunner2/synth_coolrunner2.cc +++ b/techlibs/coolrunner2/synth_coolrunner2.cc @@ -29,7 +29,7 @@ struct SynthCoolrunner2Pass : public ScriptPass { SynthCoolrunner2Pass() : ScriptPass("synth_coolrunner2", "synthesis for Xilinx Coolrunner-II CPLDs") { } - virtual void help() YS_OVERRIDE + void help() YS_OVERRIDE { // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| log("\n"); @@ -66,7 +66,7 @@ struct SynthCoolrunner2Pass : public ScriptPass string top_opt, json_file; bool flatten, retime; - virtual void clear_flags() YS_OVERRIDE + void clear_flags() YS_OVERRIDE { top_opt = "-auto-top"; json_file = ""; @@ -74,7 +74,7 @@ struct SynthCoolrunner2Pass : public ScriptPass retime = false; } - virtual void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE { string run_from, run_to; clear_flags(); @@ -111,7 +111,7 @@ struct SynthCoolrunner2Pass : public ScriptPass extra_args(args, argidx, design); if (!design->full_selection()) - log_cmd_error("This comannd only operates on fully selected designs!\n"); + log_cmd_error("This command only operates on fully selected designs!\n"); log_header(design, "Executing SYNTH_COOLRUNNER2 pass.\n"); log_push(); @@ -121,7 +121,7 @@ struct SynthCoolrunner2Pass : public ScriptPass log_pop(); } - virtual void script() YS_OVERRIDE + void script() YS_OVERRIDE { if (check_label("begin")) { @@ -129,7 +129,7 @@ struct SynthCoolrunner2Pass : public ScriptPass run(stringf("hierarchy -check %s", help_mode ? "-top <top>" : top_opt.c_str())); } - if (check_label("flatten", "(unless -noflatten)") && flatten) + if (flatten && check_label("flatten", "(unless -noflatten)")) { run("proc"); run("flatten"); diff --git a/techlibs/easic/synth_easic.cc b/techlibs/easic/synth_easic.cc index e17138f3a..dd9e3dab7 100644 --- a/techlibs/easic/synth_easic.cc +++ b/techlibs/easic/synth_easic.cc @@ -29,7 +29,7 @@ struct SynthEasicPass : public ScriptPass { SynthEasicPass() : ScriptPass("synth_easic", "synthesis for eASIC platform") { } - virtual void help() YS_OVERRIDE + void help() YS_OVERRIDE { // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| log("\n"); @@ -67,7 +67,7 @@ struct SynthEasicPass : public ScriptPass string top_opt, vlog_file, etools_path; bool flatten, retime; - virtual void clear_flags() YS_OVERRIDE + void clear_flags() YS_OVERRIDE { top_opt = "-auto-top"; vlog_file = ""; @@ -76,7 +76,7 @@ struct SynthEasicPass : public ScriptPass retime = false; } - virtual void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE { string run_from, run_to; clear_flags(); @@ -117,7 +117,7 @@ struct SynthEasicPass : public ScriptPass extra_args(args, argidx, design); if (!design->full_selection()) - log_cmd_error("This comannd only operates on fully selected designs!\n"); + log_cmd_error("This command only operates on fully selected designs!\n"); log_header(design, "Executing SYNTH_EASIC pass.\n"); log_push(); @@ -127,7 +127,7 @@ struct SynthEasicPass : public ScriptPass log_pop(); } - virtual void script() YS_OVERRIDE + void script() YS_OVERRIDE { string phys_clk_lib = stringf("%s/data_ruby28/design_libs/logical/timing/gp/n3x_phys_clk_0v893ff125c.lib", etools_path.c_str()); string logic_lut_lib = stringf("%s/data_ruby28/design_libs/logical/timing/gp/n3x_logic_lut_0v893ff125c.lib", etools_path.c_str()); diff --git a/techlibs/ecp5/.gitignore b/techlibs/ecp5/.gitignore new file mode 100644 index 000000000..54c329735 --- /dev/null +++ b/techlibs/ecp5/.gitignore @@ -0,0 +1,9 @@ +bram_init_1_2_4.vh +bram_init_9_18_36.vh +brams_init.mk +bram_conn_1.vh +bram_conn_2.vh +bram_conn_4.vh +bram_conn_9.vh +bram_conn_18.vh +brams_connect.mk diff --git a/techlibs/ecp5/Makefile.inc b/techlibs/ecp5/Makefile.inc new file mode 100644 index 000000000..9efb6347f --- /dev/null +++ b/techlibs/ecp5/Makefile.inc @@ -0,0 +1,54 @@ + +OBJS += techlibs/ecp5/synth_ecp5.o techlibs/ecp5/ecp5_ffinit.o \ + techlibs/ecp5/ecp5_gsr.o + +$(eval $(call add_share_file,share/ecp5,techlibs/ecp5/cells_ff.vh)) +$(eval $(call add_share_file,share/ecp5,techlibs/ecp5/cells_io.vh)) +$(eval $(call add_share_file,share/ecp5,techlibs/ecp5/cells_map.v)) +$(eval $(call add_share_file,share/ecp5,techlibs/ecp5/cells_sim.v)) +$(eval $(call add_share_file,share/ecp5,techlibs/ecp5/cells_bb.v)) +$(eval $(call add_share_file,share/ecp5,techlibs/ecp5/lutrams_map.v)) +$(eval $(call add_share_file,share/ecp5,techlibs/ecp5/lutram.txt)) +$(eval $(call add_share_file,share/ecp5,techlibs/ecp5/brams_map.v)) +$(eval $(call add_share_file,share/ecp5,techlibs/ecp5/bram.txt)) +$(eval $(call add_share_file,share/ecp5,techlibs/ecp5/arith_map.v)) +$(eval $(call add_share_file,share/ecp5,techlibs/ecp5/latches_map.v)) + +$(eval $(call add_share_file,share/ecp5,techlibs/ecp5/abc_map.v)) +$(eval $(call add_share_file,share/ecp5,techlibs/ecp5/abc_unmap.v)) +$(eval $(call add_share_file,share/ecp5,techlibs/ecp5/abc_model.v)) +$(eval $(call add_share_file,share/ecp5,techlibs/ecp5/abc_5g.box)) +$(eval $(call add_share_file,share/ecp5,techlibs/ecp5/abc_5g.lut)) +$(eval $(call add_share_file,share/ecp5,techlibs/ecp5/abc_5g_nowide.lut)) + +EXTRA_OBJS += techlibs/ecp5/brams_init.mk techlibs/ecp5/brams_connect.mk +.SECONDARY: techlibs/ecp5/brams_init.mk techlibs/ecp5/brams_connect.mk + +techlibs/ecp5/brams_init.mk: techlibs/ecp5/brams_init.py + $(Q) mkdir -p techlibs/ecp5 + $(P) python3 $< + $(Q) touch $@ + +techlibs/ecp5/brams_connect.mk: techlibs/ecp5/brams_connect.py + $(Q) mkdir -p techlibs/ecp5 + $(P) python3 $< + $(Q) touch $@ + + +techlibs/ecp5/bram_init_1_2_4.vh: techlibs/ecp5/brams_init.mk +techlibs/ecp5/bram_init_9_18_36.vh: techlibs/ecp5/brams_init.mk + +techlibs/ecp5/bram_conn_1.vh: techlibs/ecp5/brams_connect.mk +techlibs/ecp5/bram_conn_2.vh: techlibs/ecp5/brams_connect.mk +techlibs/ecp5/bram_conn_4.vh: techlibs/ecp5/brams_connect.mk +techlibs/ecp5/bram_conn_9.vh: techlibs/ecp5/brams_connect.mk +techlibs/ecp5/bram_conn_18.vh: techlibs/ecp5/brams_connect.mk + +$(eval $(call add_gen_share_file,share/ecp5,techlibs/ecp5/bram_init_1_2_4.vh)) +$(eval $(call add_gen_share_file,share/ecp5,techlibs/ecp5/bram_init_9_18_36.vh)) + +$(eval $(call add_gen_share_file,share/ecp5,techlibs/ecp5/bram_conn_1.vh)) +$(eval $(call add_gen_share_file,share/ecp5,techlibs/ecp5/bram_conn_2.vh)) +$(eval $(call add_gen_share_file,share/ecp5,techlibs/ecp5/bram_conn_4.vh)) +$(eval $(call add_gen_share_file,share/ecp5,techlibs/ecp5/bram_conn_9.vh)) +$(eval $(call add_gen_share_file,share/ecp5,techlibs/ecp5/bram_conn_18.vh)) diff --git a/techlibs/ecp5/abc_5g.box b/techlibs/ecp5/abc_5g.box new file mode 100644 index 000000000..a336b4a85 --- /dev/null +++ b/techlibs/ecp5/abc_5g.box @@ -0,0 +1,43 @@ +# NB: Inputs/Outputs must be ordered alphabetically +# (with exceptions for carry in/out) + +# Box 1 : CCU2C (2xCARRY + 2xLUT4) +# Outputs: S0, S1, COUT +# (NB: carry chain input/output must be last +# input/output and bus has been moved +# there overriding the otherwise +# alphabetical ordering) +# name ID w/b ins outs +CCU2C 1 1 9 3 + +#A0 A1 B0 B1 C0 C1 D0 D1 CIN +379 - 379 - 275 - 141 - 257 +630 379 630 379 526 275 392 141 273 +516 516 516 516 412 412 278 278 43 + +# Box 2 : TRELLIS_DPR16X4_COMB (16x4 dist ram) +# Outputs: DO0, DO1, DO2, DO3 +# name ID w/b ins outs +$__ABC_DPR16X4_COMB 2 0 8 4 + +#A0 A1 A2 A3 RAD0 RAD1 RAD2 RAD3 +0 0 0 0 141 379 275 379 +0 0 0 0 141 379 275 379 +0 0 0 0 141 379 275 379 +0 0 0 0 141 379 275 379 + +# Box 3 : PFUMX (MUX2) +# Outputs: Z +# name ID w/b ins outs +PFUMX 3 1 3 1 + +#ALUT BLUT C0 +98 98 151 + +# Box 4 : L6MUX21 (MUX2) +# Outputs: Z +# name ID w/b ins outs +L6MUX21 4 1 3 1 + +#D0 D1 SD +140 141 148 diff --git a/techlibs/ecp5/abc_5g.lut b/techlibs/ecp5/abc_5g.lut new file mode 100644 index 000000000..e8aa9b35d --- /dev/null +++ b/techlibs/ecp5/abc_5g.lut @@ -0,0 +1,25 @@ +# ECP5-5G LUT library for ABC +# Note that ECP5 architecture assigns difference +# in LUT input delay to interconnect, so this is +# considered too + + +# Simple LUTs +# area D C B A +1 1 141 +2 1 141 275 +3 1 141 275 379 +4 1 141 275 379 379 + +# LUT5 = 2x LUT4 + PFUMX +# area M0 D C B A +5 2 151 239 373 477 477 + +# LUT6 = 2x LUT5 + MUX2 +# area M1 M0 D C B A +6 4 148 292 380 514 618 618 + +# LUT7 = 2x LUT6 + MUX2 +# area M2 M1 M0 D C B A +7 8 148 289 433 521 655 759 759 + diff --git a/techlibs/ecp5/abc_5g_nowide.lut b/techlibs/ecp5/abc_5g_nowide.lut new file mode 100644 index 000000000..60352d892 --- /dev/null +++ b/techlibs/ecp5/abc_5g_nowide.lut @@ -0,0 +1,12 @@ +# ECP5-5G LUT library for ABC +# Note that ECP5 architecture assigns difference +# in LUT input delay to interconnect, so this is +# considered too + + +# Simple LUTs +# area D C B A +1 1 141 +2 1 141 275 +3 1 141 275 379 +4 1 141 275 379 379 diff --git a/techlibs/ecp5/abc_map.v b/techlibs/ecp5/abc_map.v new file mode 100644 index 000000000..ffd25f06d --- /dev/null +++ b/techlibs/ecp5/abc_map.v @@ -0,0 +1,24 @@ +// --------------------------------------- + +module TRELLIS_DPR16X4 ( + input [3:0] DI, + input [3:0] WAD, + input WRE, + input WCK, + input [3:0] RAD, + output [3:0] DO +); + parameter WCKMUX = "WCK"; + parameter WREMUX = "WRE"; + parameter [63:0] INITVAL = 64'h0000000000000000; + wire [3:0] \$DO ; + + TRELLIS_DPR16X4 #( + .WCKMUX(WCKMUX), .WREMUX(WREMUX), .INITVAL(INITVAL) + ) _TECHMAP_REPLACE_ ( + .DI(DI), .WAD(WAD), .WRE(WRE), .WCK(WCK), + .RAD(RAD), .DO(\$DO ) + ); + + \$__ABC_DPR16X4_COMB do (.A(\$DO ), .S(RAD), .Y(DO)); +endmodule diff --git a/techlibs/ecp5/abc_model.v b/techlibs/ecp5/abc_model.v new file mode 100644 index 000000000..56a733b75 --- /dev/null +++ b/techlibs/ecp5/abc_model.v @@ -0,0 +1,5 @@ +// --------------------------------------- + +(* abc_box_id=2 *) +module \$__ABC_DPR16X4_COMB (input [3:0] A, S, output [3:0] Y); +endmodule diff --git a/techlibs/ecp5/abc_unmap.v b/techlibs/ecp5/abc_unmap.v new file mode 100644 index 000000000..d43cdd93f --- /dev/null +++ b/techlibs/ecp5/abc_unmap.v @@ -0,0 +1,5 @@ +// --------------------------------------- + +module \$__ABC_DPR16X4_COMB (input [3:0] A, S, output [3:0] Y); + assign Y = A; +endmodule diff --git a/techlibs/ecp5/arith_map.v b/techlibs/ecp5/arith_map.v new file mode 100644 index 000000000..17bde0497 --- /dev/null +++ b/techlibs/ecp5/arith_map.v @@ -0,0 +1,80 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * Copyright (C) 2018 David Shah <dave@ds0.me> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +(* techmap_celltype = "$alu" *) +module _80_ecp5_alu (A, B, CI, BI, X, Y, CO); + parameter A_SIGNED = 0; + parameter B_SIGNED = 0; + parameter A_WIDTH = 1; + parameter B_WIDTH = 1; + parameter Y_WIDTH = 1; + + input [A_WIDTH-1:0] A; + input [B_WIDTH-1:0] B; + output [Y_WIDTH-1:0] X, Y; + + input CI, BI; + output [Y_WIDTH-1:0] CO; + + wire _TECHMAP_FAIL_ = Y_WIDTH <= 4; + + wire [Y_WIDTH-1:0] A_buf, B_buf; + \$pos #(.A_SIGNED(A_SIGNED), .A_WIDTH(A_WIDTH), .Y_WIDTH(Y_WIDTH)) A_conv (.A(A), .Y(A_buf)); + \$pos #(.A_SIGNED(B_SIGNED), .A_WIDTH(B_WIDTH), .Y_WIDTH(Y_WIDTH)) B_conv (.A(B), .Y(B_buf)); + + function integer round_up2; + input integer N; + begin + round_up2 = ((N + 1) / 2) * 2; + end + endfunction + + localparam Y_WIDTH2 = round_up2(Y_WIDTH); + + wire [Y_WIDTH2-1:0] AA = A_buf; + wire [Y_WIDTH2-1:0] BB = BI ? ~B_buf : B_buf; + wire [Y_WIDTH2-1:0] BX = B_buf; + wire [Y_WIDTH2-1:0] C = {CO, CI}; + wire [Y_WIDTH2-1:0] FCO, Y1; + + genvar i; + generate for (i = 0; i < Y_WIDTH2; i = i + 2) begin:slice + CCU2C #( + .INIT0(16'b1001011010101010), + .INIT1(16'b1001011010101010), + .INJECT1_0("NO"), + .INJECT1_1("NO") + ) ccu2c_i ( + .CIN(C[i]), + .A0(AA[i]), .B0(BX[i]), .C0(BI), .D0(1'b1), + .A1(AA[i+1]), .B1(BX[i+1]), .C1(BI), .D1(1'b1), + .S0(Y[i]), .S1(Y1[i]), + .COUT(FCO[i]) + ); + + assign CO[i] = (AA[i] && BB[i]) || (C[i] && (AA[i] || BB[i])); + if (i+1 < Y_WIDTH) begin + assign CO[i+1] = FCO[i]; + assign Y[i+1] = Y1[i]; + end + end endgenerate + + assign X = AA ^ BB; +endmodule diff --git a/techlibs/ecp5/bram.txt b/techlibs/ecp5/bram.txt new file mode 100644 index 000000000..f223a42b8 --- /dev/null +++ b/techlibs/ecp5/bram.txt @@ -0,0 +1,29 @@ +bram $__ECP5_DP16KD + init 1 + + abits 10 @a10d18 + dbits 18 @a10d18 + abits 11 @a11d9 + dbits 9 @a11d9 + abits 12 @a12d4 + dbits 4 @a12d4 + abits 13 @a13d2 + dbits 2 @a13d2 + abits 14 @a14d1 + dbits 1 @a14d1 + + groups 2 + ports 1 1 + wrmode 1 0 + enable 2 1 @a10d18 + enable 1 1 @a11d9 @a12d4 @a13d2 @a14d1 + transp 0 2 + clocks 2 3 + clkpol 2 3 +endbram + +match $__ECP5_DP16KD + min bits 2048 + min efficiency 5 + shuffle_enable B +endmatch diff --git a/techlibs/ecp5/brams_connect.py b/techlibs/ecp5/brams_connect.py new file mode 100755 index 000000000..f86dcfcf0 --- /dev/null +++ b/techlibs/ecp5/brams_connect.py @@ -0,0 +1,46 @@ +#!/usr/bin/env python3 + +def write_bus_ports(f, ada_bits, adb_bits, dia_bits, dob_bits): + ada_conn = [".ADA%d(%s)" % (i, ada_bits[i]) for i in range(len(ada_bits))] + adb_conn = [".ADB%d(%s)" % (i, adb_bits[i]) for i in range(len(adb_bits))] + dia_conn = [".DIA%d(%s)" % (i, dia_bits[i]) for i in range(len(dia_bits))] + dob_conn = [".DOB%d(%s)" % (i, dob_bits[i]) for i in range(len(dob_bits))] + print(" %s," % ", ".join(ada_conn), file=f) + print(" %s," % ", ".join(adb_conn), file=f) + print(" %s," % ", ".join(dia_conn), file=f) + print(" %s," % ", ".join(dob_conn), file=f) + +with open("techlibs/ecp5/bram_conn_1.vh", "w") as f: + ada_bits = ["A1ADDR[%d]" % i for i in range(14)] + adb_bits = ["B1ADDR[%d]" % i for i in range(14)] + dia_bits = ["A1DATA[0]"] + ["1'b0" for i in range(17)] + dob_bits = ["B1DATA[0]"] + write_bus_ports(f, ada_bits, adb_bits, dia_bits, dob_bits) + +with open("techlibs/ecp5/bram_conn_2.vh", "w") as f: + ada_bits = ["1'b0"] + ["A1ADDR[%d]" % i for i in range(13)] + adb_bits = ["1'b0"] + ["B1ADDR[%d]" % i for i in range(13)] + dia_bits = ["A1DATA[%d]" % i for i in range(2)] + ["1'b0" for i in range(16)] + dob_bits = ["B1DATA[%d]" % i for i in range(2)] + write_bus_ports(f, ada_bits, adb_bits, dia_bits, dob_bits) + +with open("techlibs/ecp5/bram_conn_4.vh", "w") as f: + ada_bits = ["1'b0", "1'b0"] + ["A1ADDR[%d]" % i for i in range(12)] + adb_bits = ["1'b0", "1'b0"] + ["B1ADDR[%d]" % i for i in range(12)] + dia_bits = ["A1DATA[%d]" % i for i in range(4)] + ["1'b0" for i in range(14)] + dob_bits = ["B1DATA[%d]" % i for i in range(4)] + write_bus_ports(f, ada_bits, adb_bits, dia_bits, dob_bits) + +with open("techlibs/ecp5/bram_conn_9.vh", "w") as f: + ada_bits = ["1'b0", "1'b0", "1'b0"] + ["A1ADDR[%d]" % i for i in range(11)] + adb_bits = ["1'b0", "1'b0", "1'b0"] + ["B1ADDR[%d]" % i for i in range(11)] + dia_bits = ["A1DATA[%d]" % i for i in range(9)] + ["1'b0" for i in range(9)] + dob_bits = ["B1DATA[%d]" % i for i in range(9)] + write_bus_ports(f, ada_bits, adb_bits, dia_bits, dob_bits) + +with open("techlibs/ecp5/bram_conn_18.vh", "w") as f: + ada_bits = ["A1EN[0]", "A1EN[1]", "1'b0", "1'b0"] + ["A1ADDR[%d]" % i for i in range(10)] + adb_bits = ["1'b0", "1'b0", "1'b0", "1'b0"] + ["B1ADDR[%d]" % i for i in range(10)] + dia_bits = ["A1DATA[%d]" % i for i in range(18)] + dob_bits = ["B1DATA[%d]" % i for i in range(18)] + write_bus_ports(f, ada_bits, adb_bits, dia_bits, dob_bits) diff --git a/techlibs/ecp5/brams_init.py b/techlibs/ecp5/brams_init.py new file mode 100755 index 000000000..96a47bdcd --- /dev/null +++ b/techlibs/ecp5/brams_init.py @@ -0,0 +1,22 @@ +#!/usr/bin/env python3 +with open("techlibs/ecp5/bram_init_1_2_4.vh", "w") as f: + for i in range(0, 0x40): + init_snippets = [] + for j in range(32): + init_snippets.append("INIT[%4d*8 +: 8]" % (32 * i + j)) + init_snippets.append("3'b000" if (j % 2 == 1) else "1'b0") + init_snippets = list(reversed(init_snippets)) + for k in range(8, 64, 8): + init_snippets[k] = "\n " + init_snippets[k] + print(".INITVAL_%02X({%s})," % (i, ", ".join(init_snippets)), file=f) + +with open("techlibs/ecp5/bram_init_9_18_36.vh", "w") as f: + for i in range(0, 0x40): + init_snippets = [] + for j in range(16): + init_snippets.append("INIT[%3d*18 +: 18]" % (16 * i + j)) + init_snippets.append("2'b00") + init_snippets = list(reversed(init_snippets)) + for k in range(8, 32, 8): + init_snippets[k] = "\n " + init_snippets[k] + print(".INITVAL_%02X({%s})," % (i, ", ".join(init_snippets)), file=f) diff --git a/techlibs/ecp5/brams_map.v b/techlibs/ecp5/brams_map.v new file mode 100644 index 000000000..0353cbadb --- /dev/null +++ b/techlibs/ecp5/brams_map.v @@ -0,0 +1,115 @@ +module \$__ECP5_DP16KD (CLK2, CLK3, A1ADDR, A1DATA, A1EN, B1ADDR, B1DATA, B1EN); + parameter CFG_ABITS = 10; + parameter CFG_DBITS = 18; + parameter CFG_ENABLE_A = 2; + + parameter CLKPOL2 = 1; + parameter CLKPOL3 = 1; + parameter [18431:0] INIT = 18432'bx; + parameter TRANSP2 = 0; + + input CLK2; + input CLK3; + + input [CFG_ABITS-1:0] A1ADDR; + input [CFG_DBITS-1:0] A1DATA; + input [CFG_ENABLE_A-1:0] A1EN; + + input [CFG_ABITS-1:0] B1ADDR; + output [CFG_DBITS-1:0] B1DATA; + input B1EN; + + localparam CLKAMUX = CLKPOL2 ? "CLKA" : "INV"; + localparam CLKBMUX = CLKPOL3 ? "CLKB" : "INV"; + + localparam WRITEMODE_A = TRANSP2 ? "WRITETHROUGH" : "READBEFOREWRITE"; + + generate if (CFG_DBITS == 1) begin + DP16KD #( + `include "bram_init_1_2_4.vh" + .DATA_WIDTH_A(1), + .DATA_WIDTH_B(1), + .CLKAMUX(CLKAMUX), + .CLKBMUX(CLKBMUX), + .WRITEMODE_A(WRITEMODE_A), + .WRITEMODE_B("READBEFOREWRITE"), + .GSR("AUTO") + ) _TECHMAP_REPLACE_ ( + `include "bram_conn_1.vh" + .CLKA(CLK2), .CLKB(CLK3), + .WEA(|A1EN), .CEA(1'b1), .OCEA(1'b1), + .WEB(1'b0), .CEB(B1EN), .OCEB(1'b1), + .RSTA(1'b0), .RSTB(1'b0) + ); + end else if (CFG_DBITS == 2) begin + DP16KD #( + `include "bram_init_1_2_4.vh" + .DATA_WIDTH_A(2), + .DATA_WIDTH_B(2), + .CLKAMUX(CLKAMUX), + .CLKBMUX(CLKBMUX), + .WRITEMODE_A(WRITEMODE_A), + .WRITEMODE_B("READBEFOREWRITE"), + .GSR("AUTO") + ) _TECHMAP_REPLACE_ ( + `include "bram_conn_2.vh" + .CLKA(CLK2), .CLKB(CLK3), + .WEA(|A1EN), .CEA(1'b1), .OCEA(1'b1), + .WEB(1'b0), .CEB(B1EN), .OCEB(1'b1), + .RSTA(1'b0), .RSTB(1'b0) + ); + end else if (CFG_DBITS <= 4) begin + DP16KD #( + `include "bram_init_1_2_4.vh" + .DATA_WIDTH_A(4), + .DATA_WIDTH_B(4), + .CLKAMUX(CLKAMUX), + .CLKBMUX(CLKBMUX), + .WRITEMODE_A(WRITEMODE_A), + .WRITEMODE_B("READBEFOREWRITE"), + .GSR("AUTO") + ) _TECHMAP_REPLACE_ ( + `include "bram_conn_4.vh" + .CLKA(CLK2), .CLKB(CLK3), + .WEA(|A1EN), .CEA(1'b1), .OCEA(1'b1), + .WEB(1'b0), .CEB(B1EN), .OCEB(1'b1), + .RSTA(1'b0), .RSTB(1'b0) + ); + end else if (CFG_DBITS <= 9) begin + DP16KD #( + `include "bram_init_9_18_36.vh" + .DATA_WIDTH_A(9), + .DATA_WIDTH_B(9), + .CLKAMUX(CLKAMUX), + .CLKBMUX(CLKBMUX), + .WRITEMODE_A(WRITEMODE_A), + .WRITEMODE_B("READBEFOREWRITE"), + .GSR("AUTO") + ) _TECHMAP_REPLACE_ ( + `include "bram_conn_9.vh" + .CLKA(CLK2), .CLKB(CLK3), + .WEA(|A1EN), .CEA(1'b1), .OCEA(1'b1), + .WEB(1'b0), .CEB(B1EN), .OCEB(1'b1), + .RSTA(1'b0), .RSTB(1'b0) + ); + end else if (CFG_DBITS <= 18) begin + DP16KD #( + `include "bram_init_9_18_36.vh" + .DATA_WIDTH_A(18), + .DATA_WIDTH_B(18), + .CLKAMUX(CLKAMUX), + .CLKBMUX(CLKBMUX), + .WRITEMODE_A(WRITEMODE_A), + .WRITEMODE_B("READBEFOREWRITE"), + .GSR("AUTO") + ) _TECHMAP_REPLACE_ ( + `include "bram_conn_18.vh" + .CLKA(CLK2), .CLKB(CLK3), + .WEA(|A1EN), .CEA(1'b1), .OCEA(1'b1), + .WEB(1'b0), .CEB(B1EN), .OCEB(1'b1), + .RSTA(1'b0), .RSTB(1'b0) + ); + end else begin + wire TECHMAP_FAIL = 1'b1; + end endgenerate +endmodule diff --git a/techlibs/ecp5/cells_bb.v b/techlibs/ecp5/cells_bb.v new file mode 100644 index 000000000..8557053b6 --- /dev/null +++ b/techlibs/ecp5/cells_bb.v @@ -0,0 +1,686 @@ +// ECP5 Blackbox cells +// FIXME: Create sim models + +(* blackbox *) +module MULT18X18D( + input A0, A1, A2, A3, A4, A5, A6, A7, A8, A9, A10, A11, A12, A13, A14, A15, A16, A17, + input B0, B1, B2, B3, B4, B5, B6, B7, B8, B9, B10, B11, B12, B13, B14, B15, B16, B17, + input C0, C1, C2, C3, C4, C5, C6, C7, C8, C9, C10, C11, C12, C13, C14, C15, C16, C17, + input SIGNEDA, SIGNEDB, SOURCEA, SOURCEB, + input CLK0, CLK1, CLK2, CLK3, + input CE0, CE1, CE2, CE3, + input RST0, RST1, RST2, RST3, + input SRIA0, SRIA1, SRIA2, SRIA3, SRIA4, SRIA5, SRIA6, SRIA7, SRIA8, SRIA9, SRIA10, SRIA11, SRIA12, SRIA13, SRIA14, SRIA15, SRIA16, SRIA17, + input SRIB0, SRIB1, SRIB2, SRIB3, SRIB4, SRIB5, SRIB6, SRIB7, SRIB8, SRIB9, SRIB10, SRIB11, SRIB12, SRIB13, SRIB14, SRIB15, SRIB16, SRIB17, + output SROA0, SROA1, SROA2, SROA3, SROA4, SROA5, SROA6, SROA7, SROA8, SROA9, SROA10, SROA11, SROA12, SROA13, SROA14, SROA15, SROA16, SROA17, + output SROB0, SROB1, SROB2, SROB3, SROB4, SROB5, SROB6, SROB7, SROB8, SROB9, SROB10, SROB11, SROB12, SROB13, SROB14, SROB15, SROB16, SROB17, + output ROA0, ROA1, ROA2, ROA3, ROA4, ROA5, ROA6, ROA7, ROA8, ROA9, ROA10, ROA11, ROA12, ROA13, ROA14, ROA15, ROA16, ROA17, + output ROB0, ROB1, ROB2, ROB3, ROB4, ROB5, ROB6, ROB7, ROB8, ROB9, ROB10, ROB11, ROB12, ROB13, ROB14, ROB15, ROB16, ROB17, + output ROC0, ROC1, ROC2, ROC3, ROC4, ROC5, ROC6, ROC7, ROC8, ROC9, ROC10, ROC11, ROC12, ROC13, ROC14, ROC15, ROC16, ROC17, + output P0, P1, P2, P3, P4, P5, P6, P7, P8, P9, P10, P11, P12, P13, P14, P15, P16, P17, P18, P19, P20, P21, P22, P23, P24, P25, P26, P27, P28, P29, P30, P31, P32, P33, P34, P35, + output SIGNEDP +); + parameter REG_INPUTA_CLK = "NONE"; + parameter REG_INPUTA_CE = "CE0"; + parameter REG_INPUTA_RST = "RST0"; + parameter REG_INPUTB_CLK = "NONE"; + parameter REG_INPUTB_CE = "CE0"; + parameter REG_INPUTB_RST = "RST0"; + parameter REG_INPUTC_CLK = "NONE"; + parameter REG_PIPELINE_CLK = "NONE"; + parameter REG_PIPELINE_CE = "CE0"; + parameter REG_PIPELINE_RST = "RST0"; + parameter REG_OUTPUT_CLK = "NONE"; + parameter [127:0] CLK0_DIV = "ENABLED"; + parameter [127:0] CLK1_DIV = "ENABLED"; + parameter [127:0] CLK2_DIV = "ENABLED"; + parameter [127:0] CLK3_DIV = "ENABLED"; + parameter [127:0] GSR = "ENABLED"; + parameter [127:0] SOURCEB_MODE = "B_SHIFT"; + parameter [127:0] RESETMODE = "SYNC"; +endmodule + +(* blackbox *) +module ALU54B( + input CLK0, CLK1, CLK2, CLK3, + input CE0, CE1, CE2, CE3, + input RST0, RST1, RST2, RST3, + input SIGNEDIA, SIGNEDIB, SIGNEDCIN, + input A0, A1, A2, A3, A4, A5, A6, A7, A8, A9, A10, A11, A12, A13, A14, A15, A16, A17, A18, A19, A20, A21, A22, A23, A24, A25, A26, A27, A28, A29, A30, A31, A32, A33, A34, A35, + input B0, B1, B2, B3, B4, B5, B6, B7, B8, B9, B10, B11, B12, B13, B14, B15, B16, B17, B18, B19, B20, B21, B22, B23, B24, B25, B26, B27, B28, B29, B30, B31, B32, B33, B34, B35, + input C0, C1, C2, C3, C4, C5, C6, C7, C8, C9, C10, C11, C12, C13, C14, C15, C16, C17, C18, C19, C20, C21, C22, C23, C24, C25, C26, C27, C28, C29, C30, C31, C32, C33, C34, C35, C36, C37, C38, C39, C40, C41, C42, C43, C44, C45, C46, C47, C48, C49, C50, C51, C52, C53, + input CFB0, CFB1, CFB2, CFB3, CFB4, CFB5, CFB6, CFB7, CFB8, CFB9, CFB10, CFB11, CFB12, CFB13, CFB14, CFB15, CFB16, CFB17, CFB18, CFB19, CFB20, CFB21, CFB22, CFB23, CFB24, CFB25, CFB26, CFB27, CFB28, CFB29, CFB30, CFB31, CFB32, CFB33, CFB34, CFB35, CFB36, CFB37, CFB38, CFB39, CFB40, CFB41, CFB42, CFB43, CFB44, CFB45, CFB46, CFB47, CFB48, CFB49, CFB50, CFB51, CFB52, CFB53, + input MA0, MA1, MA2, MA3, MA4, MA5, MA6, MA7, MA8, MA9, MA10, MA11, MA12, MA13, MA14, MA15, MA16, MA17, MA18, MA19, MA20, MA21, MA22, MA23, MA24, MA25, MA26, MA27, MA28, MA29, MA30, MA31, MA32, MA33, MA34, MA35, + input MB0, MB1, MB2, MB3, MB4, MB5, MB6, MB7, MB8, MB9, MB10, MB11, MB12, MB13, MB14, MB15, MB16, MB17, MB18, MB19, MB20, MB21, MB22, MB23, MB24, MB25, MB26, MB27, MB28, MB29, MB30, MB31, MB32, MB33, MB34, MB35, + input CIN0, CIN1, CIN2, CIN3, CIN4, CIN5, CIN6, CIN7, CIN8, CIN9, CIN10, CIN11, CIN12, CIN13, CIN14, CIN15, CIN16, CIN17, CIN18, CIN19, CIN20, CIN21, CIN22, CIN23, CIN24, CIN25, CIN26, CIN27, CIN28, CIN29, CIN30, CIN31, CIN32, CIN33, CIN34, CIN35, CIN36, CIN37, CIN38, CIN39, CIN40, CIN41, CIN42, CIN43, CIN44, CIN45, CIN46, CIN47, CIN48, CIN49, CIN50, CIN51, CIN52, CIN53, + input OP0, OP1, OP2, OP3, OP4, OP5, OP6, OP7, OP8, OP9, OP10, + output R0, R1, R2, R3, R4, R5, R6, R7, R8, R9, R10, R11, R12, R13, R14, R15, R16, R17, R18, R19, R20, R21, R22, R23, R24, R25, R26, R27, R28, R29, R30, R31, R32, R33, R34, R35, R36, R37, R38, R39, R40, R41, R42, R43, R44, R45, R46, R47, R48, R49, R50, R51, R52, R53, + output CO0, CO1, CO2, CO3, CO4, CO5, CO6, CO7, CO8, CO9, CO10, CO11, CO12, CO13, CO14, CO15, CO16, CO17, CO18, CO19, CO20, CO21, CO22, CO23, CO24, CO25, CO26, CO27, CO28, CO29, CO30, CO31, CO32, CO33, CO34, CO35, CO36, CO37, CO38, CO39, CO40, CO41, CO42, CO43, CO44, CO45, CO46, CO47, CO48, CO49, CO50, CO51, CO52, CO53, + output EQZ, EQZM, EQOM, EQPAT, EQPATB, + output OVER, UNDER, OVERUNDER, + output SIGNEDR +); + parameter REG_INPUTC0_CLK = "NONE"; + parameter REG_INPUTC1_CLK = "NONE"; + parameter REG_OPCODEOP0_0_CLK = "NONE"; + parameter REG_OPCODEOP0_0_CE = "CE0"; + parameter REG_OPCODEOP0_0_RST = "RST0"; + parameter REG_OPCODEOP1_0_CLK = "NONE"; + parameter REG_OPCODEOP0_1_CLK = "NONE"; + parameter REG_OPCODEOP0_1_CE = "CE0"; + parameter REG_OPCODEOP0_1_RST = "RST0"; + parameter REG_OPCODEIN_0_CLK = "NONE"; + parameter REG_OPCODEIN_0_CE = "CE0"; + parameter REG_OPCODEIN_0_RST = "RST0"; + parameter REG_OPCODEIN_1_CLK = "NONE"; + parameter REG_OPCODEIN_1_CE = "CE0"; + parameter REG_OPCODEIN_1_RST = "RST0"; + parameter REG_OUTPUT0_CLK = "NONE"; + parameter REG_OUTPUT1_CLK = "NONE"; + parameter REG_FLAG_CLK = "NONE"; + parameter [127:0] MCPAT_SOURCE = "STATIC"; + parameter [127:0] MASKPAT_SOURCE = "STATIC"; + parameter MASK01 = "0x00000000000000"; + parameter [127:0] CLK0_DIV = "ENABLED"; + parameter [127:0] CLK1_DIV = "ENABLED"; + parameter [127:0] CLK2_DIV = "ENABLED"; + parameter [127:0] CLK3_DIV = "ENABLED"; + parameter MCPAT = "0x00000000000000"; + parameter MASKPAT = "0x00000000000000"; + parameter RNDPAT = "0x00000000000000"; + parameter [127:0] GSR = "ENABLED"; + parameter [127:0] RESETMODE = "SYNC"; + parameter FORCE_ZERO_BARREL_SHIFT = "DISABLED"; + parameter LEGACY = "DISABLED"; +endmodule + +(* blackbox *) +module EHXPLLL ( + input CLKI, CLKFB, + input PHASESEL1, PHASESEL0, PHASEDIR, PHASESTEP, PHASELOADREG, + input STDBY, PLLWAKESYNC, + input RST, ENCLKOP, ENCLKOS, ENCLKOS2, ENCLKOS3, + output CLKOP, CLKOS, CLKOS2, CLKOS3, + output LOCK, INTLOCK, + output REFCLK, CLKINTFB +); + parameter CLKI_DIV = 1; + parameter CLKFB_DIV = 1; + parameter CLKOP_DIV = 8; + parameter CLKOS_DIV = 8; + parameter CLKOS2_DIV = 8; + parameter CLKOS3_DIV = 8; + parameter CLKOP_ENABLE = "ENABLED"; + parameter CLKOS_ENABLE = "DISABLED"; + parameter CLKOS2_ENABLE = "DISABLED"; + parameter CLKOS3_ENABLE = "DISABLED"; + parameter CLKOP_CPHASE = 0; + parameter CLKOS_CPHASE = 0; + parameter CLKOS2_CPHASE = 0; + parameter CLKOS3_CPHASE = 0; + parameter CLKOP_FPHASE = 0; + parameter CLKOS_FPHASE = 0; + parameter CLKOS2_FPHASE = 0; + parameter CLKOS3_FPHASE = 0; + parameter FEEDBK_PATH = "CLKOP"; + parameter CLKOP_TRIM_POL = "RISING"; + parameter CLKOP_TRIM_DELAY = 0; + parameter CLKOS_TRIM_POL = "RISING"; + parameter CLKOS_TRIM_DELAY = 0; + parameter OUTDIVIDER_MUXA = "DIVA"; + parameter OUTDIVIDER_MUXB = "DIVB"; + parameter OUTDIVIDER_MUXC = "DIVC"; + parameter OUTDIVIDER_MUXD = "DIVD"; + parameter PLL_LOCK_MODE = 0; + parameter PLL_LOCK_DELAY = 200; + parameter STDBY_ENABLE = "DISABLED"; + parameter REFIN_RESET = "DISABLED"; + parameter SYNC_ENABLE = "DISABLED"; + parameter INT_LOCK_STICKY = "ENABLED"; + parameter DPHASE_SOURCE = "DISABLED"; + parameter PLLRST_ENA = "DISABLED"; + parameter INTFB_WAKE = "DISABLED"; +endmodule + +(* blackbox *) +module DTR( + input STARTPULSE, + output DTROUT7, DTROUT6, DTROUT5, DTROUT4, DTROUT3, DTROUT2, DTROUT1, DTROUT0 +); +endmodule + +(* blackbox *) +module OSCG( + output OSC +); +parameter DIV = 128; +endmodule + +(* blackbox *) (* keep *) +module USRMCLK( + input USRMCLKI, USRMCLKTS, + output USRMCLKO +); +endmodule + +(* blackbox *) (* keep *) +module JTAGG( + input TCK, TMS, TDI, JTDO2, JTDO1, + output TDO, JTDI, JTCK, JRTI2, JRTI1, + output JSHIFT, JUPDATE, JRSTN, JCE2, JCE1 +); +parameter ER1 = "ENABLED"; +parameter ER2 = "ENABLED"; +endmodule + +(* blackbox *) +module DELAYF( + input A, LOADN, MOVE, DIRECTION, + output Z, CFLAG +); + parameter DEL_MODE = "USER_DEFINED"; + parameter DEL_VALUE = 0; +endmodule + +(* blackbox *) +module DELAYG( + input A, + output Z +); + parameter DEL_MODE = "USER_DEFINED"; + parameter DEL_VALUE = 0; +endmodule + +(* blackbox *) +module IDDRX1F( + input D, SCLK, RST, + output Q0, Q1 +); + parameter GSR = "ENABLED"; +endmodule + +(* blackbox *) +module IDDRX2F( + input D, SCLK, ECLK, RST, + output Q0, Q1, Q2, Q3 +); + parameter GSR = "ENABLED"; +endmodule + +(* blackbox *) +module IDDR71B( + input D, SCLK, ECLK, RST, ALIGNWD, + output Q0, Q1, Q2, Q3, Q4, Q5, Q6 +); + parameter GSR = "ENABLED"; +endmodule + +(* blackbox *) +module IDDRX2DQA( + input D, DQSR90, ECLK, SCLK, RST, + input RDPNTR2, RDPNTR1, RDPNTR0, WRPNTR2, WRPNTR1, WRPNTR0, + output Q0, Q1, Q2, Q3, QWL +); + parameter GSR = "ENABLED"; +endmodule + +(* blackbox *) +module ODDRX1F( + input SCLK, RST, D0, D1, + output Q +); + parameter GSR = "ENABLED"; +endmodule + +(* blackbox *) +module ODDRX2F( + input SCLK, ECLK, RST, D0, D1, D2, D3, + output Q +); + parameter GSR = "ENABLED"; +endmodule + +(* blackbox *) +module ODDR71B( + input SCLK, ECLK, RST, D0, D1, D2, D3, D4, D5, D6, + output Q +); + parameter GSR = "ENABLED"; +endmodule + +(* blackbox *) +module OSHX2A( + input D0, D1, RST, ECLK, SCLK, + output Q +); + parameter GSR = "ENABLED"; +endmodule + +(* blackbox *) +module ODDRX2DQA( + input D0, D1, D2, D3, RST, ECLK, SCLK, DQSW270, + output Q +); + parameter GSR = "ENABLED"; +endmodule + +(* blackbox *) +module ODDRX2DQSB( + input D0, D1, D2, D3, RST, ECLK, SCLK, DQSW, + output Q +); + parameter GSR = "ENABLED"; +endmodule + +(* blackbox *) +module TSHX2DQA( + input T0, T1, SCLK, ECLK, DQSW270, RST, + output Q +); + parameter GSR = "ENABLED"; + parameter REGSET = "SET"; +endmodule + +(* blackbox *) +module TSHX2DQSA( + input T0, T1, SCLK, ECLK, DQSW, RST, + output Q +); + parameter GSR = "ENABLED"; + parameter REGSET = "SET"; +endmodule + +(* blackbox *) +module DQSBUFM( + input DQSI, READ1, READ0, READCLKSEL2, READCLKSEL1, READCLKSEL0, DDRDEL, + input ECLK, SCLK, + input DYNDELAY7, DYNDELAY6, DYNDELAY5, DYNDELAY4, + input DYNDELAY3, DYNDELAY2, DYNDELAY1, DYNDELAY0, + input RST, RDLOADN, RDMOVE, RDDIRECTION, WRLOADN, WRMOVE, WRDIRECTION, PAUSE, + output DQSR90, DQSW, DQSW270, + output RDPNTR2, RDPNTR1, RDPNTR0, WRPNTR2, WRPNTR1, WRPNTR0, + output DATAVALID, BURSTDET, RDCFLAG, WRCFLAG +); + parameter DQS_LI_DEL_ADJ = "FACTORYONLY"; + parameter DQS_LI_DEL_VAL = 0; + parameter DQS_LO_DEL_ADJ = "FACTORYONLY"; + parameter DQS_LO_DEL_VAL = 0; + parameter GSR = "ENABLED"; +endmodule + +(* blackbox *) +module DDRDLLA( + input CLK, RST, UDDCNTLN, FREEZE, + output LOCK, DDRDEL, DCNTL7, DCNTL6, DCNTL5, DCNTL4, DCNTL3, DCNTL2, DCNTL1, DCNTL0 +); + parameter FORCE_MAX_DELAY = "NO"; + parameter GSR = "ENABLED"; +endmodule + +(* blackbox *) +module CLKDIVF( + input CLKI, RST, ALIGNWD, + output CDIVX +); + parameter GSR = "DISABLED"; + parameter DIV = "2.0"; +endmodule + +(* blackbox *) +module ECLKSYNCB( + input ECLKI, STOP, + output ECLKO +); +endmodule + +(* blackbox *) +module DCCA( + input CLKI, CE, + output CLKO +); +endmodule + +(* blackbox *) (* keep *) +module DCUA( + input CH0_HDINP, CH1_HDINP, CH0_HDINN, CH1_HDINN, + input D_TXBIT_CLKP_FROM_ND, D_TXBIT_CLKN_FROM_ND, D_SYNC_ND, D_TXPLL_LOL_FROM_ND, + input CH0_RX_REFCLK, CH1_RX_REFCLK, CH0_FF_RXI_CLK, CH1_FF_RXI_CLK, CH0_FF_TXI_CLK, CH1_FF_TXI_CLK, CH0_FF_EBRD_CLK, CH1_FF_EBRD_CLK, + input CH0_FF_TX_D_0, CH1_FF_TX_D_0, CH0_FF_TX_D_1, CH1_FF_TX_D_1, CH0_FF_TX_D_2, CH1_FF_TX_D_2, CH0_FF_TX_D_3, CH1_FF_TX_D_3, + input CH0_FF_TX_D_4, CH1_FF_TX_D_4, CH0_FF_TX_D_5, CH1_FF_TX_D_5, CH0_FF_TX_D_6, CH1_FF_TX_D_6, CH0_FF_TX_D_7, CH1_FF_TX_D_7, + input CH0_FF_TX_D_8, CH1_FF_TX_D_8, CH0_FF_TX_D_9, CH1_FF_TX_D_9, CH0_FF_TX_D_10, CH1_FF_TX_D_10, CH0_FF_TX_D_11, CH1_FF_TX_D_11, + input CH0_FF_TX_D_12, CH1_FF_TX_D_12, CH0_FF_TX_D_13, CH1_FF_TX_D_13, CH0_FF_TX_D_14, CH1_FF_TX_D_14, CH0_FF_TX_D_15, CH1_FF_TX_D_15, + input CH0_FF_TX_D_16, CH1_FF_TX_D_16, CH0_FF_TX_D_17, CH1_FF_TX_D_17, CH0_FF_TX_D_18, CH1_FF_TX_D_18, CH0_FF_TX_D_19, CH1_FF_TX_D_19, + input CH0_FF_TX_D_20, CH1_FF_TX_D_20, CH0_FF_TX_D_21, CH1_FF_TX_D_21, CH0_FF_TX_D_22, CH1_FF_TX_D_22, CH0_FF_TX_D_23, CH1_FF_TX_D_23, + input CH0_FFC_EI_EN, CH1_FFC_EI_EN, CH0_FFC_PCIE_DET_EN, CH1_FFC_PCIE_DET_EN, CH0_FFC_PCIE_CT, CH1_FFC_PCIE_CT, CH0_FFC_SB_INV_RX, CH1_FFC_SB_INV_RX, + input CH0_FFC_ENABLE_CGALIGN, CH1_FFC_ENABLE_CGALIGN, CH0_FFC_SIGNAL_DETECT, CH1_FFC_SIGNAL_DETECT, CH0_FFC_FB_LOOPBACK, CH1_FFC_FB_LOOPBACK, CH0_FFC_SB_PFIFO_LP, CH1_FFC_SB_PFIFO_LP, + input CH0_FFC_PFIFO_CLR, CH1_FFC_PFIFO_CLR, CH0_FFC_RATE_MODE_RX, CH1_FFC_RATE_MODE_RX, CH0_FFC_RATE_MODE_TX, CH1_FFC_RATE_MODE_TX, CH0_FFC_DIV11_MODE_RX, CH1_FFC_DIV11_MODE_RX, CH0_FFC_RX_GEAR_MODE, CH1_FFC_RX_GEAR_MODE, CH0_FFC_TX_GEAR_MODE, CH1_FFC_TX_GEAR_MODE, + input CH0_FFC_DIV11_MODE_TX, CH1_FFC_DIV11_MODE_TX, CH0_FFC_LDR_CORE2TX_EN, CH1_FFC_LDR_CORE2TX_EN, CH0_FFC_LANE_TX_RST, CH1_FFC_LANE_TX_RST, CH0_FFC_LANE_RX_RST, CH1_FFC_LANE_RX_RST, + input CH0_FFC_RRST, CH1_FFC_RRST, CH0_FFC_TXPWDNB, CH1_FFC_TXPWDNB, CH0_FFC_RXPWDNB, CH1_FFC_RXPWDNB, CH0_LDR_CORE2TX, CH1_LDR_CORE2TX, + input D_SCIWDATA0, D_SCIWDATA1, D_SCIWDATA2, D_SCIWDATA3, D_SCIWDATA4, D_SCIWDATA5, D_SCIWDATA6, D_SCIWDATA7, + input D_SCIADDR0, D_SCIADDR1, D_SCIADDR2, D_SCIADDR3, D_SCIADDR4, D_SCIADDR5, D_SCIENAUX, D_SCISELAUX, + input CH0_SCIEN, CH1_SCIEN, CH0_SCISEL, CH1_SCISEL, D_SCIRD, D_SCIWSTN, D_CYAWSTN, D_FFC_SYNC_TOGGLE, + input D_FFC_DUAL_RST, D_FFC_MACRO_RST, D_FFC_MACROPDB, D_FFC_TRST, CH0_FFC_CDR_EN_BITSLIP, CH1_FFC_CDR_EN_BITSLIP, D_SCAN_ENABLE, D_SCAN_IN_0, + input D_SCAN_IN_1, D_SCAN_IN_2, D_SCAN_IN_3, D_SCAN_IN_4, D_SCAN_IN_5, D_SCAN_IN_6, D_SCAN_IN_7, D_SCAN_MODE, + input D_SCAN_RESET, D_CIN0, D_CIN1, D_CIN2, D_CIN3, D_CIN4, D_CIN5, D_CIN6,D_CIN7, D_CIN8, D_CIN9, D_CIN10, D_CIN11, + output CH0_HDOUTP, CH1_HDOUTP, CH0_HDOUTN, CH1_HDOUTN, D_TXBIT_CLKP_TO_ND, D_TXBIT_CLKN_TO_ND, D_SYNC_PULSE2ND, D_TXPLL_LOL_TO_ND, + output CH0_FF_RX_F_CLK, CH1_FF_RX_F_CLK, CH0_FF_RX_H_CLK, CH1_FF_RX_H_CLK, CH0_FF_TX_F_CLK, CH1_FF_TX_F_CLK, CH0_FF_TX_H_CLK, CH1_FF_TX_H_CLK, + output CH0_FF_RX_PCLK, CH1_FF_RX_PCLK, CH0_FF_TX_PCLK, CH1_FF_TX_PCLK, CH0_FF_RX_D_0, CH1_FF_RX_D_0, CH0_FF_RX_D_1, CH1_FF_RX_D_1, + output CH0_FF_RX_D_2, CH1_FF_RX_D_2, CH0_FF_RX_D_3, CH1_FF_RX_D_3, CH0_FF_RX_D_4, CH1_FF_RX_D_4, CH0_FF_RX_D_5, CH1_FF_RX_D_5, + output CH0_FF_RX_D_6, CH1_FF_RX_D_6, CH0_FF_RX_D_7, CH1_FF_RX_D_7, CH0_FF_RX_D_8, CH1_FF_RX_D_8, CH0_FF_RX_D_9, CH1_FF_RX_D_9, + output CH0_FF_RX_D_10, CH1_FF_RX_D_10, CH0_FF_RX_D_11, CH1_FF_RX_D_11, CH0_FF_RX_D_12, CH1_FF_RX_D_12, CH0_FF_RX_D_13, CH1_FF_RX_D_13, + output CH0_FF_RX_D_14, CH1_FF_RX_D_14, CH0_FF_RX_D_15, CH1_FF_RX_D_15, CH0_FF_RX_D_16, CH1_FF_RX_D_16, CH0_FF_RX_D_17, CH1_FF_RX_D_17, + output CH0_FF_RX_D_18, CH1_FF_RX_D_18, CH0_FF_RX_D_19, CH1_FF_RX_D_19, CH0_FF_RX_D_20, CH1_FF_RX_D_20, CH0_FF_RX_D_21, CH1_FF_RX_D_21, + output CH0_FF_RX_D_22, CH1_FF_RX_D_22, CH0_FF_RX_D_23, CH1_FF_RX_D_23, CH0_FFS_PCIE_DONE, CH1_FFS_PCIE_DONE, CH0_FFS_PCIE_CON, CH1_FFS_PCIE_CON, + output CH0_FFS_RLOS, CH1_FFS_RLOS, CH0_FFS_LS_SYNC_STATUS, CH1_FFS_LS_SYNC_STATUS, CH0_FFS_CC_UNDERRUN, CH1_FFS_CC_UNDERRUN, CH0_FFS_CC_OVERRUN, CH1_FFS_CC_OVERRUN, + output CH0_FFS_RXFBFIFO_ERROR, CH1_FFS_RXFBFIFO_ERROR, CH0_FFS_TXFBFIFO_ERROR, CH1_FFS_TXFBFIFO_ERROR, CH0_FFS_RLOL, CH1_FFS_RLOL, CH0_FFS_SKP_ADDED, CH1_FFS_SKP_ADDED, + output CH0_FFS_SKP_DELETED, CH1_FFS_SKP_DELETED, CH0_LDR_RX2CORE, CH1_LDR_RX2CORE, D_SCIRDATA0, D_SCIRDATA1, D_SCIRDATA2, D_SCIRDATA3, + output D_SCIRDATA4, D_SCIRDATA5, D_SCIRDATA6, D_SCIRDATA7, D_SCIINT, D_SCAN_OUT_0, D_SCAN_OUT_1, D_SCAN_OUT_2, D_SCAN_OUT_3, D_SCAN_OUT_4, D_SCAN_OUT_5, D_SCAN_OUT_6, D_SCAN_OUT_7, + output D_COUT0, D_COUT1, D_COUT2, D_COUT3, D_COUT4, D_COUT5, D_COUT6, D_COUT7, D_COUT8, D_COUT9, D_COUT10, D_COUT11, D_COUT12, D_COUT13, D_COUT14, D_COUT15, D_COUT16, D_COUT17, D_COUT18, D_COUT19, + + input D_REFCLKI, + output D_FFS_PLOL +); + parameter CH0_AUTO_CALIB_EN = "0b0"; + parameter CH0_AUTO_FACQ_EN = "0b0"; + parameter CH0_BAND_THRESHOLD = "0b000000"; + parameter CH0_CALIB_CK_MODE = "0b0"; + parameter CH0_CC_MATCH_1 = "0b0000000000"; + parameter CH0_CC_MATCH_2 = "0b0000000000"; + parameter CH0_CC_MATCH_3 = "0b0000000000"; + parameter CH0_CC_MATCH_4 = "0b0000000000"; + parameter CH0_CDR_CNT4SEL = "0b00"; + parameter CH0_CDR_CNT8SEL = "0b00"; + parameter CH0_CTC_BYPASS = "0b0"; + parameter CH0_DCOATDCFG = "0b00"; + parameter CH0_DCOATDDLY = "0b00"; + parameter CH0_DCOBYPSATD = "0b0"; + parameter CH0_DCOCALDIV = "0b000"; + parameter CH0_DCOCTLGI = "0b000"; + parameter CH0_DCODISBDAVOID = "0b0"; + parameter CH0_DCOFLTDAC = "0b00"; + parameter CH0_DCOFTNRG = "0b000"; + parameter CH0_DCOIOSTUNE = "0b000"; + parameter CH0_DCOITUNE = "0b00"; + parameter CH0_DCOITUNE4LSB = "0b000"; + parameter CH0_DCOIUPDNX2 = "0b0"; + parameter CH0_DCONUOFLSB = "0b000"; + parameter CH0_DCOSCALEI = "0b00"; + parameter CH0_DCOSTARTVAL = "0b000"; + parameter CH0_DCOSTEP = "0b00"; + parameter CH0_DEC_BYPASS = "0b0"; + parameter CH0_ENABLE_CG_ALIGN = "0b0"; + parameter CH0_ENC_BYPASS = "0b0"; + parameter CH0_FF_RX_F_CLK_DIS = "0b0"; + parameter CH0_FF_RX_H_CLK_EN = "0b0"; + parameter CH0_FF_TX_F_CLK_DIS = "0b0"; + parameter CH0_FF_TX_H_CLK_EN = "0b0"; + parameter CH0_GE_AN_ENABLE = "0b0"; + parameter CH0_INVERT_RX = "0b0"; + parameter CH0_INVERT_TX = "0b0"; + parameter CH0_LDR_CORE2TX_SEL = "0b0"; + parameter CH0_LDR_RX2CORE_SEL = "0b0"; + parameter CH0_LEQ_OFFSET_SEL = "0b0"; + parameter CH0_LEQ_OFFSET_TRIM = "0b000"; + parameter CH0_LSM_DISABLE = "0b0"; + parameter CH0_MATCH_2_ENABLE = "0b0"; + parameter CH0_MATCH_4_ENABLE = "0b0"; + parameter CH0_MIN_IPG_CNT = "0b00"; + parameter CH0_PCIE_EI_EN = "0b0"; + parameter CH0_PCIE_MODE = "0b0"; + parameter CH0_PCS_DET_TIME_SEL = "0b00"; + parameter CH0_PDEN_SEL = "0b0"; + parameter CH0_PRBS_ENABLE = "0b0"; + parameter CH0_PRBS_LOCK = "0b0"; + parameter CH0_PRBS_SELECTION = "0b0"; + parameter CH0_RATE_MODE_RX = "0b0"; + parameter CH0_RATE_MODE_TX = "0b0"; + parameter CH0_RCV_DCC_EN = "0b0"; + parameter CH0_REG_BAND_OFFSET = "0b0000"; + parameter CH0_REG_BAND_SEL = "0b000000"; + parameter CH0_REG_IDAC_EN = "0b0"; + parameter CH0_REG_IDAC_SEL = "0b0000000000"; + parameter CH0_REQ_EN = "0b0"; + parameter CH0_REQ_LVL_SET = "0b00"; + parameter CH0_RIO_MODE = "0b0"; + parameter CH0_RLOS_SEL = "0b0"; + parameter CH0_RPWDNB = "0b0"; + parameter CH0_RTERM_RX = "0b00000"; + parameter CH0_RTERM_TX = "0b00000"; + parameter CH0_RXIN_CM = "0b00"; + parameter CH0_RXTERM_CM = "0b00"; + parameter CH0_RX_DCO_CK_DIV = "0b000"; + parameter CH0_RX_DIV11_SEL = "0b0"; + parameter CH0_RX_GEAR_BYPASS = "0b0"; + parameter CH0_RX_GEAR_MODE = "0b0"; + parameter CH0_RX_LOS_CEQ = "0b00"; + parameter CH0_RX_LOS_EN = "0b0"; + parameter CH0_RX_LOS_HYST_EN = "0b0"; + parameter CH0_RX_LOS_LVL = "0b000"; + parameter CH0_RX_RATE_SEL = "0b0000"; + parameter CH0_RX_SB_BYPASS = "0b0"; + parameter CH0_SB_BYPASS = "0b0"; + parameter CH0_SEL_SD_RX_CLK = "0b0"; + parameter CH0_TDRV_DAT_SEL = "0b00"; + parameter CH0_TDRV_POST_EN = "0b0"; + parameter CH0_TDRV_PRE_EN = "0b0"; + parameter CH0_TDRV_SLICE0_CUR = "0b000"; + parameter CH0_TDRV_SLICE0_SEL = "0b00"; + parameter CH0_TDRV_SLICE1_CUR = "0b000"; + parameter CH0_TDRV_SLICE1_SEL = "0b00"; + parameter CH0_TDRV_SLICE2_CUR = "0b00"; + parameter CH0_TDRV_SLICE2_SEL = "0b00"; + parameter CH0_TDRV_SLICE3_CUR = "0b00"; + parameter CH0_TDRV_SLICE3_SEL = "0b00"; + parameter CH0_TDRV_SLICE4_CUR = "0b00"; + parameter CH0_TDRV_SLICE4_SEL = "0b00"; + parameter CH0_TDRV_SLICE5_CUR = "0b00"; + parameter CH0_TDRV_SLICE5_SEL = "0b00"; + parameter CH0_TPWDNB = "0b0"; + parameter CH0_TX_CM_SEL = "0b00"; + parameter CH0_TX_DIV11_SEL = "0b0"; + parameter CH0_TX_GEAR_BYPASS = "0b0"; + parameter CH0_TX_GEAR_MODE = "0b0"; + parameter CH0_TX_POST_SIGN = "0b0"; + parameter CH0_TX_PRE_SIGN = "0b0"; + parameter CH0_UC_MODE = "0b0"; + parameter CH0_UDF_COMMA_A = "0b0000000000"; + parameter CH0_UDF_COMMA_B = "0b0000000000"; + parameter CH0_UDF_COMMA_MASK = "0b0000000000"; + parameter CH0_WA_BYPASS = "0b0"; + parameter CH0_WA_MODE = "0b0"; + parameter CH1_AUTO_CALIB_EN = "0b0"; + parameter CH1_AUTO_FACQ_EN = "0b0"; + parameter CH1_BAND_THRESHOLD = "0b000000"; + parameter CH1_CALIB_CK_MODE = "0b0"; + parameter CH1_CC_MATCH_1 = "0b0000000000"; + parameter CH1_CC_MATCH_2 = "0b0000000000"; + parameter CH1_CC_MATCH_3 = "0b0000000000"; + parameter CH1_CC_MATCH_4 = "0b0000000000"; + parameter CH1_CDR_CNT4SEL = "0b00"; + parameter CH1_CDR_CNT8SEL = "0b00"; + parameter CH1_CTC_BYPASS = "0b0"; + parameter CH1_DCOATDCFG = "0b00"; + parameter CH1_DCOATDDLY = "0b00"; + parameter CH1_DCOBYPSATD = "0b0"; + parameter CH1_DCOCALDIV = "0b000"; + parameter CH1_DCOCTLGI = "0b000"; + parameter CH1_DCODISBDAVOID = "0b0"; + parameter CH1_DCOFLTDAC = "0b00"; + parameter CH1_DCOFTNRG = "0b000"; + parameter CH1_DCOIOSTUNE = "0b000"; + parameter CH1_DCOITUNE = "0b00"; + parameter CH1_DCOITUNE4LSB = "0b000"; + parameter CH1_DCOIUPDNX2 = "0b0"; + parameter CH1_DCONUOFLSB = "0b000"; + parameter CH1_DCOSCALEI = "0b00"; + parameter CH1_DCOSTARTVAL = "0b000"; + parameter CH1_DCOSTEP = "0b00"; + parameter CH1_DEC_BYPASS = "0b0"; + parameter CH1_ENABLE_CG_ALIGN = "0b0"; + parameter CH1_ENC_BYPASS = "0b0"; + parameter CH1_FF_RX_F_CLK_DIS = "0b0"; + parameter CH1_FF_RX_H_CLK_EN = "0b0"; + parameter CH1_FF_TX_F_CLK_DIS = "0b0"; + parameter CH1_FF_TX_H_CLK_EN = "0b0"; + parameter CH1_GE_AN_ENABLE = "0b0"; + parameter CH1_INVERT_RX = "0b0"; + parameter CH1_INVERT_TX = "0b0"; + parameter CH1_LDR_CORE2TX_SEL = "0b0"; + parameter CH1_LDR_RX2CORE_SEL = "0b0"; + parameter CH1_LEQ_OFFSET_SEL = "0b0"; + parameter CH1_LEQ_OFFSET_TRIM = "0b000"; + parameter CH1_LSM_DISABLE = "0b0"; + parameter CH1_MATCH_2_ENABLE = "0b0"; + parameter CH1_MATCH_4_ENABLE = "0b0"; + parameter CH1_MIN_IPG_CNT = "0b00"; + parameter CH1_PCIE_EI_EN = "0b0"; + parameter CH1_PCIE_MODE = "0b0"; + parameter CH1_PCS_DET_TIME_SEL = "0b00"; + parameter CH1_PDEN_SEL = "0b0"; + parameter CH1_PRBS_ENABLE = "0b0"; + parameter CH1_PRBS_LOCK = "0b0"; + parameter CH1_PRBS_SELECTION = "0b0"; + parameter CH1_RATE_MODE_RX = "0b0"; + parameter CH1_RATE_MODE_TX = "0b0"; + parameter CH1_RCV_DCC_EN = "0b0"; + parameter CH1_REG_BAND_OFFSET = "0b0000"; + parameter CH1_REG_BAND_SEL = "0b000000"; + parameter CH1_REG_IDAC_EN = "0b0"; + parameter CH1_REG_IDAC_SEL = "0b0000000000"; + parameter CH1_REQ_EN = "0b0"; + parameter CH1_REQ_LVL_SET = "0b00"; + parameter CH1_RIO_MODE = "0b0"; + parameter CH1_RLOS_SEL = "0b0"; + parameter CH1_RPWDNB = "0b0"; + parameter CH1_RTERM_RX = "0b00000"; + parameter CH1_RTERM_TX = "0b00000"; + parameter CH1_RXIN_CM = "0b00"; + parameter CH1_RXTERM_CM = "0b00"; + parameter CH1_RX_DCO_CK_DIV = "0b000"; + parameter CH1_RX_DIV11_SEL = "0b0"; + parameter CH1_RX_GEAR_BYPASS = "0b0"; + parameter CH1_RX_GEAR_MODE = "0b0"; + parameter CH1_RX_LOS_CEQ = "0b00"; + parameter CH1_RX_LOS_EN = "0b0"; + parameter CH1_RX_LOS_HYST_EN = "0b0"; + parameter CH1_RX_LOS_LVL = "0b000"; + parameter CH1_RX_RATE_SEL = "0b0000"; + parameter CH1_RX_SB_BYPASS = "0b0"; + parameter CH1_SB_BYPASS = "0b0"; + parameter CH1_SEL_SD_RX_CLK = "0b0"; + parameter CH1_TDRV_DAT_SEL = "0b00"; + parameter CH1_TDRV_POST_EN = "0b0"; + parameter CH1_TDRV_PRE_EN = "0b0"; + parameter CH1_TDRV_SLICE0_CUR = "0b000"; + parameter CH1_TDRV_SLICE0_SEL = "0b00"; + parameter CH1_TDRV_SLICE1_CUR = "0b000"; + parameter CH1_TDRV_SLICE1_SEL = "0b00"; + parameter CH1_TDRV_SLICE2_CUR = "0b00"; + parameter CH1_TDRV_SLICE2_SEL = "0b00"; + parameter CH1_TDRV_SLICE3_CUR = "0b00"; + parameter CH1_TDRV_SLICE3_SEL = "0b00"; + parameter CH1_TDRV_SLICE4_CUR = "0b00"; + parameter CH1_TDRV_SLICE4_SEL = "0b00"; + parameter CH1_TDRV_SLICE5_CUR = "0b00"; + parameter CH1_TDRV_SLICE5_SEL = "0b00"; + parameter CH1_TPWDNB = "0b0"; + parameter CH1_TX_CM_SEL = "0b00"; + parameter CH1_TX_DIV11_SEL = "0b0"; + parameter CH1_TX_GEAR_BYPASS = "0b0"; + parameter CH1_TX_GEAR_MODE = "0b0"; + parameter CH1_TX_POST_SIGN = "0b0"; + parameter CH1_TX_PRE_SIGN = "0b0"; + parameter CH1_UC_MODE = "0b0"; + parameter CH1_UDF_COMMA_A = "0b0000000000"; + parameter CH1_UDF_COMMA_B = "0b0000000000"; + parameter CH1_UDF_COMMA_MASK = "0b0000000000"; + parameter CH1_WA_BYPASS = "0b0"; + parameter CH1_WA_MODE = "0b0"; + parameter D_BITCLK_FROM_ND_EN = "0b0"; + parameter D_BITCLK_LOCAL_EN = "0b0"; + parameter D_BITCLK_ND_EN = "0b0"; + parameter D_BUS8BIT_SEL = "0b0"; + parameter D_CDR_LOL_SET = "0b00"; + parameter D_CMUSETBIASI = "0b00"; + parameter D_CMUSETI4CPP = "0b0000"; + parameter D_CMUSETI4CPZ = "0b0000"; + parameter D_CMUSETI4VCO = "0b00"; + parameter D_CMUSETICP4P = "0b00"; + parameter D_CMUSETICP4Z = "0b000"; + parameter D_CMUSETINITVCT = "0b00"; + parameter D_CMUSETISCL4VCO = "0b000"; + parameter D_CMUSETP1GM = "0b000"; + parameter D_CMUSETP2AGM = "0b000"; + parameter D_CMUSETZGM = "0b000"; + parameter D_DCO_CALIB_TIME_SEL = "0b00"; + parameter D_HIGH_MARK = "0b0000"; + parameter D_IB_PWDNB = "0b0"; + parameter D_ISETLOS = "0b00000000"; + parameter D_LOW_MARK = "0b0000"; + parameter D_MACROPDB = "0b0"; + parameter D_PD_ISET = "0b00"; + parameter D_PLL_LOL_SET = "0b00"; + parameter D_REFCK_MODE = "0b000"; + parameter D_REQ_ISET = "0b000"; + parameter D_RG_EN = "0b0"; + parameter D_RG_SET = "0b00"; + parameter D_SETICONST_AUX = "0b00"; + parameter D_SETICONST_CH = "0b00"; + parameter D_SETIRPOLY_AUX = "0b00"; + parameter D_SETIRPOLY_CH = "0b00"; + parameter D_SETPLLRC = "0b000000"; + parameter D_SYNC_LOCAL_EN = "0b0"; + parameter D_SYNC_ND_EN = "0b0"; + parameter D_TXPLL_PWDNB = "0b0"; + parameter D_TX_VCO_CK_DIV = "0b000"; + parameter D_XGE_MODE = "0b0"; + +// These parameters don't do anything but are +// needed for compatibility with Diamond + parameter D_TX_MAX_RATE = "2.5"; + parameter D_RX_MAX_RATE = "2.5"; + parameter CH0_TXAMPLITUDE = "0d1300"; + parameter CH1_TXAMPLITUDE = "0d1300"; + parameter CH0_PROTOCOL = "8B10B"; + parameter CH1_PROTOCOL = "8B10B"; + parameter CH0_CDR_MAX_RATE = "2.5"; + parameter CH1_CDR_MAX_RATE = "2.5"; +endmodule + +(* blackbox *) +module EXTREFB ( + input REFCLKP, REFCLKN, + output REFCLKO +); + parameter REFCK_PWDNB = "0b0"; + parameter REFCK_RTERM = "0b0"; + parameter REFCK_DCBIAS_EN = "0b0"; +endmodule + +(* blackbox *) +module PCSCLKDIV ( + input CLKI, RST, SEL2, SEL1, SEL0, + output CDIV1, CDIVX +); + parameter GSR = "DISABLED"; +endmodule + +// Note: this module is not marked keep as we want it swept away in synth (sim use only) +(* blackbox *) +module PUR ( + input PUR +); + parameter RST_PULSE = 1; +endmodule + +(* blackbox, keep *) +module GSR ( + input GSR +); +endmodule + +(* blackbox, keep *) +module SGSR ( + input GSR, CLK +); +endmodule
\ No newline at end of file diff --git a/techlibs/ecp5/cells_ff.vh b/techlibs/ecp5/cells_ff.vh new file mode 100644 index 000000000..0c9689ebd --- /dev/null +++ b/techlibs/ecp5/cells_ff.vh @@ -0,0 +1,40 @@ +// Diamond flip-flops +module FD1P3AX(input D, SP, CK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(CK), .LSR(0), .CE(SP), .DI(D), .Q(Q)); endmodule +module FD1P3AY(input D, SP, CK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(CK), .LSR(0), .CE(SP), .DI(D), .Q(Q)); endmodule +module FD1P3BX(input PD, D, SP, CK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(CK), .LSR(PD), .CE(SP), .DI(D), .Q(Q)); endmodule +module FD1P3DX(input CD, D, SP, CK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(CK), .LSR(CD), .CE(SP), .DI(D), .Q(Q)); endmodule +module FD1P3IX(input CD, D, SP, CK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(CK), .LSR(CD), .CE(SP), .DI(D), .Q(Q)); endmodule +module FD1P3JX(input PD, D, SP, CK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(CK), .LSR(PD), .CE(SP), .DI(D), .Q(Q)); endmodule +module FD1S3AX(input D, CK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("1"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(CK), .LSR(0), .DI(D), .Q(Q)); endmodule +module FD1S3AY(input D, CK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("1"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(CK), .LSR(0), .DI(D), .Q(Q)); endmodule +module FD1S3BX(input PD, D, CK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("1"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(CK), .LSR(PD), .DI(D), .Q(Q)); endmodule +module FD1S3DX(input CD, D, CK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("1"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(CK), .LSR(CD), .DI(D), .Q(Q)); endmodule +module FD1S3IX(input CD, D, CK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("1"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(CK), .LSR(CD), .DI(D), .Q(Q)); endmodule +module FD1S3JX(input PD, D, CK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("1"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(CK), .LSR(PD), .DI(D), .Q(Q)); endmodule + +// TODO: Diamond latches +// module FL1P3AY(); endmodule +// module FL1P3AZ(); endmodule +// module FL1P3BX(); endmodule +// module FL1P3DX(); endmodule +// module FL1P3IY(); endmodule +// module FL1P3JY(); endmodule +// module FL1S3AX(); endmodule +// module FL1S3AY(); endmodule + +// Diamond I/O registers +module IFS1P3BX(input PD, D, SP, SCLK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(SCLK), .LSR(PD), .CE(SP), .DI(D), .Q(Q)); endmodule +module IFS1P3DX(input CD, D, SP, SCLK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(SCLK), .LSR(CD), .CE(SP), .DI(D), .Q(Q)); endmodule +module IFS1P3IX(input CD, D, SP, SCLK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(SCLK), .LSR(CD), .CE(SP), .DI(D), .Q(Q)); endmodule +module IFS1P3JX(input PD, D, SP, SCLK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(SCLK), .LSR(PD), .CE(SP), .DI(D), .Q(Q)); endmodule + +module OFS1P3BX(input PD, D, SP, SCLK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(SCLK), .LSR(PD), .CE(SP), .DI(D), .Q(Q)); endmodule +module OFS1P3DX(input CD, D, SP, SCLK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(SCLK), .LSR(CD), .CE(SP), .DI(D), .Q(Q)); endmodule +module OFS1P3IX(input CD, D, SP, SCLK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(SCLK), .LSR(CD), .CE(SP), .DI(D), .Q(Q)); endmodule +module OFS1P3JX(input PD, D, SP, SCLK, output Q); parameter GSR = "ENABLED"; TRELLIS_FF #(.GSR(GSR), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(SCLK), .LSR(PD), .CE(SP), .DI(D), .Q(Q)); endmodule + +// TODO: Diamond I/O latches +// module IFS1S1B(input PD, D, SCLK, output Q); endmodule +// module IFS1S1D(input CD, D, SCLK, output Q); endmodule +// module IFS1S1I(input PD, D, SCLK, output Q); endmodule +// module IFS1S1J(input CD, D, SCLK, output Q); endmodule diff --git a/techlibs/ecp5/cells_io.vh b/techlibs/ecp5/cells_io.vh new file mode 100644 index 000000000..02e66e8a5 --- /dev/null +++ b/techlibs/ecp5/cells_io.vh @@ -0,0 +1,14 @@ +// Diamond I/O buffers +module IB (input I, output O); (* PULLMODE="NONE" *) TRELLIS_IO #(.DIR("INPUT")) _TECHMAP_REPLACE_ (.B(I), .O(O)); endmodule +module IBPU (input I, output O); (* PULLMODE="UP" *) TRELLIS_IO #(.DIR("INPUT")) _TECHMAP_REPLACE_ (.B(I), .O(O)); endmodule +module IBPD (input I, output O); (* PULLMODE="DOWN" *) TRELLIS_IO #(.DIR("INPUT")) _TECHMAP_REPLACE_ (.B(I), .O(O)); endmodule +module OB (input I, output O); (* PULLMODE="NONE" *) TRELLIS_IO #(.DIR("OUTPUT")) _TECHMAP_REPLACE_ (.B(O), .I(I)); endmodule +module OBZ (input I, T, output O); (* PULLMODE="NONE" *) TRELLIS_IO #(.DIR("OUTPUT")) _TECHMAP_REPLACE_ (.B(O), .I(I), .T(T)); endmodule +module OBZPU(input I, T, output O); (* PULLMODE="UP" *) TRELLIS_IO #(.DIR("OUTPUT")) _TECHMAP_REPLACE_ (.B(O), .I(I), .T(T)); endmodule +module OBZPD(input I, T, output O); (* PULLMODE="DOWN" *) TRELLIS_IO #(.DIR("OUTPUT")) _TECHMAP_REPLACE_ (.B(O), .I(I), .T(T)); endmodule +module OBCO (input I, output OT, OC); OLVDS olvds (.A(I), .Z(OT), .ZN(OC)); endmodule +module BB (input I, T, output O, inout B); (* PULLMODE="NONE" *) TRELLIS_IO #(.DIR("BIDIR")) _TECHMAP_REPLACE_ (.B(B), .I(I), .O(O), .T(T)); endmodule +module BBPU (input I, T, output O, inout B); (* PULLMODE="UP" *) TRELLIS_IO #(.DIR("BIDIR")) _TECHMAP_REPLACE_ (.B(B), .I(I), .O(O), .T(T)); endmodule +module BBPD (input I, T, output O, inout B); (* PULLMODE="DOWN" *) TRELLIS_IO #(.DIR("BIDIR")) _TECHMAP_REPLACE_ (.B(B), .I(I), .O(O), .T(T)); endmodule +module ILVDS(input A, AN, output Z ); TRELLIS_IO #(.DIR("INPUT")) _TECHMAP_REPLACE_ (.B(A), .O(Z)); endmodule +module OLVDS(input A, output Z, ZN); TRELLIS_IO #(.DIR("OUTPUT")) _TECHMAP_REPLACE_ (.B(Z), .I(A)); endmodule diff --git a/techlibs/ecp5/cells_map.v b/techlibs/ecp5/cells_map.v new file mode 100644 index 000000000..71ae9237b --- /dev/null +++ b/techlibs/ecp5/cells_map.v @@ -0,0 +1,163 @@ +module \$_DFF_N_ (input D, C, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("RESET")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(1'b0), .DI(D), .Q(Q)); endmodule +module \$_DFF_P_ (input D, C, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(1'b0), .DI(D), .Q(Q)); endmodule + +module \$_DFFE_NN_ (input D, C, E, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("INV"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("RESET")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(1'b0), .DI(D), .Q(Q)); endmodule +module \$_DFFE_PN_ (input D, C, E, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("INV"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(1'b0), .DI(D), .Q(Q)); endmodule + +module \$_DFFE_NP_ (input D, C, E, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("RESET")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(1'b0), .DI(D), .Q(Q)); endmodule +module \$_DFFE_PP_ (input D, C, E, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(1'b0), .DI(D), .Q(Q)); endmodule + +module \$_DFF_NN0_ (input D, C, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(!R), .DI(D), .Q(Q)); endmodule +module \$_DFF_NN1_ (input D, C, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(!R), .DI(D), .Q(Q)); endmodule +module \$_DFF_PN0_ (input D, C, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(!R), .DI(D), .Q(Q)); endmodule +module \$_DFF_PN1_ (input D, C, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(!R), .DI(D), .Q(Q)); endmodule + +module \$_DFF_NP0_ (input D, C, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(R), .DI(D), .Q(Q)); endmodule +module \$_DFF_NP1_ (input D, C, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(R), .DI(D), .Q(Q)); endmodule +module \$_DFF_PP0_ (input D, C, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(R), .DI(D), .Q(Q)); endmodule +module \$_DFF_PP1_ (input D, C, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(R), .DI(D), .Q(Q)); endmodule + +module \$__DFFS_NN0_ (input D, C, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(!R), .DI(D), .Q(Q)); endmodule +module \$__DFFS_NN1_ (input D, C, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(!R), .DI(D), .Q(Q)); endmodule +module \$__DFFS_PN0_ (input D, C, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(!R), .DI(D), .Q(Q)); endmodule +module \$__DFFS_PN1_ (input D, C, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(!R), .DI(D), .Q(Q)); endmodule + +module \$__DFFS_NP0_ (input D, C, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(R), .DI(D), .Q(Q)); endmodule +module \$__DFFS_NP1_ (input D, C, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(R), .DI(D), .Q(Q)); endmodule +module \$__DFFS_PP0_ (input D, C, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(R), .DI(D), .Q(Q)); endmodule +module \$__DFFS_PP1_ (input D, C, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("1"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .LSR(R), .DI(D), .Q(Q)); endmodule + +module \$__DFFE_NN0 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(!R), .DI(D), .Q(Q)); endmodule +module \$__DFFE_NN1 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(!R), .DI(D), .Q(Q)); endmodule +module \$__DFFE_PN0 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(!R), .DI(D), .Q(Q)); endmodule +module \$__DFFE_PN1 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(!R), .DI(D), .Q(Q)); endmodule + +module \$__DFFE_NP0 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(R), .DI(D), .Q(Q)); endmodule +module \$__DFFE_NP1 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(R), .DI(D), .Q(Q)); endmodule +module \$__DFFE_PP0 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(R), .DI(D), .Q(Q)); endmodule +module \$__DFFE_PP1 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(R), .DI(D), .Q(Q)); endmodule + +module \$__DFFSE_NN0 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(!R), .DI(D), .Q(Q)); endmodule +module \$__DFFSE_NN1 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(!R), .DI(D), .Q(Q)); endmodule +module \$__DFFSE_PN0 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(!R), .DI(D), .Q(Q)); endmodule +module \$__DFFSE_PN1 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(!R), .DI(D), .Q(Q)); endmodule + +module \$__DFFSE_NP0 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(R), .DI(D), .Q(Q)); endmodule +module \$__DFFSE_NP1 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("INV"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(R), .DI(D), .Q(Q)); endmodule +module \$__DFFSE_PP0 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(R), .DI(D), .Q(Q)); endmodule +module \$__DFFSE_PP1 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("AUTO"), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(R), .DI(D), .Q(Q)); endmodule + +`include "cells_ff.vh" +`include "cells_io.vh" + +`ifndef NO_LUT +module \$lut (A, Y); + parameter WIDTH = 0; + parameter LUT = 0; + + input [WIDTH-1:0] A; + output Y; + + // Need to swap input ordering, and fix init accordingly, + // to match ABC's expectation of LUT inputs in non-decreasing + // delay order + localparam P_WIDTH = WIDTH < 4 ? 4 : WIDTH; + function [P_WIDTH-1:0] permute_index; + input [P_WIDTH-1:0] i; + integer j; + begin + permute_index = 0; + for (j = 0; j < P_WIDTH; j = j + 1) + permute_index[P_WIDTH-1 - j] = i[j]; + end + endfunction + + function [2**P_WIDTH-1:0] permute_init; + integer i; + begin + permute_init = 0; + for (i = 0; i < 2**P_WIDTH; i = i + 1) + permute_init[i] = LUT[permute_index(i)]; + end + endfunction + + parameter [2**P_WIDTH-1:0] P_LUT = permute_init(); + + generate + if (WIDTH == 1) begin + LUT4 #(.INIT(P_LUT)) _TECHMAP_REPLACE_ (.Z(Y), + .A(1'b0), .B(1'b0), .C(1'b0), .D(A[0])); + end else + if (WIDTH == 2) begin + LUT4 #(.INIT(P_LUT)) _TECHMAP_REPLACE_ (.Z(Y), + .A(1'b0), .B(1'b0), .C(A[1]), .D(A[0])); + end else + if (WIDTH == 3) begin + LUT4 #(.INIT(P_LUT)) _TECHMAP_REPLACE_ (.Z(Y), + .A(1'b0), .B(A[2]), .C(A[1]), .D(A[0])); + end else + if (WIDTH == 4) begin + LUT4 #(.INIT(P_LUT)) _TECHMAP_REPLACE_ (.Z(Y), + .A(A[3]), .B(A[2]), .C(A[1]), .D(A[0])); + `ifndef NO_PFUMUX + end else + if (WIDTH == 5) begin + wire f0, f1; + LUT4 #(.INIT(P_LUT[15: 0])) lut0 (.Z(f0), + .A(A[4]), .B(A[3]), .C(A[2]), .D(A[1])); + LUT4 #(.INIT(P_LUT[31:16])) lut1 (.Z(f1), + .A(A[4]), .B(A[3]), .C(A[2]), .D(A[1])); + PFUMX mux5(.ALUT(f1), .BLUT(f0), .C0(A[0]), .Z(Y)); + end else + if (WIDTH == 6) begin + wire f0, f1, f2, f3, g0, g1; + LUT4 #(.INIT(P_LUT[15: 0])) lut0 (.Z(f0), + .A(A[5]), .B(A[4]), .C(A[3]), .D(A[2])); + LUT4 #(.INIT(P_LUT[31:16])) lut1 (.Z(f1), + .A(A[5]), .B(A[4]), .C(A[3]), .D(A[2])); + + LUT4 #(.INIT(P_LUT[47:32])) lut2 (.Z(f2), + .A(A[5]), .B(A[4]), .C(A[3]), .D(A[2])); + LUT4 #(.INIT(P_LUT[63:48])) lut3 (.Z(f3), + .A(A[5]), .B(A[4]), .C(A[3]), .D(A[2])); + + PFUMX mux50(.ALUT(f1), .BLUT(f0), .C0(A[1]), .Z(g0)); + PFUMX mux51(.ALUT(f3), .BLUT(f2), .C0(A[1]), .Z(g1)); + L6MUX21 mux6 (.D0(g0), .D1(g1), .SD(A[0]), .Z(Y)); + end else + if (WIDTH == 7) begin + wire f0, f1, f2, f3, f4, f5, f6, f7, g0, g1, g2, g3, h0, h1; + LUT4 #(.INIT(P_LUT[15: 0])) lut0 (.Z(f0), + .A(A[6]), .B(A[5]), .C(A[4]), .D(A[3])); + LUT4 #(.INIT(P_LUT[31:16])) lut1 (.Z(f1), + .A(A[6]), .B(A[5]), .C(A[4]), .D(A[3])); + + LUT4 #(.INIT(P_LUT[47:32])) lut2 (.Z(f2), + .A(A[6]), .B(A[5]), .C(A[4]), .D(A[3])); + LUT4 #(.INIT(P_LUT[63:48])) lut3 (.Z(f3), + .A(A[6]), .B(A[5]), .C(A[4]), .D(A[3])); + + LUT4 #(.INIT(P_LUT[79:64])) lut4 (.Z(f4), + .A(A[6]), .B(A[5]), .C(A[4]), .D(A[3])); + LUT4 #(.INIT(P_LUT[95:80])) lut5 (.Z(f5), + .A(A[6]), .B(A[5]), .C(A[4]), .D(A[3])); + + LUT4 #(.INIT(P_LUT[111: 96])) lut6 (.Z(f6), + .A(A[6]), .B(A[5]), .C(A[4]), .D(A[3])); + LUT4 #(.INIT(P_LUT[127:112])) lut7 (.Z(f7), + .A(A[6]), .B(A[5]), .C(A[4]), .D(A[3])); + + PFUMX mux50(.ALUT(f1), .BLUT(f0), .C0(A[2]), .Z(g0)); + PFUMX mux51(.ALUT(f3), .BLUT(f2), .C0(A[2]), .Z(g1)); + PFUMX mux52(.ALUT(f5), .BLUT(f4), .C0(A[2]), .Z(g2)); + PFUMX mux53(.ALUT(f7), .BLUT(f6), .C0(A[2]), .Z(g3)); + L6MUX21 mux60 (.D0(g0), .D1(g1), .SD(A[1]), .Z(h0)); + L6MUX21 mux61 (.D0(g2), .D1(g3), .SD(A[1]), .Z(h1)); + L6MUX21 mux7 (.D0(h0), .D1(h1), .SD(A[0]), .Z(Y)); + `endif + end else begin + wire _TECHMAP_FAIL_ = 1; + end + endgenerate +endmodule +`endif diff --git a/techlibs/ecp5/cells_sim.v b/techlibs/ecp5/cells_sim.v new file mode 100644 index 000000000..db77dc127 --- /dev/null +++ b/techlibs/ecp5/cells_sim.v @@ -0,0 +1,699 @@ +// --------------------------------------- + +module LUT4(input A, B, C, D, output Z); + parameter [15:0] INIT = 16'h0000; + wire [7:0] s3 = D ? INIT[15:8] : INIT[7:0]; + wire [3:0] s2 = C ? s3[ 7:4] : s3[3:0]; + wire [1:0] s1 = B ? s2[ 3:2] : s2[1:0]; + assign Z = A ? s1[1] : s1[0]; +endmodule + +// --------------------------------------- +(* abc_box_id=4, lib_whitebox *) +module L6MUX21 (input D0, D1, SD, output Z); + assign Z = SD ? D1 : D0; +endmodule + +// --------------------------------------- +(* abc_box_id=1, lib_whitebox *) +module CCU2C( + (* abc_carry *) + input CIN, + input A0, B0, C0, D0, A1, B1, C1, D1, + output S0, S1, + (* abc_carry *) + output COUT +); + parameter [15:0] INIT0 = 16'h0000; + parameter [15:0] INIT1 = 16'h0000; + parameter INJECT1_0 = "YES"; + parameter INJECT1_1 = "YES"; + + // First half + wire LUT4_0, LUT2_0; +`ifdef _ABC + assign LUT4_0 = INIT0[{D0, C0, B0, A0}]; + assign LUT2_0 = INIT0[{2'b00, B0, A0}]; +`else + LUT4 #(.INIT(INIT0)) lut4_0(.A(A0), .B(B0), .C(C0), .D(D0), .Z(LUT4_0)); + LUT2 #(.INIT(INIT0[3:0])) lut2_0(.A(A0), .B(B0), .Z(LUT2_0)); +`endif + wire gated_cin_0 = (INJECT1_0 == "YES") ? 1'b0 : CIN; + assign S0 = LUT4_0 ^ gated_cin_0; + + wire gated_lut2_0 = (INJECT1_0 == "YES") ? 1'b0 : LUT2_0; + wire cout_0 = (~LUT4_0 & gated_lut2_0) | (LUT4_0 & CIN); + + // Second half + wire LUT4_1, LUT2_1; +`ifdef _ABC + assign LUT4_1 = INIT1[{D1, C1, B1, A1}]; + assign LUT2_1 = INIT1[{2'b00, B1, A1}]; +`else + LUT4 #(.INIT(INIT1)) lut4_1(.A(A1), .B(B1), .C(C1), .D(D1), .Z(LUT4_1)); + LUT2 #(.INIT(INIT1[3:0])) lut2_1(.A(A1), .B(B1), .Z(LUT2_1)); +`endif + wire gated_cin_1 = (INJECT1_1 == "YES") ? 1'b0 : cout_0; + assign S1 = LUT4_1 ^ gated_cin_1; + + wire gated_lut2_1 = (INJECT1_1 == "YES") ? 1'b0 : LUT2_1; + assign COUT = (~LUT4_1 & gated_lut2_1) | (LUT4_1 & cout_0); + +endmodule + +// --------------------------------------- + +module TRELLIS_RAM16X2 ( + input DI0, DI1, + input WAD0, WAD1, WAD2, WAD3, + input WRE, WCK, + input RAD0, RAD1, RAD2, RAD3, + output DO0, DO1 +); + parameter WCKMUX = "WCK"; + parameter WREMUX = "WRE"; + parameter INITVAL_0 = 16'h0000; + parameter INITVAL_1 = 16'h0000; + + reg [1:0] mem[15:0]; + + integer i; + initial begin + for (i = 0; i < 16; i = i + 1) + mem[i] <= {INITVAL_1[i], INITVAL_0[i]}; + end + + wire muxwck = (WCKMUX == "INV") ? ~WCK : WCK; + + reg muxwre; + always @(*) + case (WREMUX) + "1": muxwre = 1'b1; + "0": muxwre = 1'b0; + "INV": muxwre = ~WRE; + default: muxwre = WRE; + endcase + + + always @(posedge muxwck) + if (muxwre) + mem[{WAD3, WAD2, WAD1, WAD0}] <= {DI1, DI0}; + + assign {DO1, DO0} = mem[{RAD3, RAD2, RAD1, RAD0}]; +endmodule + +// --------------------------------------- +(* abc_box_id=3, lib_whitebox *) +module PFUMX (input ALUT, BLUT, C0, output Z); + assign Z = C0 ? ALUT : BLUT; +endmodule + +// --------------------------------------- +module TRELLIS_DPR16X4 ( + input [3:0] DI, + input [3:0] WAD, + input WRE, + input WCK, + input [3:0] RAD, + /* (* abc_arrival=<TODO> *) */ + output [3:0] DO +); + parameter WCKMUX = "WCK"; + parameter WREMUX = "WRE"; + parameter [63:0] INITVAL = 64'h0000000000000000; + + reg [3:0] mem[15:0]; + + integer i; + initial begin + for (i = 0; i < 16; i = i + 1) + mem[i] <= {INITVAL[i+3], INITVAL[i+2], INITVAL[i+1], INITVAL[i]}; + end + + wire muxwck = (WCKMUX == "INV") ? ~WCK : WCK; + + reg muxwre; + always @(*) + case (WREMUX) + "1": muxwre = 1'b1; + "0": muxwre = 1'b0; + "INV": muxwre = ~WRE; + default: muxwre = WRE; + endcase + + always @(posedge muxwck) + if (muxwre) + mem[WAD] <= DI; + + assign DO = mem[RAD]; +endmodule + +// --------------------------------------- + +module DPR16X4C ( + input [3:0] DI, + input WCK, WRE, + input [3:0] RAD, + input [3:0] WAD, + output [3:0] DO +); + // For legacy Lattice compatibility, INITIVAL is a hex + // string rather than a numeric parameter + parameter INITVAL = "0x0000000000000000"; + + function [63:0] convert_initval; + input [143:0] hex_initval; + reg done; + reg [63:0] temp; + reg [7:0] char; + integer i; + begin + done = 1'b0; + temp = 0; + for (i = 0; i < 16; i = i + 1) begin + if (!done) begin + char = hex_initval[8*i +: 8]; + if (char == "x") begin + done = 1'b1; + end else begin + if (char >= "0" && char <= "9") + temp[4*i +: 4] = char - "0"; + else if (char >= "A" && char <= "F") + temp[4*i +: 4] = 10 + char - "A"; + else if (char >= "a" && char <= "f") + temp[4*i +: 4] = 10 + char - "a"; + end + end + end + convert_initval = temp; + end + endfunction + + localparam conv_initval = convert_initval(INITVAL); + + reg [3:0] ram[0:15]; + integer i; + initial begin + for (i = 0; i < 15; i = i + 1) begin + ram[i] <= conv_initval[4*i +: 4]; + end + end + + always @(posedge WCK) + if (WRE) + ram[WAD] <= DI; + + assign DO = ram[RAD]; + +endmodule + +// --------------------------------------- + +module LUT2(input A, B, output Z); + parameter [3:0] INIT = 4'h0; + wire [1:0] s1 = B ? INIT[ 3:2] : INIT[1:0]; + assign Z = A ? s1[1] : s1[0]; +endmodule + +// --------------------------------------- + +module TRELLIS_FF(input CLK, LSR, CE, DI, M, output reg Q); + parameter GSR = "ENABLED"; + parameter [127:0] CEMUX = "1"; + parameter CLKMUX = "CLK"; + parameter LSRMUX = "LSR"; + parameter SRMODE = "LSR_OVER_CE"; + parameter REGSET = "RESET"; + parameter [127:0] LSRMODE = "LSR"; + + wire muxce; + generate + case (CEMUX) + "1": assign muxce = 1'b1; + "0": assign muxce = 1'b0; + "INV": assign muxce = ~CE; + default: assign muxce = CE; + endcase + endgenerate + + wire muxlsr = (LSRMUX == "INV") ? ~LSR : LSR; + wire muxclk = (CLKMUX == "INV") ? ~CLK : CLK; + wire srval; + generate + if (LSRMODE == "PRLD") + assign srval = M; + else + assign srval = (REGSET == "SET") ? 1'b1 : 1'b0; + endgenerate + + initial Q = srval; + + generate + if (SRMODE == "ASYNC") begin + always @(posedge muxclk, posedge muxlsr) + if (muxlsr) + Q <= srval; + else if (muxce) + Q <= DI; + end else begin + always @(posedge muxclk) + if (muxlsr) + Q <= srval; + else if (muxce) + Q <= DI; + end + endgenerate +endmodule + +// --------------------------------------- +(* keep *) +module TRELLIS_IO( + inout B, + input I, + input T, + output O +); + parameter DIR = "INPUT"; + reg T_pd; + always @(*) if (T === 1'bz) T_pd <= 1'b0; else T_pd <= T; + + generate + if (DIR == "INPUT") begin + assign B = 1'bz; + assign O = B; + end else if (DIR == "OUTPUT") begin + assign B = T_pd ? 1'bz : I; + assign O = 1'bx; + end else if (DIR == "BIDIR") begin + assign B = T_pd ? 1'bz : I; + assign O = B; + end else begin + ERROR_UNKNOWN_IO_MODE error(); + end + endgenerate + +endmodule + +// --------------------------------------- + +module INV(input A, output Z); + assign Z = !A; +endmodule + +// --------------------------------------- + +module TRELLIS_SLICE( + input A0, B0, C0, D0, + input A1, B1, C1, D1, + input M0, M1, + input FCI, FXA, FXB, + + input CLK, LSR, CE, + input DI0, DI1, + + input WD0, WD1, + input WAD0, WAD1, WAD2, WAD3, + input WRE, WCK, + + output F0, Q0, + output F1, Q1, + output FCO, OFX0, OFX1, + + output WDO0, WDO1, WDO2, WDO3, + output WADO0, WADO1, WADO2, WADO3 +); + + parameter MODE = "LOGIC"; + parameter GSR = "ENABLED"; + parameter SRMODE = "LSR_OVER_CE"; + parameter [127:0] CEMUX = "1"; + parameter CLKMUX = "CLK"; + parameter LSRMUX = "LSR"; + parameter LUT0_INITVAL = 16'h0000; + parameter LUT1_INITVAL = 16'h0000; + parameter REG0_SD = "0"; + parameter REG1_SD = "0"; + parameter REG0_REGSET = "RESET"; + parameter REG1_REGSET = "RESET"; + parameter REG0_LSRMODE = "LSR"; + parameter REG1_LSRMODE = "LSR"; + parameter [127:0] CCU2_INJECT1_0 = "NO"; + parameter [127:0] CCU2_INJECT1_1 = "NO"; + parameter WREMUX = "WRE"; + parameter WCKMUX = "WCK"; + + parameter A0MUX = "A0"; + parameter A1MUX = "A1"; + parameter B0MUX = "B0"; + parameter B1MUX = "B1"; + parameter C0MUX = "C0"; + parameter C1MUX = "C1"; + parameter D0MUX = "D0"; + parameter D1MUX = "D1"; + + wire A0m, B0m, C0m, D0m; + wire A1m, B1m, C1m, D1m; + + generate + if (A0MUX == "1") assign A0m = 1'b1; else assign A0m = A0; + if (B0MUX == "1") assign B0m = 1'b1; else assign B0m = B0; + if (C0MUX == "1") assign C0m = 1'b1; else assign C0m = C0; + if (D0MUX == "1") assign D0m = 1'b1; else assign D0m = D0; + if (A1MUX == "1") assign A1m = 1'b1; else assign A1m = A1; + if (B1MUX == "1") assign B1m = 1'b1; else assign B1m = B1; + if (C1MUX == "1") assign C1m = 1'b1; else assign C1m = C1; + if (D1MUX == "1") assign D1m = 1'b1; else assign D1m = D1; + + endgenerate + + function [15:0] permute_initval; + input [15:0] initval; + integer i; + begin + for (i = 0; i < 16; i = i + 1) begin + permute_initval[{i[0], i[2], i[1], i[3]}] = initval[i]; + end + end + endfunction + + generate + if (MODE == "LOGIC") begin + // LUTs + LUT4 #( + .INIT(LUT0_INITVAL) + ) lut4_0 ( + .A(A0m), .B(B0m), .C(C0m), .D(D0m), + .Z(F0) + ); + LUT4 #( + .INIT(LUT1_INITVAL) + ) lut4_1 ( + .A(A1m), .B(B1m), .C(C1m), .D(D1m), + .Z(F1) + ); + // LUT expansion muxes + PFUMX lut5_mux (.ALUT(F1), .BLUT(F0), .C0(M0), .Z(OFX0)); + L6MUX21 lutx_mux (.D0(FXA), .D1(FXB), .SD(M1), .Z(OFX1)); + end else if (MODE == "CCU2") begin + CCU2C #( + .INIT0(LUT0_INITVAL), + .INIT1(LUT1_INITVAL), + .INJECT1_0(CCU2_INJECT1_0), + .INJECT1_1(CCU2_INJECT1_1) + ) ccu2c_i ( + .CIN(FCI), + .A0(A0m), .B0(B0m), .C0(C0m), .D0(D0m), + .A1(A1m), .B1(B1m), .C1(C1m), .D1(D1m), + .S0(F0), .S1(F1), + .COUT(FCO) + ); + end else if (MODE == "RAMW") begin + assign WDO0 = C1m; + assign WDO1 = A1m; + assign WDO2 = D1m; + assign WDO3 = B1m; + assign WADO0 = D0m; + assign WADO1 = B0m; + assign WADO2 = C0m; + assign WADO3 = A0m; + end else if (MODE == "DPRAM") begin + TRELLIS_RAM16X2 #( + .INITVAL_0(permute_initval(LUT0_INITVAL)), + .INITVAL_1(permute_initval(LUT1_INITVAL)), + .WREMUX(WREMUX) + ) ram_i ( + .DI0(WD0), .DI1(WD1), + .WAD0(WAD0), .WAD1(WAD1), .WAD2(WAD2), .WAD3(WAD3), + .WRE(WRE), .WCK(WCK), + .RAD0(D0m), .RAD1(B0m), .RAD2(C0m), .RAD3(A0m), + .DO0(F0), .DO1(F1) + ); + // TODO: confirm RAD and INITVAL ordering + // DPRAM mode contract? +`ifdef FORMAL + always @(*) begin + assert(A0m==A1m); + assert(B0m==B1m); + assert(C0m==C1m); + assert(D0m==D1m); + end +`endif + end else begin + ERROR_UNKNOWN_SLICE_MODE error(); + end + endgenerate + + // FF input selection muxes + wire muxdi0 = (REG0_SD == "1") ? DI0 : M0; + wire muxdi1 = (REG1_SD == "1") ? DI1 : M1; + // Flipflops + TRELLIS_FF #( + .GSR(GSR), + .CEMUX(CEMUX), + .CLKMUX(CLKMUX), + .LSRMUX(LSRMUX), + .SRMODE(SRMODE), + .REGSET(REG0_REGSET), + .LSRMODE(REG0_LSRMODE) + ) ff_0 ( + .CLK(CLK), .LSR(LSR), .CE(CE), + .DI(muxdi0), .M(M0), + .Q(Q0) + ); + TRELLIS_FF #( + .GSR(GSR), + .CEMUX(CEMUX), + .CLKMUX(CLKMUX), + .LSRMUX(LSRMUX), + .SRMODE(SRMODE), + .REGSET(REG1_REGSET), + .LSRMODE(REG1_LSRMODE) + ) ff_1 ( + .CLK(CLK), .LSR(LSR), .CE(CE), + .DI(muxdi1), .M(M1), + .Q(Q1) + ); +endmodule + +(* blackbox *) +module DP16KD( + input DIA17, DIA16, DIA15, DIA14, DIA13, DIA12, DIA11, DIA10, DIA9, DIA8, DIA7, DIA6, DIA5, DIA4, DIA3, DIA2, DIA1, DIA0, + input ADA13, ADA12, ADA11, ADA10, ADA9, ADA8, ADA7, ADA6, ADA5, ADA4, ADA3, ADA2, ADA1, ADA0, + input CEA, OCEA, CLKA, WEA, RSTA, + input CSA2, CSA1, CSA0, + output DOA17, DOA16, DOA15, DOA14, DOA13, DOA12, DOA11, DOA10, DOA9, DOA8, DOA7, DOA6, DOA5, DOA4, DOA3, DOA2, DOA1, DOA0, + + input DIB17, DIB16, DIB15, DIB14, DIB13, DIB12, DIB11, DIB10, DIB9, DIB8, DIB7, DIB6, DIB5, DIB4, DIB3, DIB2, DIB1, DIB0, + input ADB13, ADB12, ADB11, ADB10, ADB9, ADB8, ADB7, ADB6, ADB5, ADB4, ADB3, ADB2, ADB1, ADB0, + input CEB, OCEB, CLKB, WEB, RSTB, + input CSB2, CSB1, CSB0, + output DOB17, DOB16, DOB15, DOB14, DOB13, DOB12, DOB11, DOB10, DOB9, DOB8, DOB7, DOB6, DOB5, DOB4, DOB3, DOB2, DOB1, DOB0 +); + parameter DATA_WIDTH_A = 18; + parameter DATA_WIDTH_B = 18; + + parameter REGMODE_A = "NOREG"; + parameter REGMODE_B = "NOREG"; + + parameter RESETMODE = "SYNC"; + parameter ASYNC_RESET_RELEASE = "SYNC"; + + parameter CSDECODE_A = "0b000"; + parameter CSDECODE_B = "0b000"; + + parameter WRITEMODE_A = "NORMAL"; + parameter WRITEMODE_B = "NORMAL"; + + parameter DIA17MUX = "DIA17"; + parameter DIA16MUX = "DIA16"; + parameter DIA15MUX = "DIA15"; + parameter DIA14MUX = "DIA14"; + parameter DIA13MUX = "DIA13"; + parameter DIA12MUX = "DIA12"; + parameter DIA11MUX = "DIA11"; + parameter DIA10MUX = "DIA10"; + parameter DIA9MUX = "DIA9"; + parameter DIA8MUX = "DIA8"; + parameter DIA7MUX = "DIA7"; + parameter DIA6MUX = "DIA6"; + parameter DIA5MUX = "DIA5"; + parameter DIA4MUX = "DIA4"; + parameter DIA3MUX = "DIA3"; + parameter DIA2MUX = "DIA2"; + parameter DIA1MUX = "DIA1"; + parameter DIA0MUX = "DIA0"; + parameter ADA13MUX = "ADA13"; + parameter ADA12MUX = "ADA12"; + parameter ADA11MUX = "ADA11"; + parameter ADA10MUX = "ADA10"; + parameter ADA9MUX = "ADA9"; + parameter ADA8MUX = "ADA8"; + parameter ADA7MUX = "ADA7"; + parameter ADA6MUX = "ADA6"; + parameter ADA5MUX = "ADA5"; + parameter ADA4MUX = "ADA4"; + parameter ADA3MUX = "ADA3"; + parameter ADA2MUX = "ADA2"; + parameter ADA1MUX = "ADA1"; + parameter ADA0MUX = "ADA0"; + parameter CEAMUX = "CEA"; + parameter OCEAMUX = "OCEA"; + parameter CLKAMUX = "CLKA"; + parameter WEAMUX = "WEA"; + parameter RSTAMUX = "RSTA"; + parameter CSA2MUX = "CSA2"; + parameter CSA1MUX = "CSA1"; + parameter CSA0MUX = "CSA0"; + parameter DOA17MUX = "DOA17"; + parameter DOA16MUX = "DOA16"; + parameter DOA15MUX = "DOA15"; + parameter DOA14MUX = "DOA14"; + parameter DOA13MUX = "DOA13"; + parameter DOA12MUX = "DOA12"; + parameter DOA11MUX = "DOA11"; + parameter DOA10MUX = "DOA10"; + parameter DOA9MUX = "DOA9"; + parameter DOA8MUX = "DOA8"; + parameter DOA7MUX = "DOA7"; + parameter DOA6MUX = "DOA6"; + parameter DOA5MUX = "DOA5"; + parameter DOA4MUX = "DOA4"; + parameter DOA3MUX = "DOA3"; + parameter DOA2MUX = "DOA2"; + parameter DOA1MUX = "DOA1"; + parameter DOA0MUX = "DOA0"; + parameter DIB17MUX = "DIB17"; + parameter DIB16MUX = "DIB16"; + parameter DIB15MUX = "DIB15"; + parameter DIB14MUX = "DIB14"; + parameter DIB13MUX = "DIB13"; + parameter DIB12MUX = "DIB12"; + parameter DIB11MUX = "DIB11"; + parameter DIB10MUX = "DIB10"; + parameter DIB9MUX = "DIB9"; + parameter DIB8MUX = "DIB8"; + parameter DIB7MUX = "DIB7"; + parameter DIB6MUX = "DIB6"; + parameter DIB5MUX = "DIB5"; + parameter DIB4MUX = "DIB4"; + parameter DIB3MUX = "DIB3"; + parameter DIB2MUX = "DIB2"; + parameter DIB1MUX = "DIB1"; + parameter DIB0MUX = "DIB0"; + parameter ADB13MUX = "ADB13"; + parameter ADB12MUX = "ADB12"; + parameter ADB11MUX = "ADB11"; + parameter ADB10MUX = "ADB10"; + parameter ADB9MUX = "ADB9"; + parameter ADB8MUX = "ADB8"; + parameter ADB7MUX = "ADB7"; + parameter ADB6MUX = "ADB6"; + parameter ADB5MUX = "ADB5"; + parameter ADB4MUX = "ADB4"; + parameter ADB3MUX = "ADB3"; + parameter ADB2MUX = "ADB2"; + parameter ADB1MUX = "ADB1"; + parameter ADB0MUX = "ADB0"; + parameter CEBMUX = "CEB"; + parameter OCEBMUX = "OCEB"; + parameter CLKBMUX = "CLKB"; + parameter WEBMUX = "WEB"; + parameter RSTBMUX = "RSTB"; + parameter CSB2MUX = "CSB2"; + parameter CSB1MUX = "CSB1"; + parameter CSB0MUX = "CSB0"; + parameter DOB17MUX = "DOB17"; + parameter DOB16MUX = "DOB16"; + parameter DOB15MUX = "DOB15"; + parameter DOB14MUX = "DOB14"; + parameter DOB13MUX = "DOB13"; + parameter DOB12MUX = "DOB12"; + parameter DOB11MUX = "DOB11"; + parameter DOB10MUX = "DOB10"; + parameter DOB9MUX = "DOB9"; + parameter DOB8MUX = "DOB8"; + parameter DOB7MUX = "DOB7"; + parameter DOB6MUX = "DOB6"; + parameter DOB5MUX = "DOB5"; + parameter DOB4MUX = "DOB4"; + parameter DOB3MUX = "DOB3"; + parameter DOB2MUX = "DOB2"; + parameter DOB1MUX = "DOB1"; + parameter DOB0MUX = "DOB0"; + + parameter WID = 0; + + parameter GSR = "ENABLED"; + + parameter INITVAL_00 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_01 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_02 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_03 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_04 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_05 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_06 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_07 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_08 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_09 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_0A = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_0B = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_0C = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_0D = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_0E = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_0F = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_10 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_11 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_12 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_13 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_14 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_15 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_16 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_17 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_18 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_19 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_1A = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_1B = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_1C = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_1D = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_1E = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_1F = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_20 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_21 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_22 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_23 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_24 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_25 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_26 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_27 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_28 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_29 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_2A = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_2B = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_2C = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_2D = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_2E = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_2F = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_30 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_31 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_32 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_33 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_34 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_35 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_36 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_37 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_38 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_39 = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_3A = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_3B = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_3C = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_3D = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_3E = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; + parameter INITVAL_3F = 320'h00000000000000000000000000000000000000000000000000000000000000000000000000000000; +endmodule + +`ifndef NO_INCLUDES + +`include "cells_ff.vh" +`include "cells_io.vh" + +`endif diff --git a/techlibs/ecp5/ecp5_ffinit.cc b/techlibs/ecp5/ecp5_ffinit.cc new file mode 100644 index 000000000..dbd16cac9 --- /dev/null +++ b/techlibs/ecp5/ecp5_ffinit.cc @@ -0,0 +1,203 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * Copyright (C) 2018-19 David Shah <david@symbioticeda.com> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +#include "kernel/yosys.h" +#include "kernel/sigtools.h" + +USING_YOSYS_NAMESPACE +PRIVATE_NAMESPACE_BEGIN + +struct Ecp5FfinitPass : public Pass { + Ecp5FfinitPass() : Pass("ecp5_ffinit", "ECP5: handle FF init values") { } + void help() YS_OVERRIDE + { + // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| + log("\n"); + log(" ecp5_ffinit [options] [selection]\n"); + log("\n"); + log("Remove init values for FF output signals when equal to reset value.\n"); + log("If reset is not used, set the reset value to the init value, otherwise\n"); + log("unmap out the reset (if not an async reset).\n"); + } + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + { + log_header(design, "Executing ECP5_FFINIT pass (implement FF init values).\n"); + + size_t argidx; + for (argidx = 1; argidx < args.size(); argidx++) + { + // if (args[argidx] == "-singleton") { + // singleton_mode = true; + // continue; + // } + break; + } + extra_args(args, argidx, design); + + for (auto module : design->selected_modules()) + { + log("Handling FF init values in %s.\n", log_id(module)); + + SigMap sigmap(module); + pool<Wire*> init_wires; + dict<SigBit, State> initbits; + dict<SigBit, SigBit> initbit_to_wire; + pool<SigBit> handled_initbits; + + for (auto wire : module->selected_wires()) + { + if (wire->attributes.count("\\init") == 0) + continue; + + SigSpec wirebits = sigmap(wire); + Const initval = wire->attributes.at("\\init"); + init_wires.insert(wire); + + for (int i = 0; i < GetSize(wirebits) && i < GetSize(initval); i++) + { + SigBit bit = wirebits[i]; + State val = initval[i]; + + if (val != State::S0 && val != State::S1) + continue; + + if (initbits.count(bit)) { + if (initbits.at(bit) != val) { + log_warning("Conflicting init values for signal %s (%s = %s, %s = %s).\n", + log_signal(bit), log_signal(SigBit(wire, i)), log_signal(val), + log_signal(initbit_to_wire[bit]), log_signal(initbits.at(bit))); + initbits.at(bit) = State::Sx; + } + continue; + } + + initbits[bit] = val; + initbit_to_wire[bit] = SigBit(wire, i); + } + } + for (auto cell : module->selected_cells()) + { + if (cell->type != "\\TRELLIS_FF") + continue; + SigSpec sig_d = cell->getPort("\\DI"); + SigSpec sig_q = cell->getPort("\\Q"); + SigSpec sig_lsr = cell->getPort("\\LSR"); + + if (GetSize(sig_d) < 1 || GetSize(sig_q) < 1) + continue; + + SigBit bit_d = sigmap(sig_d[0]); + SigBit bit_q = sigmap(sig_q[0]); + + std::string regset = "RESET"; + if (cell->hasParam("\\REGSET")) + regset = cell->getParam("\\REGSET").decode_string(); + State resetState; + if (regset == "SET") + resetState = State::S1; + else if (regset == "RESET") + resetState = State::S0; + else + log_error("FF cell %s has illegal REGSET value %s.\n", + log_id(cell), regset.c_str()); + + if (!initbits.count(bit_q)) + continue; + + State val = initbits.at(bit_q); + + if (val == State::Sx) + continue; + + log("FF init value for cell %s (%s): %s = %c\n", log_id(cell), log_id(cell->type), + log_signal(bit_q), val != State::S0 ? '1' : '0'); + // Initval is the same as the reset state. Matches hardware, nowt more to do + if (val == resetState) { + handled_initbits.insert(bit_q); + continue; + } + + if (GetSize(sig_lsr) >= 1 && sig_lsr[0] != State::S0) { + std::string srmode = "LSR_OVER_CE"; + if (cell->hasParam("\\SRMODE")) + srmode = cell->getParam("\\SRMODE").decode_string(); + if (srmode == "ASYNC") { + log("Async reset value %c for FF cell %s inconsistent with init value %c.\n", + resetState != State::S0 ? '1' : '0', log_id(cell), val != State::S0 ? '1' : '0'); + } else { + SigBit bit_lsr = sigmap(sig_lsr[0]); + Wire *new_bit_d = module->addWire(NEW_ID); + if (resetState == State::S0) { + module->addAndnotGate(NEW_ID, bit_d, bit_lsr, new_bit_d); + } else { + module->addOrGate(NEW_ID, bit_d, bit_lsr, new_bit_d); + } + + cell->setPort("\\DI", new_bit_d); + cell->setPort("\\LSR", State::S0); + + if(cell->hasPort("\\CE")) { + std::string cemux = "CE"; + if (cell->hasParam("\\CEMUX")) + cemux = cell->getParam("\\CEMUX").decode_string(); + SigSpec sig_ce = cell->getPort("\\CE"); + if (GetSize(sig_ce) >= 1) { + SigBit bit_ce = sigmap(sig_ce[0]); + Wire *new_bit_ce = module->addWire(NEW_ID); + if (cemux == "INV") + module->addAndnotGate(NEW_ID, bit_ce, bit_lsr, new_bit_ce); + else + module->addOrGate(NEW_ID, bit_ce, bit_lsr, new_bit_ce); + cell->setPort("\\CE", new_bit_ce); + } + } + cell->setParam("\\REGSET", val != State::S0 ? Const("SET") : Const("RESET")); + handled_initbits.insert(bit_q); + } + } else { + cell->setParam("\\REGSET", val != State::S0 ? Const("SET") : Const("RESET")); + handled_initbits.insert(bit_q); + } + } + + for (auto wire : init_wires) + { + if (wire->attributes.count("\\init") == 0) + continue; + + SigSpec wirebits = sigmap(wire); + Const &initval = wire->attributes.at("\\init"); + bool remove_attribute = true; + + for (int i = 0; i < GetSize(wirebits) && i < GetSize(initval); i++) { + if (handled_initbits.count(wirebits[i])) + initval[i] = State::Sx; + else if (initval[i] != State::Sx) + remove_attribute = false; + } + + if (remove_attribute) + wire->attributes.erase("\\init"); + } + } + } +} Ecp5FfinitPass; + +PRIVATE_NAMESPACE_END diff --git a/techlibs/ecp5/ecp5_gsr.cc b/techlibs/ecp5/ecp5_gsr.cc new file mode 100644 index 000000000..2bc714b6f --- /dev/null +++ b/techlibs/ecp5/ecp5_gsr.cc @@ -0,0 +1,135 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * Copyright (C) 2019 David Shah <david@symbioticeda.com> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +#include "kernel/yosys.h" +#include "kernel/sigtools.h" + +USING_YOSYS_NAMESPACE +PRIVATE_NAMESPACE_BEGIN + +struct Ecp5GsrPass : public Pass { + Ecp5GsrPass() : Pass("ecp5_gsr", "ECP5: handle GSR") { } + void help() YS_OVERRIDE + { + // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| + log("\n"); + log(" ecp5_gsr [options] [selection]\n"); + log("\n"); + log("Trim active low async resets connected to GSR and resolve GSR parameter,\n"); + log("if a GSR or SGSR primitive is used in the design.\n"); + log("\n"); + log("If any cell has the GSR parameter set to \"AUTO\", this will be resolved\n"); + log("to \"ENABLED\" if a GSR primitive is present and the (* nogsr *) attribute\n"); + log("is not set, otherwise it will be resolved to \"DISABLED\".\n"); + log("\n"); + } + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + { + log_header(design, "Executing ECP5_GSR pass (implement FF init values).\n"); + + size_t argidx; + for (argidx = 1; argidx < args.size(); argidx++) + { + // if (args[argidx] == "-singleton") { + // singleton_mode = true; + // continue; + // } + break; + } + extra_args(args, argidx, design); + + for (auto module : design->selected_modules()) + { + log("Handling GSR in %s.\n", log_id(module)); + + SigMap sigmap(module); + + SigBit gsr; + bool found_gsr = false; + + for (auto cell : module->selected_cells()) + { + if (cell->type != ID(GSR) && cell->type != ID(SGSR)) + continue; + if (found_gsr) + log_error("Found more than one GSR or SGSR cell in module %s.\n", log_id(module)); + found_gsr = true; + SigSpec sig_gsr = cell->getPort(ID(GSR)); + if (GetSize(sig_gsr) < 1) + log_error("GSR cell %s has disconnected GSR input.\n", log_id(cell)); + gsr = sigmap(sig_gsr[0]); + } + + // Resolve GSR parameter + + for (auto cell : module->selected_cells()) + { + if (!cell->hasParam(ID(GSR)) || cell->getParam(ID(GSR)).decode_string() != "AUTO") + continue; + + bool gsren = found_gsr; + if (cell->get_bool_attribute("\\nogsr")) + gsren = false; + cell->setParam(ID(GSR), gsren ? Const("ENABLED") : Const("DISABLED")); + + } + + if (!found_gsr) + continue; + + // For finding active low FF inputs + pool<SigBit> inverted_gsr; + + log_debug("GSR net in module %s is %s.\n", log_id(module), log_signal(gsr)); + for (auto cell : module->selected_cells()) + { + if (cell->type != ID($_NOT_)) + continue; + SigSpec sig_a = cell->getPort(ID(A)), sig_y = cell->getPort(ID(Y)); + if (GetSize(sig_a) < 1 || GetSize(sig_y) < 1) + continue; + SigBit a = sigmap(sig_a[0]); + if (a == gsr) + inverted_gsr.insert(sigmap(sig_y[0])); + } + + for (auto cell : module->selected_cells()) + { + if (cell->type != ID(TRELLIS_FF)) + continue; + if (!cell->hasParam(ID(GSR)) || cell->getParam(ID(GSR)).decode_string() != "ENABLED") + continue; + if (!cell->hasParam(ID(SRMODE)) || cell->getParam(ID(SRMODE)).decode_string() != "ASYNC") + continue; + SigSpec sig_lsr = cell->getPort(ID(LSR)); + if (GetSize(sig_lsr) < 1) + continue; + SigBit lsr = sigmap(sig_lsr[0]); + if (!inverted_gsr.count(lsr)) + continue; + cell->setParam(ID(SRMODE), Const("LSR_OVER_CE")); + cell->unsetPort(ID(LSR)); + } + + } + } +} Ecp5GsrPass; + +PRIVATE_NAMESPACE_END diff --git a/techlibs/ecp5/latches_map.v b/techlibs/ecp5/latches_map.v new file mode 100644 index 000000000..c28f88cf7 --- /dev/null +++ b/techlibs/ecp5/latches_map.v @@ -0,0 +1,11 @@ +module \$_DLATCH_N_ (E, D, Q); + wire [1023:0] _TECHMAP_DO_ = "simplemap; opt"; + input E, D; + output Q = !E ? D : Q; +endmodule + +module \$_DLATCH_P_ (E, D, Q); + wire [1023:0] _TECHMAP_DO_ = "simplemap; opt"; + input E, D; + output Q = E ? D : Q; +endmodule diff --git a/techlibs/ecp5/lutram.txt b/techlibs/ecp5/lutram.txt new file mode 100644 index 000000000..b94357429 --- /dev/null +++ b/techlibs/ecp5/lutram.txt @@ -0,0 +1,17 @@ +bram $__TRELLIS_DPR16X4 + init 1 + abits 4 + dbits 4 + groups 2 + ports 1 1 + wrmode 0 1 + enable 0 1 + transp 0 0 + clocks 0 1 + clkpol 0 2 +endbram + +match $__TRELLIS_DPR16X4 + make_outreg + min wports 1 +endmatch diff --git a/techlibs/ecp5/lutrams_map.v b/techlibs/ecp5/lutrams_map.v new file mode 100644 index 000000000..3b3de831f --- /dev/null +++ b/techlibs/ecp5/lutrams_map.v @@ -0,0 +1,28 @@ +module \$__TRELLIS_DPR16X4 (CLK1, A1ADDR, A1DATA, B1ADDR, B1DATA, B1EN); + parameter [63:0] INIT = 64'bx; + parameter CLKPOL2 = 1; + input CLK1; + + input [3:0] A1ADDR; + output [3:0] A1DATA; + + input [3:0] B1ADDR; + input [3:0] B1DATA; + input B1EN; + + localparam WCKMUX = CLKPOL2 ? "WCK" : "INV"; + + TRELLIS_DPR16X4 #( + .INITVAL(INIT), + .WCKMUX(WCKMUX), + .WREMUX("WRE") + ) _TECHMAP_REPLACE_ ( + .RAD(A1ADDR), + .DO(A1DATA), + + .WAD(B1ADDR), + .DI(B1DATA), + .WCK(CLK1), + .WRE(B1EN) + ); +endmodule diff --git a/techlibs/ecp5/synth_ecp5.cc b/techlibs/ecp5/synth_ecp5.cc new file mode 100644 index 000000000..2593546e0 --- /dev/null +++ b/techlibs/ecp5/synth_ecp5.cc @@ -0,0 +1,351 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * Copyright (C) 2018 David Shah <dave@ds0.me> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +#include "kernel/register.h" +#include "kernel/celltypes.h" +#include "kernel/rtlil.h" +#include "kernel/log.h" + +USING_YOSYS_NAMESPACE +PRIVATE_NAMESPACE_BEGIN + +struct SynthEcp5Pass : public ScriptPass +{ + SynthEcp5Pass() : ScriptPass("synth_ecp5", "synthesis for ECP5 FPGAs") { } + + void help() YS_OVERRIDE + { + // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| + log("\n"); + log(" synth_ecp5 [options]\n"); + log("\n"); + log("This command runs synthesis for ECP5 FPGAs.\n"); + log("\n"); + log(" -top <module>\n"); + log(" use the specified module as top module\n"); + log("\n"); + log(" -blif <file>\n"); + log(" write the design to the specified BLIF file. writing of an output file\n"); + log(" is omitted if this parameter is not specified.\n"); + log("\n"); + log(" -edif <file>\n"); + log(" write the design to the specified EDIF file. writing of an output file\n"); + log(" is omitted if this parameter is not specified.\n"); + log("\n"); + log(" -json <file>\n"); + log(" write the design to the specified JSON file. writing of an output file\n"); + log(" is omitted if this parameter is not specified.\n"); + log("\n"); + log(" -run <from_label>:<to_label>\n"); + log(" only run the commands between the labels (see below). an empty\n"); + log(" from label is synonymous to 'begin', and empty to label is\n"); + log(" synonymous to the end of the command list.\n"); + log("\n"); + log(" -noflatten\n"); + log(" do not flatten design before synthesis\n"); + log("\n"); + log(" -retime\n"); + log(" run 'abc' with -dff option\n"); + log("\n"); + log(" -noccu2\n"); + log(" do not use CCU2 cells in output netlist\n"); + log("\n"); + log(" -nodffe\n"); + log(" do not use flipflops with CE in output netlist\n"); + log("\n"); + log(" -nobram\n"); + log(" do not use block RAM cells in output netlist\n"); + log("\n"); + log(" -nolutram\n"); + log(" do not use LUT RAM cells in output netlist\n"); + log("\n"); + log(" -nowidelut\n"); + log(" do not use PFU muxes to implement LUTs larger than LUT4s\n"); + log("\n"); + log(" -abc2\n"); + log(" run two passes of 'abc' for slightly improved logic density\n"); + log("\n"); + log(" -abc9\n"); + log(" use new ABC9 flow (EXPERIMENTAL)\n"); + log("\n"); + log(" -vpr\n"); + log(" generate an output netlist (and BLIF file) suitable for VPR\n"); + log(" (this feature is experimental and incomplete)\n"); + log("\n"); + log("\n"); + log("The following commands are executed by this synthesis command:\n"); + help_script(); + log("\n"); + } + + string top_opt, blif_file, edif_file, json_file; + bool noccu2, nodffe, nobram, nolutram, nowidelut, flatten, retime, abc2, abc9, vpr; + + void clear_flags() YS_OVERRIDE + { + top_opt = "-auto-top"; + blif_file = ""; + edif_file = ""; + json_file = ""; + noccu2 = false; + nodffe = false; + nobram = false; + nolutram = false; + nowidelut = false; + flatten = true; + retime = false; + abc2 = false; + vpr = false; + abc9 = false; + } + + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + { + string run_from, run_to; + clear_flags(); + + size_t argidx; + for (argidx = 1; argidx < args.size(); argidx++) + { + if (args[argidx] == "-top" && argidx+1 < args.size()) { + top_opt = "-top " + args[++argidx]; + continue; + } + if (args[argidx] == "-blif" && argidx+1 < args.size()) { + blif_file = args[++argidx]; + continue; + } + if (args[argidx] == "-edif" && argidx+1 < args.size()) { + edif_file = args[++argidx]; + continue; + } + if (args[argidx] == "-json" && argidx+1 < args.size()) { + json_file = args[++argidx]; + continue; + } + if (args[argidx] == "-run" && argidx+1 < args.size()) { + size_t pos = args[argidx+1].find(':'); + if (pos == std::string::npos) + break; + run_from = args[++argidx].substr(0, pos); + run_to = args[argidx].substr(pos+1); + continue; + } + if (args[argidx] == "-flatten") { + flatten = true; + continue; + } + if (args[argidx] == "-noflatten") { + flatten = false; + continue; + } + if (args[argidx] == "-retime") { + retime = true; + continue; + } + if (args[argidx] == "-noccu2") { + noccu2 = true; + continue; + } + if (args[argidx] == "-nodffe") { + nodffe = true; + continue; + } + if (args[argidx] == "-nobram") { + nobram = true; + continue; + } + if (args[argidx] == "-nolutram" || /*deprecated alias*/ args[argidx] == "-nodram") { + nolutram = true; + continue; + } + if (args[argidx] == "-nowidelut" || /*deprecated alias*/ args[argidx] == "-nomux") { + nowidelut = true; + continue; + } + if (args[argidx] == "-abc2") { + abc2 = true; + continue; + } + if (args[argidx] == "-vpr") { + vpr = true; + continue; + } + if (args[argidx] == "-abc9") { + abc9 = true; + continue; + } + break; + } + extra_args(args, argidx, design); + + if (!design->full_selection()) + log_cmd_error("This command only operates on fully selected designs!\n"); + + if (abc9 && retime) + log_cmd_error("-retime option not currently compatible with -abc9!\n"); + + log_header(design, "Executing SYNTH_ECP5 pass.\n"); + log_push(); + + run_script(design, run_from, run_to); + + log_pop(); + } + + void script() YS_OVERRIDE + { + if (check_label("begin")) + { + run("read_verilog -D_ABC -lib +/ecp5/cells_sim.v +/ecp5/cells_bb.v"); + run(stringf("hierarchy -check %s", help_mode ? "-top <top>" : top_opt.c_str())); + } + + if (flatten && check_label("flatten", "(unless -noflatten)")) + { + run("proc"); + run("flatten"); + run("tribuf -logic"); + run("deminout"); + } + + if (check_label("coarse")) + { + run("synth -run coarse"); + } + + if (!nobram && check_label("map_bram", "(skip if -nobram)")) + { + run("memory_bram -rules +/ecp5/bram.txt"); + run("techmap -map +/ecp5/brams_map.v"); + } + + if (!nolutram && check_label("map_lutram", "(skip if -nolutram)")) + { + run("memory_bram -rules +/ecp5/lutram.txt"); + run("techmap -map +/ecp5/lutrams_map.v"); + } + + if (check_label("map_ffram")) + { + run("opt -fast -mux_undef -undriven -fine"); + run("memory_map"); + run("opt -undriven -fine"); + } + + if (check_label("map_gates")) + { + if (noccu2) + run("techmap"); + else + run("techmap -map +/techmap.v -map +/ecp5/arith_map.v"); + if (retime || help_mode) + run("abc -dff", "(only if -retime)"); + } + + if (check_label("map_ffs")) + { + run("dffsr2dff"); + run("dff2dffs"); + run("opt_clean"); + if (!nodffe) + run("dff2dffe -direct-match $_DFF_* -direct-match $__DFFS_*"); + run("techmap -D NO_LUT -map +/ecp5/cells_map.v"); + run("opt_expr -undriven -mux_undef"); + run("simplemap"); + run("ecp5_ffinit"); + run("ecp5_gsr"); + run("opt_clean"); + } + + if (check_label("map_luts")) + { + if (abc2 || help_mode) { + run("abc", " (only if -abc2)"); + } + std::string techmap_args = "-map +/ecp5/latches_map.v"; + if (abc9) + techmap_args += " -map +/ecp5/abc_map.v -max_iter 1"; + run("techmap " + techmap_args); + + if (abc9) { + if (nowidelut) + run("abc9 -lut +/ecp5/abc_5g_nowide.lut -box +/ecp5/abc_5g.box -W 200"); + else + run("abc9 -lut +/ecp5/abc_5g.lut -box +/ecp5/abc_5g.box -W 200"); + run("techmap -map +/ecp5/abc_unmap.v"); + } else { + if (nowidelut) + run("abc -lut 4 -dress"); + else + run("abc -lut 4:7 -dress"); + } + run("clean"); + } + + if (check_label("map_cells")) + { + if (vpr) + run("techmap -D NO_LUT -map +/ecp5/cells_map.v"); + else + run("techmap -map +/ecp5/cells_map.v", "(with -D NO_LUT in vpr mode)"); + + run("clean"); + } + + if (check_label("check")) + { + run("hierarchy -check"); + run("stat"); + run("check -noinit"); + } + + if (check_label("blif")) + { + if (!blif_file.empty() || help_mode) { + if (vpr || help_mode) { + run(stringf("opt_clean -purge"), + " (vpr mode)"); + run(stringf("write_blif -attr -cname -conn -param %s", + help_mode ? "<file-name>" : blif_file.c_str()), + " (vpr mode)"); + } + if (!vpr) + run(stringf("write_blif -gates -attr -param %s", + help_mode ? "<file-name>" : blif_file.c_str()), + " (non-vpr mode)"); + } + } + + if (check_label("edif")) + { + if (!edif_file.empty() || help_mode) + run(stringf("write_edif %s", help_mode ? "<file-name>" : edif_file.c_str())); + } + + if (check_label("json")) + { + if (!json_file.empty() || help_mode) + run(stringf("write_json %s", help_mode ? "<file-name>" : json_file.c_str())); + } + } +} SynthEcp5Pass; + +PRIVATE_NAMESPACE_END diff --git a/techlibs/ecp5/tests/.gitignore b/techlibs/ecp5/tests/.gitignore new file mode 100644 index 000000000..0e18132cc --- /dev/null +++ b/techlibs/ecp5/tests/.gitignore @@ -0,0 +1 @@ +work_* diff --git a/techlibs/ecp5/tests/test_diamond_ffs.py b/techlibs/ecp5/tests/test_diamond_ffs.py new file mode 100644 index 000000000..1ed85ce8b --- /dev/null +++ b/techlibs/ecp5/tests/test_diamond_ffs.py @@ -0,0 +1,82 @@ +import os +import subprocess + +if not os.path.exists("work_ff"): + os.mkdir("work_ff") + +modules = [] + +with open("../cells_ff.vh", "r") as f: + with open("work_ff/cells_ff_gate.v", "w") as g: + for line in f: + if not line.startswith("module"): + g.write(line) + continue + else: + spidx = line.find(" ") + bridx = line.find("(") + modname = line[spidx+1 : bridx] + g.write("module %s_gate" % modname) + g.write(line[bridx:]) + inpidx = line.find("input ") + outpidx = line.find(", output") + modules.append((modname, [x.strip() for x in line[inpidx+6:outpidx].split(",")])) + +with open("work_ff/testbench.v", "w") as f: + print(""" +`timescale 1ns/ 1ps + +module testbench; +reg pur = 0, clk, rst, cen, d; + +// Needed for Diamond sim models +GSR GSR_INST (.GSR(1'b1)); +PUR PUR_INST (.PUR(pur)); + + +initial begin + $dumpfile("work_ff/ffs.vcd"); + $dumpvars(0, testbench); + #5; + pur = 1; + #95; + repeat (2500) begin + {clk, rst, cen, d} = $random; + #10; + check_outputs; + #1; + end + $finish; +end + """, file=f) + + for modname, inputs in modules: + print(" wire %s_gold_q, %s_gate_q;" % (modname, modname), file=f) + portconns = [] + for inp in inputs: + if inp in ("SCLK", "CK"): + portconns.append(".%s(clk)" % inp) + elif inp in ("CD", "PD"): + portconns.append(".%s(rst)" % inp) + elif inp == "SP": + portconns.append(".%s(cen)" % inp) + elif inp == "D": + portconns.append(".%s(d)" % inp) + else: + assert False + portconns.append(".Q(%s_gold_q)" % modname) + print(" %s %s_gold_i (%s);" % (modname, modname, ", ".join(portconns)), file=f) + portconns[-1] = (".Q(%s_gate_q)" % modname) + print(" %s_gate %s_gate_i (%s);" % (modname, modname, ", ".join(portconns)), file=f) + print("", file=f) + print(" task check_outputs;", file=f) + print(" begin", file=f) + print(" if (%s_gold_q != %s_gate_q) $display(\"MISMATCH at %%1t: %s_gold_q=%%b, %s_gate_q=%%b\", $time, %s_gold_q, %s_gate_q);" % + (modname, modname, modname, modname, modname, modname), file=f) + print(" end", file=f) + print(" endtask", file=f) + print("endmodule", file=f) + +diamond_models = "/usr/local/diamond/3.10_x64/cae_library/simulation/verilog/ecp5u" +subprocess.call(["iverilog", "-s", "testbench", "-o", "work_ff/testbench", "-Dmixed_hdl", "-DNO_INCLUDES", "-y", diamond_models, "work_ff/cells_ff_gate.v", "../cells_sim.v", "work_ff/testbench.v"]) +subprocess.call(["vvp", "work_ff/testbench"]) diff --git a/techlibs/efinix/Makefile.inc b/techlibs/efinix/Makefile.inc new file mode 100644 index 000000000..5013f7fc1 --- /dev/null +++ b/techlibs/efinix/Makefile.inc @@ -0,0 +1,10 @@ + +OBJS += techlibs/efinix/synth_efinix.o +OBJS += techlibs/efinix/efinix_gbuf.o +OBJS += techlibs/efinix/efinix_fixcarry.o + +$(eval $(call add_share_file,share/efinix,techlibs/efinix/cells_map.v)) +$(eval $(call add_share_file,share/efinix,techlibs/efinix/arith_map.v)) +$(eval $(call add_share_file,share/efinix,techlibs/efinix/cells_sim.v)) +$(eval $(call add_share_file,share/efinix,techlibs/efinix/brams_map.v)) +$(eval $(call add_share_file,share/efinix,techlibs/efinix/bram.txt)) diff --git a/techlibs/efinix/arith_map.v b/techlibs/efinix/arith_map.v new file mode 100644 index 000000000..178f57bc5 --- /dev/null +++ b/techlibs/efinix/arith_map.v @@ -0,0 +1,79 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2018 Miodrag Milanovic <miodrag@symbioticeda.com> + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +(* techmap_celltype = "$alu" *) +module _80_efinix_alu (A, B, CI, BI, X, Y, CO); + parameter A_SIGNED = 0; + parameter B_SIGNED = 0; + parameter A_WIDTH = 1; + parameter B_WIDTH = 1; + parameter Y_WIDTH = 1; + + input [A_WIDTH-1:0] A; + input [B_WIDTH-1:0] B; + output [Y_WIDTH-1:0] X, Y; + + input CI, BI; + output [Y_WIDTH-1:0] CO; + + wire CIx; + wire [Y_WIDTH-1:0] COx; + + wire _TECHMAP_FAIL_ = Y_WIDTH <= 2; + + wire [Y_WIDTH-1:0] A_buf, B_buf; + \$pos #(.A_SIGNED(A_SIGNED), .A_WIDTH(A_WIDTH), .Y_WIDTH(Y_WIDTH)) A_conv (.A(A), .Y(A_buf)); + \$pos #(.A_SIGNED(B_SIGNED), .A_WIDTH(B_WIDTH), .Y_WIDTH(Y_WIDTH)) B_conv (.A(B), .Y(B_buf)); + + wire [Y_WIDTH-1:0] AA = A_buf; + wire [Y_WIDTH-1:0] BB = BI ? ~B_buf : B_buf; + wire [Y_WIDTH-1:0] C = { COx, CIx }; + + EFX_ADD #(.I0_POLARITY(1'b1),.I1_POLARITY(1'b1)) + adder_cin ( + .I0(CI), + .I1(1'b1), + .CI(1'b0), + .CO(CIx) + ); + + genvar i; + generate for (i = 0; i < Y_WIDTH; i = i + 1) begin: slice + EFX_ADD #(.I0_POLARITY(1'b1),.I1_POLARITY(1'b1)) + adder_i ( + .I0(AA[i]), + .I1(BB[i]), + .CI(C[i]), + .O(Y[i]), + .CO(COx[i]) + ); + EFX_ADD #(.I0_POLARITY(1'b1),.I1_POLARITY(1'b1)) + adder_cout ( + .I0(1'b0), + .I1(1'b0), + .CI(COx[i]), + .O(CO[i]) + ); + end: slice + endgenerate + + /* End implementation */ + assign X = AA ^ BB; +endmodule
\ No newline at end of file diff --git a/techlibs/efinix/bram.txt b/techlibs/efinix/bram.txt new file mode 100644 index 000000000..0b3fd9308 --- /dev/null +++ b/techlibs/efinix/bram.txt @@ -0,0 +1,32 @@ +bram $__EFINIX_5K + init 1 + + abits 8 @a8d16 + dbits 16 @a8d16 + abits 9 @a9d8 + dbits 8 @a9d8 + abits 10 @a10d4 + dbits 4 @a10d4 + abits 11 @a11d2 + dbits 2 @a11d2 + abits 12 @a12d1 + dbits 1 @a12d1 + abits 8 @a8d20 + dbits 20 @a8d20 + abits 9 @a9d10 + dbits 10 @a9d10 + + groups 2 + ports 1 1 + wrmode 1 0 + enable 1 1 + transp 0 2 + clocks 2 3 + clkpol 2 3 +endbram + +match $__EFINIX_5K + min bits 256 + min efficiency 5 + shuffle_enable B +endmatch diff --git a/techlibs/efinix/brams_map.v b/techlibs/efinix/brams_map.v new file mode 100644 index 000000000..6786ae769 --- /dev/null +++ b/techlibs/efinix/brams_map.v @@ -0,0 +1,65 @@ +module \$__EFINIX_5K (CLK2, CLK3, A1ADDR, A1DATA, A1EN, B1ADDR, B1DATA, B1EN); + parameter CFG_ABITS = 8; + parameter CFG_DBITS = 20; + parameter CFG_ENABLE_A = 1; + + parameter CLKPOL2 = 1; + parameter CLKPOL3 = 1; + parameter [5119:0] INIT = 5119'bx; + parameter TRANSP2 = 0; + + input CLK2; + input CLK3; + + input [CFG_ABITS-1:0] A1ADDR; + input [CFG_DBITS-1:0] A1DATA; + input [CFG_ENABLE_A-1:0] A1EN; + + input [CFG_ABITS-1:0] B1ADDR; + output [CFG_DBITS-1:0] B1DATA; + input B1EN; + + localparam WRITEMODE_A = TRANSP2 ? "WRITE_FIRST" : "READ_FIRST"; + + EFX_RAM_5K #( + .READ_WIDTH(CFG_DBITS), + .WRITE_WIDTH(CFG_DBITS), + .OUTPUT_REG(1'b0), + .RCLK_POLARITY(1'b1), + .RE_POLARITY(1'b1), + .WCLK_POLARITY(1'b1), + .WE_POLARITY(1'b1), + .WCLKE_POLARITY(1'b1), + .WRITE_MODE(WRITEMODE_A), + .INIT_0(INIT[ 0*256 +: 256]), + .INIT_1(INIT[ 1*256 +: 256]), + .INIT_2(INIT[ 2*256 +: 256]), + .INIT_3(INIT[ 3*256 +: 256]), + .INIT_4(INIT[ 4*256 +: 256]), + .INIT_5(INIT[ 5*256 +: 256]), + .INIT_6(INIT[ 6*256 +: 256]), + .INIT_7(INIT[ 7*256 +: 256]), + .INIT_8(INIT[ 8*256 +: 256]), + .INIT_9(INIT[ 9*256 +: 256]), + .INIT_A(INIT[10*256 +: 256]), + .INIT_B(INIT[11*256 +: 256]), + .INIT_C(INIT[12*256 +: 256]), + .INIT_D(INIT[13*256 +: 256]), + .INIT_E(INIT[14*256 +: 256]), + .INIT_F(INIT[15*256 +: 256]), + .INIT_10(INIT[16*256 +: 256]), + .INIT_11(INIT[17*256 +: 256]), + .INIT_12(INIT[18*256 +: 256]), + .INIT_13(INIT[19*256 +: 256]) + ) _TECHMAP_REPLACE_ ( + .WDATA(A1DATA), + .WADDR(A1ADDR), + .WE(A1EN), + .WCLK(CLK2), + .WCLKE(1'b1), + .RDATA(B1DATA), + .RADDR(B1ADDR), + .RE(B1EN), + .RCLK(CLK3) + ); +endmodule diff --git a/techlibs/efinix/cells_map.v b/techlibs/efinix/cells_map.v new file mode 100644 index 000000000..0aeab1902 --- /dev/null +++ b/techlibs/efinix/cells_map.v @@ -0,0 +1,45 @@ +module \$_DFF_N_ (input D, C, output Q); EFX_FF #(.CLK_POLARITY(1'b0), .CE_POLARITY(1'b1), .SR_POLARITY(1'b1), .D_POLARITY(1'b1), .SR_SYNC(1'b1), .SR_VALUE(1'b0), .SR_SYNC_PRIORITY(1'b1)) _TECHMAP_REPLACE_ (.D(D), .CE(1'b1), .CLK(C), .SR(1'b0), .Q(Q)); endmodule +module \$_DFF_P_ (input D, C, output Q); EFX_FF #(.CLK_POLARITY(1'b1), .CE_POLARITY(1'b1), .SR_POLARITY(1'b1), .D_POLARITY(1'b1), .SR_SYNC(1'b1), .SR_VALUE(1'b0), .SR_SYNC_PRIORITY(1'b1)) _TECHMAP_REPLACE_ (.D(D), .CE(1'b1), .CLK(C), .SR(1'b0), .Q(Q)); endmodule + +module \$_DFFE_NN_ (input D, C, E, output Q); EFX_FF #(.CLK_POLARITY(1'b0), .CE_POLARITY(1'b0), .SR_POLARITY(1'b1), .D_POLARITY(1'b1), .SR_SYNC(1'b1), .SR_VALUE(1'b0), .SR_SYNC_PRIORITY(1'b1)) _TECHMAP_REPLACE_ (.D(D), .CE(E), .CLK(C), .SR(1'b0), .Q(Q)); endmodule +module \$_DFFE_NP_ (input D, C, E, output Q); EFX_FF #(.CLK_POLARITY(1'b0), .CE_POLARITY(1'b1), .SR_POLARITY(1'b1), .D_POLARITY(1'b1), .SR_SYNC(1'b1), .SR_VALUE(1'b0), .SR_SYNC_PRIORITY(1'b1)) _TECHMAP_REPLACE_ (.D(D), .CE(E), .CLK(C), .SR(1'b0), .Q(Q)); endmodule + +module \$_DFFE_PN_ (input D, C, E, output Q); EFX_FF #(.CLK_POLARITY(1'b1), .CE_POLARITY(1'b0), .SR_POLARITY(1'b1), .D_POLARITY(1'b1), .SR_SYNC(1'b1), .SR_VALUE(1'b0), .SR_SYNC_PRIORITY(1'b1)) _TECHMAP_REPLACE_ (.D(D), .CE(E), .CLK(C), .SR(1'b0), .Q(Q)); endmodule +module \$_DFFE_PP_ (input D, C, E, output Q); EFX_FF #(.CLK_POLARITY(1'b1), .CE_POLARITY(1'b1), .SR_POLARITY(1'b1), .D_POLARITY(1'b1), .SR_SYNC(1'b1), .SR_VALUE(1'b0), .SR_SYNC_PRIORITY(1'b1)) _TECHMAP_REPLACE_ (.D(D), .CE(E), .CLK(C), .SR(1'b0), .Q(Q)); endmodule + +module \$_DFF_NN0_ (input D, C, R, output Q); EFX_FF #(.CLK_POLARITY(1'b0), .CE_POLARITY(1'b1), .SR_POLARITY(1'b0), .D_POLARITY(1'b1), .SR_SYNC(1'b0), .SR_VALUE(1'b0), .SR_SYNC_PRIORITY(1'b1)) _TECHMAP_REPLACE_ (.D(D), .CE(1'b1), .CLK(C), .SR(R), .Q(Q)); endmodule +module \$_DFF_NN1_ (input D, C, R, output Q); EFX_FF #(.CLK_POLARITY(1'b0), .CE_POLARITY(1'b1), .SR_POLARITY(1'b0), .D_POLARITY(1'b1), .SR_SYNC(1'b0), .SR_VALUE(1'b1), .SR_SYNC_PRIORITY(1'b1)) _TECHMAP_REPLACE_ (.D(D), .CE(1'b1), .CLK(C), .SR(R), .Q(Q)); endmodule +module \$_DFF_PN0_ (input D, C, R, output Q); EFX_FF #(.CLK_POLARITY(1'b1), .CE_POLARITY(1'b1), .SR_POLARITY(1'b0), .D_POLARITY(1'b1), .SR_SYNC(1'b0), .SR_VALUE(1'b0), .SR_SYNC_PRIORITY(1'b1)) _TECHMAP_REPLACE_ (.D(D), .CE(1'b1), .CLK(C), .SR(R), .Q(Q)); endmodule +module \$_DFF_PN1_ (input D, C, R, output Q); EFX_FF #(.CLK_POLARITY(1'b1), .CE_POLARITY(1'b1), .SR_POLARITY(1'b0), .D_POLARITY(1'b1), .SR_SYNC(1'b0), .SR_VALUE(1'b1), .SR_SYNC_PRIORITY(1'b1)) _TECHMAP_REPLACE_ (.D(D), .CE(1'b1), .CLK(C), .SR(R), .Q(Q)); endmodule + +module \$_DFF_NP0_ (input D, C, R, output Q); EFX_FF #(.CLK_POLARITY(1'b0), .CE_POLARITY(1'b1), .SR_POLARITY(1'b1), .D_POLARITY(1'b1), .SR_SYNC(1'b0), .SR_VALUE(1'b0), .SR_SYNC_PRIORITY(1'b1)) _TECHMAP_REPLACE_ (.D(D), .CE(1'b1), .CLK(C), .SR(R), .Q(Q)); endmodule +module \$_DFF_NP1_ (input D, C, R, output Q); EFX_FF #(.CLK_POLARITY(1'b0), .CE_POLARITY(1'b1), .SR_POLARITY(1'b1), .D_POLARITY(1'b1), .SR_SYNC(1'b0), .SR_VALUE(1'b1), .SR_SYNC_PRIORITY(1'b1)) _TECHMAP_REPLACE_ (.D(D), .CE(1'b1), .CLK(C), .SR(R), .Q(Q)); endmodule +module \$_DFF_PP0_ (input D, C, R, output Q); EFX_FF #(.CLK_POLARITY(1'b1), .CE_POLARITY(1'b1), .SR_POLARITY(1'b1), .D_POLARITY(1'b1), .SR_SYNC(1'b0), .SR_VALUE(1'b0), .SR_SYNC_PRIORITY(1'b1)) _TECHMAP_REPLACE_ (.D(D), .CE(1'b1), .CLK(C), .SR(R), .Q(Q)); endmodule +module \$_DFF_PP1_ (input D, C, R, output Q); EFX_FF #(.CLK_POLARITY(1'b1), .CE_POLARITY(1'b1), .SR_POLARITY(1'b1), .D_POLARITY(1'b1), .SR_SYNC(1'b0), .SR_VALUE(1'b1), .SR_SYNC_PRIORITY(1'b1)) _TECHMAP_REPLACE_ (.D(D), .CE(1'b1), .CLK(C), .SR(R), .Q(Q)); endmodule + +`ifndef NO_LUT +module \$lut (A, Y); + parameter WIDTH = 0; + parameter LUT = 0; + + input [WIDTH-1:0] A; + output Y; + + generate + if (WIDTH == 1) begin + EFX_LUT4 #(.LUTMASK(LUT)) _TECHMAP_REPLACE_ (.O(Y), .I0(A[0]), .I1(1'b0), .I2(1'b0), .I3(1'b0)); + end else + if (WIDTH == 2) begin + EFX_LUT4 #(.LUTMASK(LUT)) _TECHMAP_REPLACE_ (.O(Y), .I0(A[0]), .I1(A[1]), .I2(1'b0), .I3(1'b0)); + end else + if (WIDTH == 3) begin + EFX_LUT4 #(.LUTMASK(LUT)) _TECHMAP_REPLACE_ (.O(Y), .I0(A[0]), .I1(A[1]), .I2(A[2]), .I3(1'b0)); + end else + if (WIDTH == 4) begin + EFX_LUT4 #(.LUTMASK(LUT)) _TECHMAP_REPLACE_ (.O(Y), .I0(A[0]), .I1(A[1]), .I2(A[2]), .I3(A[3])); + end else begin + wire _TECHMAP_FAIL_ = 1; + end + endgenerate +endmodule +`endif diff --git a/techlibs/efinix/cells_sim.v b/techlibs/efinix/cells_sim.v new file mode 100644 index 000000000..2fc2034a6 --- /dev/null +++ b/techlibs/efinix/cells_sim.v @@ -0,0 +1,173 @@ +module EFX_LUT4( + output O, + input I0, + input I1, + input I2, + input I3 +); + parameter LUTMASK = 16'h0000; + + wire [7:0] s3 = I3 ? LUTMASK[15:8] : LUTMASK[7:0]; + wire [3:0] s2 = I2 ? s3[ 7:4] : s3[3:0]; + wire [1:0] s1 = I1 ? s2[ 3:2] : s2[1:0]; + assign O = I0 ? s1[1] : s1[0]; +endmodule + +module EFX_ADD( + output O, + output CO, + input I0, + input I1, + input CI +); + parameter I0_POLARITY = 1; + parameter I1_POLARITY = 1; + + wire i0; + wire i1; + + assign i0 = I0_POLARITY ? I0 : ~I0; + assign i1 = I1_POLARITY ? I1 : ~I1; + + assign {CO, O} = i0 + i1 + CI; +endmodule + +module EFX_FF( + output reg Q, + input D, + input CE, + input CLK, + input SR +); + parameter CLK_POLARITY = 1; + parameter CE_POLARITY = 1; + parameter SR_POLARITY = 1; + parameter SR_SYNC = 0; + parameter SR_VALUE = 0; + parameter SR_SYNC_PRIORITY = 0; + parameter D_POLARITY = 1; + + wire clk; + wire ce; + wire sr; + wire d; + wire prio; + wire sync; + wire async; + + assign clk = CLK_POLARITY ? CLK : ~CLK; + assign ce = CE_POLARITY ? CE : ~CE; + assign sr = SR_POLARITY ? SR : ~SR; + assign d = D_POLARITY ? D : ~D; + + generate + if (SR_SYNC == 1) + begin + if (SR_SYNC_PRIORITY == 1) + begin + always @(posedge clk) + if (sr) + Q <= SR_VALUE; + else if (ce) + Q <= d; + end + else + begin + always @(posedge clk) + if (ce) + begin + if (sr) + Q <= SR_VALUE; + else + Q <= d; + end + end + end + else + begin + always @(posedge clk or posedge sr) + if (sr) + Q <= SR_VALUE; + else if (ce) + Q <= d; + + end + endgenerate +endmodule + +module EFX_GBUFCE( + input CE, + input I, + output O +); + parameter CE_POLARITY = 1'b1; + + wire ce; + assign ce = CE_POLARITY ? CE : ~CE; + + assign O = I & ce; + +endmodule + +module EFX_RAM_5K( + input [WRITE_WIDTH-1:0] WDATA, + input [WRITE_ADDR_WIDTH-1:0] WADDR, + input WE, + input WCLK, + input WCLKE, + output [READ_WIDTH-1:0] RDATA, + input [READ_ADDR_WIDTH-1:0] RADDR, + input RE, + input RCLK +); + parameter READ_WIDTH = 20; + parameter WRITE_WIDTH = 20; + parameter OUTPUT_REG = 1'b0; + parameter RCLK_POLARITY = 1'b1; + parameter RE_POLARITY = 1'b1; + parameter WCLK_POLARITY = 1'b1; + parameter WE_POLARITY = 1'b1; + parameter WCLKE_POLARITY = 1'b1; + parameter WRITE_MODE = "READ_FIRST"; + parameter INIT_0 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_2 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_3 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_4 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_5 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_6 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_7 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_8 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_9 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_10 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_11 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_12 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_13 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + + localparam READ_ADDR_WIDTH = + (READ_WIDTH == 16) ? 8 : // 256x16 + (READ_WIDTH == 8) ? 9 : // 512x8 + (READ_WIDTH == 4) ? 10 : // 1024x4 + (READ_WIDTH == 2) ? 11 : // 2048x2 + (READ_WIDTH == 1) ? 12 : // 4096x1 + (READ_WIDTH == 20) ? 8 : // 256x20 + (READ_WIDTH == 10) ? 9 : // 512x10 + (READ_WIDTH == 5) ? 10 : -1; // 1024x5 + + localparam WRITE_ADDR_WIDTH = + (WRITE_WIDTH == 16) ? 8 : // 256x16 + (WRITE_WIDTH == 8) ? 9 : // 512x8 + (WRITE_WIDTH == 4) ? 10 : // 1024x4 + (WRITE_WIDTH == 2) ? 11 : // 2048x2 + (WRITE_WIDTH == 1) ? 12 : // 4096x1 + (WRITE_WIDTH == 20) ? 8 : // 256x20 + (WRITE_WIDTH == 10) ? 9 : // 512x10 + (WRITE_WIDTH == 5) ? 10 : -1; // 1024x5 + +endmodule
\ No newline at end of file diff --git a/techlibs/efinix/efinix_fixcarry.cc b/techlibs/efinix/efinix_fixcarry.cc new file mode 100644 index 000000000..b7cd995b8 --- /dev/null +++ b/techlibs/efinix/efinix_fixcarry.cc @@ -0,0 +1,122 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2019 Miodrag Milanovic <miodrag@symbioticeda.com> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +#include "kernel/yosys.h" +#include "kernel/sigtools.h" + +USING_YOSYS_NAMESPACE +PRIVATE_NAMESPACE_BEGIN + +static SigBit get_bit_or_zero(const SigSpec &sig) +{ + if (GetSize(sig) == 0) + return State::S0; + return sig[0]; +} + +static void fix_carry_chain(Module *module) +{ + SigMap sigmap(module); + + pool<SigBit> ci_bits; + dict<SigBit, SigBit> mapping_bits; + + for (auto cell : module->cells()) + { + if (cell->type == "\\EFX_ADD") { + SigBit bit_i0 = get_bit_or_zero(cell->getPort("\\I0")); + SigBit bit_i1 = get_bit_or_zero(cell->getPort("\\I1")); + if (bit_i0 == State::S0 && bit_i1== State::S0) { + SigBit bit_ci = get_bit_or_zero(cell->getPort("\\CI")); + SigBit bit_o = sigmap(cell->getPort("\\O")); + ci_bits.insert(bit_ci); + mapping_bits[bit_ci] = bit_o; + } + } + } + + vector<Cell*> adders_to_fix_cells; + for (auto cell : module->cells()) + { + if (cell->type == "\\EFX_ADD") { + SigBit bit_ci = get_bit_or_zero(cell->getPort("\\CI")); + SigBit bit_i0 = get_bit_or_zero(cell->getPort("\\I0")); + SigBit bit_i1 = get_bit_or_zero(cell->getPort("\\I1")); + SigBit canonical_bit = sigmap(bit_ci); + if (!ci_bits.count(canonical_bit)) + continue; + if (bit_i0 == State::S0 && bit_i1== State::S0) + continue; + + adders_to_fix_cells.push_back(cell); + log("Found %s cell named %s with invalid CI signal.\n", log_id(cell->type), log_id(cell)); + } + } + + for (auto cell : adders_to_fix_cells) + { + SigBit bit_ci = get_bit_or_zero(cell->getPort("\\CI")); + SigBit canonical_bit = sigmap(bit_ci); + auto bit = mapping_bits.at(canonical_bit); + log("Fixing %s cell named %s breaking carry chain.\n", log_id(cell->type), log_id(cell)); + Cell *c = module->addCell(NEW_ID, "\\EFX_ADD"); + SigBit new_bit = module->addWire(NEW_ID); + c->setParam("\\I0_POLARITY", State::S1); + c->setParam("\\I1_POLARITY", State::S1); + c->setPort("\\I0", bit); + c->setPort("\\I1", State::S1); + c->setPort("\\CI", State::S0); + c->setPort("\\CO", new_bit); + + cell->setPort("\\CI", new_bit); + } +} + +struct EfinixCarryFixPass : public Pass { + EfinixCarryFixPass() : Pass("efinix_fixcarry", "Efinix: fix carry chain") { } + void help() YS_OVERRIDE + { + // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| + log("\n"); + log(" efinix_fixcarry [options] [selection]\n"); + log("\n"); + log("Add Efinix adders to fix carry chain if needed.\n"); + log("\n"); + } + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + { + log_header(design, "Executing efinix_fixcarry pass (fix invalid carry chain).\n"); + + size_t argidx; + for (argidx = 1; argidx < args.size(); argidx++) + { + break; + } + extra_args(args, argidx, design); + + Module *module = design->top_module(); + + if (module == nullptr) + log_cmd_error("No top module found.\n"); + + fix_carry_chain(module); + } +} EfinixCarryFixPass; + +PRIVATE_NAMESPACE_END diff --git a/techlibs/efinix/efinix_gbuf.cc b/techlibs/efinix/efinix_gbuf.cc new file mode 100644 index 000000000..e75fb3f4d --- /dev/null +++ b/techlibs/efinix/efinix_gbuf.cc @@ -0,0 +1,119 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2019 Miodrag Milanovic <miodrag@symbioticeda.com> + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +#include "kernel/yosys.h" +#include "kernel/sigtools.h" + +USING_YOSYS_NAMESPACE +PRIVATE_NAMESPACE_BEGIN + +static void handle_gbufs(Module *module) +{ + SigMap sigmap(module); + + pool<SigBit> clk_bits; + dict<SigBit, SigBit> rewrite_bits; + vector<pair<Cell*, SigBit>> pad_bits; + + for (auto cell : module->cells()) + { + if (cell->type == "\\EFX_FF") { + for (auto bit : sigmap(cell->getPort("\\CLK"))) + clk_bits.insert(bit); + } + if (cell->type == "\\EFX_RAM_5K") { + for (auto bit : sigmap(cell->getPort("\\RCLK"))) + clk_bits.insert(bit); + for (auto bit : sigmap(cell->getPort("\\WCLK"))) + clk_bits.insert(bit); + } + } + + for (auto wire : vector<Wire*>(module->wires())) + { + if (!wire->port_input) + continue; + + for (int index = 0; index < GetSize(wire); index++) + { + SigBit bit(wire, index); + SigBit canonical_bit = sigmap(bit); + + if (!clk_bits.count(canonical_bit)) + continue; + + Cell *c = module->addCell(NEW_ID, "\\EFX_GBUFCE"); + SigBit new_bit = module->addWire(NEW_ID); + c->setParam("\\CE_POLARITY", State::S1); + c->setPort("\\O", new_bit); + c->setPort("\\CE", State::S1); + pad_bits.push_back(make_pair(c, bit)); + rewrite_bits[canonical_bit] = new_bit; + + log("Added %s cell %s for port bit %s.\n", log_id(c->type), log_id(c), log_signal(bit)); + } + } + + auto rewrite_function = [&](SigSpec &s) { + for (auto &bit : s) { + SigBit canonical_bit = sigmap(bit); + if (rewrite_bits.count(canonical_bit)) + bit = rewrite_bits.at(canonical_bit); + } + }; + + module->rewrite_sigspecs(rewrite_function); + + for (auto &it : pad_bits) + it.first->setPort("\\I", it.second); +} + +struct EfinixGbufPass : public Pass { + EfinixGbufPass() : Pass("efinix_gbuf", "Efinix: insert global clock buffers") { } + void help() YS_OVERRIDE + { + // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| + log("\n"); + log(" efinix_gbuf [options] [selection]\n"); + log("\n"); + log("Add Efinix global clock buffers to top module as needed.\n"); + log("\n"); + } + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + { + log_header(design, "Executing efinix_gbuf pass (insert global clock buffers).\n"); + + size_t argidx; + for (argidx = 1; argidx < args.size(); argidx++) + { + break; + } + extra_args(args, argidx, design); + + Module *module = design->top_module(); + + if (module == nullptr) + log_cmd_error("No top module found.\n"); + + handle_gbufs(module); + } +} EfinixGbufPass; + +PRIVATE_NAMESPACE_END diff --git a/techlibs/efinix/synth_efinix.cc b/techlibs/efinix/synth_efinix.cc new file mode 100644 index 000000000..26a8d4eda --- /dev/null +++ b/techlibs/efinix/synth_efinix.cc @@ -0,0 +1,219 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2019 Miodrag Milanovic <miodrag@symbioticeda.com> + * Copyright (C) 2019 Clifford Wolf <clifford@clifford.at> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +#include "kernel/register.h" +#include "kernel/celltypes.h" +#include "kernel/rtlil.h" +#include "kernel/log.h" + +USING_YOSYS_NAMESPACE +PRIVATE_NAMESPACE_BEGIN + +struct SynthEfinixPass : public ScriptPass +{ + SynthEfinixPass() : ScriptPass("synth_efinix", "synthesis for Efinix FPGAs") { } + + void help() YS_OVERRIDE + { + // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| + log("\n"); + log(" synth_efinix [options]\n"); + log("\n"); + log("This command runs synthesis for Efinix FPGAs.\n"); + log("\n"); + log(" -top <module>\n"); + log(" use the specified module as top module\n"); + log("\n"); + log(" -edif <file>\n"); + log(" write the design to the specified EDIF file. writing of an output file\n"); + log(" is omitted if this parameter is not specified.\n"); + log("\n"); + log(" -json <file>\n"); + log(" write the design to the specified JSON file. writing of an output file\n"); + log(" is omitted if this parameter is not specified.\n"); + log("\n"); + log(" -run <from_label>:<to_label>\n"); + log(" only run the commands between the labels (see below). an empty\n"); + log(" from label is synonymous to 'begin', and empty to label is\n"); + log(" synonymous to the end of the command list.\n"); + log("\n"); + log(" -noflatten\n"); + log(" do not flatten design before synthesis\n"); + log("\n"); + log(" -retime\n"); + log(" run 'abc' with -dff option\n"); + log("\n"); + log("\n"); + log("The following commands are executed by this synthesis command:\n"); + help_script(); + log("\n"); + } + + string top_opt, edif_file, json_file; + bool flatten, retime; + + void clear_flags() YS_OVERRIDE + { + top_opt = "-auto-top"; + edif_file = ""; + json_file = ""; + flatten = true; + retime = false; + } + + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + { + string run_from, run_to; + clear_flags(); + + size_t argidx; + for (argidx = 1; argidx < args.size(); argidx++) + { + if (args[argidx] == "-top" && argidx+1 < args.size()) { + top_opt = "-top " + args[++argidx]; + continue; + } + if (args[argidx] == "-edif" && argidx+1 < args.size()) { + edif_file = args[++argidx]; + continue; + } + if (args[argidx] == "-json" && argidx+1 < args.size()) { + json_file = args[++argidx]; + continue; + } + if (args[argidx] == "-run" && argidx+1 < args.size()) { + size_t pos = args[argidx+1].find(':'); + if (pos == std::string::npos) + break; + run_from = args[++argidx].substr(0, pos); + run_to = args[argidx].substr(pos+1); + continue; + } + if (args[argidx] == "-noflatten") { + flatten = false; + continue; + } + if (args[argidx] == "-retime") { + retime = true; + continue; + } + break; + } + extra_args(args, argidx, design); + + if (!design->full_selection()) + log_cmd_error("This command only operates on fully selected designs!\n"); + + log_header(design, "Executing SYNTH_EFINIX pass.\n"); + log_push(); + + run_script(design, run_from, run_to); + + log_pop(); + } + + void script() YS_OVERRIDE + { + if (check_label("begin")) + { + run("read_verilog -lib +/efinix/cells_sim.v"); + run(stringf("hierarchy -check %s", help_mode ? "-top <top>" : top_opt.c_str())); + } + + if (flatten && check_label("flatten", "(unless -noflatten)")) + { + run("proc"); + run("flatten"); + run("tribuf -logic"); + run("deminout"); + } + + if (check_label("coarse")) + { + run("synth -run coarse"); + } + + if (check_label("map_bram", "(skip if -nobram)")) + { + run("memory_bram -rules +/efinix/bram.txt"); + run("techmap -map +/efinix/brams_map.v"); + run("setundef -zero -params t:EFX_RAM_5K"); + } + + if (check_label("fine")) + { + run("opt -fast -mux_undef -undriven -fine"); + run("memory_map"); + run("opt -undriven -fine"); + run("techmap -map +/techmap.v -map +/efinix/arith_map.v"); + if (retime || help_mode) + run("abc -dff", "(only if -retime)"); + } + + if (check_label("map_ffs")) + { + run("dffsr2dff"); + run("techmap -D NO_LUT -map +/efinix/cells_map.v"); + run("dffinit -strinit SET RESET -ff AL_MAP_SEQ q REGSET -noreinit"); + run("opt_expr -mux_undef"); + run("simplemap"); + } + + if (check_label("map_luts")) + { + run("abc -lut 4"); + run("clean"); + } + + if (check_label("map_cells")) + { + run("techmap -map +/efinix/cells_map.v"); + run("clean"); + } + + if (check_label("map_gbuf")) + { + run("efinix_gbuf"); + run("efinix_fixcarry"); + run("clean"); + } + + if (check_label("check")) + { + run("hierarchy -check"); + run("stat"); + run("check -noinit"); + } + + if (check_label("edif")) + { + if (!edif_file.empty() || help_mode) + run(stringf("write_edif %s", help_mode ? "<file-name>" : edif_file.c_str())); + } + + if (check_label("json")) + { + if (!json_file.empty() || help_mode) + run(stringf("write_json %s", help_mode ? "<file-name>" : json_file.c_str())); + } + } +} SynthEfinixPass; + +PRIVATE_NAMESPACE_END diff --git a/techlibs/gowin/Makefile.inc b/techlibs/gowin/Makefile.inc index 679d7eff5..6f2159349 100644 --- a/techlibs/gowin/Makefile.inc +++ b/techlibs/gowin/Makefile.inc @@ -1,6 +1,17 @@ OBJS += techlibs/gowin/synth_gowin.o +OBJS += techlibs/gowin/determine_init.o + $(eval $(call add_share_file,share/gowin,techlibs/gowin/cells_map.v)) $(eval $(call add_share_file,share/gowin,techlibs/gowin/cells_sim.v)) +$(eval $(call add_share_file,share/gowin,techlibs/gowin/arith_map.v)) +$(eval $(call add_share_file,share/gowin,techlibs/gowin/brams_map.v)) +$(eval $(call add_share_file,share/gowin,techlibs/gowin/bram.txt)) +$(eval $(call add_share_file,share/gowin,techlibs/gowin/drams_map.v)) +$(eval $(call add_share_file,share/gowin,techlibs/gowin/dram.txt)) + + + +$(eval $(call add_share_file,share/gowin,techlibs/gowin/brams_init3.vh)) diff --git a/techlibs/gowin/arith_map.v b/techlibs/gowin/arith_map.v new file mode 100644 index 000000000..e15de6423 --- /dev/null +++ b/techlibs/gowin/arith_map.v @@ -0,0 +1,59 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * Copyright (C) 2018 David Shah <dave@ds0.me> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +(* techmap_celltype = "$alu" *) +module _80_gw1n_alu(A, B, CI, BI, X, Y, CO); + parameter A_SIGNED = 0; + parameter B_SIGNED = 0; + parameter A_WIDTH = 1; + parameter B_WIDTH = 1; + parameter Y_WIDTH = 1; + + input [A_WIDTH-1:0] A; + input [B_WIDTH-1:0] B; + output [Y_WIDTH-1:0] X, Y; + + input CI, BI; + output [Y_WIDTH-1:0] CO; + + wire _TECHMAP_FAIL_ = Y_WIDTH <= 2; + + wire [Y_WIDTH-1:0] A_buf, B_buf; + \$pos #(.A_SIGNED(A_SIGNED), .A_WIDTH(A_WIDTH), .Y_WIDTH(Y_WIDTH)) A_conv (.A(A), .Y(A_buf)); + \$pos #(.A_SIGNED(B_SIGNED), .A_WIDTH(B_WIDTH), .Y_WIDTH(Y_WIDTH)) B_conv (.A(B), .Y(B_buf)); + + wire [Y_WIDTH-1:0] AA = A_buf; + wire [Y_WIDTH-1:0] BB = BI ? ~B_buf : B_buf; + wire [Y_WIDTH-1:0] C = {CO, CI}; + + genvar i; + generate for (i = 0; i < Y_WIDTH; i = i + 1) begin:slice + ALU #(.ALU_MODE(32'b0)) + alu(.I0(AA[i]), + .I1(BB[i]), + .I3(1'b0), + .CIN(C[i]), + .COUT(CO[i]), + .SUM(Y[i]) + ); + end endgenerate + assign X = AA ^ BB; +endmodule + diff --git a/techlibs/gowin/bram.txt b/techlibs/gowin/bram.txt new file mode 100644 index 000000000..b5f9a981c --- /dev/null +++ b/techlibs/gowin/bram.txt @@ -0,0 +1,29 @@ +bram $__GW1NR_SDP +# uncomment when done +# init 1 + abits 10 @a10d18 + dbits 16 @a10d18 + abits 11 @a11d9 + dbits 8 @a11d9 + abits 12 @a12d4 + dbits 4 @a12d4 + abits 13 @a13d2 + dbits 2 @a13d2 + abits 14 @a14d1 + dbits 1 @a14d1 + groups 2 + ports 1 1 + wrmode 1 0 + enable 1 1 @a10d18 + enable 1 1 @a11d9 @a12d4 @a13d2 @a14d1 + transp 0 0 + clocks 2 3 + clkpol 2 3 +endbram + +match $__GW1NR_SDP + min bits 2048 + min efficiency 5 + shuffle_enable B + make_transp +endmatch diff --git a/techlibs/gowin/brams_init3.vh b/techlibs/gowin/brams_init3.vh new file mode 100644 index 000000000..84397fa24 --- /dev/null +++ b/techlibs/gowin/brams_init3.vh @@ -0,0 +1,12 @@ +localparam [15:0] INIT_0 = { + INIT[ 60], INIT[ 56], INIT[ 52], INIT[ 48], INIT[ 44], INIT[ 40], INIT[ 36], INIT[ 32], INIT[ 28], INIT[ 24], INIT[ 20], INIT[ 16], INIT[ 12], INIT[ 8], INIT[ 4], INIT[ 0] +}; +localparam [15:0] INIT_1 = { + INIT[ 61], INIT[ 57], INIT[ 53], INIT[ 49], INIT[ 45], INIT[ 41], INIT[ 37], INIT[ 33], INIT[ 29], INIT[ 25], INIT[ 21], INIT[ 17], INIT[ 13], INIT[ 9], INIT[ 5], INIT[ 1] +}; +localparam [15:0] INIT_2 = { + INIT[ 62], INIT[ 58], INIT[ 54], INIT[ 50], INIT[ 46], INIT[ 42], INIT[ 38], INIT[ 34], INIT[ 30], INIT[ 26], INIT[ 22], INIT[ 18], INIT[ 14], INIT[ 10], INIT[ 6], INIT[ 2] +}; +localparam [15:0] INIT_3 = { + INIT[ 63], INIT[ 59], INIT[ 55], INIT[ 51], INIT[ 47], INIT[ 43], INIT[ 39], INIT[ 35], INIT[ 31], INIT[ 27], INIT[ 23], INIT[ 19], INIT[ 15], INIT[ 11], INIT[ 7], INIT[ 3] +}; diff --git a/techlibs/gowin/brams_map.v b/techlibs/gowin/brams_map.v new file mode 100644 index 000000000..e963cfa88 --- /dev/null +++ b/techlibs/gowin/brams_map.v @@ -0,0 +1,103 @@ +/* Semi Dual Port (SDP) memory have the following configurations: + * Memory Config RAM(BIT) Port Mode Memory Depth Data Depth + * ----------------|---------| ----------|--------------|------------| + * B-SRAM_16K_SD1 16K 16Kx1 16,384 1 + * B-SRAM_8K_SD2 16K 8Kx2 8,192 2 + * B-SRAM_4K_SD4 16K 4Kx2 4,096 4 + */ +module \$__GW1NR_SDP (CLK2, CLK3, A1ADDR, A1DATA, A1EN, B1ADDR, B1DATA, B1EN); + parameter CFG_ABITS = 10; + parameter CFG_DBITS = 16; + parameter CFG_ENABLE_A = 3; + + parameter [16383:0] INIT = 16384'hx; + parameter CLKPOL2 = 1; + parameter CLKPOL3 = 1; + + input CLK2; + input CLK3; + + input [CFG_ABITS-1:0] A1ADDR; + input [CFG_DBITS-1:0] A1DATA; + input [CFG_ENABLE_A-1:0] A1EN; + + input [CFG_ABITS-1:0] B1ADDR; + output [CFG_DBITS-1:0] B1DATA; + input B1EN; + + + generate if (CFG_DBITS == 1) begin + SDP #( + .READ_MODE(0), + .BIT_WIDTH_0(1), + .BIT_WIDTH_1(1), + .BLK_SEL(3'b000), + .RESET_MODE("SYNC") + ) _TECHMAP_REPLACE_ ( + .CLKA(CLK2), .CLKB(CLK3), + .WREA(A1EN), .OCE(1'b0), .CEA(1'b1), + .WREB(1'b0), .CEB(B1EN), + .RESETA(1'b0), .RESETB(1'b0), .BLKSEL(3'b000), + .DI(A1DATA), .DO(B1DATA), .ADA(A1ADDR), .ADB(B1ADDR) + ); + end else if (CFG_DBITS == 2) begin + SDP #( + .READ_MODE(0), + .BIT_WIDTH_0(2), + .BIT_WIDTH_1(2), + .BLK_SEL(3'b000), + .RESET_MODE("SYNC") + ) _TECHMAP_REPLACE_ ( + .CLKA(CLK2), .CLKB(CLK3), + .WREA(A1EN), .OCE(1'b0), .CEA(1'b1), + .WREB(1'b0), .CEB(B1EN), + .RESETA(1'b0), .RESETB(1'b0), .BLKSEL(3'b000), + .DI(A1DATA), .DO(B1DATA), .ADA(A1ADDR), .ADB(B1ADDR) + ); + end else if (CFG_DBITS <= 4) begin + SDP #( + .READ_MODE(0), + .BIT_WIDTH_0(4), + .BIT_WIDTH_1(4), + .BLK_SEL(3'b000), + .RESET_MODE("SYNC") + ) _TECHMAP_REPLACE_ ( + .CLKA(CLK2), .CLKB(CLK3), + .WREA(A1EN), .OCE(1'b0), + .WREB(1'b0), .CEB(B1EN), .CEA(1'b1), + .RESETA(1'b0), .RESETB(1'b0), .BLKSEL(3'b000), + .DI(A1DATA), .DO(B1DATA), .ADA(A1ADDR), .ADB(B1ADDR) + ); + end else if (CFG_DBITS <= 8) begin + SDP #( + .READ_MODE(0), + .BIT_WIDTH_0(8), + .BIT_WIDTH_1(8), + .BLK_SEL(3'b000), + .RESET_MODE("SYNC") + ) _TECHMAP_REPLACE_ ( + .CLKA(CLK2), .CLKB(CLK3), + .WREA(A1EN), .OCE(1'b0), .CEA(1'b1), + .WREB(1'b0), .CEB(B1EN), + .RESETA(1'b0), .RESETB(1'b0), .BLKSEL(3'b000), + .DI(A1DATA), .DO(B1DATA), .ADA(A1ADDR), .ADB(B1ADDR) + ); + end else if (CFG_DBITS <= 16) begin + SDP #( + .READ_MODE(0), + .BIT_WIDTH_0(16), + .BIT_WIDTH_1(16), + .BLK_SEL(3'b000), + .RESET_MODE("SYNC") + ) _TECHMAP_REPLACE_ ( + .CLKA(CLK2), .CLKB(CLK3), + .WREA(A1EN), .OCE(1'b0), + .WREB(1'b0), .CEB(B1EN), .CEA(1'b1), + .RESETA(1'b0), .RESETB(1'b0), .BLKSEL(3'b000), + .DI(A1DATA), .DO(B1DATA), .ADA(A1ADDR), .ADB(B1ADDR) + ); + end else begin + wire TECHMAP_FAIL = 1'b1; + end endgenerate + +endmodule diff --git a/techlibs/gowin/cells_map.v b/techlibs/gowin/cells_map.v index e1f85effa..ebdc88a0a 100644 --- a/techlibs/gowin/cells_map.v +++ b/techlibs/gowin/cells_map.v @@ -1,5 +1,9 @@ module \$_DFF_N_ (input D, C, output Q); DFFN _TECHMAP_REPLACE_ (.D(D), .Q(Q), .CLK(C)); endmodule -module \$_DFF_P_ (input D, C, output Q); DFF _TECHMAP_REPLACE_ (.D(D), .Q(Q), .CLK(C)); endmodule +module \$_DFF_P_ #(parameter INIT = 1'b0) (input D, C, output Q); DFF #(.INIT(INIT)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .CLK(C)); endmodule + +module \$__DFFS_PN0_ (input D, C, R, output Q); DFFR _TECHMAP_REPLACE_ (.D(D), .Q(Q), .CLK(C), .RESET(!R)); endmodule +module \$__DFFS_PP0_ (input D, C, R, output Q); DFFR _TECHMAP_REPLACE_ (.D(D), .Q(Q), .CLK(C), .RESET(R)); endmodule +module \$__DFFS_PP1_ (input D, C, R, output Q); DFFR _TECHMAP_REPLACE_ (.D(D), .Q(Q), .CLK(C), .RESET(R)); endmodule module \$lut (A, Y); parameter WIDTH = 0; diff --git a/techlibs/gowin/cells_sim.v b/techlibs/gowin/cells_sim.v index 947942626..ebb238bad 100644 --- a/techlibs/gowin/cells_sim.v +++ b/techlibs/gowin/cells_sim.v @@ -38,6 +38,17 @@ module DFFN (output reg Q, input CLK, D); Q <= D; endmodule +module DFFR (output reg Q, input D, CLK, RESET); + parameter [0:0] INIT = 1'b0; + initial Q = INIT; + always @(posedge CLK) begin + if (RESET) + Q <= 1'b0; + else + Q <= D; + end +endmodule // DFFR (positive clock edge; synchronous reset) + module VCC(output V); assign V = 1; endmodule @@ -57,3 +68,132 @@ endmodule module GSR (input GSRI); wire GSRO = GSRI; endmodule + +module ALU (input I0, input I1, input I3, input CIN, output COUT, output SUM); + parameter [3:0] ALU_MODE = 0; // default 0 = ADD + assign {COUT, SUM} = CIN + I1 + I0; +endmodule // alu + +module RAM16S4 (DO, DI, AD, WRE, CLK); + parameter WIDTH = 4; + parameter INIT_0 = 16'h0000; + parameter INIT_1 = 16'h0000; + parameter INIT_2 = 16'h0000; + parameter INIT_3 = 16'h0000; + + input [WIDTH-1:0] AD; + input [WIDTH-1:0] DI; + output [WIDTH-1:0] DO; + input CLK; + input WRE; + + reg [15:0] mem0, mem1, mem2, mem3; + + initial begin + mem0 = INIT_0; + mem1 = INIT_1; + mem2 = INIT_2; + mem3 = INIT_3; + end + + assign DO[0] = mem0[AD]; + assign DO[1] = mem1[AD]; + assign DO[2] = mem2[AD]; + assign DO[3] = mem3[AD]; + + always @(posedge CLK) begin + if (WRE) begin + mem0[AD] <= DI[0]; + mem1[AD] <= DI[1]; + mem2[AD] <= DI[2]; + mem3[AD] <= DI[3]; + end + end + +endmodule // RAM16S4 + + +(* blackbox *) +module SDP (DO, DI, BLKSEL, ADA, ADB, WREA, WREB, CLKA, CLKB, CEA, CEB, OCE, RESETA, RESETB); +//1'b0: Bypass mode; 1'b1 Pipeline mode +parameter READ_MODE = 1'b0; +parameter BIT_WIDTH_0 = 32; // 1, 2, 4, 8, 16, 32 +parameter BIT_WIDTH_1 = 32; // 1, 2, 4, 8, 16, 32 +parameter BLK_SEL = 3'b000; +parameter RESET_MODE = "SYNC"; +parameter INIT_RAM_00 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_01 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_02 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_03 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_04 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_05 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_06 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_07 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_08 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_09 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_0A = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_0B = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_0C = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_0D = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_0E = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_0F = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_10 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_11 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_12 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_13 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_14 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_15 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_16 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_17 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_18 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_19 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_1A = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_1B = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_1C = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_1D = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_1E = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_1F = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_20 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_21 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_22 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_23 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_24 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_25 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_26 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_27 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_28 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_29 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_2A = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_2B = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_2C = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_2D = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_2E = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_2F = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_30 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_31 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_32 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_33 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_34 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_35 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_36 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_37 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_38 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_39 = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_3A = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_3B = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_3C = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_3D = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_3E = 256'h0000000000000000000000000000000000000000000000000000000000000000; +parameter INIT_RAM_3F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + +input CLKA, CEA, CLKB, CEB; +input OCE; // clock enable of memory output register +input RESETA, RESETB; // resets output registers, not memory contents +input WREA, WREB; // 1'b0: read enabled; 1'b1: write enabled +input [13:0] ADA, ADB; +input [31:0] DI; +input [2:0] BLKSEL; +output [31:0] DO; + +endmodule + diff --git a/techlibs/gowin/determine_init.cc b/techlibs/gowin/determine_init.cc new file mode 100644 index 000000000..d9a0880f6 --- /dev/null +++ b/techlibs/gowin/determine_init.cc @@ -0,0 +1,72 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2018 Icenowy Zheng <icenowy@aosc.io> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +#include "kernel/yosys.h" +#include "kernel/sigtools.h" + +USING_YOSYS_NAMESPACE +PRIVATE_NAMESPACE_BEGIN + +struct DetermineInitPass : public Pass { + DetermineInitPass() : Pass("determine_init", "Determine the init value of cells") { } + void help() YS_OVERRIDE + { + log("\n"); + log(" determine_init [selection]\n"); + log("\n"); + log("Determine the init value of cells that doesn't allow unknown init value.\n"); + log("\n"); + } + + Const determine_init(Const init) + { + for (int i = 0; i < GetSize(init); i++) { + if (init[i] != State::S0 && init[i] != State::S1) + init[i] = State::S0; + } + + return init; + } + + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + { + log_header(design, "Executing DETERMINE_INIT pass (determine init value for cells).\n"); + + extra_args(args, args.size(), design); + + int cnt = 0; + for (auto module : design->selected_modules()) + { + for (auto cell : module->selected_cells()) + { + if (cell->type == "\\RAM16S4") + { + cell->setParam("\\INIT_0", determine_init(cell->getParam("\\INIT_0"))); + cell->setParam("\\INIT_1", determine_init(cell->getParam("\\INIT_1"))); + cell->setParam("\\INIT_2", determine_init(cell->getParam("\\INIT_2"))); + cell->setParam("\\INIT_3", determine_init(cell->getParam("\\INIT_3"))); + cnt++; + } + } + } + log_header(design, "Updated %d cells with determined init value.\n", cnt); + } +} DetermineInitPass; + +PRIVATE_NAMESPACE_END diff --git a/techlibs/gowin/dram.txt b/techlibs/gowin/dram.txt new file mode 100644 index 000000000..9db530251 --- /dev/null +++ b/techlibs/gowin/dram.txt @@ -0,0 +1,17 @@ +bram $__GW1NR_RAM16S4 + init 1 + abits 4 + dbits 4 + groups 2 + ports 1 1 + wrmode 0 1 + enable 0 1 + transp 0 1 + clocks 0 1 + clkpol 0 1 +endbram + +match $__GW1NR_RAM16S4 + make_outreg + min wports 1 +endmatch diff --git a/techlibs/gowin/drams_map.v b/techlibs/gowin/drams_map.v new file mode 100644 index 000000000..a50ab365a --- /dev/null +++ b/techlibs/gowin/drams_map.v @@ -0,0 +1,31 @@ +module \$__GW1NR_RAM16S4 (CLK1, A1ADDR, A1DATA, A1EN, B1ADDR, B1DATA, B1EN); + parameter CFG_ABITS = 4; + parameter CFG_DBITS = 4; + + parameter [63:0] INIT = 64'bx; + input CLK1; + + input [CFG_ABITS-1:0] A1ADDR; + output [CFG_DBITS-1:0] A1DATA; + input A1EN; + + input [CFG_ABITS-1:0] B1ADDR; + input [CFG_DBITS-1:0] B1DATA; + input B1EN; + + `include "brams_init3.vh" + + RAM16S4 + #(.INIT_0(INIT_0), + .INIT_1(INIT_1), + .INIT_2(INIT_2), + .INIT_3(INIT_3)) + _TECHMAP_REPLACE_ + (.AD(B1ADDR), + .DI(B1DATA), + .DO(A1DATA), + .CLK(CLK1), + .WRE(B1EN)); + + +endmodule diff --git a/techlibs/gowin/synth_gowin.cc b/techlibs/gowin/synth_gowin.cc index 44dec265d..ac3dbfb29 100644 --- a/techlibs/gowin/synth_gowin.cc +++ b/techlibs/gowin/synth_gowin.cc @@ -29,7 +29,7 @@ struct SynthGowinPass : public ScriptPass { SynthGowinPass() : ScriptPass("synth_gowin", "synthesis for Gowin FPGAs") { } - virtual void help() YS_OVERRIDE + void help() YS_OVERRIDE { // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| log("\n"); @@ -49,6 +49,18 @@ struct SynthGowinPass : public ScriptPass log(" from label is synonymous to 'begin', and empty to label is\n"); log(" synonymous to the end of the command list.\n"); log("\n"); + log(" -nodffe\n"); + log(" do not use flipflops with CE in output netlist\n"); + log("\n"); + log(" -nobram\n"); + log(" do not use BRAM cells in output netlist\n"); + log("\n"); + log(" -nodram\n"); + log(" do not use distributed RAM cells in output netlist\n"); + log("\n"); + log(" -noflatten\n"); + log(" do not flatten design before synthesis\n"); + log("\n"); log(" -retime\n"); log(" run 'abc' with -dff option\n"); log("\n"); @@ -59,16 +71,20 @@ struct SynthGowinPass : public ScriptPass } string top_opt, vout_file; - bool retime; + bool retime, nobram, nodram, flatten, nodffe; - virtual void clear_flags() YS_OVERRIDE + void clear_flags() YS_OVERRIDE { top_opt = "-auto-top"; vout_file = ""; retime = false; + flatten = true; + nobram = false; + nodffe = false; + nodram = false; } - virtual void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE { string run_from, run_to; clear_flags(); @@ -96,12 +112,28 @@ struct SynthGowinPass : public ScriptPass retime = true; continue; } + if (args[argidx] == "-nobram") { + nobram = true; + continue; + } + if (args[argidx] == "-nodram") { + nodram = true; + continue; + } + if (args[argidx] == "-nodffe") { + nodffe = true; + continue; + } + if (args[argidx] == "-noflatten") { + flatten = false; + continue; + } break; } extra_args(args, argidx, design); if (!design->full_selection()) - log_cmd_error("This comannd only operates on fully selected designs!\n"); + log_cmd_error("This command only operates on fully selected designs!\n"); log_header(design, "Executing SYNTH_GOWIN pass.\n"); log_push(); @@ -111,7 +143,7 @@ struct SynthGowinPass : public ScriptPass log_pop(); } - virtual void script() YS_OVERRIDE + void script() YS_OVERRIDE { if (check_label("begin")) { @@ -119,7 +151,7 @@ struct SynthGowinPass : public ScriptPass run(stringf("hierarchy -check %s", help_mode ? "-top <top>" : top_opt.c_str())); } - if (check_label("flatten")) + if (flatten && check_label("flatten", "(unless -noflatten)")) { run("proc"); run("flatten"); @@ -131,20 +163,43 @@ struct SynthGowinPass : public ScriptPass { run("synth -run coarse"); } + + if (!nobram && check_label("bram", "(skip if -nobram)")) + { + run("memory_bram -rules +/gowin/bram.txt"); + run("techmap -map +/gowin/brams_map.v -map +/gowin/cells_sim.v"); + } + + if (!nodram && check_label("dram", "(skip if -nodram)")) + { + run("memory_bram -rules +/gowin/dram.txt"); + run("techmap -map +/gowin/drams_map.v"); + run("determine_init"); + } if (check_label("fine")) { run("opt -fast -mux_undef -undriven -fine"); run("memory_map"); run("opt -undriven -fine"); - run("techmap"); - run("clean -purge"); - run("splitnets -ports"); - run("setundef -undriven -zero"); + run("techmap -map +/techmap.v -map +/gowin/arith_map.v"); + run("techmap -map +/techmap.v"); if (retime || help_mode) run("abc -dff", "(only if -retime)"); } + if (check_label("map_ffs")) + { + run("dffsr2dff"); + run("dff2dffs"); + run("opt_clean"); + if (!nodffe) + run("dff2dffe -direct-match $_DFF_* -direct-match $__DFFS_*"); + run("techmap -map +/gowin/cells_map.v"); + run("opt_expr -mux_undef"); + run("simplemap"); + } + if (check_label("map_luts")) { run("abc -lut 4"); @@ -155,8 +210,10 @@ struct SynthGowinPass : public ScriptPass { run("techmap -map +/gowin/cells_map.v"); run("hilomap -hicell VCC V -locell GND G"); - run("iopadmap -inpad IBUF O:I -outpad OBUF I:O"); - run("clean -purge"); + run("iopadmap -bits -inpad IBUF O:I -outpad OBUF I:O", "(unless -noiopads)"); + run("dffinit -ff DFF Q INIT"); + run("clean"); + } if (check_label("check")) diff --git a/techlibs/greenpak4/cells_map.v b/techlibs/greenpak4/cells_map.v index b971a51fa..51c85183d 100644 --- a/techlibs/greenpak4/cells_map.v +++ b/techlibs/greenpak4/cells_map.v @@ -112,14 +112,14 @@ module GP_OBUFT(input IN, input OE, output OUT); endmodule module \$lut (A, Y); - parameter WIDTH = 0; - parameter LUT = 0; + parameter WIDTH = 0; + parameter LUT = 0; - input [WIDTH-1:0] A; - output Y; + input [WIDTH-1:0] A; + output Y; - generate - if (WIDTH == 1) begin + generate + if (WIDTH == 1) begin if(LUT == 2'b01) begin GP_INV _TECHMAP_REPLACE_ (.OUT(Y), .IN(A[0]) ); end @@ -127,22 +127,22 @@ module \$lut (A, Y); GP_2LUT #(.INIT({2'b00, LUT})) _TECHMAP_REPLACE_ (.OUT(Y), .IN0(A[0]), .IN1(1'b0)); end - end else - if (WIDTH == 2) begin - GP_2LUT #(.INIT(LUT)) _TECHMAP_REPLACE_ (.OUT(Y), - .IN0(A[0]), .IN1(A[1])); - end else - if (WIDTH == 3) begin - GP_3LUT #(.INIT(LUT)) _TECHMAP_REPLACE_ (.OUT(Y), - .IN0(A[0]), .IN1(A[1]), .IN2(A[2])); - end else - if (WIDTH == 4) begin - GP_4LUT #(.INIT(LUT)) _TECHMAP_REPLACE_ (.OUT(Y), - .IN0(A[0]), .IN1(A[1]), .IN2(A[2]), .IN3(A[3])); - end else begin - wire _TECHMAP_FAIL_ = 1; - end - endgenerate + end else + if (WIDTH == 2) begin + GP_2LUT #(.INIT(LUT)) _TECHMAP_REPLACE_ (.OUT(Y), + .IN0(A[0]), .IN1(A[1])); + end else + if (WIDTH == 3) begin + GP_3LUT #(.INIT(LUT)) _TECHMAP_REPLACE_ (.OUT(Y), + .IN0(A[0]), .IN1(A[1]), .IN2(A[2])); + end else + if (WIDTH == 4) begin + GP_4LUT #(.INIT(LUT)) _TECHMAP_REPLACE_ (.OUT(Y), + .IN0(A[0]), .IN1(A[1]), .IN2(A[2]), .IN3(A[3])); + end else begin + wire _TECHMAP_FAIL_ = 1; + end + endgenerate endmodule module \$__COUNT_ (CE, CLK, OUT, POUT, RST, UP); diff --git a/techlibs/greenpak4/greenpak4_dffinv.cc b/techlibs/greenpak4/greenpak4_dffinv.cc index 7d9d7d5b0..d57e978a0 100644 --- a/techlibs/greenpak4/greenpak4_dffinv.cc +++ b/techlibs/greenpak4/greenpak4_dffinv.cc @@ -91,7 +91,7 @@ void invert_gp_dff(Cell *cell, bool invert_input) struct Greenpak4DffInvPass : public Pass { Greenpak4DffInvPass() : Pass("greenpak4_dffinv", "merge greenpak4 inverters and DFF/latches") { } - virtual void help() + void help() YS_OVERRIDE { log("\n"); log(" greenpak4_dffinv [options] [selection]\n"); @@ -99,7 +99,7 @@ struct Greenpak4DffInvPass : public Pass { log("Merge GP_INV cells with GP_DFF* and GP_DLATCH* cells.\n"); log("\n"); } - virtual void execute(std::vector<std::string> args, RTLIL::Design *design) + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE { log_header(design, "Executing GREENPAK4_DFFINV pass (merge input/output inverters into FF/latch cells).\n"); diff --git a/techlibs/greenpak4/synth_greenpak4.cc b/techlibs/greenpak4/synth_greenpak4.cc index 5e0e9e5d5..eeb001b46 100644 --- a/techlibs/greenpak4/synth_greenpak4.cc +++ b/techlibs/greenpak4/synth_greenpak4.cc @@ -29,7 +29,7 @@ struct SynthGreenPAK4Pass : public ScriptPass { SynthGreenPAK4Pass() : ScriptPass("synth_greenpak4", "synthesis for GreenPAK4 FPGAs") { } - virtual void help() YS_OVERRIDE + void help() YS_OVERRIDE { // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| log("\n"); @@ -70,7 +70,7 @@ struct SynthGreenPAK4Pass : public ScriptPass string top_opt, part, json_file; bool flatten, retime; - virtual void clear_flags() YS_OVERRIDE + void clear_flags() YS_OVERRIDE { top_opt = "-auto-top"; part = "SLG46621V"; @@ -79,7 +79,7 @@ struct SynthGreenPAK4Pass : public ScriptPass retime = false; } - virtual void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE { string run_from, run_to; clear_flags(); @@ -120,7 +120,7 @@ struct SynthGreenPAK4Pass : public ScriptPass extra_args(args, argidx, design); if (!design->full_selection()) - log_cmd_error("This comannd only operates on fully selected designs!\n"); + log_cmd_error("This command only operates on fully selected designs!\n"); if (part != "SLG46140V" && part != "SLG46620V" && part != "SLG46621V") log_cmd_error("Invalid part name: '%s'\n", part.c_str()); @@ -133,7 +133,7 @@ struct SynthGreenPAK4Pass : public ScriptPass log_pop(); } - virtual void script() YS_OVERRIDE + void script() YS_OVERRIDE { if (check_label("begin")) { diff --git a/techlibs/ice40/Makefile.inc b/techlibs/ice40/Makefile.inc index 14761c6c8..76a89b107 100644 --- a/techlibs/ice40/Makefile.inc +++ b/techlibs/ice40/Makefile.inc @@ -1,5 +1,6 @@ OBJS += techlibs/ice40/synth_ice40.o +OBJS += techlibs/ice40/ice40_braminit.o OBJS += techlibs/ice40/ice40_ffssr.o OBJS += techlibs/ice40/ice40_ffinit.o OBJS += techlibs/ice40/ice40_opt.o @@ -26,6 +27,12 @@ $(eval $(call add_share_file,share/ice40,techlibs/ice40/cells_sim.v)) $(eval $(call add_share_file,share/ice40,techlibs/ice40/latches_map.v)) $(eval $(call add_share_file,share/ice40,techlibs/ice40/brams.txt)) $(eval $(call add_share_file,share/ice40,techlibs/ice40/brams_map.v)) +$(eval $(call add_share_file,share/ice40,techlibs/ice40/abc_hx.box)) +$(eval $(call add_share_file,share/ice40,techlibs/ice40/abc_hx.lut)) +$(eval $(call add_share_file,share/ice40,techlibs/ice40/abc_lp.box)) +$(eval $(call add_share_file,share/ice40,techlibs/ice40/abc_lp.lut)) +$(eval $(call add_share_file,share/ice40,techlibs/ice40/abc_u.box)) +$(eval $(call add_share_file,share/ice40,techlibs/ice40/abc_u.lut)) $(eval $(call add_gen_share_file,share/ice40,techlibs/ice40/brams_init1.vh)) $(eval $(call add_gen_share_file,share/ice40,techlibs/ice40/brams_init2.vh)) diff --git a/techlibs/ice40/abc_hx.box b/techlibs/ice40/abc_hx.box new file mode 100644 index 000000000..3ea70bc91 --- /dev/null +++ b/techlibs/ice40/abc_hx.box @@ -0,0 +1,13 @@ +# From https://github.com/cliffordwolf/icestorm/blob/be0bca0/icefuzz/timings_hx8k.txt + +# NB: Inputs/Outputs must be ordered alphabetically +# (with exceptions for carry in/out) + +# Inputs: A B I0 I3 CI +# Outputs: O CO +# (NB: carry chain input/output must be last +# input/output and have been moved there +# overriding the alphabetical ordering) +$__ICE40_CARRY_WRAPPER 1 1 5 2 +400 379 449 316 316 +259 231 - - 126 diff --git a/techlibs/ice40/abc_hx.lut b/techlibs/ice40/abc_hx.lut new file mode 100644 index 000000000..3b3bb11e2 --- /dev/null +++ b/techlibs/ice40/abc_hx.lut @@ -0,0 +1,6 @@ +# From https://github.com/cliffordwolf/icestorm/blob/be0bca0/icefuzz/timings_hx8k.txt +# I3 I2 I1 I0 +1 1 316 +2 1 316 379 +3 1 316 379 400 +4 1 316 379 400 449 diff --git a/techlibs/ice40/abc_lp.box b/techlibs/ice40/abc_lp.box new file mode 100644 index 000000000..473e92fe9 --- /dev/null +++ b/techlibs/ice40/abc_lp.box @@ -0,0 +1,13 @@ +# From https://github.com/cliffordwolf/icestorm/blob/be0bca0/icefuzz/timings_lp8k.txt + +# NB: Inputs/Outputs must be ordered alphabetically +# (with exceptions for carry in/out) + +# Inputs: A B I0 I3 CI +# Outputs: O CO +# (NB: carry chain input/output must be last +# input/output and have been moved there +# overriding the alphabetical ordering) +$__ICE40_CARRY_WRAPPER 1 1 5 2 +589 558 661 465 465 +675 609 - - 186 diff --git a/techlibs/ice40/abc_lp.lut b/techlibs/ice40/abc_lp.lut new file mode 100644 index 000000000..e72f760a2 --- /dev/null +++ b/techlibs/ice40/abc_lp.lut @@ -0,0 +1,6 @@ +# From https://github.com/cliffordwolf/icestorm/blob/be0bca0/icefuzz/timings_lp8k.txt +# I3 I2 I1 I0 +1 1 465 +2 1 465 558 +3 1 465 558 589 +4 1 465 558 589 661 diff --git a/techlibs/ice40/abc_u.box b/techlibs/ice40/abc_u.box new file mode 100644 index 000000000..f00e247b8 --- /dev/null +++ b/techlibs/ice40/abc_u.box @@ -0,0 +1,13 @@ +# From https://github.com/cliffordwolf/icestorm/blob/be0bca0/icefuzz/timings_up5k.txt + +# NB: Inputs/Outputs must be ordered alphabetically +# (with exceptions for carry in/out) + +# Inputs: A B I0 I3 CI +# Outputs: O CO +# (NB: carry chain input/output must be last +# input/output and have been moved there +# overriding the alphabetical ordering) +$__ICE40_CARRY_WRAPPER 1 1 5 2 +1231 1205 1285 874 874 +675 609 - - 278 diff --git a/techlibs/ice40/abc_u.lut b/techlibs/ice40/abc_u.lut new file mode 100644 index 000000000..1e4fcadb6 --- /dev/null +++ b/techlibs/ice40/abc_u.lut @@ -0,0 +1,6 @@ +# From https://github.com/cliffordwolf/icestorm/blob/be0bca0/icefuzz/timings_up5k.txt +# I3 I2 I1 I0 +1 1 874 +2 1 874 1205 +3 1 874 1205 1231 +4 1 874 1205 1231 1285 diff --git a/techlibs/ice40/arith_map.v b/techlibs/ice40/arith_map.v index 4449fdc1b..26b24db9e 100644 --- a/techlibs/ice40/arith_map.v +++ b/techlibs/ice40/arith_map.v @@ -44,23 +44,19 @@ module _80_ice40_alu (A, B, CI, BI, X, Y, CO); genvar i; generate for (i = 0; i < Y_WIDTH; i = i + 1) begin:slice - SB_CARRY carry ( - .I0(AA[i]), - .I1(BB[i]), + \$__ICE40_CARRY_WRAPPER #( + // A[0]: 1010 1010 1010 1010 + // A[1]: 1100 1100 1100 1100 + // A[2]: 1111 0000 1111 0000 + // A[3]: 1111 1111 0000 0000 + .LUT(16'b 0110_1001_1001_0110) + ) fadd ( + .A(AA[i]), + .B(BB[i]), .CI(C[i]), - .CO(CO[i]) - ); - SB_LUT4 #( - // I0: 1010 1010 1010 1010 - // I1: 1100 1100 1100 1100 - // I2: 1111 0000 1111 0000 - // I3: 1111 1111 0000 0000 - .LUT_INIT(16'b 0110_1001_1001_0110) - ) adder ( .I0(1'b0), - .I1(AA[i]), - .I2(BB[i]), .I3(C[i]), + .CO(CO[i]), .O(Y[i]) ); end endgenerate diff --git a/techlibs/ice40/brams_map.v b/techlibs/ice40/brams_map.v index 19a61d73b..ad3bccd21 100644 --- a/techlibs/ice40/brams_map.v +++ b/techlibs/ice40/brams_map.v @@ -7,8 +7,8 @@ module \$__ICE40_RAM4K ( input [10:0] WADDR, input [15:0] MASK, WDATA ); - parameter integer READ_MODE = 0; - parameter integer WRITE_MODE = 0; + parameter [1:0] READ_MODE = 0; + parameter [1:0] WRITE_MODE = 0; parameter [0:0] NEGCLK_R = 0; parameter [0:0] NEGCLK_W = 0; diff --git a/techlibs/ice40/cells_map.v b/techlibs/ice40/cells_map.v index d0ddfd02e..662423f0a 100644 --- a/techlibs/ice40/cells_map.v +++ b/techlibs/ice40/cells_map.v @@ -37,23 +37,46 @@ module \$lut (A, Y); generate if (WIDTH == 1) begin - SB_LUT4 #(.LUT_INIT(LUT)) _TECHMAP_REPLACE_ (.O(Y), - .I0(A[0]), .I1(1'b0), .I2(1'b0), .I3(1'b0)); + localparam [15:0] INIT = {{8{LUT[1]}}, {8{LUT[0]}}}; + SB_LUT4 #(.LUT_INIT(INIT)) _TECHMAP_REPLACE_ (.O(Y), + .I0(1'b0), .I1(1'b0), .I2(1'b0), .I3(A[0])); end else if (WIDTH == 2) begin - SB_LUT4 #(.LUT_INIT(LUT)) _TECHMAP_REPLACE_ (.O(Y), - .I0(A[0]), .I1(A[1]), .I2(1'b0), .I3(1'b0)); + localparam [15:0] INIT = {{4{LUT[3]}}, {4{LUT[1]}}, {4{LUT[2]}}, {4{LUT[0]}}}; + SB_LUT4 #(.LUT_INIT(INIT)) _TECHMAP_REPLACE_ (.O(Y), + .I0(1'b0), .I1(1'b0), .I2(A[1]), .I3(A[0])); end else if (WIDTH == 3) begin - SB_LUT4 #(.LUT_INIT(LUT)) _TECHMAP_REPLACE_ (.O(Y), - .I0(A[0]), .I1(A[1]), .I2(A[2]), .I3(1'b0)); + localparam [15:0] INIT = {{2{LUT[7]}}, {2{LUT[3]}}, {2{LUT[5]}}, {2{LUT[1]}}, {2{LUT[6]}}, {2{LUT[2]}}, {2{LUT[4]}}, {2{LUT[0]}}}; + SB_LUT4 #(.LUT_INIT(INIT)) _TECHMAP_REPLACE_ (.O(Y), + .I0(1'b0), .I1(A[2]), .I2(A[1]), .I3(A[0])); end else if (WIDTH == 4) begin - SB_LUT4 #(.LUT_INIT(LUT)) _TECHMAP_REPLACE_ (.O(Y), - .I0(A[0]), .I1(A[1]), .I2(A[2]), .I3(A[3])); + localparam [15:0] INIT = {LUT[15], LUT[7], LUT[11], LUT[3], LUT[13], LUT[5], LUT[9], LUT[1], LUT[14], LUT[6], LUT[10], LUT[2], LUT[12], LUT[4], LUT[8], LUT[0]}; + SB_LUT4 #(.LUT_INIT(INIT)) _TECHMAP_REPLACE_ (.O(Y), + .I0(A[3]), .I1(A[2]), .I2(A[1]), .I3(A[0])); end else begin wire _TECHMAP_FAIL_ = 1; end endgenerate endmodule `endif + +`ifndef NO_ADDER +module \$__ICE40_CARRY_WRAPPER (output CO, O, input A, B, CI, I0, I3); + parameter LUT = 0; + SB_CARRY carry ( + .I0(A), + .I1(B), + .CI(CI), + .CO(CO) + ); + \$lut #( + .WIDTH(4), + .LUT(LUT) + ) lut ( + .A({I0,A,B,I3}), + .Y(O) + ); +endmodule +`endif diff --git a/techlibs/ice40/cells_sim.v b/techlibs/ice40/cells_sim.v index 45a02111f..8e5e0358e 100644 --- a/techlibs/ice40/cells_sim.v +++ b/techlibs/ice40/cells_sim.v @@ -2,6 +2,10 @@ `define SB_DFF_REG reg Q = 0 // `define SB_DFF_REG reg Q +`define ABC_ARRIVAL_HX(TIME) `ifdef ICE40_HX (* abc_arrival=TIME *) `endif +`define ABC_ARRIVAL_LP(TIME) `ifdef ICE40_LP (* abc_arrival=TIME *) `endif +`define ABC_ARRIVAL_U(TIME) `ifdef ICE40_U (* abc_arrival=TIME *) `endif + // SiliconBlue IO Cells module SB_IO ( @@ -27,18 +31,27 @@ module SB_IO ( reg dout_q_0, dout_q_1; reg outena_q; + // IO tile generates a constant 1'b1 internally if global_cen is not connected + wire clken_pulled = CLOCK_ENABLE || CLOCK_ENABLE === 1'bz; + reg clken_pulled_ri; + reg clken_pulled_ro; + generate if (!NEG_TRIGGER) begin - always @(posedge INPUT_CLK) if (CLOCK_ENABLE) din_q_0 <= PACKAGE_PIN; - always @(negedge INPUT_CLK) if (CLOCK_ENABLE) din_q_1 <= PACKAGE_PIN; - always @(posedge OUTPUT_CLK) if (CLOCK_ENABLE) dout_q_0 <= D_OUT_0; - always @(negedge OUTPUT_CLK) if (CLOCK_ENABLE) dout_q_1 <= D_OUT_1; - always @(posedge OUTPUT_CLK) if (CLOCK_ENABLE) outena_q <= OUTPUT_ENABLE; + always @(posedge INPUT_CLK) clken_pulled_ri <= clken_pulled; + always @(posedge INPUT_CLK) if (clken_pulled) din_q_0 <= PACKAGE_PIN; + always @(negedge INPUT_CLK) if (clken_pulled_ri) din_q_1 <= PACKAGE_PIN; + always @(posedge OUTPUT_CLK) clken_pulled_ro <= clken_pulled; + always @(posedge OUTPUT_CLK) if (clken_pulled) dout_q_0 <= D_OUT_0; + always @(negedge OUTPUT_CLK) if (clken_pulled_ro) dout_q_1 <= D_OUT_1; + always @(posedge OUTPUT_CLK) if (clken_pulled) outena_q <= OUTPUT_ENABLE; end else begin - always @(negedge INPUT_CLK) if (CLOCK_ENABLE) din_q_0 <= PACKAGE_PIN; - always @(posedge INPUT_CLK) if (CLOCK_ENABLE) din_q_1 <= PACKAGE_PIN; - always @(negedge OUTPUT_CLK) if (CLOCK_ENABLE) dout_q_0 <= D_OUT_0; - always @(posedge OUTPUT_CLK) if (CLOCK_ENABLE) dout_q_1 <= D_OUT_1; - always @(negedge OUTPUT_CLK) if (CLOCK_ENABLE) outena_q <= OUTPUT_ENABLE; + always @(negedge INPUT_CLK) clken_pulled_ri <= clken_pulled; + always @(negedge INPUT_CLK) if (clken_pulled) din_q_0 <= PACKAGE_PIN; + always @(posedge INPUT_CLK) if (clken_pulled_ri) din_q_1 <= PACKAGE_PIN; + always @(negedge OUTPUT_CLK) clken_pulled_ro <= clken_pulled; + always @(negedge OUTPUT_CLK) if (clken_pulled) dout_q_0 <= D_OUT_0; + always @(posedge OUTPUT_CLK) if (clken_pulled_ro) dout_q_1 <= D_OUT_1; + always @(negedge OUTPUT_CLK) if (clken_pulled) outena_q <= OUTPUT_ENABLE; end endgenerate always @* begin @@ -118,6 +131,7 @@ endmodule // SiliconBlue Logic Cells +(* lib_whitebox *) module SB_LUT4 (output O, input I0, I1, I2, I3); parameter [15:0] LUT_INIT = 0; wire [7:0] s3 = I3 ? LUT_INIT[15:8] : LUT_INIT[7:0]; @@ -126,24 +140,75 @@ module SB_LUT4 (output O, input I0, I1, I2, I3); assign O = I0 ? s1[1] : s1[0]; endmodule +(* lib_whitebox *) module SB_CARRY (output CO, input I0, I1, CI); assign CO = (I0 && I1) || ((I0 || I1) && CI); endmodule +(* abc_box_id = 1, lib_whitebox *) +module \$__ICE40_CARRY_WRAPPER ( + (* abc_carry *) + output CO, + output O, + input A, B, + (* abc_carry *) + input CI, + input I0, I3 +); + parameter LUT = 0; + SB_CARRY carry ( + .I0(A), + .I1(B), + .CI(CI), + .CO(CO) + ); + SB_LUT4 #( + .LUT_INIT(LUT) + ) adder ( + .I0(I0), + .I1(A), + .I2(B), + .I3(I3), + .O(O) + ); +endmodule + +// Max delay from: https://github.com/cliffordwolf/icestorm/blob/95949315364f8d9b0c693386aefadf44b28e2cf6/icefuzz/timings_hx1k.txt#L90 +// https://github.com/cliffordwolf/icestorm/blob/95949315364f8d9b0c693386aefadf44b28e2cf6/icefuzz/timings_lp1k.txt#L90 +// https://github.com/cliffordwolf/icestorm/blob/95949315364f8d9b0c693386aefadf44b28e2cf6/icefuzz/timings_up5k.txt#L102 + // Positive Edge SiliconBlue FF Cells -module SB_DFF (output `SB_DFF_REG, input C, D); +module SB_DFF ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, D +); always @(posedge C) Q <= D; endmodule -module SB_DFFE (output `SB_DFF_REG, input C, E, D); +module SB_DFFE ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, E, D +); always @(posedge C) if (E) Q <= D; endmodule -module SB_DFFSR (output `SB_DFF_REG, input C, R, D); +module SB_DFFSR ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, R, D +); always @(posedge C) if (R) Q <= 0; @@ -151,7 +216,13 @@ module SB_DFFSR (output `SB_DFF_REG, input C, R, D); Q <= D; endmodule -module SB_DFFR (output `SB_DFF_REG, input C, R, D); +module SB_DFFR ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, R, D +); always @(posedge C, posedge R) if (R) Q <= 0; @@ -159,7 +230,13 @@ module SB_DFFR (output `SB_DFF_REG, input C, R, D); Q <= D; endmodule -module SB_DFFSS (output `SB_DFF_REG, input C, S, D); +module SB_DFFSS ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, S, D +); always @(posedge C) if (S) Q <= 1; @@ -167,7 +244,13 @@ module SB_DFFSS (output `SB_DFF_REG, input C, S, D); Q <= D; endmodule -module SB_DFFS (output `SB_DFF_REG, input C, S, D); +module SB_DFFS ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, S, D +); always @(posedge C, posedge S) if (S) Q <= 1; @@ -175,7 +258,13 @@ module SB_DFFS (output `SB_DFF_REG, input C, S, D); Q <= D; endmodule -module SB_DFFESR (output `SB_DFF_REG, input C, E, R, D); +module SB_DFFESR ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, E, R, D +); always @(posedge C) if (E) begin if (R) @@ -185,7 +274,13 @@ module SB_DFFESR (output `SB_DFF_REG, input C, E, R, D); end endmodule -module SB_DFFER (output `SB_DFF_REG, input C, E, R, D); +module SB_DFFER ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, E, R, D +); always @(posedge C, posedge R) if (R) Q <= 0; @@ -193,7 +288,13 @@ module SB_DFFER (output `SB_DFF_REG, input C, E, R, D); Q <= D; endmodule -module SB_DFFESS (output `SB_DFF_REG, input C, E, S, D); +module SB_DFFESS ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, E, S, D +); always @(posedge C) if (E) begin if (S) @@ -203,7 +304,13 @@ module SB_DFFESS (output `SB_DFF_REG, input C, E, S, D); end endmodule -module SB_DFFES (output `SB_DFF_REG, input C, E, S, D); +module SB_DFFES ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, E, S, D +); always @(posedge C, posedge S) if (S) Q <= 1; @@ -213,18 +320,36 @@ endmodule // Negative Edge SiliconBlue FF Cells -module SB_DFFN (output `SB_DFF_REG, input C, D); +module SB_DFFN ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, D +); always @(negedge C) Q <= D; endmodule -module SB_DFFNE (output `SB_DFF_REG, input C, E, D); +module SB_DFFNE ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, E, D +); always @(negedge C) if (E) Q <= D; endmodule -module SB_DFFNSR (output `SB_DFF_REG, input C, R, D); +module SB_DFFNSR ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, R, D +); always @(negedge C) if (R) Q <= 0; @@ -232,7 +357,13 @@ module SB_DFFNSR (output `SB_DFF_REG, input C, R, D); Q <= D; endmodule -module SB_DFFNR (output `SB_DFF_REG, input C, R, D); +module SB_DFFNR ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, R, D +); always @(negedge C, posedge R) if (R) Q <= 0; @@ -240,7 +371,13 @@ module SB_DFFNR (output `SB_DFF_REG, input C, R, D); Q <= D; endmodule -module SB_DFFNSS (output `SB_DFF_REG, input C, S, D); +module SB_DFFNSS ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, S, D +); always @(negedge C) if (S) Q <= 1; @@ -248,7 +385,13 @@ module SB_DFFNSS (output `SB_DFF_REG, input C, S, D); Q <= D; endmodule -module SB_DFFNS (output `SB_DFF_REG, input C, S, D); +module SB_DFFNS ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, S, D +); always @(negedge C, posedge S) if (S) Q <= 1; @@ -256,7 +399,13 @@ module SB_DFFNS (output `SB_DFF_REG, input C, S, D); Q <= D; endmodule -module SB_DFFNESR (output `SB_DFF_REG, input C, E, R, D); +module SB_DFFNESR ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, E, R, D +); always @(negedge C) if (E) begin if (R) @@ -266,7 +415,13 @@ module SB_DFFNESR (output `SB_DFF_REG, input C, E, R, D); end endmodule -module SB_DFFNER (output `SB_DFF_REG, input C, E, R, D); +module SB_DFFNER ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, E, R, D +); always @(negedge C, posedge R) if (R) Q <= 0; @@ -274,7 +429,13 @@ module SB_DFFNER (output `SB_DFF_REG, input C, E, R, D); Q <= D; endmodule -module SB_DFFNESS (output `SB_DFF_REG, input C, E, S, D); +module SB_DFFNESS ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, E, S, D +); always @(negedge C) if (E) begin if (S) @@ -284,7 +445,13 @@ module SB_DFFNESS (output `SB_DFF_REG, input C, E, S, D); end endmodule -module SB_DFFNES (output `SB_DFF_REG, input C, E, S, D); +module SB_DFFNES ( + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output `SB_DFF_REG, + input C, E, S, D +); always @(negedge C, posedge S) if (S) Q <= 1; @@ -295,6 +462,9 @@ endmodule // SiliconBlue RAM Cells module SB_RAM40_4K ( + `ABC_ARRIVAL_HX(2146) // https://github.com/cliffordwolf/icestorm/blob/95949315364f8d9b0c693386aefadf44b28e2cf6/icefuzz/timings_hx1k.txt#L401 + `ABC_ARRIVAL_LP(3163) // https://github.com/cliffordwolf/icestorm/blob/95949315364f8d9b0c693386aefadf44b28e2cf6/icefuzz/timings_lp1k.txt#L401 + `ABC_ARRIVAL_U(1179) // https://github.com/cliffordwolf/icestorm/blob/95949315364f8d9b0c693386aefadf44b28e2cf6/icefuzz/timings_up5k.txt#L13026 output [15:0] RDATA, input RCLK, RCLKE, RE, input [10:0] RADDR, @@ -326,6 +496,8 @@ module SB_RAM40_4K ( parameter INIT_E = 256'h0000000000000000000000000000000000000000000000000000000000000000; parameter INIT_F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_FILE = ""; + `ifndef BLACKBOX wire [15:0] WMASK_I; wire [15:0] RMASK_I; @@ -408,24 +580,27 @@ module SB_RAM40_4K ( reg [15:0] memory [0:255]; initial begin - for (i=0; i<16; i=i+1) begin - memory[ 0*16 + i] <= INIT_0[16*i +: 16]; - memory[ 1*16 + i] <= INIT_1[16*i +: 16]; - memory[ 2*16 + i] <= INIT_2[16*i +: 16]; - memory[ 3*16 + i] <= INIT_3[16*i +: 16]; - memory[ 4*16 + i] <= INIT_4[16*i +: 16]; - memory[ 5*16 + i] <= INIT_5[16*i +: 16]; - memory[ 6*16 + i] <= INIT_6[16*i +: 16]; - memory[ 7*16 + i] <= INIT_7[16*i +: 16]; - memory[ 8*16 + i] <= INIT_8[16*i +: 16]; - memory[ 9*16 + i] <= INIT_9[16*i +: 16]; - memory[10*16 + i] <= INIT_A[16*i +: 16]; - memory[11*16 + i] <= INIT_B[16*i +: 16]; - memory[12*16 + i] <= INIT_C[16*i +: 16]; - memory[13*16 + i] <= INIT_D[16*i +: 16]; - memory[14*16 + i] <= INIT_E[16*i +: 16]; - memory[15*16 + i] <= INIT_F[16*i +: 16]; - end + if (INIT_FILE != "") + $readmemh(INIT_FILE, memory); + else + for (i=0; i<16; i=i+1) begin + memory[ 0*16 + i] = INIT_0[16*i +: 16]; + memory[ 1*16 + i] = INIT_1[16*i +: 16]; + memory[ 2*16 + i] = INIT_2[16*i +: 16]; + memory[ 3*16 + i] = INIT_3[16*i +: 16]; + memory[ 4*16 + i] = INIT_4[16*i +: 16]; + memory[ 5*16 + i] = INIT_5[16*i +: 16]; + memory[ 6*16 + i] = INIT_6[16*i +: 16]; + memory[ 7*16 + i] = INIT_7[16*i +: 16]; + memory[ 8*16 + i] = INIT_8[16*i +: 16]; + memory[ 9*16 + i] = INIT_9[16*i +: 16]; + memory[10*16 + i] = INIT_A[16*i +: 16]; + memory[11*16 + i] = INIT_B[16*i +: 16]; + memory[12*16 + i] = INIT_C[16*i +: 16]; + memory[13*16 + i] = INIT_D[16*i +: 16]; + memory[14*16 + i] = INIT_E[16*i +: 16]; + memory[15*16 + i] = INIT_F[16*i +: 16]; + end end always @(posedge WCLK) begin @@ -458,6 +633,9 @@ module SB_RAM40_4K ( endmodule module SB_RAM40_4KNR ( + `ABC_ARRIVAL_HX(2146) // https://github.com/cliffordwolf/icestorm/blob/95949315364f8d9b0c693386aefadf44b28e2cf6/icefuzz/timings_hx1k.txt#L401 + `ABC_ARRIVAL_LP(3163) // https://github.com/cliffordwolf/icestorm/blob/95949315364f8d9b0c693386aefadf44b28e2cf6/icefuzz/timings_lp1k.txt#L401 + `ABC_ARRIVAL_U(1179) // https://github.com/cliffordwolf/icestorm/blob/95949315364f8d9b0c693386aefadf44b28e2cf6/icefuzz/timings_up5k.txt#L13026 output [15:0] RDATA, input RCLKN, RCLKE, RE, input [10:0] RADDR, @@ -485,6 +663,8 @@ module SB_RAM40_4KNR ( parameter INIT_E = 256'h0000000000000000000000000000000000000000000000000000000000000000; parameter INIT_F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_FILE = ""; + SB_RAM40_4K #( .WRITE_MODE(WRITE_MODE), .READ_MODE (READ_MODE ), @@ -503,7 +683,8 @@ module SB_RAM40_4KNR ( .INIT_C (INIT_C ), .INIT_D (INIT_D ), .INIT_E (INIT_E ), - .INIT_F (INIT_F ) + .INIT_F (INIT_F ), + .INIT_FILE (INIT_FILE ) ) RAM ( .RDATA(RDATA), .RCLK (~RCLKN), @@ -520,6 +701,9 @@ module SB_RAM40_4KNR ( endmodule module SB_RAM40_4KNW ( + `ABC_ARRIVAL_HX(2146) // https://github.com/cliffordwolf/icestorm/blob/95949315364f8d9b0c693386aefadf44b28e2cf6/icefuzz/timings_hx1k.txt#L401 + `ABC_ARRIVAL_LP(3163) // https://github.com/cliffordwolf/icestorm/blob/95949315364f8d9b0c693386aefadf44b28e2cf6/icefuzz/timings_lp1k.txt#L401 + `ABC_ARRIVAL_U(1179) // https://github.com/cliffordwolf/icestorm/blob/95949315364f8d9b0c693386aefadf44b28e2cf6/icefuzz/timings_up5k.txt#L13026 output [15:0] RDATA, input RCLK, RCLKE, RE, input [10:0] RADDR, @@ -547,6 +731,8 @@ module SB_RAM40_4KNW ( parameter INIT_E = 256'h0000000000000000000000000000000000000000000000000000000000000000; parameter INIT_F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_FILE = ""; + SB_RAM40_4K #( .WRITE_MODE(WRITE_MODE), .READ_MODE (READ_MODE ), @@ -565,7 +751,8 @@ module SB_RAM40_4KNW ( .INIT_C (INIT_C ), .INIT_D (INIT_D ), .INIT_E (INIT_E ), - .INIT_F (INIT_F ) + .INIT_F (INIT_F ), + .INIT_FILE (INIT_FILE ) ) RAM ( .RDATA(RDATA), .RCLK (RCLK ), @@ -582,6 +769,9 @@ module SB_RAM40_4KNW ( endmodule module SB_RAM40_4KNRNW ( + `ABC_ARRIVAL_HX(2146) // https://github.com/cliffordwolf/icestorm/blob/95949315364f8d9b0c693386aefadf44b28e2cf6/icefuzz/timings_hx1k.txt#L401 + `ABC_ARRIVAL_LP(3163) // https://github.com/cliffordwolf/icestorm/blob/95949315364f8d9b0c693386aefadf44b28e2cf6/icefuzz/timings_lp1k.txt#L401 + `ABC_ARRIVAL_U(1179) // https://github.com/cliffordwolf/icestorm/blob/95949315364f8d9b0c693386aefadf44b28e2cf6/icefuzz/timings_up5k.txt#L13026 output [15:0] RDATA, input RCLKN, RCLKE, RE, input [10:0] RADDR, @@ -609,6 +799,8 @@ module SB_RAM40_4KNRNW ( parameter INIT_E = 256'h0000000000000000000000000000000000000000000000000000000000000000; parameter INIT_F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_FILE = ""; + SB_RAM40_4K #( .WRITE_MODE(WRITE_MODE), .READ_MODE (READ_MODE ), @@ -627,7 +819,8 @@ module SB_RAM40_4KNRNW ( .INIT_C (INIT_C ), .INIT_D (INIT_D ), .INIT_E (INIT_E ), - .INIT_F (INIT_F ) + .INIT_F (INIT_F ), + .INIT_FILE (INIT_FILE ) ) RAM ( .RDATA(RDATA), .RCLK (~RCLKN), @@ -647,7 +840,12 @@ endmodule module ICESTORM_LC ( input I0, I1, I2, I3, CIN, CLK, CEN, SR, - output LO, O, COUT + output LO, + `ABC_ARRIVAL_HX(540) + `ABC_ARRIVAL_LP(796) + `ABC_ARRIVAL_U(1391) + output O, + output COUT ); parameter [15:0] LUT_INIT = 0; @@ -657,7 +855,12 @@ module ICESTORM_LC ( parameter [0:0] SET_NORESET = 0; parameter [0:0] ASYNC_SR = 0; - assign COUT = CARRY_ENABLE ? (I1 && I2) || ((I1 || I2) && CIN) : 1'bx; + parameter [0:0] CIN_CONST = 0; + parameter [0:0] CIN_SET = 0; + + wire mux_cin = CIN_CONST ? CIN_SET : CIN; + + assign COUT = CARRY_ENABLE ? (I1 && I2) || ((I1 || I2) && mux_cin) : 1'bx; wire [7:0] lut_s3 = I3 ? LUT_INIT[15:8] : LUT_INIT[7:0]; wire [3:0] lut_s2 = I2 ? lut_s3[ 7:4] : lut_s3[3:0]; @@ -862,80 +1065,61 @@ module SB_WARMBOOT ( ); endmodule -// UltraPlus feature cells -(* blackbox *) -module SB_MAC16 ( - input CLK, - input CE, - input [15:0] C, - input [15:0] A, - input [15:0] B, - input [15:0] D, - input AHOLD, - input BHOLD, - input CHOLD, - input DHOLD, - input IRSTTOP, - input IRSTBOT, - input ORSTTOP, - input ORSTBOT, - input OLOADTOP, - input OLOADBOT, - input ADDSUBTOP, - input ADDSUBBOT, - input OHOLDTOP, - input OHOLDBOT, - input CI, - input ACCUMCI, - input SIGNEXTIN, - output [31:0] O, - output CO, - output ACCUMCO, - output SIGNEXTOUT -); -parameter NEG_TRIGGER = 1'b0; -parameter C_REG = 1'b0; -parameter A_REG = 1'b0; -parameter B_REG = 1'b0; -parameter D_REG = 1'b0; -parameter TOP_8x8_MULT_REG = 1'b0; -parameter BOT_8x8_MULT_REG = 1'b0; -parameter PIPELINE_16x16_MULT_REG1 = 1'b0; -parameter PIPELINE_16x16_MULT_REG2 = 1'b0; -parameter TOPOUTPUT_SELECT = 2'b00; -parameter TOPADDSUB_LOWERINPUT = 2'b00; -parameter TOPADDSUB_UPPERINPUT = 1'b0; -parameter TOPADDSUB_CARRYSELECT = 2'b00; -parameter BOTOUTPUT_SELECT = 2'b00; -parameter BOTADDSUB_LOWERINPUT = 2'b00; -parameter BOTADDSUB_UPPERINPUT = 1'b0; -parameter BOTADDSUB_CARRYSELECT = 2'b00; -parameter MODE_8x8 = 1'b0; -parameter A_SIGNED = 1'b0; -parameter B_SIGNED = 1'b0; -endmodule - -(* blackbox *) -module SB_SPRAM256KA( +module SB_SPRAM256KA ( input [13:0] ADDRESS, input [15:0] DATAIN, input [3:0] MASKWREN, - input WREN, - input CHIPSELECT, - input CLOCK, - input STANDBY, - input SLEEP, - input POWEROFF, - output [15:0] DATAOUT + input WREN, CHIPSELECT, CLOCK, STANDBY, SLEEP, POWEROFF, + output reg [15:0] DATAOUT ); +`ifndef BLACKBOX +`ifndef EQUIV + reg [15:0] mem [0:16383]; + wire off = SLEEP || !POWEROFF; + integer i; + + always @(negedge POWEROFF) begin + for (i = 0; i <= 16383; i = i+1) + mem[i] = 'bx; + end + + always @(posedge CLOCK, posedge off) begin + if (off) begin + DATAOUT <= 0; + end else + if (CHIPSELECT && !STANDBY && !WREN) begin + DATAOUT <= mem[ADDRESS]; + end else begin + if (CHIPSELECT && !STANDBY && WREN) begin + if (MASKWREN[0]) mem[ADDRESS][ 3: 0] = DATAIN[ 3: 0]; + if (MASKWREN[1]) mem[ADDRESS][ 7: 4] = DATAIN[ 7: 4]; + if (MASKWREN[2]) mem[ADDRESS][11: 8] = DATAIN[11: 8]; + if (MASKWREN[3]) mem[ADDRESS][15:12] = DATAIN[15:12]; + end + DATAOUT <= 'bx; + end + end +`endif +`endif endmodule (* blackbox *) module SB_HFOSC( + input TRIM0, + input TRIM1, + input TRIM2, + input TRIM3, + input TRIM4, + input TRIM5, + input TRIM6, + input TRIM7, + input TRIM8, + input TRIM9, input CLKHFPU, input CLKHFEN, output CLKHF ); +parameter TRIM_EN = "0b0"; parameter CLKHF_DIV = "0b00"; endmodule @@ -965,6 +1149,30 @@ parameter RGB2_CURRENT = "0b000000"; endmodule (* blackbox *) +module SB_LED_DRV_CUR( + input EN, + output LEDPU +); +endmodule + +(* blackbox *) +module SB_RGB_DRV( + input RGBLEDEN, + input RGB0PWM, + input RGB1PWM, + input RGB2PWM, + input RGBPU, + output RGB0, + output RGB1, + output RGB2 +); +parameter CURRENT_MODE = "0b0"; +parameter RGB0_CURRENT = "0b000000"; +parameter RGB1_CURRENT = "0b000000"; +parameter RGB2_CURRENT = "0b000000"; +endmodule + +(* blackbox *) module SB_I2C( input SBCLKI, input SBRWI, @@ -1227,3 +1435,173 @@ module SB_IO_OD ( `endif endmodule +module SB_MAC16 ( + input CLK, CE, + input [15:0] C, A, B, D, + input AHOLD, BHOLD, CHOLD, DHOLD, + input IRSTTOP, IRSTBOT, + input ORSTTOP, ORSTBOT, + input OLOADTOP, OLOADBOT, + input ADDSUBTOP, ADDSUBBOT, + input OHOLDTOP, OHOLDBOT, + input CI, ACCUMCI, SIGNEXTIN, + //`ABC_ARRIVAL_U(1984) // https://github.com/cliffordwolf/icestorm/blob/95949315364f8d9b0c693386aefadf44b28e2cf6/icefuzz/timings_up5k.txt#L13026 + output [31:0] O, + output CO, ACCUMCO, SIGNEXTOUT +); + parameter [0:0] NEG_TRIGGER = 0; + parameter [0:0] C_REG = 0; + parameter [0:0] A_REG = 0; + parameter [0:0] B_REG = 0; + parameter [0:0] D_REG = 0; + parameter [0:0] TOP_8x8_MULT_REG = 0; + parameter [0:0] BOT_8x8_MULT_REG = 0; + parameter [0:0] PIPELINE_16x16_MULT_REG1 = 0; + parameter [0:0] PIPELINE_16x16_MULT_REG2 = 0; + parameter [1:0] TOPOUTPUT_SELECT = 0; + parameter [1:0] TOPADDSUB_LOWERINPUT = 0; + parameter [0:0] TOPADDSUB_UPPERINPUT = 0; + parameter [1:0] TOPADDSUB_CARRYSELECT = 0; + parameter [1:0] BOTOUTPUT_SELECT = 0; + parameter [1:0] BOTADDSUB_LOWERINPUT = 0; + parameter [0:0] BOTADDSUB_UPPERINPUT = 0; + parameter [1:0] BOTADDSUB_CARRYSELECT = 0; + parameter [0:0] MODE_8x8 = 0; + parameter [0:0] A_SIGNED = 0; + parameter [0:0] B_SIGNED = 0; + + wire clock = CLK ^ NEG_TRIGGER; + + // internal wires, compare Figure on page 133 of ICE Technology Library 3.0 and Fig 2 on page 2 of Lattice TN1295-DSP + // http://www.latticesemi.com/~/media/LatticeSemi/Documents/TechnicalBriefs/SBTICETechnologyLibrary201608.pdf + // https://www.latticesemi.com/-/media/LatticeSemi/Documents/ApplicationNotes/AD/DSPFunctionUsageGuideforICE40Devices.ashx + wire [15:0] iA, iB, iC, iD; + wire [15:0] iF, iJ, iK, iG; + wire [31:0] iL, iH; + wire [15:0] iW, iX, iP, iQ; + wire [15:0] iY, iZ, iR, iS; + wire HCI, LCI, LCO; + + // Regs C and A + reg [15:0] rC, rA; + always @(posedge clock, posedge IRSTTOP) begin + if (IRSTTOP) begin + rC <= 0; + rA <= 0; + end else if (CE) begin + if (!CHOLD) rC <= C; + if (!AHOLD) rA <= A; + end + end + assign iC = C_REG ? rC : C; + assign iA = A_REG ? rA : A; + + // Regs B and D + reg [15:0] rB, rD; + always @(posedge clock, posedge IRSTBOT) begin + if (IRSTBOT) begin + rB <= 0; + rD <= 0; + end else if (CE) begin + if (!BHOLD) rB <= B; + if (!DHOLD) rD <= D; + end + end + assign iB = B_REG ? rB : B; + assign iD = D_REG ? rD : D; + + // Multiplier Stage + wire [15:0] p_Ah_Bh, p_Al_Bh, p_Ah_Bl, p_Al_Bl; + wire [15:0] Ah, Al, Bh, Bl; + assign Ah = {A_SIGNED ? {8{iA[15]}} : 8'b0, iA[15: 8]}; + assign Al = {A_SIGNED && MODE_8x8 ? {8{iA[ 7]}} : 8'b0, iA[ 7: 0]}; + assign Bh = {B_SIGNED ? {8{iB[15]}} : 8'b0, iB[15: 8]}; + assign Bl = {B_SIGNED && MODE_8x8 ? {8{iB[ 7]}} : 8'b0, iB[ 7: 0]}; + assign p_Ah_Bh = Ah * Bh; // F + assign p_Al_Bh = {8'b0, Al[7:0]} * Bh; // J + assign p_Ah_Bl = Ah * {8'b0, Bl[7:0]}; // K + assign p_Al_Bl = Al * Bl; // G + + // Regs F and J + reg [15:0] rF, rJ; + always @(posedge clock, posedge IRSTTOP) begin + if (IRSTTOP) begin + rF <= 0; + rJ <= 0; + end else if (CE) begin + rF <= p_Ah_Bh; + if (!MODE_8x8) rJ <= p_Al_Bh; + end + end + assign iF = TOP_8x8_MULT_REG ? rF : p_Ah_Bh; + assign iJ = PIPELINE_16x16_MULT_REG1 ? rJ : p_Al_Bh; + + // Regs K and G + reg [15:0] rK, rG; + always @(posedge clock, posedge IRSTBOT) begin + if (IRSTBOT) begin + rK <= 0; + rG <= 0; + end else if (CE) begin + if (!MODE_8x8) rK <= p_Ah_Bl; + rG <= p_Al_Bl; + end + end + assign iK = PIPELINE_16x16_MULT_REG1 ? rK : p_Ah_Bl; + assign iG = BOT_8x8_MULT_REG ? rG : p_Al_Bl; + + // Adder Stage + wire [23:0] iK_e = {A_SIGNED ? {8{iK[15]}} : 8'b0, iK}; + wire [23:0] iJ_e = {B_SIGNED ? {8{iJ[15]}} : 8'b0, iJ}; + assign iL = iG + (iK_e << 8) + (iJ_e << 8) + (iF << 16); + + // Reg H + reg [31:0] rH; + always @(posedge clock, posedge IRSTBOT) begin + if (IRSTBOT) begin + rH <= 0; + end else if (CE) begin + if (!MODE_8x8) rH <= iL; + end + end + assign iH = PIPELINE_16x16_MULT_REG2 ? rH : iL; + + // Hi Output Stage + wire [15:0] XW, Oh; + reg [15:0] rQ; + assign iW = TOPADDSUB_UPPERINPUT ? iC : iQ; + assign iX = (TOPADDSUB_LOWERINPUT == 0) ? iA : (TOPADDSUB_LOWERINPUT == 1) ? iF : (TOPADDSUB_LOWERINPUT == 2) ? iH[31:16] : {16{iZ[15]}}; + assign {ACCUMCO, XW} = iX + (iW ^ {16{ADDSUBTOP}}) + HCI; + assign CO = ACCUMCO ^ ADDSUBTOP; + assign iP = OLOADTOP ? iC : XW ^ {16{ADDSUBTOP}}; + always @(posedge clock, posedge ORSTTOP) begin + if (ORSTTOP) begin + rQ <= 0; + end else if (CE) begin + if (!OHOLDTOP) rQ <= iP; + end + end + assign iQ = rQ; + assign Oh = (TOPOUTPUT_SELECT == 0) ? iP : (TOPOUTPUT_SELECT == 1) ? iQ : (TOPOUTPUT_SELECT == 2) ? iF : iH[31:16]; + assign HCI = (TOPADDSUB_CARRYSELECT == 0) ? 1'b0 : (TOPADDSUB_CARRYSELECT == 1) ? 1'b1 : (TOPADDSUB_CARRYSELECT == 2) ? LCO : LCO ^ ADDSUBBOT; + assign SIGNEXTOUT = iX[15]; + + // Lo Output Stage + wire [15:0] YZ, Ol; + reg [15:0] rS; + assign iY = BOTADDSUB_UPPERINPUT ? iD : iS; + assign iZ = (BOTADDSUB_LOWERINPUT == 0) ? iB : (BOTADDSUB_LOWERINPUT == 1) ? iG : (BOTADDSUB_LOWERINPUT == 2) ? iH[15:0] : {16{SIGNEXTIN}}; + assign {LCO, YZ} = iZ + (iY ^ {16{ADDSUBBOT}}) + LCI; + assign iR = OLOADBOT ? iD : YZ ^ {16{ADDSUBBOT}}; + always @(posedge clock, posedge ORSTBOT) begin + if (ORSTBOT) begin + rS <= 0; + end else if (CE) begin + if (!OHOLDBOT) rS <= iR; + end + end + assign iS = rS; + assign Ol = (BOTOUTPUT_SELECT == 0) ? iR : (BOTOUTPUT_SELECT == 1) ? iS : (BOTOUTPUT_SELECT == 2) ? iG : iH[15:0]; + assign LCI = (BOTADDSUB_CARRYSELECT == 0) ? 1'b0 : (BOTADDSUB_CARRYSELECT == 1) ? 1'b1 : (BOTADDSUB_CARRYSELECT == 2) ? ACCUMCI : CI; + assign O = {Oh, Ol}; +endmodule diff --git a/techlibs/ice40/ice40_braminit.cc b/techlibs/ice40/ice40_braminit.cc new file mode 100644 index 000000000..1a139ffea --- /dev/null +++ b/techlibs/ice40/ice40_braminit.cc @@ -0,0 +1,159 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +#include "kernel/yosys.h" +#include "kernel/sigtools.h" +#include <stdlib.h> +#include <stdio.h> +#include <bitset> + +USING_YOSYS_NAMESPACE +PRIVATE_NAMESPACE_BEGIN + +static void run_ice40_braminit(Module *module) +{ + for (auto cell : module->selected_cells()) + { + uint16_t mem[256]; + + /* Only consider cells we're interested in */ + if (cell->type != "\\SB_RAM40_4K" && + cell->type != "\\SB_RAM40_4KNR" && + cell->type != "\\SB_RAM40_4KNW" && + cell->type != "\\SB_RAM40_4KNRNW") + continue; + if (!cell->hasParam("\\INIT_FILE")) + continue; + std::string init_file = cell->getParam("\\INIT_FILE").decode_string(); + cell->unsetParam("\\INIT_FILE"); + if (init_file == "") + continue; + + /* Open file */ + log("Processing %s : %s\n", RTLIL::id2cstr(cell->name), init_file.c_str()); + + std::ifstream f; + f.open(init_file.c_str()); + if (f.fail()) { + log("Can not open file `%s`.\n", init_file.c_str()); + continue; + } + + /* Defaults to 0 */ + memset(mem, 0x00, sizeof(mem)); + + /* Process each line */ + bool in_comment = false; + int cursor = 0; + + while (!f.eof()) + { + std::string line, token; + std::getline(f, line); + + for (int i = 0; i < GetSize(line); i++) + { + if (in_comment && line.compare(i, 2, "*/") == 0) { + line[i] = ' '; + line[i+1] = ' '; + in_comment = false; + continue; + } + if (!in_comment && line.compare(i, 2, "/*") == 0) + in_comment = true; + if (in_comment) + line[i] = ' '; + } + + while (1) + { + bool set_cursor = false; + long value; + + token = next_token(line, " \t\r\n"); + if (token.empty() || token.compare(0, 2, "//") == 0) + break; + + if (token[0] == '@') { + token = token.substr(1); + set_cursor = true; + } + + const char *nptr = token.c_str(); + char *endptr; + value = strtol(nptr, &endptr, 16); + if (!*nptr || *endptr) { + log("Can not parse %s `%s` for %s.\n", + set_cursor ? "address" : "value", + nptr, token.c_str() + ); + continue; + } + + if (set_cursor) + cursor = value; + else if (cursor >= 0 && cursor < 256) + mem[cursor++] = value; + else + log("Attempt to initialize non existent address %d\n", cursor); + } + } + + /* Set attributes */ + const char *hex = "0123456789ABCDEF"; + for (int i=0; i<16; i++) { + std::string val = ""; + for (int j=15; j>=0; j--) + val += std::bitset<16>(mem[i*16+j]).to_string(); + cell->setParam("\\INIT_" + std::string(1, hex[i]), RTLIL::Const::from_string(val)); + } + } +} + +struct Ice40BRAMInitPass : public Pass { + Ice40BRAMInitPass() : Pass("ice40_braminit", "iCE40: perform SB_RAM40_4K initialization from file") { } + void help() YS_OVERRIDE + { + // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| + log("\n"); + log(" ice40_braminit\n"); + log("\n"); + log("This command processes all SB_RAM40_4K blocks with a non-empty INIT_FILE\n"); + log("parameter and converts it into the required INIT_x attributes\n"); + log("\n"); + } + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + { + log_header(design, "Executing ICE40_BRAMINIT pass.\n"); + + size_t argidx; + for (argidx = 1; argidx < args.size(); argidx++) { + // if (args[argidx] == "-???") { + // continue; + // } + break; + } + extra_args(args, argidx, design); + + for (auto module : design->selected_modules()) + run_ice40_braminit(module); + } +} Ice40BRAMInitPass; + +PRIVATE_NAMESPACE_END diff --git a/techlibs/ice40/ice40_ffinit.cc b/techlibs/ice40/ice40_ffinit.cc index c914b20e8..3089d8932 100644 --- a/techlibs/ice40/ice40_ffinit.cc +++ b/techlibs/ice40/ice40_ffinit.cc @@ -25,7 +25,7 @@ PRIVATE_NAMESPACE_BEGIN struct Ice40FfinitPass : public Pass { Ice40FfinitPass() : Pass("ice40_ffinit", "iCE40: handle FF init values") { } - virtual void help() + void help() YS_OVERRIDE { // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| log("\n"); @@ -35,7 +35,7 @@ struct Ice40FfinitPass : public Pass { log("nonzero init values.\n"); log("\n"); } - virtual void execute(std::vector<std::string> args, RTLIL::Design *design) + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE { log_header(design, "Executing ICE40_FFINIT pass (implement FF init values).\n"); diff --git a/techlibs/ice40/ice40_ffssr.cc b/techlibs/ice40/ice40_ffssr.cc index 9afbc0fce..a7649d7a0 100644 --- a/techlibs/ice40/ice40_ffssr.cc +++ b/techlibs/ice40/ice40_ffssr.cc @@ -25,7 +25,7 @@ PRIVATE_NAMESPACE_BEGIN struct Ice40FfssrPass : public Pass { Ice40FfssrPass() : Pass("ice40_ffssr", "iCE40: merge synchronous set/reset into FF cells") { } - virtual void help() + void help() YS_OVERRIDE { log("\n"); log(" ice40_ffssr [options] [selection]\n"); @@ -33,7 +33,7 @@ struct Ice40FfssrPass : public Pass { log("Merge synchronous set/reset $_MUX_ cells into iCE40 FFs.\n"); log("\n"); } - virtual void execute(std::vector<std::string> args, RTLIL::Design *design) + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE { log_header(design, "Executing ICE40_FFSSR pass (merge synchronous set/reset into FF cells).\n"); @@ -81,6 +81,9 @@ struct Ice40FfssrPass : public Pass { for (auto cell : ff_cells) { + if (cell->get_bool_attribute("\\dont_touch")) + continue; + SigSpec sig_d = cell->getPort("\\D"); if (GetSize(sig_d) < 1) diff --git a/techlibs/ice40/ice40_opt.cc b/techlibs/ice40/ice40_opt.cc index 7af60f297..ea56d3f4d 100644 --- a/techlibs/ice40/ice40_opt.cc +++ b/techlibs/ice40/ice40_opt.cc @@ -33,7 +33,7 @@ static SigBit get_bit_or_zero(const SigSpec &sig) return sig[0]; } -static void run_ice40_opts(Module *module, bool unlut_mode) +static void run_ice40_opts(Module *module) { pool<SigBit> optimized_co; vector<Cell*> sb_lut_cells; @@ -83,6 +83,52 @@ static void run_ice40_opts(Module *module, bool unlut_mode) } continue; } + + if (cell->type == "$__ICE40_CARRY_WRAPPER") + { + SigSpec non_const_inputs, replacement_output; + int count_zeros = 0, count_ones = 0; + + SigBit inbit[3] = { + cell->getPort("\\A"), + cell->getPort("\\B"), + cell->getPort("\\CI") + }; + for (int i = 0; i < 3; i++) + if (inbit[i].wire == nullptr) { + if (inbit[i] == State::S1) + count_ones++; + else + count_zeros++; + } else + non_const_inputs.append(inbit[i]); + + if (count_zeros >= 2) + replacement_output = State::S0; + else if (count_ones >= 2) + replacement_output = State::S1; + else if (GetSize(non_const_inputs) == 1) + replacement_output = non_const_inputs; + + if (GetSize(replacement_output)) { + optimized_co.insert(sigmap(cell->getPort("\\CO")[0])); + module->connect(cell->getPort("\\CO")[0], replacement_output); + module->design->scratchpad_set_bool("opt.did_something", true); + log("Optimized $__ICE40_CARRY_WRAPPER cell back to logic (without SB_CARRY) %s.%s: CO=%s\n", + log_id(module), log_id(cell), log_signal(replacement_output)); + cell->type = "$lut"; + cell->setPort("\\A", { cell->getPort("\\I0"), inbit[0], inbit[1], cell->getPort("\\I3") }); + cell->setPort("\\Y", cell->getPort("\\O")); + cell->unsetPort("\\B"); + cell->unsetPort("\\CI"); + cell->unsetPort("\\I0"); + cell->unsetPort("\\I3"); + cell->unsetPort("\\CO"); + cell->unsetPort("\\O"); + cell->setParam("\\WIDTH", 4); + } + continue; + } } for (auto cell : sb_lut_cells) @@ -95,9 +141,6 @@ static void run_ice40_opts(Module *module, bool unlut_mode) inbits.append(get_bit_or_zero(cell->getPort("\\I3"))); sigmap.apply(inbits); - if (unlut_mode) - goto remap_lut; - if (optimized_co.count(inbits[0])) goto remap_lut; if (optimized_co.count(inbits[1])) goto remap_lut; if (optimized_co.count(inbits[2])) goto remap_lut; @@ -136,7 +179,7 @@ static void run_ice40_opts(Module *module, bool unlut_mode) struct Ice40OptPass : public Pass { Ice40OptPass() : Pass("ice40_opt", "iCE40: perform simple optimizations") { } - virtual void help() + void help() YS_OVERRIDE { // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| log("\n"); @@ -152,14 +195,10 @@ struct Ice40OptPass : public Pass { log(" opt_clean\n"); log(" while <changed design>\n"); log("\n"); - log("When called with the option -unlut, this command will transform all already\n"); - log("mapped SB_LUT4 cells back to logic.\n"); - log("\n"); } - virtual void execute(std::vector<std::string> args, RTLIL::Design *design) + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE { string opt_expr_args = "-mux_undef -undriven"; - bool unlut_mode = false; log_header(design, "Executing ICE40_OPT pass (performing simple optimizations).\n"); log_push(); @@ -170,10 +209,6 @@ struct Ice40OptPass : public Pass { opt_expr_args += " -full"; continue; } - if (args[argidx] == "-unlut") { - unlut_mode = true; - continue; - } break; } extra_args(args, argidx, design); @@ -184,7 +219,7 @@ struct Ice40OptPass : public Pass { log_header(design, "Running ICE40 specific optimizations.\n"); for (auto module : design->selected_modules()) - run_ice40_opts(module, unlut_mode); + run_ice40_opts(module); Pass::call(design, "opt_expr " + opt_expr_args); Pass::call(design, "opt_merge"); diff --git a/techlibs/ice40/synth_ice40.cc b/techlibs/ice40/synth_ice40.cc index abd890a56..a3890268a 100644 --- a/techlibs/ice40/synth_ice40.cc +++ b/techlibs/ice40/synth_ice40.cc @@ -29,7 +29,7 @@ struct SynthIce40Pass : public ScriptPass { SynthIce40Pass() : ScriptPass("synth_ice40", "synthesis for iCE40 FPGAs") { } - virtual void help() YS_OVERRIDE + void help() YS_OVERRIDE { // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| log("\n"); @@ -37,6 +37,10 @@ struct SynthIce40Pass : public ScriptPass log("\n"); log("This command runs synthesis for iCE40 FPGAs.\n"); log("\n"); + log(" -device < hx | lp | u >\n"); + log(" relevant only for '-abc9' flow, optimise timing for the specified device.\n"); + log(" default: hx\n"); + log("\n"); log(" -top <module>\n"); log(" use the specified module as top module\n"); log("\n"); @@ -69,9 +73,19 @@ struct SynthIce40Pass : public ScriptPass log(" -nodffe\n"); log(" do not use SB_DFFE* cells in output netlist\n"); log("\n"); + log(" -dffe_min_ce_use <min_ce_use>\n"); + log(" do not use SB_DFFE* cells if the resulting CE line would go to less\n"); + log(" than min_ce_use SB_DFFE* in output netlist\n"); + log("\n"); log(" -nobram\n"); log(" do not use SB_RAM40_4K* cells in output netlist\n"); log("\n"); + log(" -dsp\n"); + log(" use iCE40 UltraPlus DSP cells for large arithmetic\n"); + log("\n"); + log(" -noabc\n"); + log(" use built-in Yosys LUT techmapping instead of abc\n"); + log("\n"); log(" -abc2\n"); log(" run two passes of 'abc' for slightly improved logic density\n"); log("\n"); @@ -79,16 +93,20 @@ struct SynthIce40Pass : public ScriptPass log(" generate an output netlist (and BLIF file) suitable for VPR\n"); log(" (this feature is experimental and incomplete)\n"); log("\n"); + log(" -abc9\n"); + log(" use new ABC9 flow (EXPERIMENTAL)\n"); + log("\n"); log("\n"); log("The following commands are executed by this synthesis command:\n"); help_script(); log("\n"); } - string top_opt, blif_file, edif_file, json_file; - bool nocarry, nodffe, nobram, flatten, retime, abc2, vpr; + string top_opt, blif_file, edif_file, json_file, abc, device_opt; + bool nocarry, nodffe, nobram, dsp, flatten, retime, noabc, abc2, vpr; + int min_ce_use; - virtual void clear_flags() YS_OVERRIDE + void clear_flags() YS_OVERRIDE { top_opt = "-auto-top"; blif_file = ""; @@ -96,14 +114,19 @@ struct SynthIce40Pass : public ScriptPass json_file = ""; nocarry = false; nodffe = false; + min_ce_use = -1; nobram = false; + dsp = false; flatten = true; retime = false; + noabc = false; abc2 = false; vpr = false; + abc = "abc"; + device_opt = "hx"; } - virtual void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE { string run_from, run_to; clear_flags(); @@ -147,6 +170,10 @@ struct SynthIce40Pass : public ScriptPass retime = true; continue; } + if (args[argidx] == "-relut") { + // removed, opt_lut is always run + continue; + } if (args[argidx] == "-nocarry") { nocarry = true; continue; @@ -155,10 +182,22 @@ struct SynthIce40Pass : public ScriptPass nodffe = true; continue; } + if (args[argidx] == "-dffe_min_ce_use" && argidx+1 < args.size()) { + min_ce_use = atoi(args[++argidx].c_str()); + continue; + } if (args[argidx] == "-nobram") { nobram = true; continue; } + if (args[argidx] == "-dsp") { + dsp = true; + continue; + } + if (args[argidx] == "-noabc") { + noabc = true; + continue; + } if (args[argidx] == "-abc2") { abc2 = true; continue; @@ -167,12 +206,25 @@ struct SynthIce40Pass : public ScriptPass vpr = true; continue; } + if (args[argidx] == "-abc9") { + abc = "abc9"; + continue; + } + if (args[argidx] == "-device" && argidx+1 < args.size()) { + device_opt = args[++argidx]; + continue; + } break; } extra_args(args, argidx, design); if (!design->full_selection()) - log_cmd_error("This comannd only operates on fully selected designs!\n"); + log_cmd_error("This command only operates on fully selected designs!\n"); + if (device_opt != "hx" && device_opt != "lp" && device_opt !="u") + log_cmd_error("Invalid or no device specified: '%s'\n", device_opt.c_str()); + + if (abc == "abc9" && retime) + log_cmd_error("-retime option not currently compatible with -abc9!\n"); log_header(design, "Executing SYNTH_ICE40 pass.\n"); log_push(); @@ -182,44 +234,78 @@ struct SynthIce40Pass : public ScriptPass log_pop(); } - virtual void script() YS_OVERRIDE + void script() YS_OVERRIDE { if (check_label("begin")) { - run("read_verilog -lib +/ice40/cells_sim.v"); + std::string define; + if (device_opt == "lp") + define = "-D ICE40_LP"; + else if (device_opt == "u") + define = "-D ICE40_U"; + else + define = "-D ICE40_HX"; + run("read_verilog -icells " + define + " -lib +/ice40/cells_sim.v"); run(stringf("hierarchy -check %s", help_mode ? "-top <top>" : top_opt.c_str())); + run("proc"); } - if (flatten && check_label("flatten", "(unless -noflatten)")) + if (check_label("flatten", "(unless -noflatten)")) { - run("proc"); - run("flatten"); - run("tribuf -logic"); - run("deminout"); + if (flatten) { + run("flatten"); + run("tribuf -logic"); + run("deminout"); + } } if (check_label("coarse")) { - run("synth -run coarse"); + run("opt_expr"); + run("opt_clean"); + run("check"); + run("opt"); + run("wreduce"); + run("peepopt"); + run("opt_clean"); + run("share"); + run("techmap -map +/cmp2lut.v -D LUT_WIDTH=4"); + run("opt_expr"); + run("opt_clean"); + if (help_mode || dsp) + run("ice40_dsp", "(if -dsp)"); + run("alumacc"); + run("opt"); + run("fsm"); + run("opt -fast"); + run("memory -nomap"); + run("opt_clean"); } - if (!nobram && check_label("bram", "(skip if -nobram)")) + if (!nobram && check_label("map_bram", "(skip if -nobram)")) { run("memory_bram -rules +/ice40/brams.txt"); run("techmap -map +/ice40/brams_map.v"); + run("ice40_braminit"); } - if (check_label("fine")) + if (check_label("map_ffram")) { run("opt -fast -mux_undef -undriven -fine"); run("memory_map"); run("opt -undriven -fine"); + } + + if (check_label("map_gates")) + { if (nocarry) run("techmap"); - else + else { + run("ice40_wrapcarry"); run("techmap -map +/techmap.v -map +/ice40/arith_map.v"); + } if (retime || help_mode) - run("abc -dff", "(only if -retime)"); + run(abc + " -dff", "(only if -retime)"); run("ice40_opt"); } @@ -228,7 +314,11 @@ struct SynthIce40Pass : public ScriptPass run("dffsr2dff"); if (!nodffe) run("dff2dffe -direct-match $_DFF_*"); - run("techmap -D NO_LUT -map +/ice40/cells_map.v"); + if (min_ce_use >= 0) { + run("opt_merge"); + run(stringf("dff2dffe -unmap-mince %d", min_ce_use)); + } + run("techmap -D NO_LUT -D NO_ADDER -map +/ice40/cells_map.v"); run("opt_expr -mux_undef"); run("simplemap"); run("ice40_ffinit"); @@ -239,12 +329,31 @@ struct SynthIce40Pass : public ScriptPass if (check_label("map_luts")) { if (abc2 || help_mode) { - run("abc", " (only if -abc2)"); + run(abc, " (only if -abc2)"); run("ice40_opt", "(only if -abc2)"); } run("techmap -map +/ice40/latches_map.v"); - run("abc -lut 4"); + if (noabc || help_mode) { + run("simplemap", " (only if -noabc)"); + run("techmap -map +/gate2lut.v -D LUT_WIDTH=4", "(only if -noabc)"); + } + if (!noabc) { + if (abc == "abc9") { + int wire_delay; + if (device_opt == "lp") + wire_delay = 400; + else if (device_opt == "u") + wire_delay = 750; + else + wire_delay = 250; + run(abc + stringf(" -W %d -lut +/ice40/abc_%s.lut -box +/ice40/abc_%s.box", wire_delay, device_opt.c_str(), device_opt.c_str()), "(skip if -noabc)"); + } + else + run(abc + " -dress -lut 4", "(skip if -noabc)"); + } + run("techmap -D NO_LUT -map +/ice40/cells_map.v"); run("clean"); + run("opt_lut -dlogic SB_CARRY:I0=2:I1=1:CI=0"); } if (check_label("map_cells")) diff --git a/techlibs/ice40/tests/.gitignore b/techlibs/ice40/tests/.gitignore index b58f9ad4a..120286550 100644 --- a/techlibs/ice40/tests/.gitignore +++ b/techlibs/ice40/tests/.gitignore @@ -1,2 +1,11 @@ -test_ffs_[01][01][01][01][01]_* -test_bram_[0-9]* +/test_ffs_[01][01][01][01][01]_* +/test_bram_[0-9]* +/test_dsp_model +/test_dsp_model.vcd +/test_dsp_model_ref.v +/test_dsp_model_uut.v +/test_dsp_map +/test_dsp_map.vcd +/test_dsp_map_tb.v +/test_dsp_map_top.v +/test_dsp_map_syn.v diff --git a/techlibs/ice40/tests/test_arith.ys b/techlibs/ice40/tests/test_arith.ys index 160c767fb..ddb80b700 100644 --- a/techlibs/ice40/tests/test_arith.ys +++ b/techlibs/ice40/tests/test_arith.ys @@ -1,6 +1,5 @@ read_verilog test_arith.v synth_ice40 -techmap -map ../cells_sim.v rename test gate read_verilog test_arith.v @@ -8,3 +7,11 @@ rename test gold miter -equiv -flatten -make_outputs gold gate miter sat -verify -prove trigger 0 -show-ports miter + +synth_ice40 -top gate + +read_verilog test_arith.v +rename test gold + +miter -equiv -flatten -make_outputs gold gate miter +sat -verify -prove trigger 0 -show-ports miter diff --git a/techlibs/ice40/tests/test_dsp_map.sh b/techlibs/ice40/tests/test_dsp_map.sh new file mode 100644 index 000000000..3f7f134e4 --- /dev/null +++ b/techlibs/ice40/tests/test_dsp_map.sh @@ -0,0 +1,107 @@ +#!/bin/bash +set -ex + +for iter in {1..100} +do + SZA=$(( 3 + $RANDOM % 13 )) + SZB=$(( 3 + $RANDOM % 13 )) + SZO=$(( 3 + $RANDOM % 29 )) + + C0=clk$(( $RANDOM & 1)) + C1=clk$(( $RANDOM & 1)) + C2=clk$(( $RANDOM & 1)) + C3=clk$(( $RANDOM & 1)) + + E0=$( test $(( $RANDOM & 1 )) -eq 0 && echo posedge || echo negedge ) + E1=$( test $(( $RANDOM & 1 )) -eq 0 && echo posedge || echo negedge ) + E2=$( test $(( $RANDOM & 1 )) -eq 0 && echo posedge || echo negedge ) + E3=$( test $(( $RANDOM & 1 )) -eq 0 && echo posedge || echo negedge ) + + SP=$( test $(( $RANDOM & 1 )) -eq 0 && echo S || echo P ) + + RC=$( test $(( $RANDOM & 1 )) -eq 0 && echo "reset" || echo "!reset" ) + RV="32'h$( echo $RANDOM | md5sum | cut -c1-8 )" + + cat > test_dsp_map_top.v << EOT +module top ( + input clk0, clk1, reset, + input [$SZA:0] A, + input [$SZB:0] B, + output [$SZO:0] O +); + reg [15:0] AA, BB; + reg [31:0] P, S; + + always @($E0 $C0) AA <= A; + always @($E1 $C1) BB <= B; + always @($E2 $C2) P <= AA * BB; + always @($E3 $C3) S <= $RC ? $RV : S + P; + assign O = $SP; +endmodule +EOT + + cat > test_dsp_map_tb.v << EOT +\`timescale 1ns / 1ps +module testbench; + reg clk1, clk0, reset; + reg [$SZA:0] A; + reg [$SZB:0] B; + + wire [$SZO:0] O_top, O_syn; + + top top_inst (.clk0(clk0), .clk1(clk1), .reset(reset), .A(A), .B(B), .O(O_top)); + syn syn_inst (.clk0(clk0), .clk1(clk1), .reset(reset), .A(A), .B(B), .O(O_syn)); + + initial begin + // \$dumpfile("test_dsp_map.vcd"); + // \$dumpvars(0, testbench); + + #2; + clk0 = 0; + clk1 = 0; + reset = 1; + reset = $RC; + A = 0; + B = 0; + + repeat (3) begin + #2; clk0 = ~clk0; + #2; clk0 = ~clk0; + #2; clk1 = ~clk1; + #2; clk1 = ~clk1; + end + + repeat (100) begin + #2; + A = \$urandom; + B = \$urandom; + reset = \$urandom & \$urandom & \$urandom & \$urandom; + if (\$urandom & 1) begin + #2; clk0 = ~clk0; + #2; clk0 = ~clk0; + end else begin + #2; clk1 = ~clk1; + #2; clk1 = ~clk1; + end + #2; + if (O_top !== O_syn) begin + \$display("ERROR: O_top=%b O_syn=%b", O_top, O_syn); + \$stop; + end + // \$display("OK O_top=O_syn=%b", O_top); + end + + \$display("Test passed."); + \$finish; + end +endmodule +EOT + + ../../../yosys -p 'read_verilog test_dsp_map_top.v; synth_ice40 -dsp; rename top syn; write_verilog test_dsp_map_syn.v' + iverilog -o test_dsp_map -s testbench test_dsp_map_tb.v test_dsp_map_top.v test_dsp_map_syn.v ../cells_sim.v + vvp -N test_dsp_map +done + +: "" +: "#### All tests passed. ####" +: "" diff --git a/techlibs/ice40/tests/test_dsp_model.sh b/techlibs/ice40/tests/test_dsp_model.sh new file mode 100644 index 000000000..1e564d1b2 --- /dev/null +++ b/techlibs/ice40/tests/test_dsp_model.sh @@ -0,0 +1,16 @@ +#!/bin/bash +set -ex +sed 's/SB_MAC16/SB_MAC16_UUT/; /SB_MAC16_UUT/,/endmodule/ p; d;' < ../cells_sim.v > test_dsp_model_uut.v +if [ ! -f "test_dsp_model_ref.v" ]; then + cat /opt/lscc/iCEcube2.2017.01/verilog/sb_ice_syn.v > test_dsp_model_ref.v +fi +for tb in testbench \ + testbench_comb_8x8_A testbench_comb_8x8_B testbench_comb_16x16 \ + testbench_seq_16x16_A testbench_seq_16x16_B \ + testbench_comb_8x8_A_signedA testbench_comb_8x8_A_signedB testbench_comb_8x8_A_signedAB \ + testbench_comb_8x8_B_signedA testbench_comb_8x8_B_signedB testbench_comb_8x8_B_signedAB \ + testbench_comb_16x16_signedA testbench_comb_16x16_signedB testbench_comb_16x16_signedAB +do + iverilog -s $tb -o test_dsp_model test_dsp_model.v test_dsp_model_uut.v test_dsp_model_ref.v + vvp -N ./test_dsp_model +done diff --git a/techlibs/ice40/tests/test_dsp_model.v b/techlibs/ice40/tests/test_dsp_model.v new file mode 100644 index 000000000..f4f6858f0 --- /dev/null +++ b/techlibs/ice40/tests/test_dsp_model.v @@ -0,0 +1,567 @@ +`timescale 1ns / 1ps + +module testbench; + parameter [0:0] NEG_TRIGGER = 0; + parameter [0:0] C_REG = 0; + parameter [0:0] A_REG = 0; + parameter [0:0] B_REG = 0; + parameter [0:0] D_REG = 0; + parameter [0:0] TOP_8x8_MULT_REG = 0; + parameter [0:0] BOT_8x8_MULT_REG = 0; + parameter [0:0] PIPELINE_16x16_MULT_REG1 = 0; + parameter [0:0] PIPELINE_16x16_MULT_REG2 = 0; + parameter [1:0] TOPOUTPUT_SELECT = 0; + parameter [1:0] TOPADDSUB_LOWERINPUT = 0; + parameter [0:0] TOPADDSUB_UPPERINPUT = 1; + parameter [1:0] TOPADDSUB_CARRYSELECT = 0; + parameter [1:0] BOTOUTPUT_SELECT = 0; + parameter [1:0] BOTADDSUB_LOWERINPUT = 0; + parameter [0:0] BOTADDSUB_UPPERINPUT = 1; + parameter [1:0] BOTADDSUB_CARRYSELECT = 0; + parameter [0:0] MODE_8x8 = 0; + parameter [0:0] A_SIGNED = 0; + parameter [0:0] B_SIGNED = 0; + + reg CLK, CE; + reg [15:0] C, A, B, D; + reg AHOLD, BHOLD, CHOLD, DHOLD; + reg IRSTTOP, IRSTBOT; + reg ORSTTOP, ORSTBOT; + reg OLOADTOP, OLOADBOT; + reg ADDSUBTOP, ADDSUBBOT; + reg OHOLDTOP, OHOLDBOT; + reg CI, ACCUMCI, SIGNEXTIN; + + output [31:0] REF_O, UUT_O; + output REF_CO, REF_ACCUMCO, REF_SIGNEXTOUT; + output UUT_CO, UUT_ACCUMCO, UUT_SIGNEXTOUT; + + integer errcount = 0; + + task clkcycle; + begin + #5; + CLK = ~CLK; + #10; + CLK = ~CLK; + #2; + if (REF_O !== UUT_O) begin + $display("ERROR at %1t: REF_O=%b UUT_O=%b DIFF=%b", $time, REF_O, UUT_O, REF_O ^ UUT_O); + errcount = errcount + 1; + end + if (REF_CO !== UUT_CO) begin + $display("ERROR at %1t: REF_CO=%b UUT_CO=%b", $time, REF_CO, UUT_CO); + errcount = errcount + 1; + end + if (REF_ACCUMCO !== UUT_ACCUMCO) begin + $display("ERROR at %1t: REF_ACCUMCO=%b UUT_ACCUMCO=%b", $time, REF_ACCUMCO, UUT_ACCUMCO); + errcount = errcount + 1; + end + if (REF_SIGNEXTOUT !== UUT_SIGNEXTOUT) begin + $display("ERROR at %1t: REF_SIGNEXTOUT=%b UUT_SIGNEXTOUT=%b", $time, REF_SIGNEXTOUT, UUT_SIGNEXTOUT); + errcount = errcount + 1; + end + #3; + end + endtask + + initial begin + $dumpfile("test_dsp_model.vcd"); + $dumpvars(0, testbench); + + #2; + CLK = NEG_TRIGGER; + CE = 1; + {C, A, B, D} = 0; + {AHOLD, BHOLD, CHOLD, DHOLD} = 0; + {OLOADTOP, OLOADBOT} = 0; + {ADDSUBTOP, ADDSUBBOT} = 0; + {OHOLDTOP, OHOLDBOT} = 0; + {CI, ACCUMCI, SIGNEXTIN} = 0; + + {IRSTTOP, IRSTBOT} = ~0; + {ORSTTOP, ORSTBOT} = ~0; + + #3; + {IRSTTOP, IRSTBOT} = 0; + {ORSTTOP, ORSTBOT} = 0; + + repeat (300) begin + clkcycle; + + A = $urandom; + B = $urandom; + C = $urandom; + D = $urandom; + + {AHOLD, BHOLD, CHOLD, DHOLD} = $urandom & $urandom & $urandom; + {OLOADTOP, OLOADBOT} = $urandom & $urandom & $urandom; + {ADDSUBTOP, ADDSUBBOT} = $urandom & $urandom & $urandom; + {OHOLDTOP, OHOLDBOT} = $urandom & $urandom & $urandom; + {CI, ACCUMCI, SIGNEXTIN} = $urandom & $urandom & $urandom; + + {IRSTTOP, IRSTBOT} = $urandom & $urandom & $urandom; + {ORSTTOP, ORSTBOT} = $urandom & $urandom & $urandom; + end + + if (errcount == 0) begin + $display("All tests passed."); + $finish; + end else begin + $display("Caught %1d errors.", errcount); + $stop; + end + end + + SB_MAC16 #( + .NEG_TRIGGER (NEG_TRIGGER ), + .C_REG (C_REG ), + .A_REG (A_REG ), + .B_REG (B_REG ), + .D_REG (D_REG ), + .TOP_8x8_MULT_REG (TOP_8x8_MULT_REG ), + .BOT_8x8_MULT_REG (BOT_8x8_MULT_REG ), + .PIPELINE_16x16_MULT_REG1 (PIPELINE_16x16_MULT_REG1), + .PIPELINE_16x16_MULT_REG2 (PIPELINE_16x16_MULT_REG2), + .TOPOUTPUT_SELECT (TOPOUTPUT_SELECT ), + .TOPADDSUB_LOWERINPUT (TOPADDSUB_LOWERINPUT ), + .TOPADDSUB_UPPERINPUT (TOPADDSUB_UPPERINPUT ), + .TOPADDSUB_CARRYSELECT (TOPADDSUB_CARRYSELECT ), + .BOTOUTPUT_SELECT (BOTOUTPUT_SELECT ), + .BOTADDSUB_LOWERINPUT (BOTADDSUB_LOWERINPUT ), + .BOTADDSUB_UPPERINPUT (BOTADDSUB_UPPERINPUT ), + .BOTADDSUB_CARRYSELECT (BOTADDSUB_CARRYSELECT ), + .MODE_8x8 (MODE_8x8 ), + .A_SIGNED (A_SIGNED ), + .B_SIGNED (B_SIGNED ) + ) ref ( + .CLK (CLK ), + .CE (CE ), + .C (C ), + .A (A ), + .B (B ), + .D (D ), + .AHOLD (AHOLD ), + .BHOLD (BHOLD ), + .CHOLD (CHOLD ), + .DHOLD (DHOLD ), + .IRSTTOP (IRSTTOP ), + .IRSTBOT (IRSTBOT ), + .ORSTTOP (ORSTTOP ), + .ORSTBOT (ORSTBOT ), + .OLOADTOP (OLOADTOP ), + .OLOADBOT (OLOADBOT ), + .ADDSUBTOP (ADDSUBTOP ), + .ADDSUBBOT (ADDSUBBOT ), + .OHOLDTOP (OHOLDTOP ), + .OHOLDBOT (OHOLDBOT ), + .CI (CI ), + .ACCUMCI (ACCUMCI ), + .SIGNEXTIN (SIGNEXTIN ), + .O (REF_O ), + .CO (REF_CO ), + .ACCUMCO (REF_ACCUMCO ), + .SIGNEXTOUT (REF_SIGNEXTOUT) + ); + + SB_MAC16_UUT #( + .NEG_TRIGGER (NEG_TRIGGER ), + .C_REG (C_REG ), + .A_REG (A_REG ), + .B_REG (B_REG ), + .D_REG (D_REG ), + .TOP_8x8_MULT_REG (TOP_8x8_MULT_REG ), + .BOT_8x8_MULT_REG (BOT_8x8_MULT_REG ), + .PIPELINE_16x16_MULT_REG1 (PIPELINE_16x16_MULT_REG1), + .PIPELINE_16x16_MULT_REG2 (PIPELINE_16x16_MULT_REG2), + .TOPOUTPUT_SELECT (TOPOUTPUT_SELECT ), + .TOPADDSUB_LOWERINPUT (TOPADDSUB_LOWERINPUT ), + .TOPADDSUB_UPPERINPUT (TOPADDSUB_UPPERINPUT ), + .TOPADDSUB_CARRYSELECT (TOPADDSUB_CARRYSELECT ), + .BOTOUTPUT_SELECT (BOTOUTPUT_SELECT ), + .BOTADDSUB_LOWERINPUT (BOTADDSUB_LOWERINPUT ), + .BOTADDSUB_UPPERINPUT (BOTADDSUB_UPPERINPUT ), + .BOTADDSUB_CARRYSELECT (BOTADDSUB_CARRYSELECT ), + .MODE_8x8 (MODE_8x8 ), + .A_SIGNED (A_SIGNED ), + .B_SIGNED (B_SIGNED ) + ) uut ( + .CLK (CLK ), + .CE (CE ), + .C (C ), + .A (A ), + .B (B ), + .D (D ), + .AHOLD (AHOLD ), + .BHOLD (BHOLD ), + .CHOLD (CHOLD ), + .DHOLD (DHOLD ), + .IRSTTOP (IRSTTOP ), + .IRSTBOT (IRSTBOT ), + .ORSTTOP (ORSTTOP ), + .ORSTBOT (ORSTBOT ), + .OLOADTOP (OLOADTOP ), + .OLOADBOT (OLOADBOT ), + .ADDSUBTOP (ADDSUBTOP ), + .ADDSUBBOT (ADDSUBBOT ), + .OHOLDTOP (OHOLDTOP ), + .OHOLDBOT (OHOLDBOT ), + .CI (CI ), + .ACCUMCI (ACCUMCI ), + .SIGNEXTIN (SIGNEXTIN ), + .O (UUT_O ), + .CO (UUT_CO ), + .ACCUMCO (UUT_ACCUMCO ), + .SIGNEXTOUT (UUT_SIGNEXTOUT) + ); +endmodule + +module testbench_comb_8x8_A; + testbench #( + .NEG_TRIGGER (0), + .C_REG (0), + .A_REG (0), + .B_REG (0), + .D_REG (0), + .TOP_8x8_MULT_REG (0), + .BOT_8x8_MULT_REG (0), + .PIPELINE_16x16_MULT_REG1 (0), + .PIPELINE_16x16_MULT_REG2 (0), + .TOPOUTPUT_SELECT (2), // 0=P, 1=Q, 2=8x8, 3=16x16 + .TOPADDSUB_LOWERINPUT (0), // 0=A, 1=8x8, 2=16x16, 3=S-EXT + .TOPADDSUB_UPPERINPUT (0), // 0=Q, 1=C + .TOPADDSUB_CARRYSELECT (0), // 0=0, 1=1, 2=ACI, 3=CI + .BOTOUTPUT_SELECT (2), // 0=R, 1=S, 2=8x8, 3=16x16 + .BOTADDSUB_LOWERINPUT (0), // 0=B, 1=8x8, 2=16x16, 3=S-EXT + .BOTADDSUB_UPPERINPUT (0), // 0=S, 1=D + .BOTADDSUB_CARRYSELECT (0), // 0=0, 1=1, 2=ACI, 3=CI + .MODE_8x8 (0), + .A_SIGNED (0), + .B_SIGNED (0) + ) testbench (); +endmodule + +module testbench_comb_8x8_A_signedA; + testbench #( + .NEG_TRIGGER (0), + .C_REG (0), + .A_REG (0), + .B_REG (0), + .D_REG (0), + .TOP_8x8_MULT_REG (0), + .BOT_8x8_MULT_REG (0), + .PIPELINE_16x16_MULT_REG1 (0), + .PIPELINE_16x16_MULT_REG2 (0), + .TOPOUTPUT_SELECT (2), // 0=P, 1=Q, 2=8x8, 3=16x16 + .TOPADDSUB_LOWERINPUT (0), // 0=A, 1=8x8, 2=16x16, 3=S-EXT + .TOPADDSUB_UPPERINPUT (0), // 0=Q, 1=C + .TOPADDSUB_CARRYSELECT (0), // 0=0, 1=1, 2=ACI, 3=CI + .BOTOUTPUT_SELECT (2), // 0=R, 1=S, 2=8x8, 3=16x16 + .BOTADDSUB_LOWERINPUT (0), // 0=B, 1=8x8, 2=16x16, 3=S-EXT + .BOTADDSUB_UPPERINPUT (0), // 0=S, 1=D + .BOTADDSUB_CARRYSELECT (0), // 0=0, 1=1, 2=ACI, 3=CI + .MODE_8x8 (0), + .A_SIGNED (1), + .B_SIGNED (0) + ) testbench (); +endmodule + +module testbench_comb_8x8_A_signedB; + testbench #( + .NEG_TRIGGER (0), + .C_REG (0), + .A_REG (0), + .B_REG (0), + .D_REG (0), + .TOP_8x8_MULT_REG (0), + .BOT_8x8_MULT_REG (0), + .PIPELINE_16x16_MULT_REG1 (0), + .PIPELINE_16x16_MULT_REG2 (0), + .TOPOUTPUT_SELECT (2), // 0=P, 1=Q, 2=8x8, 3=16x16 + .TOPADDSUB_LOWERINPUT (0), // 0=A, 1=8x8, 2=16x16, 3=S-EXT + .TOPADDSUB_UPPERINPUT (0), // 0=Q, 1=C + .TOPADDSUB_CARRYSELECT (0), // 0=0, 1=1, 2=ACI, 3=CI + .BOTOUTPUT_SELECT (2), // 0=R, 1=S, 2=8x8, 3=16x16 + .BOTADDSUB_LOWERINPUT (0), // 0=B, 1=8x8, 2=16x16, 3=S-EXT + .BOTADDSUB_UPPERINPUT (0), // 0=S, 1=D + .BOTADDSUB_CARRYSELECT (0), // 0=0, 1=1, 2=ACI, 3=CI + .MODE_8x8 (0), + .A_SIGNED (0), + .B_SIGNED (1) + ) testbench (); +endmodule + +module testbench_comb_8x8_A_signedAB; + testbench #( + .NEG_TRIGGER (0), + .C_REG (0), + .A_REG (0), + .B_REG (0), + .D_REG (0), + .TOP_8x8_MULT_REG (0), + .BOT_8x8_MULT_REG (0), + .PIPELINE_16x16_MULT_REG1 (0), + .PIPELINE_16x16_MULT_REG2 (0), + .TOPOUTPUT_SELECT (2), // 0=P, 1=Q, 2=8x8, 3=16x16 + .TOPADDSUB_LOWERINPUT (0), // 0=A, 1=8x8, 2=16x16, 3=S-EXT + .TOPADDSUB_UPPERINPUT (0), // 0=Q, 1=C + .TOPADDSUB_CARRYSELECT (0), // 0=0, 1=1, 2=ACI, 3=CI + .BOTOUTPUT_SELECT (2), // 0=R, 1=S, 2=8x8, 3=16x16 + .BOTADDSUB_LOWERINPUT (0), // 0=B, 1=8x8, 2=16x16, 3=S-EXT + .BOTADDSUB_UPPERINPUT (0), // 0=S, 1=D + .BOTADDSUB_CARRYSELECT (0), // 0=0, 1=1, 2=ACI, 3=CI + .MODE_8x8 (0), + .A_SIGNED (1), + .B_SIGNED (1) + ) testbench (); +endmodule + +module testbench_comb_8x8_B; + testbench #( + .NEG_TRIGGER (0), + .C_REG (0), + .A_REG (0), + .B_REG (0), + .D_REG (0), + .TOP_8x8_MULT_REG (0), + .BOT_8x8_MULT_REG (0), + .PIPELINE_16x16_MULT_REG1 (0), + .PIPELINE_16x16_MULT_REG2 (0), + .TOPOUTPUT_SELECT (0), // 0=P, 1=Q, 2=8x8, 3=16x16 + .TOPADDSUB_LOWERINPUT (1), // 0=A, 1=8x8, 2=16x16, 3=S-EXT + .TOPADDSUB_UPPERINPUT (1), // 0=Q, 1=C + .TOPADDSUB_CARRYSELECT (0), // 0=0, 1=1, 2=ACI, 3=CI + .BOTOUTPUT_SELECT (0), // 0=R, 1=S, 2=8x8, 3=16x16 + .BOTADDSUB_LOWERINPUT (1), // 0=B, 1=8x8, 2=16x16, 3=S-EXT + .BOTADDSUB_UPPERINPUT (1), // 0=S, 1=D + .BOTADDSUB_CARRYSELECT (0), // 0=0, 1=1, 2=ACI, 3=CI + .MODE_8x8 (0), + .A_SIGNED (0), + .B_SIGNED (0) + ) testbench (); +endmodule + +module testbench_comb_8x8_B_signedA; + testbench #( + .NEG_TRIGGER (0), + .C_REG (0), + .A_REG (0), + .B_REG (0), + .D_REG (0), + .TOP_8x8_MULT_REG (0), + .BOT_8x8_MULT_REG (0), + .PIPELINE_16x16_MULT_REG1 (0), + .PIPELINE_16x16_MULT_REG2 (0), + .TOPOUTPUT_SELECT (0), // 0=P, 1=Q, 2=8x8, 3=16x16 + .TOPADDSUB_LOWERINPUT (1), // 0=A, 1=8x8, 2=16x16, 3=S-EXT + .TOPADDSUB_UPPERINPUT (1), // 0=Q, 1=C + .TOPADDSUB_CARRYSELECT (0), // 0=0, 1=1, 2=ACI, 3=CI + .BOTOUTPUT_SELECT (0), // 0=R, 1=S, 2=8x8, 3=16x16 + .BOTADDSUB_LOWERINPUT (1), // 0=B, 1=8x8, 2=16x16, 3=S-EXT + .BOTADDSUB_UPPERINPUT (1), // 0=S, 1=D + .BOTADDSUB_CARRYSELECT (0), // 0=0, 1=1, 2=ACI, 3=CI + .MODE_8x8 (0), + .A_SIGNED (1), + .B_SIGNED (0) + ) testbench (); +endmodule + +module testbench_comb_8x8_B_signedB; + testbench #( + .NEG_TRIGGER (0), + .C_REG (0), + .A_REG (0), + .B_REG (0), + .D_REG (0), + .TOP_8x8_MULT_REG (0), + .BOT_8x8_MULT_REG (0), + .PIPELINE_16x16_MULT_REG1 (0), + .PIPELINE_16x16_MULT_REG2 (0), + .TOPOUTPUT_SELECT (0), // 0=P, 1=Q, 2=8x8, 3=16x16 + .TOPADDSUB_LOWERINPUT (1), // 0=A, 1=8x8, 2=16x16, 3=S-EXT + .TOPADDSUB_UPPERINPUT (1), // 0=Q, 1=C + .TOPADDSUB_CARRYSELECT (0), // 0=0, 1=1, 2=ACI, 3=CI + .BOTOUTPUT_SELECT (0), // 0=R, 1=S, 2=8x8, 3=16x16 + .BOTADDSUB_LOWERINPUT (1), // 0=B, 1=8x8, 2=16x16, 3=S-EXT + .BOTADDSUB_UPPERINPUT (1), // 0=S, 1=D + .BOTADDSUB_CARRYSELECT (0), // 0=0, 1=1, 2=ACI, 3=CI + .MODE_8x8 (0), + .A_SIGNED (0), + .B_SIGNED (1) + ) testbench (); +endmodule + +module testbench_comb_8x8_B_signedAB; + testbench #( + .NEG_TRIGGER (0), + .C_REG (0), + .A_REG (0), + .B_REG (0), + .D_REG (0), + .TOP_8x8_MULT_REG (0), + .BOT_8x8_MULT_REG (0), + .PIPELINE_16x16_MULT_REG1 (0), + .PIPELINE_16x16_MULT_REG2 (0), + .TOPOUTPUT_SELECT (0), // 0=P, 1=Q, 2=8x8, 3=16x16 + .TOPADDSUB_LOWERINPUT (1), // 0=A, 1=8x8, 2=16x16, 3=S-EXT + .TOPADDSUB_UPPERINPUT (1), // 0=Q, 1=C + .TOPADDSUB_CARRYSELECT (0), // 0=0, 1=1, 2=ACI, 3=CI + .BOTOUTPUT_SELECT (0), // 0=R, 1=S, 2=8x8, 3=16x16 + .BOTADDSUB_LOWERINPUT (1), // 0=B, 1=8x8, 2=16x16, 3=S-EXT + .BOTADDSUB_UPPERINPUT (1), // 0=S, 1=D + .BOTADDSUB_CARRYSELECT (0), // 0=0, 1=1, 2=ACI, 3=CI + .MODE_8x8 (0), + .A_SIGNED (1), + .B_SIGNED (1) + ) testbench (); +endmodule + +module testbench_comb_16x16; + testbench #( + .NEG_TRIGGER (0), + .C_REG (0), + .A_REG (0), + .B_REG (0), + .D_REG (0), + .TOP_8x8_MULT_REG (0), + .BOT_8x8_MULT_REG (0), + .PIPELINE_16x16_MULT_REG1 (0), + .PIPELINE_16x16_MULT_REG2 (0), + .TOPOUTPUT_SELECT (0), // 0=P, 1=Q, 2=8x8, 3=16x16 + .TOPADDSUB_LOWERINPUT (2), // 0=A, 1=8x8, 2=16x16, 3=S-EXT + .TOPADDSUB_UPPERINPUT (1), // 0=Q, 1=C + .TOPADDSUB_CARRYSELECT (2), // 0=0, 1=1, 2=ACI, 3=CI + .BOTOUTPUT_SELECT (0), // 0=R, 1=S, 2=8x8, 3=16x16 + .BOTADDSUB_LOWERINPUT (2), // 0=B, 1=8x8, 2=16x16, 3=S-EXT + .BOTADDSUB_UPPERINPUT (1), // 0=S, 1=D + .BOTADDSUB_CARRYSELECT (2), // 0=0, 1=1, 2=ACI, 3=CI + .MODE_8x8 (0), + .A_SIGNED (0), + .B_SIGNED (0) + ) testbench (); +endmodule + +module testbench_comb_16x16_signedA; + testbench #( + .NEG_TRIGGER (0), + .C_REG (0), + .A_REG (0), + .B_REG (0), + .D_REG (0), + .TOP_8x8_MULT_REG (0), + .BOT_8x8_MULT_REG (0), + .PIPELINE_16x16_MULT_REG1 (0), + .PIPELINE_16x16_MULT_REG2 (0), + .TOPOUTPUT_SELECT (0), // 0=P, 1=Q, 2=8x8, 3=16x16 + .TOPADDSUB_LOWERINPUT (2), // 0=A, 1=8x8, 2=16x16, 3=S-EXT + .TOPADDSUB_UPPERINPUT (1), // 0=Q, 1=C + .TOPADDSUB_CARRYSELECT (2), // 0=0, 1=1, 2=ACI, 3=CI + .BOTOUTPUT_SELECT (0), // 0=R, 1=S, 2=8x8, 3=16x16 + .BOTADDSUB_LOWERINPUT (2), // 0=B, 1=8x8, 2=16x16, 3=S-EXT + .BOTADDSUB_UPPERINPUT (1), // 0=S, 1=D + .BOTADDSUB_CARRYSELECT (2), // 0=0, 1=1, 2=ACI, 3=CI + .MODE_8x8 (0), + .A_SIGNED (1), + .B_SIGNED (0) + ) testbench (); +endmodule + +module testbench_comb_16x16_signedB; + testbench #( + .NEG_TRIGGER (0), + .C_REG (0), + .A_REG (0), + .B_REG (0), + .D_REG (0), + .TOP_8x8_MULT_REG (0), + .BOT_8x8_MULT_REG (0), + .PIPELINE_16x16_MULT_REG1 (0), + .PIPELINE_16x16_MULT_REG2 (0), + .TOPOUTPUT_SELECT (0), // 0=P, 1=Q, 2=8x8, 3=16x16 + .TOPADDSUB_LOWERINPUT (2), // 0=A, 1=8x8, 2=16x16, 3=S-EXT + .TOPADDSUB_UPPERINPUT (1), // 0=Q, 1=C + .TOPADDSUB_CARRYSELECT (2), // 0=0, 1=1, 2=ACI, 3=CI + .BOTOUTPUT_SELECT (0), // 0=R, 1=S, 2=8x8, 3=16x16 + .BOTADDSUB_LOWERINPUT (2), // 0=B, 1=8x8, 2=16x16, 3=S-EXT + .BOTADDSUB_UPPERINPUT (1), // 0=S, 1=D + .BOTADDSUB_CARRYSELECT (2), // 0=0, 1=1, 2=ACI, 3=CI + .MODE_8x8 (0), + .A_SIGNED (0), + .B_SIGNED (1) + ) testbench (); +endmodule + +module testbench_comb_16x16_signedAB; + testbench #( + .NEG_TRIGGER (0), + .C_REG (0), + .A_REG (0), + .B_REG (0), + .D_REG (0), + .TOP_8x8_MULT_REG (0), + .BOT_8x8_MULT_REG (0), + .PIPELINE_16x16_MULT_REG1 (0), + .PIPELINE_16x16_MULT_REG2 (0), + .TOPOUTPUT_SELECT (0), // 0=P, 1=Q, 2=8x8, 3=16x16 + .TOPADDSUB_LOWERINPUT (2), // 0=A, 1=8x8, 2=16x16, 3=S-EXT + .TOPADDSUB_UPPERINPUT (1), // 0=Q, 1=C + .TOPADDSUB_CARRYSELECT (2), // 0=0, 1=1, 2=ACI, 3=CI + .BOTOUTPUT_SELECT (0), // 0=R, 1=S, 2=8x8, 3=16x16 + .BOTADDSUB_LOWERINPUT (2), // 0=B, 1=8x8, 2=16x16, 3=S-EXT + .BOTADDSUB_UPPERINPUT (1), // 0=S, 1=D + .BOTADDSUB_CARRYSELECT (2), // 0=0, 1=1, 2=ACI, 3=CI + .MODE_8x8 (0), + .A_SIGNED (1), + .B_SIGNED (1) + ) testbench (); +endmodule + +module testbench_seq_16x16_A; + testbench #( + .NEG_TRIGGER (0), + .C_REG (1), + .A_REG (1), + .B_REG (1), + .D_REG (1), + .TOP_8x8_MULT_REG (1), + .BOT_8x8_MULT_REG (1), + .PIPELINE_16x16_MULT_REG1 (1), + .PIPELINE_16x16_MULT_REG2 (1), + .TOPOUTPUT_SELECT (0), // 0=P, 1=Q, 2=8x8, 3=16x16 + .TOPADDSUB_LOWERINPUT (2), // 0=A, 1=8x8, 2=16x16, 3=S-EXT + .TOPADDSUB_UPPERINPUT (1), // 0=Q, 1=C + .TOPADDSUB_CARRYSELECT (2), // 0=0, 1=1, 2=ACI, 3=CI + .BOTOUTPUT_SELECT (0), // 0=R, 1=S, 2=8x8, 3=16x16 + .BOTADDSUB_LOWERINPUT (2), // 0=B, 1=8x8, 2=16x16, 3=S-EXT + .BOTADDSUB_UPPERINPUT (1), // 0=S, 1=D + .BOTADDSUB_CARRYSELECT (2), // 0=0, 1=1, 2=ACI, 3=CI + .MODE_8x8 (0), + .A_SIGNED (0), + .B_SIGNED (0) + ) testbench (); +endmodule + +module testbench_seq_16x16_B; + testbench #( + .NEG_TRIGGER (0), + .C_REG (1), + .A_REG (1), + .B_REG (1), + .D_REG (1), + .TOP_8x8_MULT_REG (1), + .BOT_8x8_MULT_REG (1), + .PIPELINE_16x16_MULT_REG1 (1), + .PIPELINE_16x16_MULT_REG2 (0), + .TOPOUTPUT_SELECT (1), // 0=P, 1=Q, 2=8x8, 3=16x16 + .TOPADDSUB_LOWERINPUT (2), // 0=A, 1=8x8, 2=16x16, 3=S-EXT + .TOPADDSUB_UPPERINPUT (0), // 0=Q, 1=C + .TOPADDSUB_CARRYSELECT (2), // 0=0, 1=1, 2=ACI, 3=CI + .BOTOUTPUT_SELECT (1), // 0=R, 1=S, 2=8x8, 3=16x16 + .BOTADDSUB_LOWERINPUT (2), // 0=B, 1=8x8, 2=16x16, 3=S-EXT + .BOTADDSUB_UPPERINPUT (0), // 0=S, 1=D + .BOTADDSUB_CARRYSELECT (2), // 0=0, 1=1, 2=ACI, 3=CI + .MODE_8x8 (0), + .A_SIGNED (0), + .B_SIGNED (0) + ) testbench (); +endmodule diff --git a/techlibs/intel/Makefile.inc b/techlibs/intel/Makefile.inc index ec7cea379..4e8f423c8 100644 --- a/techlibs/intel/Makefile.inc +++ b/techlibs/intel/Makefile.inc @@ -3,22 +3,12 @@ OBJS += techlibs/intel/synth_intel.o $(eval $(call add_share_file,share/intel/common,techlibs/intel/common/m9k_bb.v)) $(eval $(call add_share_file,share/intel/common,techlibs/intel/common/altpll_bb.v)) -$(eval $(call add_share_file,share/intel/common,techlibs/intel/common/brams.txt)) -$(eval $(call add_share_file,share/intel/common,techlibs/intel/common/brams_map.v)) -$(eval $(call add_share_file,share/intel/max10,techlibs/intel/max10/cells_sim.v)) -$(eval $(call add_share_file,share/intel/a10gx,techlibs/intel/a10gx/cells_sim.v)) -$(eval $(call add_share_file,share/intel/cyclonev,techlibs/intel/cyclonev/cells_sim.v)) -$(eval $(call add_share_file,share/intel/cyclone10,techlibs/intel/cyclone10/cells_sim.v)) -$(eval $(call add_share_file,share/intel/cycloneiv,techlibs/intel/cycloneiv/cells_sim.v)) -$(eval $(call add_share_file,share/intel/cycloneive,techlibs/intel/cycloneive/cells_sim.v)) -$(eval $(call add_share_file,share/intel/max10,techlibs/intel/max10/cells_map.v)) -$(eval $(call add_share_file,share/intel/a10gx,techlibs/intel/a10gx/cells_map.v)) -$(eval $(call add_share_file,share/intel/cyclonev,techlibs/intel/cyclonev/cells_map.v)) -$(eval $(call add_share_file,share/intel/cyclone10,techlibs/intel/cyclone10/cells_map.v)) -$(eval $(call add_share_file,share/intel/cycloneiv,techlibs/intel/cycloneiv/cells_map.v)) -$(eval $(call add_share_file,share/intel/cycloneive,techlibs/intel/cycloneive/cells_map.v)) -#$(eval $(call add_share_file,share/intel/max10,techlibs/intel/max10/arith_map.v)) -#$(eval $(call add_share_file,share/intel/a10gx,techlibs/intel/a10gx/arith_map.v)) -#$(eval $(call add_share_file,share/intel/cycloneiv,techlibs/intel/cycloneiv/arith_map.v)) +$(eval $(call add_share_file,share/intel/common,techlibs/intel/common/brams_m9k.txt)) +$(eval $(call add_share_file,share/intel/common,techlibs/intel/common/brams_map_m9k.v)) + +# Add the cell models and mappings for the VQM backend +families := max10 a10gx cyclonev cyclone10 cycloneiv cycloneive +$(foreach family,$(families), $(eval $(call add_share_file,share/intel/$(family),techlibs/intel/$(family)/cells_sim.v))) +$(foreach family,$(families), $(eval $(call add_share_file,share/intel/$(family),techlibs/intel/$(family)/cells_map.v))) #$(eval $(call add_share_file,share/intel/cycloneive,techlibs/intel/cycloneive/arith_map.v)) diff --git a/techlibs/intel/common/brams.txt b/techlibs/intel/common/brams_m9k.txt index 3bf21afc9..3bf21afc9 100644 --- a/techlibs/intel/common/brams.txt +++ b/techlibs/intel/common/brams_m9k.txt diff --git a/techlibs/intel/common/brams_map.v b/techlibs/intel/common/brams_map_m9k.v index fae4af2ab..d0f07c1de 100644 --- a/techlibs/intel/common/brams_map.v +++ b/techlibs/intel/common/brams_map_m9k.v @@ -2,8 +2,8 @@ module \$__M9K_ALTSYNCRAM_SINGLEPORT_FULL (CLK2, CLK3, A1ADDR, A1DATA, A1EN, B1A parameter CFG_ABITS = 8; parameter CFG_DBITS = 36; - parameter ABITS = "1"; - parameter DBITS = "1"; + parameter ABITS = 1; + parameter DBITS = 1; parameter CLKPOL2 = 1; parameter CLKPOL3 = 1; @@ -63,21 +63,21 @@ module \$__M9K_ALTSYNCRAM_SINGLEPORT_FULL (CLK2, CLK3, A1ADDR, A1DATA, A1EN, B1A .width_byteena_a (1), // Forced value .numwords_b ( NUMWORDS ), .numwords_a ( NUMWORDS ), - .widthad_b ( CFG_ABITS ), - .width_b ( CFG_DBITS ), - .widthad_a ( CFG_ABITS ), - .width_a ( CFG_DBITS ) + .widthad_b ( CFG_DBITS ), + .width_b ( CFG_ABITS ), + .widthad_a ( CFG_DBITS ), + .width_a ( CFG_ABITS ) ) _TECHMAP_REPLACE_ ( .data_a(B1DATA), .address_a(B1ADDR), .wren_a(B1EN), .rden_a(A1EN), .q_a(A1DATA), - .data_b(1'b0), + .data_b(B1DATA), .address_b(0), .wren_b(1'b0), .rden_b(1'b0), - .q_b(1'b0), + .q_b(), .clock0(CLK2), .clock1(1'b1), // Unused in single port mode .clocken0(1'b1), diff --git a/techlibs/intel/cycloneive/arith_map.v b/techlibs/intel/cycloneive/arith_map.v index b3a11272b..49e36aa25 100644 --- a/techlibs/intel/cycloneive/arith_map.v +++ b/techlibs/intel/cycloneive/arith_map.v @@ -32,7 +32,7 @@ module fa wire VCC; assign VCC = 1'b1; - + cycloneiv_lcell_comb gen_sum_0 (.combout(sum_x), .dataa(a_c), .datab(b_c), @@ -40,7 +40,7 @@ module fa .datad(VCC)); defparam syn__05_.lut_mask = 16'b1001011010010110; defparam syn__05_.sum_lutc_input = "datac"; - + cycloneiv_lcell_comb gen_cout_0 (.combout(cout_t), .dataa(cin_c), .datab(b_c), @@ -48,11 +48,11 @@ module fa .datad(VCC)); defparam syn__06_.lut_mask = 16'b1110000011100000; defparam syn__06_.sum_lutc_input = "datac"; - + endmodule // fa module f_stage(); - + endmodule // f_stage module f_end(); @@ -88,7 +88,7 @@ module _80_cycloneive_alu (A, B, CI, BI, X, Y, CO); .cin_c(C[0]), .cout_t(C0[1]), .sum_x(Y[0])); - + genvar i; generate for (i = 1; i < Y_WIDTH; i = i + 1) begin:slice cycloneive_lcell_comb #(.lut_mask(16'b0101_1010_0101_0000), .sum_lutc_input("cin")) arith_cell (.combout(Y[i]), .cout(CO[i]), .dataa(BB[i]), .datab(1'b1), .datac(1'b1), .datad(1'b1), .cin(C[i])); diff --git a/techlibs/intel/cyclonev/cells_map.v b/techlibs/intel/cyclonev/cells_map.v index bd60d4e17..f8d142bc9 100644 --- a/techlibs/intel/cyclonev/cells_map.v +++ b/techlibs/intel/cyclonev/cells_map.v @@ -76,7 +76,7 @@ module \$lut (A, Y); wire VCC; wire GND; assign {VCC,GND} = {1'b1,1'b0}; - + generate if (WIDTH == 1) begin assign Y = ~A[0]; // Not need to spend 1 logic cell for such an easy function @@ -151,7 +151,7 @@ module \$lut (A, Y); TODO: There's not a just 7-input function on Cyclone V, see the following note: **Extended LUT Mode** Use extended LUT mode to implement a specific set of 7-input functions. The set must - be a 2-to-1 multiplexer fed by two arbitrary 5-input functions sharing four inputs. + be a 2-to-1 multiplexer fed by two arbitrary 5-input functions sharing four inputs. [source](Device Interfaces and Integration Basics for Cyclone V Devices). end*/ else diff --git a/techlibs/intel/cyclonev/cells_sim.v b/techlibs/intel/cyclonev/cells_sim.v index 5ecdabcfc..9b2a10e72 100644 --- a/techlibs/intel/cyclonev/cells_sim.v +++ b/techlibs/intel/cyclonev/cells_sim.v @@ -54,7 +54,7 @@ module cyclonev_lcell_comb // Internal variables // Sub mask for fragmented LUTs wire [15:0] mask_a, mask_b, mask_c, mask_d; - // Independant output for fragmented LUTs + // Independent output for fragmented LUTs wire output_0, output_1, output_2, output_3; // Extended mode uses mux to define the output wire mux_0, mux_1; @@ -85,7 +85,7 @@ module cyclonev_lcell_comb begin upper_lut_value = lut4(mask[31:16], dataa, datab, datac, datad); lower_lut_value = lut4(mask[15:0], dataa, datab, datac, datad); - lut5 = (datae) ? upper_mask_value : lower_mask_value; + lut5 = (datae) ? upper_lut_value : lower_lut_value; end endfunction // lut5 @@ -95,15 +95,16 @@ module cyclonev_lcell_comb input dataa, datab, datac, datad, datae, dataf; reg upper_lut_value; reg lower_lut_value; + reg out_0, out_1, out_2, out_3; begin upper_lut_value = lut5(mask[63:32], dataa, datab, datac, datad, datae); lower_lut_value = lut5(mask[31:0], dataa, datab, datac, datad, datae); - lut6 = (dataf) ? upper_mask_value : lower_mask_value; + lut6 = (dataf) ? upper_lut_value : lower_lut_value; end endfunction // lut6 assign {mask_a, mask_b, mask_c, mask_d} = {lut_mask[15:0], lut_mask[31:16], lut_mask[47:32], lut_mask[63:48]}; - +`ifdef ADVANCED_ALM always @(*) begin if(extended_lut == "on") shared_lut_alm = datag; @@ -115,6 +116,11 @@ module cyclonev_lcell_comb out_2 = lut4(mask_c, dataa, datab, datac, datad); out_3 = lut4(mask_d, dataa, datab, shared_lut_alm, datad); end +`else + `ifdef DEBUG + initial $display("Advanced ALM lut combine is not implemented yet"); + `endif +`endif endmodule // cyclonev_lcell_comb diff --git a/techlibs/intel/synth_intel.cc b/techlibs/intel/synth_intel.cc index c51949bd4..e5dc1adc7 100644 --- a/techlibs/intel/synth_intel.cc +++ b/techlibs/intel/synth_intel.cc @@ -17,254 +17,237 @@ * */ -#include "kernel/register.h" #include "kernel/celltypes.h" -#include "kernel/rtlil.h" #include "kernel/log.h" +#include "kernel/register.h" +#include "kernel/rtlil.h" USING_YOSYS_NAMESPACE PRIVATE_NAMESPACE_BEGIN struct SynthIntelPass : public ScriptPass { - SynthIntelPass() : ScriptPass("synth_intel", "synthesis for Intel (Altera) FPGAs.") { } - - virtual void help() YS_OVERRIDE - { - // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| - log("\n"); - log(" synth_intel [options]\n"); - log("\n"); - log("This command runs synthesis for Intel FPGAs.\n"); - log("\n"); - log(" -family < max10 | a10gx | cyclone10 | cyclonev | cycloneiv | cycloneive>\n"); - log(" generate the synthesis netlist for the specified family.\n"); - log(" MAX10 is the default target if not family argument specified.\n"); - log(" For Cyclone GX devices, use cycloneiv argument; For Cyclone E, use cycloneive.\n"); - log(" Cyclone V and Arria 10 GX devices are experimental, use it with a10gx argument.\n"); - log("\n"); - log(" -top <module>\n"); - log(" use the specified module as top module (default='top')\n"); - log("\n"); - log(" -vqm <file>\n"); - log(" write the design to the specified Verilog Quartus Mapping File. Writing of an\n"); - log(" output file is omitted if this parameter is not specified.\n"); - log("\n"); - log(" -vpr <file>\n"); - log(" write BLIF files for VPR flow experiments. The synthesized BLIF output file is not\n"); - log(" compatible with the Quartus flow. Writing of an\n"); - log(" output file is omitted if this parameter is not specified.\n"); - log("\n"); - log(" -run <from_label>:<to_label>\n"); - log(" only run the commands between the labels (see below). an empty\n"); - log(" from label is synonymous to 'begin', and empty to label is\n"); - log(" synonymous to the end of the command list.\n"); - log("\n"); - log(" -noiopads\n"); - log(" do not use altsyncram cells in output netlist\n"); - log("\n"); - log(" -nobram\n"); - log(" do not use altsyncram cells in output netlist\n"); - log("\n"); - log(" -noflatten\n"); - log(" do not flatten design before synthesis\n"); - log("\n"); - log(" -retime\n"); - log(" run 'abc' with -dff option\n"); - log("\n"); - log("The following commands are executed by this synthesis command:\n"); - help_script(); - log("\n"); - } - - string top_opt, family_opt, vout_file, blif_file; - bool retime, flatten, nobram, noiopads; - - virtual void clear_flags() YS_OVERRIDE - { - top_opt = "-auto-top"; - family_opt = "max10"; - vout_file = ""; - blif_file = ""; - retime = false; - flatten = true; - nobram = false; - noiopads = false; - } - - virtual void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE - { - string run_from, run_to; - clear_flags(); - - size_t argidx; - for (argidx = 1; argidx < args.size(); argidx++) - { - if (args[argidx] == "-family" && argidx+1 < args.size()) { - family_opt = args[++argidx]; - continue; - } - if (args[argidx] == "-top" && argidx+1 < args.size()) { - top_opt = "-top " + args[++argidx]; - continue; - } - if (args[argidx] == "-vqm" && argidx+1 < args.size()) { - vout_file = args[++argidx]; - continue; - } - if (args[argidx] == "-vpr" && argidx+1 < args.size()) { - blif_file = args[++argidx]; - continue; - } - if (args[argidx] == "-run" && argidx+1 < args.size()) { - size_t pos = args[argidx+1].find(':'); - if (pos == std::string::npos) - break; - run_from = args[++argidx].substr(0, pos); - run_to = args[argidx].substr(pos+1); - continue; - } - if (args[argidx] == "-noiopads") { - noiopads = true; - continue; - } - if (args[argidx] == "-nobram") { - nobram = true; - continue; - } - if (args[argidx] == "-flatten") { - flatten = true; - continue; - } - if (args[argidx] == "-retime") { - retime = true; - continue; - } - break; - } - extra_args(args, argidx, design); - - if (!design->full_selection()) - log_cmd_error("This command only operates on fully selected designs!\n"); - if (family_opt != "max10" && family_opt !="a10gx" && family_opt != "cyclonev" && family_opt !="cycloneiv" && family_opt !="cycloneive" && family_opt != "cyclone10") - log_cmd_error("Invalid or not family specified: '%s'\n", family_opt.c_str()); - - log_header(design, "Executing SYNTH_INTEL pass.\n"); - log_push(); - - run_script(design, run_from, run_to); - - log_pop(); - } - - virtual void script() YS_OVERRIDE - { - if (check_label("begin")) - { - if(check_label("family") && family_opt=="max10") - run("read_verilog -sv -lib +/intel/max10/cells_sim.v"); - else if(check_label("family") && family_opt=="a10gx") - run("read_verilog -sv -lib +/intel/a10gx/cells_sim.v"); - else if(check_label("family") && family_opt=="cyclonev") - run("read_verilog -sv -lib +/intel/cyclonev/cells_sim.v"); - else if(check_label("family") && family_opt=="cyclone10") - run("read_verilog -sv -lib +/intel/cyclone10/cells_sim.v"); - else if(check_label("family") && family_opt=="cycloneiv") - run("read_verilog -sv -lib +/intel/cycloneiv/cells_sim.v"); - else - run("read_verilog -sv -lib +/intel/cycloneive/cells_sim.v"); - // Misc and common cells - run("read_verilog -sv -lib +/intel/common/m9k_bb.v"); - run("read_verilog -sv -lib +/intel/common/altpll_bb.v"); - run(stringf("hierarchy -check %s", help_mode ? "-top <top>" : top_opt.c_str())); - } - - if (flatten && check_label("flatten", "(unless -noflatten)")) - { - run("proc"); - run("flatten"); - run("tribuf -logic"); - run("deminout"); - } - - if (check_label("coarse")) - { - run("synth -run coarse"); - } - - if (!nobram && check_label("bram", "(skip if -nobram)")) - { - run("memory_bram -rules +/intel/common/brams.txt"); - run("techmap -map +/intel/common/brams_map.v"); - } - - if (check_label("fine")) - { - run("opt -fast -mux_undef -undriven -fine -full"); - run("memory_map"); - run("opt -undriven -fine"); - run("dffsr2dff"); - run("dff2dffe -direct-match $_DFF_*"); - run("opt -fine"); - run("techmap -map +/techmap.v"); - run("opt -full"); - run("clean -purge"); - run("setundef -undriven -zero"); - if (retime || help_mode) - run("abc -markgroups -dff", "(only if -retime)"); - } - - if (check_label("map_luts")) - { - if(family_opt=="a10gx" || family_opt=="cyclonev") - run("abc -luts 2:2,3,6:5" + string(retime ? " -dff" : "")); - else - run("abc -lut 4" + string(retime ? " -dff" : "")); - run("clean"); - } - - if (check_label("map_cells")) - { - if (!noiopads) - run("iopadmap -bits -outpad $__outpad I:O -inpad $__inpad O:I", "(unless -noiopads)"); - if(family_opt=="max10") - run("techmap -map +/intel/max10/cells_map.v"); - else if(family_opt=="a10gx") - run("techmap -map +/intel/a10gx/cells_map.v"); - else if(family_opt=="cyclonev") - run("techmap -map +/intel/cyclonev/cells_map.v"); - else if(family_opt=="cyclone10") - run("techmap -map +/intel/cyclone10/cells_map.v"); - else if(family_opt=="cycloneiv") - run("techmap -map +/intel/cycloneiv/cells_map.v"); - else - run("techmap -map +/intel/cycloneive/cells_map.v"); - run("dffinit -highlow -ff dffeas q power_up"); - run("clean -purge"); - } - - if (check_label("check")) - { - run("hierarchy -check"); - run("stat"); - run("check -noinit"); - } - - if (check_label("vqm")) - { - if (!vout_file.empty() || help_mode) - run(stringf("write_verilog -attr2comment -defparam -nohex -decimal -renameprefix syn_ %s", - help_mode ? "<file-name>" : vout_file.c_str())); - } - - if (check_label("vpr")) - { - if (!blif_file.empty() || help_mode) - { - run(stringf("opt_clean -purge")); - run(stringf("write_blif %s", help_mode ? "<file-name>" : blif_file.c_str())); - } - } - } + SynthIntelPass() : ScriptPass("synth_intel", "synthesis for Intel (Altera) FPGAs.") {} + + void help() YS_OVERRIDE + { + // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| + log("\n"); + log(" synth_intel [options]\n"); + log("\n"); + log("This command runs synthesis for Intel FPGAs.\n"); + log("\n"); + log(" -family < max10 | a10gx | cyclone10 | cyclonev | cycloneiv | cycloneive>\n"); + log(" generate the synthesis netlist for the specified family.\n"); + log(" MAX10 is the default target if no family argument specified.\n"); + log(" For Cyclone GX devices, use cycloneiv argument; For Cyclone E, use cycloneive.\n"); + log(" Cyclone V and Arria 10 GX devices are experimental.\n"); + log("\n"); + log(" -top <module>\n"); + log(" use the specified module as top module (default='top')\n"); + log("\n"); + log(" -vqm <file>\n"); + log(" write the design to the specified Verilog Quartus Mapping File. Writing of an\n"); + log(" output file is omitted if this parameter is not specified.\n"); + log(" Note that this backend has not been tested and is likely incompatible\n"); + log(" with recent versions of Quartus.\n"); + log("\n"); + log(" -vpr <file>\n"); + log(" write BLIF files for VPR flow experiments. The synthesized BLIF output file is not\n"); + log(" compatible with the Quartus flow. Writing of an\n"); + log(" output file is omitted if this parameter is not specified.\n"); + log("\n"); + log(" -run <from_label>:<to_label>\n"); + log(" only run the commands between the labels (see below). an empty\n"); + log(" from label is synonymous to 'begin', and empty to label is\n"); + log(" synonymous to the end of the command list.\n"); + log("\n"); + log(" -iopads\n"); + log(" use IO pad cells in output netlist\n"); + log("\n"); + log(" -nobram\n"); + log(" do not use block RAM cells in output netlist\n"); + log("\n"); + log(" -noflatten\n"); + log(" do not flatten design before synthesis\n"); + log("\n"); + log(" -retime\n"); + log(" run 'abc' with -dff option\n"); + log("\n"); + log("The following commands are executed by this synthesis command:\n"); + help_script(); + log("\n"); + } + + string top_opt, family_opt, vout_file, blif_file; + bool retime, flatten, nobram, iopads; + + void clear_flags() YS_OVERRIDE + { + top_opt = "-auto-top"; + family_opt = "max10"; + vout_file = ""; + blif_file = ""; + retime = false; + flatten = true; + nobram = false; + iopads = false; + } + + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + { + string run_from, run_to; + clear_flags(); + + size_t argidx; + for (argidx = 1; argidx < args.size(); argidx++) { + if (args[argidx] == "-family" && argidx + 1 < args.size()) { + family_opt = args[++argidx]; + continue; + } + if (args[argidx] == "-top" && argidx + 1 < args.size()) { + top_opt = "-top " + args[++argidx]; + continue; + } + if (args[argidx] == "-vqm" && argidx + 1 < args.size()) { + vout_file = args[++argidx]; + log_warning("The Quartus backend has not been tested recently and is likely incompatible with modern versions of Quartus.\n"); + continue; + } + if (args[argidx] == "-vpr" && argidx + 1 < args.size()) { + blif_file = args[++argidx]; + continue; + } + if (args[argidx] == "-run" && argidx + 1 < args.size()) { + size_t pos = args[argidx + 1].find(':'); + if (pos == std::string::npos) + break; + run_from = args[++argidx].substr(0, pos); + run_to = args[argidx].substr(pos + 1); + continue; + } + if (args[argidx] == "-iopads") { + iopads = true; + continue; + } + if (args[argidx] == "-nobram") { + nobram = true; + continue; + } + if (args[argidx] == "-noflatten") { + flatten = false; + continue; + } + if (args[argidx] == "-retime") { + retime = true; + continue; + } + break; + } + extra_args(args, argidx, design); + + if (!design->full_selection()) + log_cmd_error("This command only operates on fully selected designs!\n"); + if (family_opt != "max10" && + family_opt != "a10gx" && + family_opt != "cyclonev" && + family_opt != "cycloneiv" && + family_opt != "cycloneive" && + family_opt != "cyclone10") + log_cmd_error("Invalid or no family specified: '%s'\n", family_opt.c_str()); + + log_header(design, "Executing SYNTH_INTEL pass.\n"); + log_push(); + + run_script(design, run_from, run_to); + + log_pop(); + } + + void script() YS_OVERRIDE + { + if (check_label("begin")) { + if (check_label("family")) + run(stringf("read_verilog -sv -lib +/intel/%s/cells_sim.v", family_opt.c_str())); + + // Misc and common cells + run("read_verilog -sv -lib +/intel/common/m9k_bb.v"); + run("read_verilog -sv -lib +/intel/common/altpll_bb.v"); + run(stringf("hierarchy -check %s", help_mode ? "-top <top>" : top_opt.c_str())); + } + + if (flatten && check_label("flatten", "(unless -noflatten)")) { + run("proc"); + run("flatten"); + run("tribuf -logic"); + run("deminout"); + } + + if (check_label("coarse")) { + run("synth -run coarse"); + } + + if (!nobram && check_label("map_bram", "(skip if -nobram)")) { + if (family_opt == "cycloneiv" || + family_opt == "cycloneive" || + family_opt == "max10" || + help_mode) { + run("memory_bram -rules +/intel/common/brams_m9k.txt", "(if applicable for family)"); + run("techmap -map +/intel/common/brams_map_m9k.v", "(if applicable for family)"); + } else { + log_warning("BRAM mapping is not currently supported for %s.\n", family_opt.c_str()); + } + } + + if (check_label("map_ffram")) { + run("opt -fast -mux_undef -undriven -fine -full"); + run("memory_map"); + run("opt -undriven -fine"); + run("dffsr2dff"); + run("dff2dffe -direct-match $_DFF_*"); + run("opt -fine"); + run("techmap -map +/techmap.v"); + run("opt -full"); + run("clean -purge"); + run("setundef -undriven -zero"); + if (retime || help_mode) + run("abc -markgroups -dff", "(only if -retime)"); + } + + if (check_label("map_luts")) { + if (family_opt == "a10gx" || family_opt == "cyclonev") + run("abc -luts 2:2,3,6:5" + string(retime ? " -dff" : "")); + else + run("abc -lut 4" + string(retime ? " -dff" : "")); + run("clean"); + } + + if (check_label("map_cells")) { + if (iopads || help_mode) + run("iopadmap -bits -outpad $__outpad I:O -inpad $__inpad O:I", "(if -iopads)"); + run(stringf("techmap -map +/intel/%s/cells_map.v", family_opt.c_str())); + run("dffinit -highlow -ff dffeas q power_up"); + run("clean -purge"); + } + + if (check_label("check")) { + run("hierarchy -check"); + run("stat"); + run("check -noinit"); + } + + if (check_label("vqm")) { + if (!vout_file.empty() || help_mode) + run(stringf("write_verilog -attr2comment -defparam -nohex -decimal -renameprefix syn_ %s", + help_mode ? "<file-name>" : vout_file.c_str())); + } + + if (check_label("vpr")) { + if (!blif_file.empty() || help_mode) { + run(stringf("opt_clean -purge")); + run(stringf("write_blif %s", help_mode ? "<file-name>" : blif_file.c_str())); + } + } + } } SynthIntelPass; PRIVATE_NAMESPACE_END diff --git a/techlibs/sf2/Makefile.inc b/techlibs/sf2/Makefile.inc new file mode 100644 index 000000000..cc3054ace --- /dev/null +++ b/techlibs/sf2/Makefile.inc @@ -0,0 +1,8 @@ + +OBJS += techlibs/sf2/synth_sf2.o +OBJS += techlibs/sf2/sf2_iobs.o + +$(eval $(call add_share_file,share/sf2,techlibs/sf2/arith_map.v)) +$(eval $(call add_share_file,share/sf2,techlibs/sf2/cells_map.v)) +$(eval $(call add_share_file,share/sf2,techlibs/sf2/cells_sim.v)) + diff --git a/techlibs/sf2/arith_map.v b/techlibs/sf2/arith_map.v new file mode 100644 index 000000000..462d3ce50 --- /dev/null +++ b/techlibs/sf2/arith_map.v @@ -0,0 +1,21 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + + +// nothing here yet diff --git a/techlibs/sf2/cells_map.v b/techlibs/sf2/cells_map.v new file mode 100644 index 000000000..6ad7807d2 --- /dev/null +++ b/techlibs/sf2/cells_map.v @@ -0,0 +1,82 @@ +module \$_DFF_N_ (input D, C, output Q); + SLE _TECHMAP_REPLACE_ (.D(D), .CLK(!C), .EN(1'b1), .ALn(1'b1), .ADn(1'b1), .SLn(1'b1), .SD(1'b0), .LAT(1'b0), .Q(Q)); +endmodule + +module \$_DFF_P_ (input D, C, output Q); + SLE _TECHMAP_REPLACE_ (.D(D), .CLK(C), .EN(1'b1), .ALn(1'b1), .ADn(1'b1), .SLn(1'b1), .SD(1'b0), .LAT(1'b0), .Q(Q)); +endmodule + +module \$_DFF_NN0_ (input D, C, R, output Q); + SLE _TECHMAP_REPLACE_ (.D(D), .CLK(!C), .EN(1'b1), .ALn(R), .ADn(1'b1), .SLn(1'b1), .SD(1'b0), .LAT(1'b0), .Q(Q)); +endmodule + +module \$_DFF_NN1_ (input D, C, R, output Q); + SLE _TECHMAP_REPLACE_ (.D(D), .CLK(!C), .EN(1'b1), .ALn(R), .ADn(1'b0), .SLn(1'b1), .SD(1'b0), .LAT(1'b0), .Q(Q)); +endmodule + +module \$_DFF_NP0_ (input D, C, R, output Q); + SLE _TECHMAP_REPLACE_ (.D(D), .CLK(!C), .EN(1'b1), .ALn(!R), .ADn(1'b1), .SLn(1'b1), .SD(1'b0), .LAT(1'b0), .Q(Q)); +endmodule + +module \$_DFF_NP1_ (input D, C, R, output Q); + SLE _TECHMAP_REPLACE_ (.D(D), .CLK(!C), .EN(1'b1), .ALn(!R), .ADn(1'b0), .SLn(1'b1), .SD(1'b0), .LAT(1'b0), .Q(Q)); +endmodule + +module \$_DFF_PN0_ (input D, C, R, output Q); + SLE _TECHMAP_REPLACE_ (.D(D), .CLK(C), .EN(1'b1), .ALn(R), .ADn(1'b1), .SLn(1'b1), .SD(1'b0), .LAT(1'b0), .Q(Q)); +endmodule + +module \$_DFF_PN1_ (input D, C, R, output Q); + SLE _TECHMAP_REPLACE_ (.D(D), .CLK(C), .EN(1'b1), .ALn(R), .ADn(1'b0), .SLn(1'b1), .SD(1'b0), .LAT(1'b0), .Q(Q)); +endmodule + +module \$_DFF_PP0_ (input D, C, R, output Q); + SLE _TECHMAP_REPLACE_ (.D(D), .CLK(C), .EN(1'b1), .ALn(!R), .ADn(1'b1), .SLn(1'b1), .SD(1'b0), .LAT(1'b0), .Q(Q)); +endmodule + +module \$_DFF_PP1_ (input D, C, R, output Q); + SLE _TECHMAP_REPLACE_ (.D(D), .CLK(C), .EN(1'b1), .ALn(!R), .ADn(1'b0), .SLn(1'b1), .SD(1'b0), .LAT(1'b0), .Q(Q)); +endmodule + +// module \$_DFFE_NN_ (input D, C, E, output Q); SB_DFFNE _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .E(!E)); endmodule +// module \$_DFFE_PN_ (input D, C, E, output Q); SB_DFFE _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .E(!E)); endmodule +// +// module \$_DFFE_NP_ (input D, C, E, output Q); SB_DFFNE _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .E(E)); endmodule +// module \$_DFFE_PP_ (input D, C, E, output Q); SB_DFFE _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .E(E)); endmodule +// +// module \$__DFFE_NN0 (input D, C, E, R, output Q); SB_DFFNER _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .E(E), .R(!R)); endmodule +// module \$__DFFE_NN1 (input D, C, E, R, output Q); SB_DFFNES _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .E(E), .S(!R)); endmodule +// module \$__DFFE_PN0 (input D, C, E, R, output Q); SB_DFFER _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .E(E), .R(!R)); endmodule +// module \$__DFFE_PN1 (input D, C, E, R, output Q); SB_DFFES _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .E(E), .S(!R)); endmodule +// +// module \$__DFFE_NP0 (input D, C, E, R, output Q); SB_DFFNER _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .E(E), .R(R)); endmodule +// module \$__DFFE_NP1 (input D, C, E, R, output Q); SB_DFFNES _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .E(E), .S(R)); endmodule +// module \$__DFFE_PP0 (input D, C, E, R, output Q); SB_DFFER _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .E(E), .R(R)); endmodule +// module \$__DFFE_PP1 (input D, C, E, R, output Q); SB_DFFES _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .E(E), .S(R)); endmodule + +`ifndef NO_LUT +module \$lut (A, Y); + parameter WIDTH = 0; + parameter LUT = 0; + + input [WIDTH-1:0] A; + output Y; + + generate + if (WIDTH == 1) begin + CFG1 #(.INIT(LUT)) _TECHMAP_REPLACE_ (.Y(Y), .A(A[0])); + end else + if (WIDTH == 2) begin + CFG2 #(.INIT(LUT)) _TECHMAP_REPLACE_ (.Y(Y), .A(A[0]), .B(A[1])); + end else + if (WIDTH == 3) begin + CFG3 #(.INIT(LUT)) _TECHMAP_REPLACE_ (.Y(Y), .A(A[0]), .B(A[1]), .C(A[2])); + end else + if (WIDTH == 4) begin + CFG4 #(.INIT(LUT)) _TECHMAP_REPLACE_ (.Y(Y), .A(A[0]), .B(A[1]), .C(A[2]), .D(A[3])); + end else begin + wire _TECHMAP_FAIL_ = 1; + end + endgenerate +endmodule +`endif diff --git a/techlibs/sf2/cells_sim.v b/techlibs/sf2/cells_sim.v new file mode 100644 index 000000000..c62748b11 --- /dev/null +++ b/techlibs/sf2/cells_sim.v @@ -0,0 +1,327 @@ +// https://coredocs.s3.amazonaws.com/Libero/12_0_0/Tool/sf2_mlg.pdf + +module ADD2 ( + + input A, B, + output Y +); + assign Y = A & B; +endmodule + +module ADD3 ( + input A, B, C, + output Y +); + assign Y = A & B & C; +endmodule + +module ADD4 ( + input A, B, C, D, + output Y +); + assign Y = A & B & C & D; +endmodule + +module CFG1 ( + output Y, + input A +); + parameter [1:0] INIT = 2'h0; + assign Y = INIT >> A; +endmodule + +module CFG2 ( + output Y, + input A, + input B +); + parameter [3:0] INIT = 4'h0; + assign Y = INIT >> {B, A}; +endmodule + +module CFG3 ( + output Y, + input A, + input B, + input C +); + parameter [7:0] INIT = 8'h0; + assign Y = INIT >> {C, B, A}; +endmodule + +module CFG4 ( + output Y, + input A, + input B, + input C, + input D +); + parameter [15:0] INIT = 16'h0; + assign Y = INIT >> {D, C, B, A}; +endmodule + +module BUFF ( + input A, + output Y +); + assign Y = A; +endmodule + +module BUFD ( + input A, + output Y +); + assign Y = A; +endmodule + +module CLKINT ( + input A, + output Y +); + assign Y = A; +endmodule + +module CLKINT_PRESERVE ( + input A, + output Y +); + assign Y = A; +endmodule + +module GCLKINT ( + input A, EN, + output Y +); + assign Y = A & EN; +endmodule + +module RCLKINT ( + input A, + output Y +); + assign Y = A; +endmodule + +module RGCLKINT ( + input A, EN, + output Y +); + assign Y = A & EN; +endmodule + +module SLE ( + output Q, + input ADn, + input ALn, + input CLK, + input D, + input LAT, + input SD, + input EN, + input SLn +); + reg q_latch, q_ff; + + always @(posedge CLK, negedge ALn) begin + if (!ALn) begin + q_ff <= !ADn; + end else if (EN) begin + if (!SLn) + q_ff <= SD; + else + q_ff <= D; + end + end + + always @* begin + if (!ALn) begin + q_latch <= !ADn; + end else if (CLK && EN) begin + if (!SLn) + q_ff <= SD; + else + q_ff <= D; + end + end + + assign Q = LAT ? q_latch : q_ff; +endmodule + +// module AR1 +// module FCEND_BUFF +// module FCINIT_BUFF +// module FLASH_FREEZE +// module OSCILLATOR +// module SYSRESET +// module SYSCTRL_RESET_STATUS +// module LIVE_PROBE_FB +// module GCLKBUF +// module GCLKBUF_DIFF +// module GCLKBIBUF +// module DFN1 +// module DFN1C0 +// module DFN1E1 +// module DFN1E1C0 +// module DFN1E1P0 +// module DFN1P0 +// module DLN1 +// module DLN1C0 +// module DLN1P0 + +module INV ( + input A, + output Y +); + assign Y = !A; +endmodule + +module INVD ( + input A, + output Y +); + assign Y = !A; +endmodule + +module MX2 ( + input A, B, S, + output Y +); + assign Y = S ? B : A; +endmodule + +module MX4 ( + input D0, D1, D2, D3, S0, S1, + output Y +); + assign Y = S1 ? (S0 ? D3 : D2) : (S0 ? D1 : D0); +endmodule + +module NAND2 ( + input A, B, + output Y +); + assign Y = !(A & B); +endmodule + +module NAND3 ( + input A, B, C, + output Y +); + assign Y = !(A & B & C); +endmodule + +module NAND4 ( + input A, B, C, D, + output Y +); + assign Y = !(A & B & C & D); +endmodule + +module NOR2 ( + input A, B, + output Y +); + assign Y = !(A | B); +endmodule + +module NOR3 ( + input A, B, C, + output Y +); + assign Y = !(A | B | C); +endmodule + +module NOR4 ( + input A, B, C, D, + output Y +); + assign Y = !(A | B | C | D); +endmodule + +module OR2 ( + input A, B, + output Y +); + assign Y = A | B; +endmodule + +module OR3 ( + input A, B, C, + output Y +); + assign Y = A | B | C; +endmodule + +module OR4 ( + input A, B, C, D, + output Y +); + assign Y = A | B | C | D; +endmodule + +module XOR2 ( + input A, B, + output Y +); + assign Y = A ^ B; +endmodule + +module XOR3 ( + input A, B, C, + output Y +); + assign Y = A ^ B ^ C; +endmodule + +module XOR4 ( + input A, B, C, D, + output Y +); + assign Y = A ^ B ^ C ^ D; +endmodule + +module XOR8 ( + input A, B, C, D, E, F, G, H, + output Y +); + assign Y = A ^ B ^ C ^ D ^ E ^ F ^ G ^ H; +endmodule + +// module UJTAG +// module BIBUF +// module BIBUF_DIFF +// module CLKBIBUF + +module CLKBUF ( + input PAD, + output Y +); + assign Y = PAD; +endmodule + +// module CLKBUF_DIFF + +module INBUF ( + input PAD, + output Y +); + assign Y = PAD; +endmodule + +// module INBUF_DIFF + +module OUTBUF ( + input D, + output PAD +); + assign PAD = D; +endmodule + +// module OUTBUF_DIFF +// module TRIBUFF +// module TRIBUFF_DIFF +// module DDR_IN +// module DDR_OUT +// module RAM1K18 +// module RAM64x18 +// module MACC diff --git a/techlibs/sf2/sf2_iobs.cc b/techlibs/sf2/sf2_iobs.cc new file mode 100644 index 000000000..3d43332e2 --- /dev/null +++ b/techlibs/sf2/sf2_iobs.cc @@ -0,0 +1,197 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +#include "kernel/yosys.h" +#include "kernel/sigtools.h" + +USING_YOSYS_NAMESPACE +PRIVATE_NAMESPACE_BEGIN + +static void handle_iobufs(Module *module, bool clkbuf_mode) +{ + SigMap sigmap(module); + + pool<SigBit> clk_bits; + pool<SigBit> handled_io_bits; + dict<SigBit, SigBit> rewrite_bits; + vector<pair<Cell*, SigBit>> pad_bits; + + for (auto cell : module->cells()) + { + if (clkbuf_mode && cell->type == "\\SLE") { + for (auto bit : sigmap(cell->getPort("\\CLK"))) + clk_bits.insert(bit); + } + if (cell->type.in("\\INBUF", "\\OUTBUF", "\\TRIBUFF", "\\BIBUF", "\\CLKBUF", "\\CLKBIBUF", + "\\INBUF_DIFF", "\\OUTBUF_DIFF", "\\BIBUFF_DIFF", "\\TRIBUFF_DIFF", "\\CLKBUF_DIFF", + "\\GCLKBUF", "\\GCLKBUF_DIFF", "\\GCLKBIBUF")) { + for (auto bit : sigmap(cell->getPort("\\PAD"))) + handled_io_bits.insert(bit); + } + } + + for (auto wire : vector<Wire*>(module->wires())) + { + if (!wire->port_input && !wire->port_output) + continue; + + for (int index = 0; index < GetSize(wire); index++) + { + SigBit bit(wire, index); + SigBit canonical_bit = sigmap(bit); + + if (handled_io_bits.count(canonical_bit)) + continue; + + if (wire->port_input && wire->port_output) + log_error("Failed to add buffer for inout port bit %s.\n", log_signal(bit)); + + IdString buf_type, buf_port; + + if (wire->port_output) { + buf_type = "\\OUTBUF"; + buf_port = "\\D"; + } else if (clkbuf_mode && clk_bits.count(canonical_bit)) { + buf_type = "\\CLKBUF"; + buf_port = "\\Y"; + } else { + buf_type = "\\INBUF"; + buf_port = "\\Y"; + } + + Cell *c = module->addCell(NEW_ID, buf_type); + SigBit new_bit = module->addWire(NEW_ID); + c->setPort(buf_port, new_bit); + pad_bits.push_back(make_pair(c, bit)); + rewrite_bits[canonical_bit] = new_bit; + + log("Added %s cell %s for port bit %s.\n", log_id(c->type), log_id(c), log_signal(bit)); + } + } + + auto rewrite_function = [&](SigSpec &s) { + for (auto &bit : s) { + SigBit canonical_bit = sigmap(bit); + if (rewrite_bits.count(canonical_bit)) + bit = rewrite_bits.at(canonical_bit); + } + }; + + module->rewrite_sigspecs(rewrite_function); + + for (auto &it : pad_bits) + it.first->setPort("\\PAD", it.second); +} + +static void handle_clkint(Module *module) +{ + SigMap sigmap(module); + + pool<SigBit> clk_bits; + vector<SigBit> handled_clk_bits; + + for (auto cell : module->cells()) + { + if (cell->type == "\\SLE") { + for (auto bit : sigmap(cell->getPort("\\CLK"))) + clk_bits.insert(bit); + } + if (cell->type.in("\\CLKBUF", "\\CLKBIBUF", "\\CLKBUF_DIFF", "\\GCLKBUF", "\\GCLKBUF_DIFF", "\\GCLKBIBUF", + "\\CLKINT", "\\CLKINT_PRESERVE", "\\GCLKINT", "\\RCLKINT", "\\RGCLKINT")) { + for (auto bit : sigmap(cell->getPort("\\Y"))) + handled_clk_bits.push_back(bit); + } + } + + for (auto bit : handled_clk_bits) + clk_bits.erase(bit); + + for (auto cell : vector<Cell*>(module->cells())) + for (auto &conn : cell->connections()) + { + if (!cell->output(conn.first)) + continue; + + SigSpec sig = conn.second; + bool did_something = false; + + for (auto &bit : sig) { + SigBit canonical_bit = sigmap(bit); + if (clk_bits.count(canonical_bit)) { + Cell *c = module->addCell(NEW_ID, "\\CLKINT"); + SigBit new_bit = module->addWire(NEW_ID); + c->setPort("\\A", new_bit); + c->setPort("\\Y", bit); + log("Added %s cell %s for clock signal %s.\n", log_id(c->type), log_id(c), log_signal(bit)); + clk_bits.erase(canonical_bit); + did_something = true; + bit = new_bit; + } + } + + if (did_something) + cell->setPort(conn.first, sig); + } + + for (auto bit : clk_bits) + log_error("Failed to insert CLKINT for clock signal %s.\n", log_signal(bit)); +} + +struct Sf2IobsPass : public Pass { + Sf2IobsPass() : Pass("sf2_iobs", "SF2: insert IO buffers") { } + void help() YS_OVERRIDE + { + // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| + log("\n"); + log(" sf2_iobs [options] [selection]\n"); + log("\n"); + log("Add SF2 I/O buffers and global buffers to top module as needed.\n"); + log("\n"); + log(" -clkbuf\n"); + log(" Insert PAD->global_net clock buffers\n"); + log("\n"); + } + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + { + bool clkbuf_mode = false; + + log_header(design, "Executing sf2_iobs pass (insert IO buffers).\n"); + + size_t argidx; + for (argidx = 1; argidx < args.size(); argidx++) + { + if (args[argidx] == "-clkbuf") { + clkbuf_mode = true; + continue; + } + break; + } + extra_args(args, argidx, design); + + Module *module = design->top_module(); + + if (module == nullptr) + log_cmd_error("No top module found.\n"); + + handle_iobufs(module, clkbuf_mode); + handle_clkint(module); + } +} Sf2IobsPass; + +PRIVATE_NAMESPACE_END diff --git a/techlibs/sf2/synth_sf2.cc b/techlibs/sf2/synth_sf2.cc new file mode 100644 index 000000000..0924df7a6 --- /dev/null +++ b/techlibs/sf2/synth_sf2.cc @@ -0,0 +1,246 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +#include "kernel/register.h" +#include "kernel/celltypes.h" +#include "kernel/rtlil.h" +#include "kernel/log.h" + +USING_YOSYS_NAMESPACE +PRIVATE_NAMESPACE_BEGIN + +struct SynthSf2Pass : public ScriptPass +{ + SynthSf2Pass() : ScriptPass("synth_sf2", "synthesis for SmartFusion2 and IGLOO2 FPGAs") { } + + void help() YS_OVERRIDE + { + // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| + log("\n"); + log(" synth_sf2 [options]\n"); + log("\n"); + log("This command runs synthesis for SmartFusion2 and IGLOO2 FPGAs.\n"); + log("\n"); + log(" -top <module>\n"); + log(" use the specified module as top module\n"); + log("\n"); + log(" -edif <file>\n"); + log(" write the design to the specified EDIF file. writing of an output file\n"); + log(" is omitted if this parameter is not specified.\n"); + log("\n"); + log(" -vlog <file>\n"); + log(" write the design to the specified Verilog file. writing of an output file\n"); + log(" is omitted if this parameter is not specified.\n"); + log("\n"); + log(" -json <file>\n"); + log(" write the design to the specified JSON file. writing of an output file\n"); + log(" is omitted if this parameter is not specified.\n"); + log("\n"); + log(" -run <from_label>:<to_label>\n"); + log(" only run the commands between the labels (see below). an empty\n"); + log(" from label is synonymous to 'begin', and empty to label is\n"); + log(" synonymous to the end of the command list.\n"); + log("\n"); + log(" -noflatten\n"); + log(" do not flatten design before synthesis\n"); + log("\n"); + log(" -noiobs\n"); + log(" run synthesis in \"block mode\", i.e. do not insert IO buffers\n"); + log("\n"); + log(" -clkbuf\n"); + log(" insert direct PAD->global_net buffers\n"); + log("\n"); + log(" -retime\n"); + log(" run 'abc' with -dff option\n"); + log("\n"); + log("\n"); + log("The following commands are executed by this synthesis command:\n"); + help_script(); + log("\n"); + } + + string top_opt, edif_file, vlog_file, json_file; + bool flatten, retime, iobs, clkbuf; + + void clear_flags() YS_OVERRIDE + { + top_opt = "-auto-top"; + edif_file = ""; + vlog_file = ""; + json_file = ""; + flatten = true; + retime = false; + iobs = true; + clkbuf = false; + } + + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + { + string run_from, run_to; + clear_flags(); + + size_t argidx; + for (argidx = 1; argidx < args.size(); argidx++) + { + if (args[argidx] == "-top" && argidx+1 < args.size()) { + top_opt = "-top " + args[++argidx]; + continue; + } + if (args[argidx] == "-edif" && argidx+1 < args.size()) { + edif_file = args[++argidx]; + continue; + } + if (args[argidx] == "-vlog" && argidx+1 < args.size()) { + vlog_file = args[++argidx]; + continue; + } + if (args[argidx] == "-json" && argidx+1 < args.size()) { + json_file = args[++argidx]; + continue; + } + if (args[argidx] == "-run" && argidx+1 < args.size()) { + size_t pos = args[argidx+1].find(':'); + if (pos == std::string::npos) + break; + run_from = args[++argidx].substr(0, pos); + run_to = args[argidx].substr(pos+1); + continue; + } + if (args[argidx] == "-noflatten") { + flatten = false; + continue; + } + if (args[argidx] == "-retime") { + retime = true; + continue; + } + if (args[argidx] == "-noiobs") { + iobs = false; + continue; + } + if (args[argidx] == "-clkbuf") { + clkbuf = true; + continue; + } + break; + } + extra_args(args, argidx, design); + + if (!design->full_selection()) + log_cmd_error("This command only operates on fully selected designs!\n"); + + log_header(design, "Executing SYNTH_SF2 pass.\n"); + log_push(); + + run_script(design, run_from, run_to); + + log_pop(); + } + + void script() YS_OVERRIDE + { + if (check_label("begin")) + { + run("read_verilog -lib +/sf2/cells_sim.v"); + run(stringf("hierarchy -check %s", help_mode ? "-top <top>" : top_opt.c_str())); + } + + if (flatten && check_label("flatten", "(unless -noflatten)")) + { + run("proc"); + run("flatten"); + run("tribuf -logic"); + run("deminout"); + } + + if (check_label("coarse")) + { + run("synth -run coarse"); + } + + if (check_label("fine")) + { + run("opt -fast -mux_undef -undriven -fine"); + run("memory_map"); + run("opt -undriven -fine"); + run("techmap -map +/techmap.v -map +/sf2/arith_map.v"); + if (retime || help_mode) + run("abc -dff", "(only if -retime)"); + } + + if (check_label("map_ffs")) + { + run("dffsr2dff"); + run("techmap -D NO_LUT -map +/sf2/cells_map.v"); + run("opt_expr -mux_undef"); + run("simplemap"); + // run("sf2_ffinit"); + // run("sf2_ffssr"); + // run("sf2_opt -full"); + } + + if (check_label("map_luts")) + { + run("abc -lut 4"); + run("clean"); + } + + if (check_label("map_cells")) + { + run("techmap -map +/sf2/cells_map.v"); + run("clean"); + } + + if (check_label("map_iobs")) + { + if (help_mode) + run("sf2_iobs [-clkbuf]", "(unless -noiobs)"); + else if (iobs) + run(clkbuf ? "sf2_iobs -clkbuf" : "sf2_iobs"); + run("clean"); + } + + if (check_label("check")) + { + run("hierarchy -check"); + run("stat"); + run("check -noinit"); + } + + if (check_label("edif")) + { + if (!edif_file.empty() || help_mode) + run(stringf("write_edif -gndvccy %s", help_mode ? "<file-name>" : edif_file.c_str())); + } + + if (check_label("vlog")) + { + if (!vlog_file.empty() || help_mode) + run(stringf("write_verilog %s", help_mode ? "<file-name>" : vlog_file.c_str())); + } + + if (check_label("json")) + { + if (!json_file.empty() || help_mode) + run(stringf("write_json %s", help_mode ? "<file-name>" : json_file.c_str())); + } + } +} SynthSf2Pass; + +PRIVATE_NAMESPACE_END diff --git a/techlibs/xilinx/Makefile.inc b/techlibs/xilinx/Makefile.inc index 887ea27d9..c26e1f4db 100644 --- a/techlibs/xilinx/Makefile.inc +++ b/techlibs/xilinx/Makefile.inc @@ -5,6 +5,8 @@ GENFILES += techlibs/xilinx/brams_init_36.vh GENFILES += techlibs/xilinx/brams_init_32.vh GENFILES += techlibs/xilinx/brams_init_18.vh GENFILES += techlibs/xilinx/brams_init_16.vh +GENFILES += techlibs/xilinx/brams_init_9.vh +GENFILES += techlibs/xilinx/brams_init_8.vh EXTRA_OBJS += techlibs/xilinx/brams_init.mk .SECONDARY: techlibs/xilinx/brams_init.mk @@ -18,20 +20,40 @@ techlibs/xilinx/brams_init_36.vh: techlibs/xilinx/brams_init.mk techlibs/xilinx/brams_init_32.vh: techlibs/xilinx/brams_init.mk techlibs/xilinx/brams_init_18.vh: techlibs/xilinx/brams_init.mk techlibs/xilinx/brams_init_16.vh: techlibs/xilinx/brams_init.mk +techlibs/xilinx/brams_init_9.vh: techlibs/xilinx/brams_init.mk +techlibs/xilinx/brams_init_8.vh: techlibs/xilinx/brams_init.mk $(eval $(call add_share_file,share/xilinx,techlibs/xilinx/cells_map.v)) $(eval $(call add_share_file,share/xilinx,techlibs/xilinx/cells_sim.v)) -$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/cells_xtra.v)) -$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/brams.txt)) -$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/brams_map.v)) -$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/brams_bb.v)) -$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/drams.txt)) -$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/drams_map.v)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/xc6s_cells_xtra.v)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/xc6v_cells_xtra.v)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/xc7_cells_xtra.v)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/xcu_cells_xtra.v)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/xc6s_brams.txt)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/xc6s_brams_map.v)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/xc6s_brams_bb.v)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/xc7_brams.txt)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/xc7_brams_map.v)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/xc7_brams_bb.v)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/lutrams.txt)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/lutrams_map.v)) $(eval $(call add_share_file,share/xilinx,techlibs/xilinx/arith_map.v)) -$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/lut2lut.v)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/xc6s_ff_map.v)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/xc7_ff_map.v)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/lut_map.v)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/mux_map.v)) + +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/abc_map.v)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/abc_unmap.v)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/abc_model.v)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/abc_xc7.box)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/abc_xc7.lut)) +$(eval $(call add_share_file,share/xilinx,techlibs/xilinx/abc_xc7_nowide.lut)) $(eval $(call add_gen_share_file,share/xilinx,techlibs/xilinx/brams_init_36.vh)) $(eval $(call add_gen_share_file,share/xilinx,techlibs/xilinx/brams_init_32.vh)) $(eval $(call add_gen_share_file,share/xilinx,techlibs/xilinx/brams_init_18.vh)) $(eval $(call add_gen_share_file,share/xilinx,techlibs/xilinx/brams_init_16.vh)) +$(eval $(call add_gen_share_file,share/xilinx,techlibs/xilinx/brams_init_9.vh)) +$(eval $(call add_gen_share_file,share/xilinx,techlibs/xilinx/brams_init_8.vh)) diff --git a/techlibs/xilinx/abc_map.v b/techlibs/xilinx/abc_map.v new file mode 100644 index 000000000..0c85d6656 --- /dev/null +++ b/techlibs/xilinx/abc_map.v @@ -0,0 +1,123 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * 2019 Eddie Hung <eddie@fpgeh.com> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +// ============================================================================ + +module RAM32X1D ( + output DPO, SPO, + input D, + input WCLK, + input WE, + input A0, A1, A2, A3, A4, + input DPRA0, DPRA1, DPRA2, DPRA3, DPRA4 +); + parameter INIT = 32'h0; + parameter IS_WCLK_INVERTED = 1'b0; + wire \$DPO , \$SPO ; + RAM32X1D #( + .INIT(INIT), .IS_WCLK_INVERTED(IS_WCLK_INVERTED) + ) _TECHMAP_REPLACE_ ( + .DPO(\$DPO ), .SPO(\$SPO ), + .D(D), .WCLK(WCLK), .WE(WE), + .A0(A0), .A1(A1), .A2(A2), .A3(A3), .A4(A4), + .DPRA0(DPRA0), .DPRA1(DPRA1), .DPRA2(DPRA2), .DPRA3(DPRA3), .DPRA4(DPRA4) + ); + \$__ABC_LUT6 dpo (.A(\$DPO ), .S({1'b0, A0, A1, A2, A3, A4}), .Y(DPO)); + \$__ABC_LUT6 spo (.A(\$SPO ), .S({1'b0, A0, A1, A2, A3, A4}), .Y(SPO)); +endmodule + +module RAM64X1D ( + output DPO, SPO, + input D, + input WCLK, + input WE, + input A0, A1, A2, A3, A4, A5, + input DPRA0, DPRA1, DPRA2, DPRA3, DPRA4, DPRA5 +); + parameter INIT = 64'h0; + parameter IS_WCLK_INVERTED = 1'b0; + wire \$DPO , \$SPO ; + RAM64X1D #( + .INIT(INIT), .IS_WCLK_INVERTED(IS_WCLK_INVERTED) + ) _TECHMAP_REPLACE_ ( + .DPO(\$DPO ), .SPO(\$SPO ), + .D(D), .WCLK(WCLK), .WE(WE), + .A0(A0), .A1(A1), .A2(A2), .A3(A3), .A4(A4), .A5(A5), + .DPRA0(DPRA0), .DPRA1(DPRA1), .DPRA2(DPRA2), .DPRA3(DPRA3), .DPRA4(DPRA4), .DPRA5(DPRA5) + ); + \$__ABC_LUT6 dpo (.A(\$DPO ), .S({A0, A1, A2, A3, A4, A5}), .Y(DPO)); + \$__ABC_LUT6 spo (.A(\$SPO ), .S({A0, A1, A2, A3, A4, A5}), .Y(SPO)); +endmodule + +module RAM128X1D ( + output DPO, SPO, + input D, + input WCLK, + input WE, + input [6:0] A, DPRA +); + parameter INIT = 128'h0; + parameter IS_WCLK_INVERTED = 1'b0; + wire \$DPO , \$SPO ; + RAM128X1D #( + .INIT(INIT), .IS_WCLK_INVERTED(IS_WCLK_INVERTED) + ) _TECHMAP_REPLACE_ ( + .DPO(\$DPO ), .SPO(\$SPO ), + .D(D), .WCLK(WCLK), .WE(WE), + .A(A), + .DPRA(DPRA) + ); + \$__ABC_LUT7 dpo (.A(\$DPO ), .S(A), .Y(DPO)); + \$__ABC_LUT7 spo (.A(\$SPO ), .S(A), .Y(SPO)); +endmodule + +module SRL16E ( + output Q, + input A0, A1, A2, A3, CE, CLK, D +); + parameter [15:0] INIT = 16'h0000; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + wire \$Q ; + SRL16E #( + .INIT(INIT), .IS_CLK_INVERTED(IS_CLK_INVERTED) + ) _TECHMAP_REPLACE_ ( + .Q(\$Q ), + .A0(A0), .A1(A1), .A2(A2), .A3(A3), .CE(CE), .CLK(CLK), .D(D) + ); + \$__ABC_LUT6 q (.A(\$Q ), .S({1'b1, A0, A1, A2, A3, 1'b1}), .Y(Q)); +endmodule + +module SRLC32E ( + output Q, + output Q31, + input [4:0] A, + input CE, CLK, D +); + parameter [31:0] INIT = 32'h00000000; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + wire \$Q ; + SRLC32E #( + .INIT(INIT), .IS_CLK_INVERTED(IS_CLK_INVERTED) + ) _TECHMAP_REPLACE_ ( + .Q(\$Q ), .Q31(Q31), + .A(A), .CE(CE), .CLK(CLK), .D(D) + ); + \$__ABC_LUT6 q (.A(\$Q ), .S({1'b1, A}), .Y(Q)); +endmodule diff --git a/techlibs/xilinx/abc_model.v b/techlibs/xilinx/abc_model.v new file mode 100644 index 000000000..655b993f6 --- /dev/null +++ b/techlibs/xilinx/abc_model.v @@ -0,0 +1,34 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * 2019 Eddie Hung <eddie@fpgeh.com> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +// ============================================================================ + +(* abc_box_id = 3, lib_whitebox *) +module \$__XILINX_MUXF78 (output O, input I0, I1, I2, I3, S0, S1); + assign O = S1 ? (S0 ? I3 : I2) + : (S0 ? I1 : I0); +endmodule + +(* abc_box_id=2000 *) +module \$__ABC_LUT6 (input A, input [5:0] S, output Y); +endmodule +(* abc_box_id=2001 *) +module \$__ABC_LUT7 (input A, input [6:0] S, output Y); +endmodule diff --git a/techlibs/xilinx/abc_unmap.v b/techlibs/xilinx/abc_unmap.v new file mode 100644 index 000000000..f101a22d0 --- /dev/null +++ b/techlibs/xilinx/abc_unmap.v @@ -0,0 +1,28 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * 2019 Eddie Hung <eddie@fpgeh.com> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +// ============================================================================ + +module \$__ABC_LUT6 (input A, input [5:0] S, output Y); + assign Y = A; +endmodule +module \$__ABC_LUT7 (input A, input [6:0] S, output Y); + assign Y = A; +endmodule diff --git a/techlibs/xilinx/abc_xc7.box b/techlibs/xilinx/abc_xc7.box new file mode 100644 index 000000000..20da3b8a0 --- /dev/null +++ b/techlibs/xilinx/abc_xc7.box @@ -0,0 +1,61 @@ +# Max delays from https://github.com/SymbiFlow/prjxray-db/blob/34ea6eb08a63d21ec16264ad37a0a7b142ff6031/artix7/timings/CLBLL_L.sdf +# https://github.com/SymbiFlow/prjxray-db/blob/23c8b0851f979f0799318eaca90174413a46b257/artix7/timings/slicel.sdf + +# NB: Inputs/Outputs must be ordered alphabetically +# (with exceptions for carry in/out) + +# Average across F7[AB]MUX +# Inputs: I0 I1 S0 +# Outputs: O +F7MUX 1 1 3 1 +204 208 286 + +# Inputs: I0 I1 S0 +# Outputs: O +MUXF8 2 1 3 1 +104 94 273 + +# Box containing MUXF7.[AB] + MUXF8, +# Necessary to make these an atomic unit so that +# ABC cannot optimise just one of the MUXF7 away +# and expect to save on its delay +# Inputs: I0 I1 I2 I3 S0 S1 +# Outputs: O +$__MUXF78 3 1 6 1 +294 297 311 317 390 273 + +# CARRY4 + CARRY4_[ABCD]X +# Inputs: CYINIT DI0 DI1 DI2 DI3 S0 S1 S2 S3 CI +# Outputs: O0 O1 O2 O3 CO0 CO1 CO2 CO3 +# (NB: carry chain input/output must be last +# input/output and the entire bus has been +# moved there overriding the otherwise +# alphabetical ordering) +CARRY4 4 1 10 8 +482 - - - - 223 - - - 222 +598 407 - - - 400 205 - - 334 +584 556 537 - - 523 558 226 - 239 +642 615 596 438 - 582 618 330 227 313 +536 379 - - - 340 - - - 271 +494 465 445 - - 433 469 - - 157 +592 540 520 356 - 512 548 292 - 228 +580 526 507 398 385 508 528 378 380 114 + +# SLICEM/A6LUT +# Box to emulate comb/seq behaviour of RAMD{32,64} and SRL{16,32} +# Necessary since RAMD* and SRL* have both combinatorial (i.e. +# same-cycle read operation) and sequential (write operation +# is only committed on the next clock edge). +# To model the combinatorial path, such cells have to be split +# into comb and seq parts, with this box modelling only the former. +# Inputs: A S0 S1 S2 S3 S4 S5 +# Outputs: Y +$__ABC_LUT6 2000 0 7 1 +0 642 631 472 407 238 127 + +# SLICEM/A6LUT + F7BMUX +# Box to emulate comb/seq behaviour of RAMD128 +# Inputs: A S0 S1 S2 S3 S4 S5 S6 +# Outputs: DPO SPO +$__ABC_LUT7 2001 0 8 1 +0 1047 1036 877 812 643 532 478 diff --git a/techlibs/xilinx/abc_xc7.lut b/techlibs/xilinx/abc_xc7.lut new file mode 100644 index 000000000..bcbdec127 --- /dev/null +++ b/techlibs/xilinx/abc_xc7.lut @@ -0,0 +1,15 @@ +# Max delays from https://github.com/SymbiFlow/prjxray-db/blob/82bf5f158cd8e9a11ac4d04f1aeef48ed1a528a5/artix7/timings/CLBLL_L.sdf +# and https://github.com/SymbiFlow/prjxray-db/blob/82bf5f158cd8e9a11ac4d04f1aeef48ed1a528a5/artix7/tile_type_CLBLL_L.json + +# K area delay +1 1 127 +2 2 127 238 +3 3 127 238 407 +4 3 127 238 407 472 +5 3 127 238 407 472 631 +6 5 127 238 407 472 631 642 + # (F7[AB]MUX.S + [AC]OUTMUX) / 2 +7 10 464 513 624 793 858 1017 1028 + # F8MUX.S+BOUTMUX + # F8MUX.I0+F7MUX.S+BOUTMUX +8 20 468 585 634 745 914 979 1138 1149 diff --git a/techlibs/xilinx/abc_xc7_nowide.lut b/techlibs/xilinx/abc_xc7_nowide.lut new file mode 100644 index 000000000..fab48c879 --- /dev/null +++ b/techlibs/xilinx/abc_xc7_nowide.lut @@ -0,0 +1,10 @@ +# Max delays from https://github.com/SymbiFlow/prjxray-db/blob/82bf5f158cd8e9a11ac4d04f1aeef48ed1a528a5/artix7/timings/CLBLL_L.sdf +# and https://github.com/SymbiFlow/prjxray-db/blob/82bf5f158cd8e9a11ac4d04f1aeef48ed1a528a5/artix7/tile_type_CLBLL_L.json + +# K area delay +1 1 127 +2 2 127 238 +3 3 127 238 407 +4 3 127 238 407 472 +5 3 127 238 407 472 631 +6 5 127 238 407 472 631 642 diff --git a/techlibs/xilinx/arith_map.v b/techlibs/xilinx/arith_map.v index 03719659b..5c848d4e6 100644 --- a/techlibs/xilinx/arith_map.v +++ b/techlibs/xilinx/arith_map.v @@ -17,6 +17,9 @@ * */ +// ============================================================================ +// LCU + (* techmap_celltype = "$lcu" *) module _80_xilinx_lcu (P, G, CI, CO); parameter WIDTH = 2; @@ -28,10 +31,78 @@ module _80_xilinx_lcu (P, G, CI, CO); wire _TECHMAP_FAIL_ = WIDTH <= 2; + genvar i; + +`ifdef _CLB_CARRY + + localparam CARRY4_COUNT = (WIDTH + 3) / 4; + localparam MAX_WIDTH = CARRY4_COUNT * 4; + localparam PAD_WIDTH = MAX_WIDTH - WIDTH; + + wire [MAX_WIDTH-1:0] S = {{PAD_WIDTH{1'b0}}, P & ~G}; + wire [MAX_WIDTH-1:0] C = CO; + + generate for (i = 0; i < CARRY4_COUNT; i = i + 1) begin:slice + + // Partially occupied CARRY4 + if ((i+1)*4 > WIDTH) begin + + // First one + if (i == 0) begin + CARRY4 carry4_1st_part + ( + .CYINIT(CI), + .CI (1'd0), + .DI (G [(Y_WIDTH - 1):i*4]), + .S (S [(Y_WIDTH - 1):i*4]), + .CO (CO[(Y_WIDTH - 1):i*4]), + ); + // Another one + end else begin + CARRY4 carry4_part + ( + .CYINIT(1'd0), + .CI (C [i*4 - 1]), + .DI (G [(Y_WIDTH - 1):i*4]), + .S (S [(Y_WIDTH - 1):i*4]), + .CO (CO[(Y_WIDTH - 1):i*4]), + ); + end + + // Fully occupied CARRY4 + end else begin + + // First one + if (i == 0) begin + CARRY4 carry4_1st_full + ( + .CYINIT(CI), + .CI (1'd0), + .DI (G [((i+1)*4 - 1):i*4]), + .S (S [((i+1)*4 - 1):i*4]), + .CO (CO[((i+1)*4 - 1):i*4]), + ); + // Another one + end else begin + CARRY4 carry4_full + ( + .CYINIT(1'd0), + .CI (C [i*4 - 1]), + .DI (G [((i+1)*4 - 1):i*4]), + .S (S [((i+1)*4 - 1):i*4]), + .CO (CO[((i+1)*4 - 1):i*4]), + ); + end + + end + + end endgenerate + +`elsif _EXPLICIT_CARRY + wire [WIDTH-1:0] C = {CO, CI}; wire [WIDTH-1:0] S = P & ~G; - genvar i; generate for (i = 0; i < WIDTH; i = i + 1) begin:slice MUXCY muxcy ( .CI(C[i]), @@ -40,8 +111,28 @@ module _80_xilinx_lcu (P, G, CI, CO); .O(CO[i]) ); end endgenerate + +`else + + wire [WIDTH-1:0] C = {CO, CI}; + wire [WIDTH-1:0] S = P & ~G; + + generate for (i = 0; i < WIDTH; i = i + 1) begin:slice + MUXCY muxcy ( + .CI(C[i]), + .DI(G[i]), + .S(S[i]), + .O(CO[i]) + ); + end endgenerate +`endif + endmodule + +// ============================================================================ +// ALU + (* techmap_celltype = "$alu" *) module _80_xilinx_alu (A, B, CI, BI, X, Y, CO); parameter A_SIGNED = 0; @@ -49,6 +140,8 @@ module _80_xilinx_alu (A, B, CI, BI, X, Y, CO); parameter A_WIDTH = 1; parameter B_WIDTH = 1; parameter Y_WIDTH = 1; + parameter _TECHMAP_CONSTVAL_CI_ = 0; + parameter _TECHMAP_CONSTMSK_CI_ = 0; input [A_WIDTH-1:0] A; input [B_WIDTH-1:0] B; @@ -66,16 +159,189 @@ module _80_xilinx_alu (A, B, CI, BI, X, Y, CO); wire [Y_WIDTH-1:0] AA = A_buf; wire [Y_WIDTH-1:0] BB = BI ? ~B_buf : B_buf; - wire [Y_WIDTH-1:0] P = AA ^ BB; - wire [Y_WIDTH-1:0] G = AA & BB; - wire [Y_WIDTH-1:0] C = {CO, CI}; - wire [Y_WIDTH-1:0] S = P & ~G; + genvar i; + +`ifdef _CLB_CARRY + + localparam CARRY4_COUNT = (Y_WIDTH + 3) / 4; + localparam MAX_WIDTH = CARRY4_COUNT * 4; + localparam PAD_WIDTH = MAX_WIDTH - Y_WIDTH; + + wire [MAX_WIDTH-1:0] S = {{PAD_WIDTH{1'b0}}, AA ^ BB}; + wire [MAX_WIDTH-1:0] DI = {{PAD_WIDTH{1'b0}}, AA & BB}; + + wire [MAX_WIDTH-1:0] C = CO; genvar i; + generate for (i = 0; i < CARRY4_COUNT; i = i + 1) begin:slice + + // Partially occupied CARRY4 + if ((i+1)*4 > Y_WIDTH) begin + + // First one + if (i == 0) begin + CARRY4 carry4_1st_part + ( + .CYINIT(CI), + .CI (1'd0), + .DI (DI[(Y_WIDTH - 1):i*4]), + .S (S [(Y_WIDTH - 1):i*4]), + .O (Y [(Y_WIDTH - 1):i*4]), + .CO (CO[(Y_WIDTH - 1):i*4]) + ); + // Another one + end else begin + CARRY4 carry4_part + ( + .CYINIT(1'd0), + .CI (C [i*4 - 1]), + .DI (DI[(Y_WIDTH - 1):i*4]), + .S (S [(Y_WIDTH - 1):i*4]), + .O (Y [(Y_WIDTH - 1):i*4]), + .CO (CO[(Y_WIDTH - 1):i*4]) + ); + end + + // Fully occupied CARRY4 + end else begin + + // First one + if (i == 0) begin + CARRY4 carry4_1st_full + ( + .CYINIT(CI), + .CI (1'd0), + .DI (DI[((i+1)*4 - 1):i*4]), + .S (S [((i+1)*4 - 1):i*4]), + .O (Y [((i+1)*4 - 1):i*4]), + .CO (CO[((i+1)*4 - 1):i*4]) + ); + // Another one + end else begin + CARRY4 carry4_full + ( + .CYINIT(1'd0), + .CI (C [i*4 - 1]), + .DI (DI[((i+1)*4 - 1):i*4]), + .S (S [((i+1)*4 - 1):i*4]), + .O (Y [((i+1)*4 - 1):i*4]), + .CO (CO[((i+1)*4 - 1):i*4]) + ); + end + + end + + end endgenerate + +`elsif _EXPLICIT_CARRY + + wire [Y_WIDTH-1:0] S = AA ^ BB; + wire [Y_WIDTH-1:0] DI = AA & BB; + + wire CINIT; + // Carry chain. + // + // VPR requires that the carry chain never hit the fabric. The CO input + // to this techmap is the carry outputs for synthesis, e.g. might hit the + // fabric. + // + // So we maintain two wire sets, CO_CHAIN is the carry that is for VPR, + // e.g. off fabric dedicated chain. CO is the carry outputs that are + // available to the fabric. + wire [Y_WIDTH-1:0] CO_CHAIN; + wire [Y_WIDTH-1:0] C = {CO_CHAIN, CINIT}; + + // If carry chain is being initialized to a constant, techmap the constant + // source. Otherwise techmap the fabric source. + generate for (i = 0; i < 1; i = i + 1) begin:slice + CARRY0 #(.CYINIT_FABRIC(1)) carry( + .CI_INIT(CI), + .DI(DI[0]), + .S(S[0]), + .CO_CHAIN(CO_CHAIN[0]), + .CO_FABRIC(CO[0]), + .O(Y[0]) + ); + end endgenerate + + generate for (i = 1; i < Y_WIDTH-1; i = i + 1) begin:slice + if(i % 4 == 0) begin + CARRY0 carry ( + .CI(C[i]), + .DI(DI[i]), + .S(S[i]), + .CO_CHAIN(CO_CHAIN[i]), + .CO_FABRIC(CO[i]), + .O(Y[i]) + ); + end + else + begin + CARRY carry ( + .CI(C[i]), + .DI(DI[i]), + .S(S[i]), + .CO_CHAIN(CO_CHAIN[i]), + .CO_FABRIC(CO[i]), + .O(Y[i]) + ); + end + end endgenerate + + generate for (i = Y_WIDTH-1; i < Y_WIDTH; i = i + 1) begin:slice + if(i % 4 == 0) begin + CARRY0 top_of_carry ( + .CI(C[i]), + .DI(DI[i]), + .S(S[i]), + .CO_CHAIN(CO_CHAIN[i]), + .O(Y[i]) + ); + end + else + begin + CARRY top_of_carry ( + .CI(C[i]), + .DI(DI[i]), + .S(S[i]), + .CO_CHAIN(CO_CHAIN[i]), + .O(Y[i]) + ); + end + // Turns out CO_FABRIC and O both use [ABCD]MUX, so provide + // a non-congested path to output the top of the carry chain. + // Registering the output of the CARRY block would solve this, but not + // all designs do that. + if((i+1) % 4 == 0) begin + CARRY0 carry_output ( + .CI(CO_CHAIN[i]), + .DI(0), + .S(0), + .O(CO[i]) + ); + end + else + begin + CARRY carry_output ( + .CI(CO_CHAIN[i]), + .DI(0), + .S(0), + .O(CO[i]) + ); + end + end endgenerate + +`else + + wire [Y_WIDTH-1:0] S = AA ^ BB; + wire [Y_WIDTH-1:0] DI = AA & BB; + + wire [Y_WIDTH-1:0] C = {CO, CI}; + generate for (i = 0; i < Y_WIDTH; i = i + 1) begin:slice MUXCY muxcy ( .CI(C[i]), - .DI(G[i]), + .DI(DI[i]), .S(S[i]), .O(CO[i]) ); @@ -86,6 +352,8 @@ module _80_xilinx_alu (A, B, CI, BI, X, Y, CO); ); end endgenerate - assign X = P; +`endif + + assign X = S; endmodule diff --git a/techlibs/xilinx/brams_init.py b/techlibs/xilinx/brams_init.py index d46a2b4f7..10057a0cb 100644 --- a/techlibs/xilinx/brams_init.py +++ b/techlibs/xilinx/brams_init.py @@ -1,5 +1,17 @@ #!/usr/bin/env python3 +with open("techlibs/xilinx/brams_init_9.vh", "w") as f: + for i in range(4): + init_snippets = [" INIT[%3d*9+8]" % (k+256*i,) for k in range(255, -1, -1)] + for k in range(4, 256, 4): + init_snippets[k] = "\n " + init_snippets[k] + print(".INITP_%02X({%s})," % (i, ",".join(init_snippets)), file=f) + for i in range(32): + init_snippets = [" INIT[%3d*9 +: 8]" % (k+32*i,) for k in range(31, -1, -1)] + for k in range(4, 32, 4): + init_snippets[k] = "\n " + init_snippets[k] + print(".INIT_%02X({%s})," % (i, ",".join(init_snippets)), file=f) + with open("techlibs/xilinx/brams_init_18.vh", "w") as f: for i in range(8): init_snippets = [" INIT[%3d*9+8]" % (k+256*i,) for k in range(255, -1, -1)] @@ -24,6 +36,10 @@ with open("techlibs/xilinx/brams_init_36.vh", "w") as f: init_snippets[k] = "\n " + init_snippets[k] print(".INIT_%02X({%s})," % (i, ",".join(init_snippets)), file=f) +with open("techlibs/xilinx/brams_init_8.vh", "w") as f: + for i in range(32): + print(".INIT_%02X(INIT[%3d*256 +: 256])," % (i, i), file=f) + with open("techlibs/xilinx/brams_init_16.vh", "w") as f: for i in range(64): print(".INIT_%02X(INIT[%3d*256 +: 256])," % (i, i), file=f) diff --git a/techlibs/xilinx/cells_map.v b/techlibs/xilinx/cells_map.v index 0771be0b9..a15884ec4 100644 --- a/techlibs/xilinx/cells_map.v +++ b/techlibs/xilinx/cells_map.v @@ -1,86 +1,365 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * 2019 Eddie Hung <eddie@fpgeh.com> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ -module \$_DFF_N_ (input D, C, output Q); FDRE #(.INIT(|0), .IS_C_INVERTED(|1), .IS_D_INVERTED(|0), .IS_R_INVERTED(|0)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .R(1'b0)); endmodule -module \$_DFF_P_ (input D, C, output Q); FDRE #(.INIT(|0), .IS_C_INVERTED(|0), .IS_D_INVERTED(|0), .IS_R_INVERTED(|0)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .R(1'b0)); endmodule +// Convert negative-polarity reset to positive-polarity +(* techmap_celltype = "$_DFF_NN0_" *) +module _90_dff_nn0_to_np0 (input D, C, R, output Q); \$_DFF_NP0_ _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .R(~R)); endmodule +(* techmap_celltype = "$_DFF_PN0_" *) +module _90_dff_pn0_to_pp0 (input D, C, R, output Q); \$_DFF_PP0_ _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .R(~R)); endmodule +(* techmap_celltype = "$_DFF_NN1_" *) +module _90_dff_nn1_to_np1 (input D, C, R, output Q); \$_DFF_NP1_ _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .R(~R)); endmodule +(* techmap_celltype = "$_DFF_PN1_" *) +module _90_dff_pn1_to_pp1 (input D, C, R, output Q); \$_DFF_PP1_ _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .R(~R)); endmodule -module \$_DFFE_NP_ (input D, C, E, output Q); FDRE #(.INIT(|0), .IS_C_INVERTED(|1), .IS_D_INVERTED(|0), .IS_R_INVERTED(|0)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(E), .R(1'b0)); endmodule -module \$_DFFE_PP_ (input D, C, E, output Q); FDRE #(.INIT(|0), .IS_C_INVERTED(|0), .IS_D_INVERTED(|0), .IS_R_INVERTED(|0)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(E), .R(1'b0)); endmodule +module \$__SHREG_ (input C, input D, input E, output Q); + parameter DEPTH = 0; + parameter [DEPTH-1:0] INIT = 0; + parameter CLKPOL = 1; + parameter ENPOL = 2; -module \$_DFF_NN0_ (input D, C, R, output Q); FDCE #(.INIT(|0), .IS_C_INVERTED(|1), .IS_D_INVERTED(|0), .IS_CLR_INVERTED(|1)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .CLR(R)); endmodule -module \$_DFF_NP0_ (input D, C, R, output Q); FDCE #(.INIT(|0), .IS_C_INVERTED(|1), .IS_D_INVERTED(|0), .IS_CLR_INVERTED(|0)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .CLR(R)); endmodule -module \$_DFF_PN0_ (input D, C, R, output Q); FDCE #(.INIT(|0), .IS_C_INVERTED(|0), .IS_D_INVERTED(|0), .IS_CLR_INVERTED(|1)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .CLR(R)); endmodule -module \$_DFF_PP0_ (input D, C, R, output Q); FDCE #(.INIT(|0), .IS_C_INVERTED(|0), .IS_D_INVERTED(|0), .IS_CLR_INVERTED(|0)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .CLR(R)); endmodule + \$__XILINX_SHREG_ #(.DEPTH(DEPTH), .INIT(INIT), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) _TECHMAP_REPLACE_ (.C(C), .D(D), .L(DEPTH-1), .E(E), .Q(Q)); +endmodule -module \$_DFF_NN1_ (input D, C, R, output Q); FDPE #(.INIT(|0), .IS_C_INVERTED(|1), .IS_D_INVERTED(|0), .IS_PRE_INVERTED(|1)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .PRE(R)); endmodule -module \$_DFF_NP1_ (input D, C, R, output Q); FDPE #(.INIT(|0), .IS_C_INVERTED(|1), .IS_D_INVERTED(|0), .IS_PRE_INVERTED(|0)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .PRE(R)); endmodule -module \$_DFF_PN1_ (input D, C, R, output Q); FDPE #(.INIT(|0), .IS_C_INVERTED(|0), .IS_D_INVERTED(|0), .IS_PRE_INVERTED(|1)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .PRE(R)); endmodule -module \$_DFF_PP1_ (input D, C, R, output Q); FDPE #(.INIT(|0), .IS_C_INVERTED(|0), .IS_D_INVERTED(|0), .IS_PRE_INVERTED(|0)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .PRE(R)); endmodule +module \$__XILINX_SHREG_ (input C, input D, input [31:0] L, input E, output Q, output SO); + parameter DEPTH = 0; + parameter [DEPTH-1:0] INIT = 0; + parameter CLKPOL = 1; + parameter ENPOL = 2; -`ifndef NO_LUT -module \$lut (A, Y); - parameter WIDTH = 0; - parameter LUT = 0; + // shregmap's INIT parameter shifts out LSB first; + // however Xilinx expects MSB first + function [DEPTH-1:0] brev; + input [DEPTH-1:0] din; + integer i; + begin + for (i = 0; i < DEPTH; i=i+1) + brev[i] = din[DEPTH-1-i]; + end + endfunction + localparam [DEPTH-1:0] INIT_R = brev(INIT); - input [WIDTH-1:0] A; - output Y; + parameter _TECHMAP_CONSTMSK_L_ = 0; + wire CE; generate - if (WIDTH == 1) begin - LUT1 #(.INIT(LUT)) _TECHMAP_REPLACE_ (.O(Y), - .I0(A[0])); + if (ENPOL == 0) + assign CE = ~E; + else if (ENPOL == 1) + assign CE = E; + else + assign CE = 1'b1; + if (DEPTH == 1) begin + if (CLKPOL) + FDRE #(.INIT(INIT_R)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(CE), .R(1'b0)); + else + FDRE_1 #(.INIT(INIT_R)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(CE), .R(1'b0)); end else - if (WIDTH == 2) begin - LUT2 #(.INIT(LUT)) _TECHMAP_REPLACE_ (.O(Y), - .I0(A[0]), .I1(A[1])); + if (DEPTH <= 16) begin + SRL16E #(.INIT(INIT_R), .IS_CLK_INVERTED(~CLKPOL[0])) _TECHMAP_REPLACE_ (.A0(L[0]), .A1(L[1]), .A2(L[2]), .A3(L[3]), .CE(CE), .CLK(C), .D(D), .Q(Q)); end else - if (WIDTH == 3) begin - LUT3 #(.INIT(LUT)) _TECHMAP_REPLACE_ (.O(Y), - .I0(A[0]), .I1(A[1]), .I2(A[2])); + if (DEPTH > 17 && DEPTH <= 32) begin + SRLC32E #(.INIT(INIT_R), .IS_CLK_INVERTED(~CLKPOL[0])) _TECHMAP_REPLACE_ (.A(L[4:0]), .CE(CE), .CLK(C), .D(D), .Q(Q)); end else - if (WIDTH == 4) begin - LUT4 #(.INIT(LUT)) _TECHMAP_REPLACE_ (.O(Y), - .I0(A[0]), .I1(A[1]), .I2(A[2]), - .I3(A[3])); + if (DEPTH > 33 && DEPTH <= 64) begin + wire T0, T1, T2; + SRLC32E #(.INIT(INIT_R[32-1:0]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_0 (.A(L[4:0]), .CE(CE), .CLK(C), .D(D), .Q(T0), .Q31(T1)); + \$__XILINX_SHREG_ #(.DEPTH(DEPTH-32), .INIT(INIT[DEPTH-32-1:0]), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) fpga_srl_1 (.C(C), .D(T1), .L(L), .E(E), .Q(T2)); + if (&_TECHMAP_CONSTMSK_L_) + assign Q = T2; + else + MUXF7 fpga_mux_0 (.O(Q), .I0(T0), .I1(T2), .S(L[5])); end else - if (WIDTH == 5) begin - LUT5 #(.INIT(LUT)) _TECHMAP_REPLACE_ (.O(Y), - .I0(A[0]), .I1(A[1]), .I2(A[2]), - .I3(A[3]), .I4(A[4])); + if (DEPTH > 65 && DEPTH <= 96) begin + wire T0, T1, T2, T3, T4, T5, T6; + SRLC32E #(.INIT(INIT_R[32-1: 0]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_0 (.A(L[4:0]), .CE(CE), .CLK(C), .D( D), .Q(T0), .Q31(T1)); + SRLC32E #(.INIT(INIT_R[64-1:32]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_1 (.A(L[4:0]), .CE(CE), .CLK(C), .D(T1), .Q(T2), .Q31(T3)); + \$__XILINX_SHREG_ #(.DEPTH(DEPTH-64), .INIT(INIT[DEPTH-64-1:0]), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) fpga_srl_2 (.C(C), .D(T3), .L(L[4:0]), .E(E), .Q(T4)); + if (&_TECHMAP_CONSTMSK_L_) + assign Q = T4; + else + \$__XILINX_MUXF78 fpga_hard_mux (.I0(T0), .I1(T2), .I2(T4), .I3(1'bx), .S0(L[5]), .S1(L[6]), .O(Q)); end else - if (WIDTH == 6) begin - LUT6 #(.INIT(LUT)) _TECHMAP_REPLACE_ (.O(Y), - .I0(A[0]), .I1(A[1]), .I2(A[2]), - .I3(A[3]), .I4(A[4]), .I5(A[5])); - end else - if (WIDTH == 7) begin - wire T0, T1; - LUT6 #(.INIT(LUT[63:0])) fpga_lut_0 (.O(T0), - .I0(A[0]), .I1(A[1]), .I2(A[2]), - .I3(A[3]), .I4(A[4]), .I5(A[5])); - LUT6 #(.INIT(LUT[127:64])) fpga_lut_1 (.O(T1), - .I0(A[0]), .I1(A[1]), .I2(A[2]), - .I3(A[3]), .I4(A[4]), .I5(A[5])); - MUXF7 fpga_mux_0 (.O(Y), .I0(T0), .I1(T1), .S(A[6])); - end else - if (WIDTH == 8) begin - wire T0, T1, T2, T3, T4, T5; - LUT6 #(.INIT(LUT[63:0])) fpga_lut_0 (.O(T0), - .I0(A[0]), .I1(A[1]), .I2(A[2]), - .I3(A[3]), .I4(A[4]), .I5(A[5])); - LUT6 #(.INIT(LUT[127:64])) fpga_lut_1 (.O(T1), - .I0(A[0]), .I1(A[1]), .I2(A[2]), - .I3(A[3]), .I4(A[4]), .I5(A[5])); - LUT6 #(.INIT(LUT[191:128])) fpga_lut_2 (.O(T2), - .I0(A[0]), .I1(A[1]), .I2(A[2]), - .I3(A[3]), .I4(A[4]), .I5(A[5])); - LUT6 #(.INIT(LUT[255:192])) fpga_lut_3 (.O(T3), - .I0(A[0]), .I1(A[1]), .I2(A[2]), - .I3(A[3]), .I4(A[4]), .I5(A[5])); - MUXF7 fpga_mux_0 (.O(T4), .I0(T0), .I1(T1), .S(A[6])); - MUXF7 fpga_mux_1 (.O(T5), .I0(T2), .I1(T3), .S(A[6])); - MUXF8 fpga_mux_2 (.O(Y), .I0(T4), .I1(T5), .S(A[7])); - end else begin + if (DEPTH > 97 && DEPTH < 128) begin + wire T0, T1, T2, T3, T4, T5, T6, T7, T8; + SRLC32E #(.INIT(INIT_R[32-1: 0]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_0 (.A(L[4:0]), .CE(CE), .CLK(C), .D( D), .Q(T0), .Q31(T1)); + SRLC32E #(.INIT(INIT_R[64-1:32]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_1 (.A(L[4:0]), .CE(CE), .CLK(C), .D(T1), .Q(T2), .Q31(T3)); + SRLC32E #(.INIT(INIT_R[96-1:64]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_2 (.A(L[4:0]), .CE(CE), .CLK(C), .D(T3), .Q(T4), .Q31(T5)); + \$__XILINX_SHREG_ #(.DEPTH(DEPTH-96), .INIT(INIT[DEPTH-96-1:0]), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) fpga_srl_3 (.C(C), .D(T5), .L(L[4:0]), .E(E), .Q(T6)); + if (&_TECHMAP_CONSTMSK_L_) + assign Q = T6; + else + \$__XILINX_MUXF78 fpga_hard_mux (.I0(T0), .I1(T2), .I2(T4), .I3(T6), .S0(L[5]), .S1(L[6]), .O(Q)); + end + else if (DEPTH == 128) begin + wire T0, T1, T2, T3, T4, T5, T6; + SRLC32E #(.INIT(INIT_R[ 32-1: 0]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_0 (.A(L[4:0]), .CE(CE), .CLK(C), .D( D), .Q(T0), .Q31(T1)); + SRLC32E #(.INIT(INIT_R[ 64-1:32]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_1 (.A(L[4:0]), .CE(CE), .CLK(C), .D(T1), .Q(T2), .Q31(T3)); + SRLC32E #(.INIT(INIT_R[ 96-1:64]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_2 (.A(L[4:0]), .CE(CE), .CLK(C), .D(T3), .Q(T4), .Q31(T5)); + SRLC32E #(.INIT(INIT_R[128-1:96]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_3 (.A(L[4:0]), .CE(CE), .CLK(C), .D(T5), .Q(T6), .Q31(SO)); + if (&_TECHMAP_CONSTMSK_L_) + assign Q = T6; + else + \$__XILINX_MUXF78 fpga_hard_mux (.I0(T0), .I1(T2), .I2(T4), .I3(T6), .S0(L[5]), .S1(L[6]), .O(Q)); + end + // For fixed length, if just 1 over a convenient value, decompose + else if (DEPTH <= 129 && &_TECHMAP_CONSTMSK_L_) begin + wire T; + \$__XILINX_SHREG_ #(.DEPTH(DEPTH-1), .INIT(INIT[DEPTH-1:1]), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) fpga_srl (.C(C), .D(D), .L({32{1'b1}}), .E(E), .Q(T)); + \$__XILINX_SHREG_ #(.DEPTH(1), .INIT(INIT[0]), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) fpga_srl_last (.C(C), .D(T), .L(L), .E(E), .Q(Q)); + end + // For variable length, if just 1 over a convenient value, then bump up one more + else if (DEPTH < 129 && ~&_TECHMAP_CONSTMSK_L_) + \$__XILINX_SHREG_ #(.DEPTH(DEPTH+1), .INIT({INIT,1'b0}), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) _TECHMAP_REPLACE_ (.C(C), .D(D), .L(L), .E(E), .Q(Q)); + else begin + localparam depth0 = 128; + localparam num_srl128 = DEPTH / depth0; + localparam depthN = DEPTH % depth0; + wire [num_srl128 + (depthN > 0 ? 1 : 0) - 1:0] T; + wire [num_srl128 + (depthN > 0 ? 1 : 0) :0] S; + assign S[0] = D; + genvar i; + for (i = 0; i < num_srl128; i++) + \$__XILINX_SHREG_ #(.DEPTH(depth0), .INIT(INIT[DEPTH-1-i*depth0-:depth0]), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) fpga_srl (.C(C), .D(S[i]), .L(L[$clog2(depth0)-1:0]), .E(E), .Q(T[i]), .SO(S[i+1])); + + if (depthN > 0) + \$__XILINX_SHREG_ #(.DEPTH(depthN), .INIT(INIT[depthN-1:0]), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) fpga_srl_last (.C(C), .D(S[num_srl128]), .L(L[$clog2(depth0)-1:0]), .E(E), .Q(T[num_srl128])); + + if (&_TECHMAP_CONSTMSK_L_) + assign Q = T[num_srl128 + (depthN > 0 ? 1 : 0) - 1]; + else + assign Q = T[L[DEPTH-1:$clog2(depth0)]]; + end + endgenerate +endmodule + +`ifdef MIN_MUX_INPUTS +module \$__XILINX_SHIFTX (A, B, Y); + parameter A_SIGNED = 0; + parameter B_SIGNED = 0; + parameter A_WIDTH = 1; + parameter B_WIDTH = 1; + parameter Y_WIDTH = 1; + + input [A_WIDTH-1:0] A; + input [B_WIDTH-1:0] B; + output [Y_WIDTH-1:0] Y; + + parameter [A_WIDTH-1:0] _TECHMAP_CONSTMSK_A_ = 0; + parameter [A_WIDTH-1:0] _TECHMAP_CONSTVAL_A_ = 0; + parameter [B_WIDTH-1:0] _TECHMAP_CONSTMSK_B_ = 0; + parameter [B_WIDTH-1:0] _TECHMAP_CONSTVAL_B_ = 0; + + function integer A_WIDTH_trimmed; + input integer start; + begin + A_WIDTH_trimmed = start; + while (A_WIDTH_trimmed > 0 && _TECHMAP_CONSTMSK_A_[A_WIDTH_trimmed-1] && _TECHMAP_CONSTVAL_A_[A_WIDTH_trimmed-1] === 1'bx) + A_WIDTH_trimmed = A_WIDTH_trimmed - 1; + end + endfunction + + generate + genvar i, j; + // Bit-blast + if (Y_WIDTH > 1) begin + for (i = 0; i < Y_WIDTH; i++) + \$__XILINX_SHIFTX #(.A_SIGNED(A_SIGNED), .B_SIGNED(B_SIGNED), .A_WIDTH(A_WIDTH-Y_WIDTH+1), .B_WIDTH(B_WIDTH), .Y_WIDTH(1'd1)) bitblast (.A(A[A_WIDTH-Y_WIDTH+i:i]), .B(B), .Y(Y[i])); + end + // If the LSB of B is constant zero (and Y_WIDTH is 1) then + // we can optimise by removing every other entry from A + // and popping the constant zero from B + else if (_TECHMAP_CONSTMSK_B_[0] && !_TECHMAP_CONSTVAL_B_[0]) begin + wire [(A_WIDTH+1)/2-1:0] A_i; + for (i = 0; i < (A_WIDTH+1)/2; i++) + assign A_i[i] = A[i*2]; + \$__XILINX_SHIFTX #(.A_SIGNED(A_SIGNED), .B_SIGNED(B_SIGNED), .A_WIDTH((A_WIDTH+1'd1)/2'd2), .B_WIDTH(B_WIDTH-1'd1), .Y_WIDTH(Y_WIDTH)) _TECHMAP_REPLACE_ (.A(A_i), .B(B[B_WIDTH-1:1]), .Y(Y)); + end + // Trim off any leading 1'bx -es in A + else if (_TECHMAP_CONSTMSK_A_[A_WIDTH-1] && _TECHMAP_CONSTVAL_A_[A_WIDTH-1] === 1'bx) begin + localparam A_WIDTH_new = A_WIDTH_trimmed(A_WIDTH-1); + \$__XILINX_SHIFTX #(.A_SIGNED(A_SIGNED), .B_SIGNED(B_SIGNED), .A_WIDTH(A_WIDTH_new), .B_WIDTH(B_WIDTH), .Y_WIDTH(Y_WIDTH)) _TECHMAP_REPLACE_ (.A(A[A_WIDTH_new-1:0]), .B(B), .Y(Y)); + end + else if (A_WIDTH < `MIN_MUX_INPUTS) begin wire _TECHMAP_FAIL_ = 1; end + else if (A_WIDTH == 2) begin + MUXF7 fpga_hard_mux (.I0(A[0]), .I1(A[1]), .S(B[0]), .O(Y)); + end + else if (A_WIDTH <= 4) begin + wire [4-1:0] Ax; + if (A_WIDTH == 4) + assign Ax = A; + else + // Rather than extend with 1'bx which gets flattened to 1'b0 + // causing the "don't care" status to get lost, extend with + // the same driver of F7B.I0 so that we can optimise F7B away + // later + assign Ax = {A[1], A}; + \$__XILINX_MUXF78 fpga_hard_mux (.I0(Ax[0]), .I1(Ax[2]), .I2(Ax[1]), .I3(Ax[3]), .S0(B[1]), .S1(B[0]), .O(Y)); + end + // Note that the following decompositions are 'backwards' in that + // the LSBs are placed on the hard resources, and the soft resources + // are used for MSBs. + // This has the effect of more effectively utilising the hard mux; + // take for example a 5:1 multiplexer, currently this would map as: + // + // A[0] \___ __ A[0] \__ __ + // A[4] / \| \ whereas the more A[1] / \| \ + // A[1] _____| | obvious mapping A[2] \___| | + // A[2] _____| |-- of MSBs to hard A[3] / | |__ + // A[3]______| | resources would A[4] ____| | + // |__/ lead to: 1'bx ____| | + // || |__/ + // || || + // B[1:0] B[1:2] + // + // Expectation would be that the 'forward' mapping (right) is more + // area efficient (consider a 9:1 multiplexer using 2x4:1 multiplexers + // on its I0 and I1 inputs, and A[8] and 1'bx on its I2 and I3 inputs) + // but that the 'backwards' mapping (left) is more delay efficient + // since smaller LUTs are faster than wider ones. + else if (A_WIDTH <= 8) begin + wire [8-1:0] Ax = {{{8-A_WIDTH}{1'bx}}, A}; + wire T0 = B[2] ? Ax[4] : Ax[0]; + wire T1 = B[2] ? Ax[5] : Ax[1]; + wire T2 = B[2] ? Ax[6] : Ax[2]; + wire T3 = B[2] ? Ax[7] : Ax[3]; + \$__XILINX_MUXF78 fpga_hard_mux (.I0(T0), .I1(T2), .I2(T1), .I3(T3), .S0(B[1]), .S1(B[0]), .O(Y)); + end + else if (A_WIDTH <= 16) begin + wire [16-1:0] Ax = {{{16-A_WIDTH}{1'bx}}, A}; + wire T0 = B[2] ? B[3] ? Ax[12] : Ax[4] + : B[3] ? Ax[ 8] : Ax[0]; + wire T1 = B[2] ? B[3] ? Ax[13] : Ax[5] + : B[3] ? Ax[ 9] : Ax[1]; + wire T2 = B[2] ? B[3] ? Ax[14] : Ax[6] + : B[3] ? Ax[10] : Ax[2]; + wire T3 = B[2] ? B[3] ? Ax[15] : Ax[7] + : B[3] ? Ax[11] : Ax[3]; + \$__XILINX_MUXF78 fpga_hard_mux (.I0(T0), .I1(T2), .I2(T1), .I3(T3), .S0(B[1]), .S1(B[0]), .O(Y)); + end + else begin + localparam num_mux16 = (A_WIDTH+15) / 16; + localparam clog2_num_mux16 = $clog2(num_mux16); + wire [num_mux16-1:0] T; + wire [num_mux16*16-1:0] Ax = {{(num_mux16*16-A_WIDTH){1'bx}}, A}; + for (i = 0; i < num_mux16; i++) + \$__XILINX_SHIFTX #( + .A_SIGNED(A_SIGNED), + .B_SIGNED(B_SIGNED), + .A_WIDTH(16), + .B_WIDTH(4), + .Y_WIDTH(Y_WIDTH) + ) fpga_mux ( + .A(Ax[i*16+:16]), + .B(B[3:0]), + .Y(T[i]) + ); + \$__XILINX_SHIFTX #( + .A_SIGNED(A_SIGNED), + .B_SIGNED(B_SIGNED), + .A_WIDTH(num_mux16), + .B_WIDTH(clog2_num_mux16), + .Y_WIDTH(Y_WIDTH) + ) _TECHMAP_REPLACE_ ( + .A(T), + .B(B[B_WIDTH-1-:clog2_num_mux16]), + .Y(Y)); + end + endgenerate +endmodule + +(* techmap_celltype = "$__XILINX_SHIFTX" *) +module _90__XILINX_SHIFTX (A, B, Y); + parameter A_SIGNED = 0; + parameter B_SIGNED = 0; + parameter A_WIDTH = 1; + parameter B_WIDTH = 1; + parameter Y_WIDTH = 1; + + input [A_WIDTH-1:0] A; + input [B_WIDTH-1:0] B; + output [Y_WIDTH-1:0] Y; + + \$shiftx #(.A_SIGNED(A_SIGNED), .B_SIGNED(B_SIGNED), .A_WIDTH(A_WIDTH), .B_WIDTH(B_WIDTH), .Y_WIDTH(Y_WIDTH)) _TECHMAP_REPLACE_ (.A(A), .B(B), .Y(Y)); +endmodule + +module \$_MUX_ (A, B, S, Y); + input A, B, S; + output Y; + generate + if (`MIN_MUX_INPUTS == 2) + \$__XILINX_SHIFTX #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(2), .B_WIDTH(1), .Y_WIDTH(1)) _TECHMAP_REPLACE_ (.A({B,A}), .B(S), .Y(Y)); + else + wire _TECHMAP_FAIL_ = 1; endgenerate endmodule + +module \$_MUX4_ (A, B, C, D, S, T, Y); + input A, B, C, D, S, T; + output Y; + \$__XILINX_SHIFTX #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(4), .B_WIDTH(2), .Y_WIDTH(1)) _TECHMAP_REPLACE_ (.A({D,C,B,A}), .B({T,S}), .Y(Y)); +endmodule + +module \$_MUX8_ (A, B, C, D, E, F, G, H, S, T, U, Y); + input A, B, C, D, E, F, G, H, S, T, U; + output Y; + \$__XILINX_SHIFTX #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(8), .B_WIDTH(3), .Y_WIDTH(1)) _TECHMAP_REPLACE_ (.A({H,G,F,E,D,C,B,A}), .B({U,T,S}), .Y(Y)); +endmodule + +module \$_MUX16_ (A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, S, T, U, V, Y); + input A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, S, T, U, V; + output Y; + \$__XILINX_SHIFTX #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(16), .B_WIDTH(4), .Y_WIDTH(1)) _TECHMAP_REPLACE_ (.A({P,O,N,M,L,K,J,I,H,G,F,E,D,C,B,A}), .B({V,U,T,S}), .Y(Y)); +endmodule `endif + +module \$__XILINX_MUXF78 (O, I0, I1, I2, I3, S0, S1); + output O; + input I0, I1, I2, I3, S0, S1; + wire T0, T1; + parameter _TECHMAP_BITS_CONNMAP_ = 0; + parameter [_TECHMAP_BITS_CONNMAP_-1:0] _TECHMAP_CONNMAP_I0_ = 0; + parameter [_TECHMAP_BITS_CONNMAP_-1:0] _TECHMAP_CONNMAP_I1_ = 0; + parameter [_TECHMAP_BITS_CONNMAP_-1:0] _TECHMAP_CONNMAP_I2_ = 0; + parameter [_TECHMAP_BITS_CONNMAP_-1:0] _TECHMAP_CONNMAP_I3_ = 0; + parameter _TECHMAP_CONSTMSK_S0_ = 0; + parameter _TECHMAP_CONSTVAL_S0_ = 0; + parameter _TECHMAP_CONSTMSK_S1_ = 0; + parameter _TECHMAP_CONSTVAL_S1_ = 0; + if (_TECHMAP_CONSTMSK_S0_ && _TECHMAP_CONSTVAL_S0_ === 1'b1) + assign T0 = I1; + else if (_TECHMAP_CONSTMSK_S0_ || _TECHMAP_CONNMAP_I0_ === _TECHMAP_CONNMAP_I1_) + assign T0 = I0; + else + MUXF7 mux7a (.I0(I0), .I1(I1), .S(S0), .O(T0)); + if (_TECHMAP_CONSTMSK_S0_ && _TECHMAP_CONSTVAL_S0_ === 1'b1) + assign T1 = I3; + else if (_TECHMAP_CONSTMSK_S0_ || _TECHMAP_CONNMAP_I2_ === _TECHMAP_CONNMAP_I3_) + assign T1 = I2; + else + MUXF7 mux7b (.I0(I2), .I1(I3), .S(S0), .O(T1)); + if (_TECHMAP_CONSTMSK_S1_ && _TECHMAP_CONSTVAL_S1_ === 1'b1) + assign O = T1; + else if (_TECHMAP_CONSTMSK_S1_ || (_TECHMAP_CONNMAP_I0_ === _TECHMAP_CONNMAP_I1_ && _TECHMAP_CONNMAP_I1_ === _TECHMAP_CONNMAP_I2_ && _TECHMAP_CONNMAP_I2_ === _TECHMAP_CONNMAP_I3_)) + assign O = T0; + else + MUXF8 mux8 (.I0(T0), .I1(T1), .S(S1), .O(O)); +endmodule diff --git a/techlibs/xilinx/cells_sim.v b/techlibs/xilinx/cells_sim.v index eba17ac9c..ef4340d10 100644 --- a/techlibs/xilinx/cells_sim.v +++ b/techlibs/xilinx/cells_sim.v @@ -1,3 +1,21 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ // See Xilinx UG953 and UG474 for a description of the cell types below. // http://www.xilinx.com/support/documentation/user_guides/ug474_7Series_CLB.pdf @@ -11,18 +29,84 @@ module GND(output G); assign G = 0; endmodule -module IBUF(output O, input I); +module IBUF( + output O, + (* iopad_external_pin *) + input I); + parameter IOSTANDARD = "default"; + parameter IBUF_LOW_PWR = 0; assign O = I; endmodule -module OBUF(output O, input I); +module OBUF( + (* iopad_external_pin *) + output O, + input I); + parameter IOSTANDARD = "default"; + parameter DRIVE = 12; + parameter SLEW = "SLOW"; assign O = I; endmodule -module BUFG(output O, input I); +module BUFG( + (* clkbuf_driver *) + output O, + input I); + assign O = I; endmodule +module BUFGCTRL( + (* clkbuf_driver *) + output O, + input I0, input I1, + (* invertible_pin = "IS_S0_INVERTED" *) + input S0, + (* invertible_pin = "IS_S1_INVERTED" *) + input S1, + (* invertible_pin = "IS_CE0_INVERTED" *) + input CE0, + (* invertible_pin = "IS_CE1_INVERTED" *) + input CE1, + (* invertible_pin = "IS_IGNORE0_INVERTED" *) + input IGNORE0, + (* invertible_pin = "IS_IGNORE1_INVERTED" *) + input IGNORE1); + +parameter [0:0] INIT_OUT = 1'b0; +parameter PRESELECT_I0 = "FALSE"; +parameter PRESELECT_I1 = "FALSE"; +parameter [0:0] IS_CE0_INVERTED = 1'b0; +parameter [0:0] IS_CE1_INVERTED = 1'b0; +parameter [0:0] IS_S0_INVERTED = 1'b0; +parameter [0:0] IS_S1_INVERTED = 1'b0; +parameter [0:0] IS_IGNORE0_INVERTED = 1'b0; +parameter [0:0] IS_IGNORE1_INVERTED = 1'b0; + +wire I0_internal = ((CE0 ^ IS_CE0_INVERTED) ? I0 : INIT_OUT); +wire I1_internal = ((CE1 ^ IS_CE1_INVERTED) ? I1 : INIT_OUT); +wire S0_true = (S0 ^ IS_S0_INVERTED); +wire S1_true = (S1 ^ IS_S1_INVERTED); + +assign O = S0_true ? I0_internal : (S1_true ? I1_internal : INIT_OUT); + +endmodule + +module BUFHCE( + (* clkbuf_driver *) + output O, + input I, + (* invertible_pin = "IS_CE_INVERTED" *) + input CE); + +parameter [0:0] INIT_OUT = 1'b0; +parameter CE_TYPE = "SYNC"; +parameter [0:0] IS_CE_INVERTED = 1'b0; + +assign O = ((CE ^ IS_CE_INVERTED) ? I : INIT_OUT); + +endmodule + // module OBUFT(output O, input I, T); // assign O = T ? 1'bz : I; // endmodule @@ -80,14 +164,32 @@ module LUT6(output O, input I0, I1, I2, I3, I4, I5); assign O = I0 ? s1[1] : s1[0]; endmodule +module LUT6_2(output O6, output O5, input I0, I1, I2, I3, I4, I5); + parameter [63:0] INIT = 0; + wire [31: 0] s5 = I5 ? INIT[63:32] : INIT[31: 0]; + wire [15: 0] s4 = I4 ? s5[31:16] : s5[15: 0]; + wire [ 7: 0] s3 = I3 ? s4[15: 8] : s4[ 7: 0]; + wire [ 3: 0] s2 = I2 ? s3[ 7: 4] : s3[ 3: 0]; + wire [ 1: 0] s1 = I1 ? s2[ 3: 2] : s2[ 1: 0]; + assign O6 = I0 ? s1[1] : s1[0]; + + wire [15: 0] s5_4 = I4 ? INIT[31:16] : INIT[15: 0]; + wire [ 7: 0] s5_3 = I3 ? s5_4[15: 8] : s5_4[ 7: 0]; + wire [ 3: 0] s5_2 = I2 ? s5_3[ 7: 4] : s5_3[ 3: 0]; + wire [ 1: 0] s5_1 = I1 ? s5_2[ 3: 2] : s5_2[ 1: 0]; + assign O5 = I0 ? s5_1[1] : s5_1[0]; +endmodule + module MUXCY(output O, input CI, DI, S); assign O = S ? CI : DI; endmodule +(* abc_box_id = 1, lib_whitebox *) module MUXF7(output O, input I0, I1, S); assign O = S ? I1 : I0; endmodule +(* abc_box_id = 2, lib_whitebox *) module MUXF8(output O, input I0, I1, S); assign O = S ? I1 : I0; endmodule @@ -96,7 +198,16 @@ module XORCY(output O, input CI, LI); assign O = CI ^ LI; endmodule -module CARRY4(output [3:0] CO, O, input CI, CYINIT, input [3:0] DI, S); +(* abc_box_id = 4, lib_whitebox *) +module CARRY4( + (* abc_carry *) + output [3:0] CO, + output [3:0] O, + (* abc_carry *) + input CI, + input CYINIT, + input [3:0] DI, S +); assign O = S ^ {CO[2:0], CI | CYINIT}; assign CO[0] = S[0] ? CI | CYINIT : DI[0]; assign CO[1] = S[1] ? CO[0] : DI[1]; @@ -104,7 +215,43 @@ module CARRY4(output [3:0] CO, O, input CI, CYINIT, input [3:0] DI, S); assign CO[3] = S[3] ? CO[2] : DI[3]; endmodule -module FDRE (output reg Q, input C, CE, D, R); +`ifdef _EXPLICIT_CARRY + +module CARRY0(output CO_CHAIN, CO_FABRIC, O, input CI, CI_INIT, DI, S); + parameter CYINIT_FABRIC = 0; + wire CI_COMBINE; + if(CYINIT_FABRIC) begin + assign CI_COMBINE = CI_INIT; + end else begin + assign CI_COMBINE = CI; + end + assign CO_CHAIN = S ? CI_COMBINE : DI; + assign CO_FABRIC = S ? CI_COMBINE : DI; + assign O = S ^ CI_COMBINE; +endmodule + +module CARRY(output CO_CHAIN, CO_FABRIC, O, input CI, DI, S); + assign CO_CHAIN = S ? CI : DI; + assign CO_FABRIC = S ? CI : DI; + assign O = S ^ CI; +endmodule + +`endif + +// Max delay from: https://github.com/SymbiFlow/prjxray-db/blob/34ea6eb08a63d21ec16264ad37a0a7b142ff6031/artix7/timings/CLBLL_L.sdf#L238-L250 + +module FDRE ( + (* abc_arrival=303 *) + output reg Q, + (* clkbuf_sink *) + (* invertible_pin = "IS_C_INVERTED" *) + input C, + input CE, + (* invertible_pin = "IS_D_INVERTED" *) + input D, + (* invertible_pin = "IS_R_INVERTED" *) + input R +); parameter [0:0] INIT = 1'b0; parameter [0:0] IS_C_INVERTED = 1'b0; parameter [0:0] IS_D_INVERTED = 1'b0; @@ -116,8 +263,19 @@ module FDRE (output reg Q, input C, CE, D, R); endcase endgenerate endmodule -module FDSE (output reg Q, input C, CE, D, S); - parameter [0:0] INIT = 1'b0; +module FDSE ( + (* abc_arrival=303 *) + output reg Q, + (* clkbuf_sink *) + (* invertible_pin = "IS_C_INVERTED" *) + input C, + input CE, + (* invertible_pin = "IS_D_INVERTED" *) + input D, + (* invertible_pin = "IS_S_INVERTED" *) + input S +); + parameter [0:0] INIT = 1'b1; parameter [0:0] IS_C_INVERTED = 1'b0; parameter [0:0] IS_D_INVERTED = 1'b0; parameter [0:0] IS_S_INVERTED = 1'b0; @@ -128,7 +286,18 @@ module FDSE (output reg Q, input C, CE, D, S); endcase endgenerate endmodule -module FDCE (output reg Q, input C, CE, D, CLR); +module FDCE ( + (* abc_arrival=303 *) + output reg Q, + (* clkbuf_sink *) + (* invertible_pin = "IS_C_INVERTED" *) + input C, + input CE, + (* invertible_pin = "IS_D_INVERTED" *) + input D, + (* invertible_pin = "IS_CLR_INVERTED" *) + input CLR +); parameter [0:0] INIT = 1'b0; parameter [0:0] IS_C_INVERTED = 1'b0; parameter [0:0] IS_D_INVERTED = 1'b0; @@ -142,8 +311,19 @@ module FDCE (output reg Q, input C, CE, D, CLR); endcase endgenerate endmodule -module FDPE (output reg Q, input C, CE, D, PRE); - parameter [0:0] INIT = 1'b0; +module FDPE ( + (* abc_arrival=303 *) + output reg Q, + (* clkbuf_sink *) + (* invertible_pin = "IS_C_INVERTED" *) + input C, + input CE, + (* invertible_pin = "IS_D_INVERTED" *) + input D, + (* invertible_pin = "IS_PRE_INVERTED" *) + input PRE +); + parameter [0:0] INIT = 1'b1; parameter [0:0] IS_C_INVERTED = 1'b0; parameter [0:0] IS_D_INVERTED = 1'b0; parameter [0:0] IS_PRE_INVERTED = 1'b0; @@ -156,9 +336,86 @@ module FDPE (output reg Q, input C, CE, D, PRE); endcase endgenerate endmodule +module FDRE_1 ( + (* abc_arrival=303 *) + output reg Q, + (* clkbuf_sink *) + input C, + input CE, D, R +); + parameter [0:0] INIT = 1'b0; + initial Q <= INIT; + always @(negedge C) if (R) Q <= 1'b0; else if(CE) Q <= D; +endmodule + +module FDSE_1 ( + (* abc_arrival=303 *) + output reg Q, + (* clkbuf_sink *) + input C, + input CE, D, S +); + parameter [0:0] INIT = 1'b1; + initial Q <= INIT; + always @(negedge C) if (S) Q <= 1'b1; else if(CE) Q <= D; +endmodule + +module FDCE_1 ( + (* abc_arrival=303 *) + output reg Q, + (* clkbuf_sink *) + input C, + input CE, D, CLR +); + parameter [0:0] INIT = 1'b0; + initial Q <= INIT; + always @(negedge C, posedge CLR) if (CLR) Q <= 1'b0; else if (CE) Q <= D; +endmodule + +module FDPE_1 ( + (* abc_arrival=303 *) + output reg Q, + (* clkbuf_sink *) + input C, + input CE, D, PRE +); + parameter [0:0] INIT = 1'b1; + initial Q <= INIT; + always @(negedge C, posedge PRE) if (PRE) Q <= 1'b1; else if (CE) Q <= D; +endmodule + +module RAM32X1D ( + // Max delay from: https://github.com/SymbiFlow/prjxray-db/blob/34ea6eb08a63d21ec16264ad37a0a7b142ff6031/artix7/timings/CLBLM_R.sdf#L957 + (* abc_arrival=1153 *) + output DPO, SPO, + input D, + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK, + input WE, + input A0, A1, A2, A3, A4, + input DPRA0, DPRA1, DPRA2, DPRA3, DPRA4 +); + parameter INIT = 32'h0; + parameter IS_WCLK_INVERTED = 1'b0; + wire [4:0] a = {A4, A3, A2, A1, A0}; + wire [4:0] dpra = {DPRA4, DPRA3, DPRA2, DPRA1, DPRA0}; + reg [31:0] mem = INIT; + assign SPO = mem[a]; + assign DPO = mem[dpra]; + wire clk = WCLK ^ IS_WCLK_INVERTED; + always @(posedge clk) if (WE) mem[a] <= D; +endmodule + module RAM64X1D ( + // Max delay from: https://github.com/SymbiFlow/prjxray-db/blob/34ea6eb08a63d21ec16264ad37a0a7b142ff6031/artix7/timings/CLBLM_R.sdf#L957 + (* abc_arrival=1153 *) output DPO, SPO, - input D, WCLK, WE, + input D, + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK, + input WE, input A0, A1, A2, A3, A4, A5, input DPRA0, DPRA1, DPRA2, DPRA3, DPRA4, DPRA5 ); @@ -174,8 +431,14 @@ module RAM64X1D ( endmodule module RAM128X1D ( - output DPO, SPO, - input D, WCLK, WE, + // Max delay from: https://github.com/SymbiFlow/prjxray-db/blob/34ea6eb08a63d21ec16264ad37a0a7b142ff6031/artix7/timings/CLBLM_R.sdf#L957 + (* abc_arrival=1153 *) + output DPO, SPO, + input D, + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK, + input WE, input [6:0] A, DPRA ); parameter INIT = 128'h0; @@ -186,3 +449,79 @@ module RAM128X1D ( wire clk = WCLK ^ IS_WCLK_INVERTED; always @(posedge clk) if (WE) mem[A] <= D; endmodule + +module SRL16E ( + // Max delay from: https://github.com/SymbiFlow/prjxray-db/blob/34ea6eb08a63d21ec16264ad37a0a7b142ff6031/artix7/timings/CLBLM_R.sdf#L904-L905 + (* abc_arrival=1472 *) + output Q, + input A0, A1, A2, A3, CE, + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK, + input D +); + parameter [15:0] INIT = 16'h0000; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + + reg [15:0] r = INIT; + assign Q = r[{A3,A2,A1,A0}]; + generate + if (IS_CLK_INVERTED) begin + always @(negedge CLK) if (CE) r <= { r[14:0], D }; + end + else + always @(posedge CLK) if (CE) r <= { r[14:0], D }; + endgenerate +endmodule + +module SRLC16E ( + output Q, + output Q15, + input A0, A1, A2, A3, CE, + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK, + input D +); + parameter [15:0] INIT = 16'h0000; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + + reg [15:0] r = INIT; + assign Q15 = r[15]; + assign Q = r[{A3,A2,A1,A0}]; + generate + if (IS_CLK_INVERTED) begin + always @(negedge CLK) if (CE) r <= { r[14:0], D }; + end + else + always @(posedge CLK) if (CE) r <= { r[14:0], D }; + endgenerate +endmodule + +module SRLC32E ( + // Max delay from: https://github.com/SymbiFlow/prjxray-db/blob/34ea6eb08a63d21ec16264ad37a0a7b142ff6031/artix7/timings/CLBLM_R.sdf#L904-L905 + (* abc_arrival=1472 *) + output Q, + (* abc_arrival=1114 *) + output Q31, + input [4:0] A, + input CE, + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK, + input D +); + parameter [31:0] INIT = 32'h00000000; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + + reg [31:0] r = INIT; + assign Q31 = r[31]; + assign Q = r[A]; + generate + if (IS_CLK_INVERTED) begin + always @(negedge CLK) if (CE) r <= { r[30:0], D }; + end + else + always @(posedge CLK) if (CE) r <= { r[30:0], D }; + endgenerate +endmodule diff --git a/techlibs/xilinx/cells_xtra.py b/techlibs/xilinx/cells_xtra.py new file mode 100644 index 000000000..561a61943 --- /dev/null +++ b/techlibs/xilinx/cells_xtra.py @@ -0,0 +1,708 @@ +#!/usr/bin/env python3 + +from argparse import ArgumentParser +from io import StringIO +from enum import Enum, auto +import os.path +import sys +import re + + +class Cell: + def __init__(self, name, keep=False, port_attrs={}): + self.name = name + self.keep = keep + self.port_attrs = port_attrs + + +XC6S_CELLS = [ + # Design elements types listed in Xilinx UG615. + + # Advanced. + Cell('MCB'), + Cell('PCIE_A1'), + + # Arithmetic functions. + Cell('DSP48A1', port_attrs={'CLK': ['clkbuf_sink']}), + + # Clock components. + # Cell('BUFG', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGCE', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGCE_1', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGMUX', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGMUX_1', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFH', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFIO2', port_attrs={'IOCLK': ['clkbuf_driver'], 'DIVCLK': ['clkbuf_driver']}), + Cell('BUFIO2_2CLK', port_attrs={'IOCLK': ['clkbuf_driver'], 'DIVCLK': ['clkbuf_driver']}), + Cell('BUFIO2FB', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFPLL_MCB', port_attrs={'IOCLK0': ['clkbuf_driver'], 'IOCLK1': ['clkbuf_driver']}), + Cell('DCM_CLKGEN'), + Cell('DCM_SP'), + Cell('PLL_BASE'), + + # Config/BSCAN components. + Cell('BSCAN_SPARTAN6', keep=True), + Cell('DNA_PORT'), + Cell('ICAP_SPARTAN6', keep=True), + Cell('POST_CRC_INTERNAL'), + Cell('STARTUP_SPARTAN6', keep=True), + Cell('SUSPEND_SYNC', keep=True), + + # I/O components. + Cell('GTPA1_DUAL'), + # Cell('IBUF', port_attrs={'I': ['iopad_external_pin']}), + Cell('IBUFDS', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFDS_DIFF_OUT', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFG', port_attrs={'I': ['iopad_external_pin']}), + Cell('IBUFGDS', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFGDS_DIFF_OUT', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IOBUF', port_attrs={'IO': ['iopad_external_pin']}), + Cell('IOBUFDS', port_attrs={'IO': ['iopad_external_pin']}), + Cell('IODELAY2', port_attrs={'IOCLK0': ['clkbuf_sink'], 'IOCLK1': ['clkbuf_sink'], 'CLK': ['clkbuf_sink']}), + Cell('IODRP2', port_attrs={'IOCLK0': ['clkbuf_sink'], 'IOCLK1': ['clkbuf_sink'], 'CLK': ['clkbuf_sink']}), + Cell('IODRP2_MCB', port_attrs={'IOCLK0': ['clkbuf_sink'], 'IOCLK1': ['clkbuf_sink'], 'CLK': ['clkbuf_sink']}), + Cell('ISERDES2', port_attrs={ + 'CLK0': ['clkbuf_sink'], + 'CLK1': ['clkbuf_sink'], + 'CLKDIV': ['clkbuf_sink'], + }), + Cell('KEEPER'), + # Cell('OBUF', port_attrs={'O': ['iopad_external_pin']}), + Cell('OBUFDS', port_attrs={'O': ['iopad_external_pin'], 'OB': ['iopad_external_pin']}), + Cell('OBUFT', port_attrs={'O': ['iopad_external_pin']}), + Cell('OBUFTDS', port_attrs={'O': ['iopad_external_pin'], 'OB': ['iopad_external_pin']}), + Cell('OSERDES2', port_attrs={ + 'CLK0': ['clkbuf_sink'], + 'CLK1': ['clkbuf_sink'], + 'CLKDIV': ['clkbuf_sink'], + }), + Cell('PULLDOWN'), + Cell('PULLUP'), + + # RAM/ROM. + #Cell('RAM128X1D', port_attrs={'WCLK': ['clkbuf_sink']}), + # NOTE: not in the official library guide! + Cell('RAM128X1S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM256X1S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM32M', port_attrs={'WCLK': ['clkbuf_sink']}), + #Cell('RAM32X1D', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM32X1S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM32X1S_1', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM32X2S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM64M', port_attrs={'WCLK': ['clkbuf_sink']}), + #Cell('RAM64X1D', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM64X1S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM64X1S_1', port_attrs={'WCLK': ['clkbuf_sink']}), + # NOTE: not in the official library guide! + Cell('RAM64X2S', port_attrs={'WCLK': ['clkbuf_sink']}), + # Cell('RAMB8BWER', port_attrs={'CLKAWRCLK': ['clkbuf_sink'], 'CLKBRDCLK': ['clkbuf_sink']}), + # Cell('RAMB16BWER', port_attrs={'CLKA': ['clkbuf_sink'], 'CLKB': ['clkbuf_sink']}), + Cell('ROM128X1'), + Cell('ROM256X1'), + Cell('ROM32X1'), + Cell('ROM64X1'), + + # Registers/latches. + # Cell('FDCE'), + # Cell('FDPE'), + # Cell('FDRE'), + # Cell('FDSE'), + Cell('IDDR2', port_attrs={'C0': ['clkbuf_sink'], 'C1': ['clkbuf_sink']}), + Cell('LDCE'), + Cell('LDPE'), + Cell('ODDR2', port_attrs={'C0': ['clkbuf_sink'], 'C1': ['clkbuf_sink']}), + + # Slice/CLB primitives. + # Cell('CARRY4'), + Cell('CFGLUT5', port_attrs={'CLK': ['clkbuf_sink']}), + # Cell('LUT1'), + # Cell('LUT2'), + # Cell('LUT3'), + # Cell('LUT4'), + # Cell('LUT5'), + # Cell('LUT6'), + # Cell('LUT6_2'), + # Cell('MUXF7'), + # Cell('MUXF8'), + # Cell('SRL16E', port_attrs={'CLK': ['clkbuf_sink']}), + # Cell('SRLC32E', port_attrs={'CLK': ['clkbuf_sink']}), +] + + +XC6V_CELLS = [ + # Design elements types listed in Xilinx UG623. + + # Advanced. + Cell('PCIE_2_0'), + Cell('SYSMON'), + + # Arithmetic functions. + Cell('DSP48E1', port_attrs={'CLK': ['clkbuf_sink']}), + + # Clock components. + # Cell('BUFG', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGCE', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGCE_1', port_attrs={'O': ['clkbuf_driver']}), + #Cell('BUFGCTRL', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGMUX', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGMUX_1', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGMUX_CTRL', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFH', port_attrs={'O': ['clkbuf_driver']}), + #Cell('BUFHCE', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFIO', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFIODQS', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFR', port_attrs={'O': ['clkbuf_driver']}), + Cell('IBUFDS_GTXE1', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('MMCM_ADV'), + Cell('MMCM_BASE'), + + # Config/BSCAN components. + Cell('BSCAN_VIRTEX6', keep=True), + Cell('CAPTURE_VIRTEX6', keep=True), + Cell('DNA_PORT'), + Cell('EFUSE_USR'), + Cell('FRAME_ECC_VIRTEX6'), + Cell('ICAP_VIRTEX6', keep=True), + Cell('STARTUP_VIRTEX6', keep=True), + Cell('USR_ACCESS_VIRTEX6'), + + # I/O components. + Cell('DCIRESET', keep=True), + Cell('GTHE1_QUAD'), + Cell('GTXE1'), + # Cell('IBUF', port_attrs={'I': ['iopad_external_pin']}), + Cell('IBUFDS', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFDS_DIFF_OUT', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFDS_GTHE1', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFG', port_attrs={'I': ['iopad_external_pin']}), + Cell('IBUFGDS', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFGDS_DIFF_OUT', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IDELAYCTRL', keep=True, port_attrs={'REFCLK': ['clkbuf_sink']}), + Cell('IOBUF', port_attrs={'IO': ['iopad_external_pin']}), + Cell('IOBUFDS', port_attrs={'IO': ['iopad_external_pin']}), + Cell('IODELAYE1', port_attrs={'C': ['clkbuf_sink']}), + Cell('ISERDESE1', port_attrs={ + 'CLK': ['clkbuf_sink'], + 'CLKB': ['clkbuf_sink'], + 'OCLK': ['clkbuf_sink'], + 'CLKDIV': ['clkbuf_sink'], + }), + Cell('KEEPER'), + # Cell('OBUF', port_attrs={'O': ['iopad_external_pin']}), + Cell('OBUFDS', port_attrs={'O': ['iopad_external_pin'], 'OB': ['iopad_external_pin']}), + Cell('OBUFT', port_attrs={'O': ['iopad_external_pin']}), + Cell('OBUFTDS', port_attrs={'O': ['iopad_external_pin'], 'OB': ['iopad_external_pin']}), + Cell('OSERDESE1', port_attrs={'CLK': ['clkbuf_sink'], 'CLKDIV': ['clkbuf_sink']}), + Cell('PULLDOWN'), + Cell('PULLUP'), + Cell('TEMAC_SINGLE'), + + # RAM/ROM. + Cell('FIFO18E1', port_attrs={'RDCLK': ['clkbuf_sink'], 'WRCLK': ['clkbuf_sink']}), + Cell('FIFO36E1', port_attrs={'RDCLK': ['clkbuf_sink'], 'WRCLK': ['clkbuf_sink']}), + #Cell('RAM128X1D', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM128X1S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM256X1S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM32M', port_attrs={'WCLK': ['clkbuf_sink']}), + #Cell('RAM32X1D', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM32X1S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM32X1S_1', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM32X2S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM64M', port_attrs={'WCLK': ['clkbuf_sink']}), + #Cell('RAM64X1D', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM64X1S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM64X1S_1', port_attrs={'WCLK': ['clkbuf_sink']}), + # NOTE: not in the official library guide! + Cell('RAM64X2S', port_attrs={'WCLK': ['clkbuf_sink']}), + # Cell('RAMB18E1', port_attrs={'CLKARDCLK': ['clkbuf_sink'], 'CLKBWRCLK': ['clkbuf_sink']}), + # Cell('RAMB36E1', port_attrs={'CLKARDCLK': ['clkbuf_sink'], 'CLKBWRCLK': ['clkbuf_sink']}), + Cell('ROM128X1'), + Cell('ROM256X1'), + Cell('ROM32X1'), + Cell('ROM64X1'), + + # Registers/latches. + # Cell('FDCE'), + # Cell('FDPE'), + # Cell('FDRE'), + # Cell('FDSE'), + Cell('IDDR', port_attrs={'C': ['clkbuf_sink']}), + Cell('IDDR_2CLK', port_attrs={'C': ['clkbuf_sink'], 'CB': ['clkbuf_sink']}), + Cell('LDCE'), + Cell('LDPE'), + Cell('ODDR', port_attrs={'C': ['clkbuf_sink']}), + + # Slice/CLB primitives. + # Cell('CARRY4'), + Cell('CFGLUT5', port_attrs={'CLK': ['clkbuf_sink']}), + # Cell('LUT1'), + # Cell('LUT2'), + # Cell('LUT3'), + # Cell('LUT4'), + # Cell('LUT5'), + # Cell('LUT6'), + # Cell('LUT6_2'), + # Cell('MUXF7'), + # Cell('MUXF8'), + # Cell('SRL16E', port_attrs={'CLK': ['clkbuf_sink']}), + # Cell('SRLC32E', port_attrs={'CLK': ['clkbuf_sink']}), +] + + +XC7_CELLS = [ + # Design elements types listed in Xilinx UG953. + + # Advanced. + Cell('GTHE2_CHANNEL'), + Cell('GTHE2_COMMON'), + Cell('GTPE2_CHANNEL'), + Cell('GTPE2_COMMON'), + Cell('GTXE2_CHANNEL'), + Cell('GTXE2_COMMON'), + Cell('PCIE_2_1'), + Cell('PCIE_3_0'), + Cell('XADC'), + + # Arithmetic functions. + Cell('DSP48E1', port_attrs={'CLK': ['clkbuf_sink']}), + + # Clock components. + # Cell('BUFG', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGCE', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGCE_1', port_attrs={'O': ['clkbuf_driver']}), + #Cell('BUFGCTRL', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGMUX', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGMUX_1', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGMUX_CTRL', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFH', port_attrs={'O': ['clkbuf_driver']}), + #Cell('BUFHCE', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFIO', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFMR', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFMRCE', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFR', port_attrs={'O': ['clkbuf_driver']}), + Cell('MMCME2_ADV'), + Cell('MMCME2_BASE'), + Cell('PLLE2_ADV'), + Cell('PLLE2_BASE'), + + # Config/BSCAN components. + Cell('BSCANE2', keep=True), + Cell('CAPTUREE2', keep=True), + Cell('DNA_PORT'), + Cell('EFUSE_USR'), + Cell('FRAME_ECCE2'), + Cell('ICAPE2', keep=True), + Cell('STARTUPE2', keep=True), + Cell('USR_ACCESSE2'), + + # I/O components. + Cell('DCIRESET', keep=True), + # Cell('IBUF', port_attrs={'I': ['iopad_external_pin']}), + Cell('IBUF_IBUFDISABLE', port_attrs={'I': ['iopad_external_pin']}), + Cell('IBUF_INTERMDISABLE', port_attrs={'I': ['iopad_external_pin']}), + Cell('IBUFDS', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFDS_DIFF_OUT', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFDS_DIFF_OUT_IBUFDISABLE', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFDS_DIFF_OUT_INTERMDISABLE', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFDS_GTE2', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFDS_IBUFDISABLE', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFDS_INTERMDISABLE', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFG', port_attrs={'I': ['iopad_external_pin']}), + Cell('IBUFGDS', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFGDS_DIFF_OUT', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IDELAYCTRL', keep=True, port_attrs={'REFCLK': ['clkbuf_sink']}), + Cell('IDELAYE2', port_attrs={'C': ['clkbuf_sink']}), + Cell('IN_FIFO', port_attrs={'RDCLK': ['clkbuf_sink'], 'WRCLK': ['clkbuf_sink']}), + Cell('IOBUF', port_attrs={'IO': ['iopad_external_pin']}), + Cell('IOBUF_DCIEN', port_attrs={'IO': ['iopad_external_pin']}), + Cell('IOBUF_INTERMDISABLE', port_attrs={'IO': ['iopad_external_pin']}), + Cell('IOBUFDS', port_attrs={'IO': ['iopad_external_pin']}), + Cell('IOBUFDS_DCIEN', port_attrs={'IO': ['iopad_external_pin'], 'IOB': ['iopad_external_pin']}), + Cell('IOBUFDS_DIFF_OUT', port_attrs={'IO': ['iopad_external_pin'], 'IOB': ['iopad_external_pin']}), + Cell('IOBUFDS_DIFF_OUT_DCIEN', port_attrs={'IO': ['iopad_external_pin'], 'IOB': ['iopad_external_pin']}), + Cell('IOBUFDS_DIFF_OUT_INTERMDISABLE', port_attrs={'IO': ['iopad_external_pin'], 'IOB': ['iopad_external_pin']}), + Cell('IOBUFDS_INTERMDISABLE', port_attrs={'IO': ['iopad_external_pin'], 'IOB': ['iopad_external_pin']}), + Cell('ISERDESE2', port_attrs={ + 'CLK': ['clkbuf_sink'], + 'CLKB': ['clkbuf_sink'], + 'OCLK': ['clkbuf_sink'], + 'OCLKB': ['clkbuf_sink'], + 'CLKDIV': ['clkbuf_sink'], + 'CLKDIVP': ['clkbuf_sink'], + }), + Cell('KEEPER'), + # Cell('OBUF', port_attrs={'O': ['iopad_external_pin']}), + Cell('OBUFDS', port_attrs={'O': ['iopad_external_pin'], 'OB': ['iopad_external_pin']}), + Cell('OBUFT', port_attrs={'O': ['iopad_external_pin']}), + Cell('OBUFTDS', port_attrs={'O': ['iopad_external_pin'], 'OB': ['iopad_external_pin']}), + Cell('ODELAYE2', port_attrs={'C': ['clkbuf_sink']}), + Cell('OSERDESE2', port_attrs={'CLK': ['clkbuf_sink'], 'CLKDIV': ['clkbuf_sink']}), + Cell('OUT_FIFO', port_attrs={'RDCLK': ['clkbuf_sink'], 'WRCLK': ['clkbuf_sink']}), + Cell('PHASER_IN'), + Cell('PHASER_IN_PHY'), + Cell('PHASER_OUT'), + Cell('PHASER_OUT_PHY'), + Cell('PHASER_REF'), + Cell('PHY_CONTROL'), + Cell('PULLDOWN'), + Cell('PULLUP'), + + # RAM/ROM. + Cell('FIFO18E1', port_attrs={'RDCLK': ['clkbuf_sink'], 'WRCLK': ['clkbuf_sink']}), + Cell('FIFO36E1', port_attrs={'RDCLK': ['clkbuf_sink'], 'WRCLK': ['clkbuf_sink']}), + #Cell('RAM128X1D', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM128X1S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM256X1S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM32M', port_attrs={'WCLK': ['clkbuf_sink']}), + #Cell('RAM32X1D', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM32X1S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM32X1S_1', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM32X2S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM64M', port_attrs={'WCLK': ['clkbuf_sink']}), + #Cell('RAM64X1D', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM64X1S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM64X1S_1', port_attrs={'WCLK': ['clkbuf_sink']}), + # NOTE: not in the official library guide! + Cell('RAM64X2S', port_attrs={'WCLK': ['clkbuf_sink']}), + # Cell('RAMB18E1', port_attrs={'CLKARDCLK': ['clkbuf_sink'], 'CLKBWRCLK': ['clkbuf_sink']}), + # Cell('RAMB36E1', port_attrs={'CLKARDCLK': ['clkbuf_sink'], 'CLKBWRCLK': ['clkbuf_sink']}), + Cell('ROM128X1'), + Cell('ROM256X1'), + Cell('ROM32X1'), + Cell('ROM64X1'), + + # Registers/latches. + # Cell('FDCE'), + # Cell('FDPE'), + # Cell('FDRE'), + # Cell('FDSE'), + Cell('IDDR', port_attrs={'C': ['clkbuf_sink']}), + Cell('IDDR_2CLK', port_attrs={'C': ['clkbuf_sink'], 'CB': ['clkbuf_sink']}), + Cell('LDCE'), + Cell('LDPE'), + Cell('ODDR', port_attrs={'C': ['clkbuf_sink']}), + + # Slice/CLB primitives. + # Cell('CARRY4'), + Cell('CFGLUT5', port_attrs={'CLK': ['clkbuf_sink']}), + # Cell('LUT1'), + # Cell('LUT2'), + # Cell('LUT3'), + # Cell('LUT4'), + # Cell('LUT5'), + # Cell('LUT6'), + # Cell('LUT6_2'), + # Cell('MUXF7'), + # Cell('MUXF8'), + # Cell('SRL16E', port_attrs={'CLK': ['clkbuf_sink']}), + # Cell('SRLC32E', port_attrs={'CLK': ['clkbuf_sink']}), + + # NOTE: not in the official library guide! + Cell('PS7', keep=True), +] + + +XCU_CELLS = [ + # Design elements types listed in Xilinx UG974. + + # Advanced. + Cell('CMAC'), + Cell('CMACE4'), + Cell('GTHE3_CHANNEL'), + Cell('GTHE3_COMMON'), + Cell('GTHE4_CHANNEL'), + Cell('GTHE4_COMMON'), + Cell('GTYE3_CHANNEL'), + Cell('GTYE3_COMMON'), + Cell('GTYE4_CHANNEL'), + Cell('GTYE4_COMMON'), + Cell('IBUFDS_GTE3', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFDS_GTE4', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('ILKN'), + Cell('ILKNE4'), + Cell('OBUFDS_GTE3', port_attrs={'O': ['iopad_external_pin'], 'OB': ['iopad_external_pin']}), + Cell('OBUFDS_GTE3_ADV', port_attrs={'O': ['iopad_external_pin'], 'OB': ['iopad_external_pin']}), + Cell('OBUFDS_GTE4', port_attrs={'O': ['iopad_external_pin'], 'OB': ['iopad_external_pin']}), + Cell('OBUFDS_GTE4_ADV', port_attrs={'O': ['iopad_external_pin'], 'OB': ['iopad_external_pin']}), + Cell('PCIE40E4'), + Cell('PCIE_3_1'), + Cell('SYSMONE1'), + Cell('SYSMONE4'), + + # Arithmetic functions. + Cell('DSP48E2', port_attrs={'CLK': ['clkbuf_sink']}), + + # Blockram. + Cell('FIFO18E2', port_attrs={'RDCLK': ['clkbuf_sink'], 'WRCLK': ['clkbuf_sink']}), + Cell('FIFO36E2', port_attrs={'RDCLK': ['clkbuf_sink'], 'WRCLK': ['clkbuf_sink']}), + Cell('RAMB18E2', port_attrs={'CLKARDCLK': ['clkbuf_sink'], 'CLKBWRCLK': ['clkbuf_sink']}), + Cell('RAMB36E2', port_attrs={'CLKARDCLK': ['clkbuf_sink'], 'CLKBWRCLK': ['clkbuf_sink']}), + Cell('URAM288', port_attrs={'CLK': ['clkbuf_sink']}), + Cell('URAM288_BASE', port_attrs={'CLK': ['clkbuf_sink']}), + + # CLB. + # Cell('LUT6_2'), + #Cell('RAM128X1D', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM128X1S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM256X1D', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM256X1S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM32M', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM32M16', port_attrs={'WCLK': ['clkbuf_sink']}), + #Cell('RAM32X1D', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM32X1S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM512X1S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM64M', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM64M8', port_attrs={'WCLK': ['clkbuf_sink']}), + #Cell('RAM64X1D', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('RAM64X1S', port_attrs={'WCLK': ['clkbuf_sink']}), + Cell('AND2B1L'), + Cell('CARRY8'), + Cell('CFGLUT5', port_attrs={'CLK': ['clkbuf_sink']}), + # Cell('LUT1'), + # Cell('LUT2'), + # Cell('LUT3'), + # Cell('LUT4'), + # Cell('LUT5'), + # Cell('LUT6'), + # Cell('MUXF7'), + # Cell('MUXF8'), + Cell('MUXF9'), + Cell('OR2L'), + # Cell('SRL16E', port_attrs={'CLK': ['clkbuf_sink']}), + # Cell('SRLC32E', port_attrs={'CLK': ['clkbuf_sink']}), + + # Clock. + # Cell('BUFG', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFG_GT', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFG_GT_SYNC'), + Cell('BUFG_PS', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGCE', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGCE_1', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGCE_DIV', port_attrs={'O': ['clkbuf_driver']}), + #Cell('BUFGCTRL', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGMUX', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGMUX_1', port_attrs={'O': ['clkbuf_driver']}), + Cell('BUFGMUX_CTRL', port_attrs={'O': ['clkbuf_driver']}), + Cell('MMCME3_ADV'), + Cell('MMCME3_BASE'), + Cell('MMCME4_ADV'), + Cell('MMCME4_BASE'), + Cell('PLLE3_ADV'), + Cell('PLLE3_BASE'), + Cell('PLLE4_ADV'), + Cell('PLLE4_BASE'), + + # Configuration. + Cell('BSCANE2', keep=True), + Cell('DNA_PORTE2'), + Cell('EFUSE_USR'), + Cell('FRAME_ECCE3'), + Cell('ICAPE3', keep=True), + Cell('MASTER_JTAG', keep=True), + Cell('STARTUPE3', keep=True), + Cell('USR_ACCESSE2'), + + # I/O. + Cell('BITSLICE_CONTROL', keep=True), + Cell('DCIRESET', keep=True), + Cell('HPIO_VREF'), + # XXX + # Cell('IBUF', port_attrs={'I': ['iopad_external_pin']}), + Cell('IBUF_ANALOG', port_attrs={'I': ['iopad_external_pin']}), + Cell('IBUF_IBUFDISABLE', port_attrs={'I': ['iopad_external_pin']}), + Cell('IBUF_INTERMDISABLE', port_attrs={'I': ['iopad_external_pin']}), + Cell('IBUFDS', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFDS_DIFF_OUT', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFDS_DIFF_OUT_IBUFDISABLE', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFDS_DIFF_OUT_INTERMDISABLE', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFDS_DPHY', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFDS_IBUFDISABLE', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFDS_INTERMDISABLE', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFDSE3', port_attrs={'I': ['iopad_external_pin'], 'IB': ['iopad_external_pin']}), + Cell('IBUFE3', port_attrs={'I': ['iopad_external_pin']}), + Cell('IDELAYCTRL', keep=True, port_attrs={'REFCLK': ['clkbuf_sink']}), + Cell('IDELAYE3', port_attrs={'CLK': ['clkbuf_sink']}), + Cell('IOBUF', port_attrs={'IO': ['iopad_external_pin']}), + Cell('IOBUF_DCIEN', port_attrs={'IO': ['iopad_external_pin']}), + Cell('IOBUF_INTERMDISABLE', port_attrs={'IO': ['iopad_external_pin']}), + Cell('IOBUFDS', port_attrs={'IO': ['iopad_external_pin']}), + Cell('IOBUFDS_DCIEN', port_attrs={'IO': ['iopad_external_pin'], 'IOB': ['iopad_external_pin']}), + Cell('IOBUFDS_DIFF_OUT', port_attrs={'IO': ['iopad_external_pin'], 'IOB': ['iopad_external_pin']}), + Cell('IOBUFDS_DIFF_OUT_DCIEN', port_attrs={'IO': ['iopad_external_pin'], 'IOB': ['iopad_external_pin']}), + Cell('IOBUFDS_DIFF_OUT_INTERMDISABLE', port_attrs={'IO': ['iopad_external_pin'], 'IOB': ['iopad_external_pin']}), + Cell('IOBUFDS_INTERMDISABLE', port_attrs={'IO': ['iopad_external_pin'], 'IOB': ['iopad_external_pin']}), + Cell('IOBUFDSE3', port_attrs={'IO': ['iopad_external_pin']}), + Cell('IOBUFE3', port_attrs={'IO': ['iopad_external_pin']}), + Cell('ISERDESE3', port_attrs={ + 'CLK': ['clkbuf_sink'], + 'CLK_B': ['clkbuf_sink'], + 'FIFO_RD_CLK': ['clkbuf_sink'], + 'CLKDIV': ['clkbuf_sink'], + }), + Cell('KEEPER'), + # Cell('OBUF', port_attrs={'O': ['iopad_external_pin']}), + Cell('OBUFDS', port_attrs={'O': ['iopad_external_pin'], 'OB': ['iopad_external_pin']}), + Cell('OBUFDS_DPHY', port_attrs={'O': ['iopad_external_pin'], 'OB': ['iopad_external_pin']}), + Cell('OBUFT', port_attrs={'O': ['iopad_external_pin']}), + Cell('OBUFTDS', port_attrs={'O': ['iopad_external_pin'], 'OB': ['iopad_external_pin']}), + Cell('ODELAYE3', port_attrs={'CLK': ['clkbuf_sink']}), + Cell('OSERDESE3', port_attrs={'CLK': ['clkbuf_sink'], 'CLKDIV': ['clkbuf_sink']}), + Cell('PULLDOWN'), + Cell('PULLUP'), + Cell('RIU_OR'), + Cell('RX_BITSLICE'), + Cell('RXTX_BITSLICE'), + Cell('TX_BITSLICE'), + Cell('TX_BITSLICE_TRI'), + + # Registers. + # Cell('FDCE'), + # Cell('FDPE'), + # Cell('FDRE'), + # Cell('FDSE'), + Cell('HARD_SYNC', port_attrs={'CLK': ['clkbuf_sink']}), + Cell('IDDRE1', port_attrs={'C': ['clkbuf_sink'], 'CB': ['clkbuf_sink']}), + Cell('LDCE'), + Cell('LDPE'), + Cell('ODDRE1', port_attrs={'C': ['clkbuf_sink']}), + + # NOTE: not in the official library guide! + Cell('PS8', keep=True), +] + + +class State(Enum): + OUTSIDE = auto() + IN_MODULE = auto() + IN_OTHER_MODULE = auto() + IN_FUNCTION = auto() + IN_TASK = auto() + +def xtract_cell_decl(cell, dirs, outf): + for dir in dirs: + fname = os.path.join(dir, cell.name + '.v') + try: + with open(fname) as f: + state = State.OUTSIDE + found = False + # Probably the most horrible Verilog "parser" ever written. + module_ports = [] + invertible_ports = set() + for l in f: + l = l.partition('//')[0] + l = l.strip() + if l == 'module {}'.format(cell.name) or l.startswith('module {} '.format(cell.name)): + if found: + print('Multiple modules in {}.'.format(fname)) + sys.exit(1) + elif state != State.OUTSIDE: + print('Nested modules in {}.'.format(fname)) + sys.exit(1) + found = True + state = State.IN_MODULE + if cell.keep: + outf.write('(* keep *)\n') + outf.write('module {} (...);\n'.format(cell.name)) + elif l.startswith('module '): + if state != State.OUTSIDE: + print('Nested modules in {}.'.format(fname)) + sys.exit(1) + state = State.IN_OTHER_MODULE + elif l.startswith('task '): + if state == State.IN_MODULE: + state = State.IN_TASK + elif l.startswith('function '): + if state == State.IN_MODULE: + state = State.IN_FUNCTION + elif l == 'endtask': + if state == State.IN_TASK: + state = State.IN_MODULE + elif l == 'endfunction': + if state == State.IN_FUNCTION: + state = State.IN_MODULE + elif l == 'endmodule': + if state == State.IN_MODULE: + for kind, rng, port in module_ports: + for attr in cell.port_attrs.get(port, []): + outf.write(' (* {} *)\n'.format(attr)) + if port in invertible_ports: + outf.write(' (* invertible_pin = "IS_{}_INVERTED" *)\n'.format(port)) + if rng is None: + outf.write(' {} {};\n'.format(kind, port)) + else: + outf.write(' {} {} {};\n'.format(kind, rng, port)) + outf.write(l + '\n') + outf.write('\n') + elif state != State.IN_OTHER_MODULE: + print('endmodule in weird place in {}.'.format(cell.name, fname)) + sys.exit(1) + state = State.OUTSIDE + elif l.startswith(('input ', 'output ', 'inout ')) and state == State.IN_MODULE: + if l.endswith((';', ',')): + l = l[:-1] + if ';' in l: + print('Weird port line in {} [{}].'.format(fname, l)) + sys.exit(1) + kind, _, ports = l.partition(' ') + for port in ports.split(','): + port = port.strip() + if port.startswith('['): + rng, port = port.split() + else: + rng = None + module_ports.append((kind, rng, port)) + elif l.startswith('parameter ') and state == State.IN_MODULE: + if 'UNPLACED' in l: + continue + if l.endswith((';', ',')): + l = l[:-1] + while ' ' in l: + l = l.replace(' ', ' ') + if ';' in l: + print('Weird parameter line in {} [{}].'.format(fname, l)) + sys.exit(1) + outf.write(' {};\n'.format(l)) + match = re.search('IS_([a-zA-Z0-9_]+)_INVERTED', l) + if match: + invertible_ports.add(match[1]) + if state != State.OUTSIDE: + print('endmodule not found in {}.'.format(fname)) + sys.exit(1) + if not found: + print('Cannot find module {} in {}.'.format(cell.name, fname)) + sys.exit(1) + return + except FileNotFoundError: + continue + print('Cannot find {}.'.format(cell.name)) + sys.exit(1) + +if __name__ == '__main__': + parser = ArgumentParser(description='Extract Xilinx blackbox cell definitions from ISE and Vivado.') + parser.add_argument('vivado_dir', nargs='?', default='/opt/Xilinx/Vivado/2018.1') + parser.add_argument('ise_dir', nargs='?', default='/opt/Xilinx/ISE/14.7') + args = parser.parse_args() + + dirs = [ + os.path.join(args.vivado_dir, 'data/verilog/src/xeclib'), + os.path.join(args.vivado_dir, 'data/verilog/src/retarget'), + os.path.join(args.ise_dir, 'ISE_DS/ISE/verilog/xeclib/unisims'), + ] + for dir in dirs: + if not os.path.isdir(dir): + print('{} is not a directory'.format(dir)) + + for ofile, cells in [ + ('xc6s_cells_xtra.v', XC6S_CELLS), + ('xc6v_cells_xtra.v', XC6V_CELLS), + ('xc7_cells_xtra.v', XC7_CELLS), + ('xcu_cells_xtra.v', XCU_CELLS), + ]: + out = StringIO() + for cell in cells: + xtract_cell_decl(cell, dirs, out) + + with open(ofile, 'w') as f: + f.write('// Created by cells_xtra.py from Xilinx models\n') + f.write('\n') + f.write(out.getvalue()) diff --git a/techlibs/xilinx/cells_xtra.sh b/techlibs/xilinx/cells_xtra.sh deleted file mode 100644 index c7ad16043..000000000 --- a/techlibs/xilinx/cells_xtra.sh +++ /dev/null @@ -1,145 +0,0 @@ -#!/bin/bash - -set -e -libdir="/opt/Xilinx/Vivado/2015.4/data/verilog/src" - -function xtract_cell_decl() -{ - for dir in $libdir/xeclib $libdir/retarget; do - [ -f $dir/$1.v ] || continue - egrep '^\s*((end)?module|parameter|input|output|(end)?function|(end)?task)' $dir/$1.v | - sed -re '/UNPLACED/ d; /^\s*function/,/endfunction/ d; /^\s*task/,/endtask/ d; - s,//.*,,; s/#?\(.*/(...);/; s/^(input|output|parameter)/ \1/; - s/\s+$//; s/,$/;/; /input|output|parameter/ s/[^;]$/&;/; s/\s+/ /g; - s/^ ((end)?module)/\1/; s/^ / /; /module.*_bb/,/endmodule/ d;' - echo; return - done - echo "Can't find $1." - exit 1 -} - -{ - echo "// Created by cells_xtra.sh from Xilinx models" - echo - - # Design elements types listed in Xilinx UG953 - xtract_cell_decl BSCANE2 - # xtract_cell_decl BUFG - xtract_cell_decl BUFGCE - xtract_cell_decl BUFGCE_1 - xtract_cell_decl BUFGCTRL - xtract_cell_decl BUFGMUX - xtract_cell_decl BUFGMUX_1 - xtract_cell_decl BUFGMUX_CTRL - xtract_cell_decl BUFH - xtract_cell_decl BUFHCE - xtract_cell_decl BUFIO - xtract_cell_decl BUFMR - xtract_cell_decl BUFMRCE - xtract_cell_decl BUFR - xtract_cell_decl CAPTUREE2 - # xtract_cell_decl CARRY4 - xtract_cell_decl CFGLUT5 - xtract_cell_decl DCIRESET - xtract_cell_decl DNA_PORT - xtract_cell_decl DSP48E1 - xtract_cell_decl EFUSE_USR - # xtract_cell_decl FDCE - # xtract_cell_decl FDPE - # xtract_cell_decl FDRE - # xtract_cell_decl FDSE - xtract_cell_decl FIFO18E1 - xtract_cell_decl FIFO36E1 - xtract_cell_decl FRAME_ECCE2 - xtract_cell_decl GTHE2_CHANNEL - xtract_cell_decl GTHE2_COMMON - xtract_cell_decl GTPE2_CHANNEL - xtract_cell_decl GTPE2_COMMON - xtract_cell_decl GTXE2_CHANNEL - xtract_cell_decl GTXE2_COMMON - # xtract_cell_decl IBUF - xtract_cell_decl IBUF_IBUFDISABLE - xtract_cell_decl IBUF_INTERMDISABLE - xtract_cell_decl IBUFDS - xtract_cell_decl IBUFDS_DIFF_OUT - xtract_cell_decl IBUFDS_DIFF_OUT_IBUFDISABLE - xtract_cell_decl IBUFDS_DIFF_OUT_INTERMDISABLE - xtract_cell_decl IBUFDS_GTE2 - xtract_cell_decl IBUFDS_IBUFDISABLE - xtract_cell_decl IBUFDS_INTERMDISABLE - xtract_cell_decl ICAPE2 - xtract_cell_decl IDDR - xtract_cell_decl IDDR_2CLK - xtract_cell_decl IDELAYCTRL - xtract_cell_decl IDELAYE2 - xtract_cell_decl IN_FIFO - xtract_cell_decl IOBUF - xtract_cell_decl IOBUF_DCIEN - xtract_cell_decl IOBUF_INTERMDISABLE - xtract_cell_decl IOBUFDS - xtract_cell_decl IOBUFDS_DCIEN - xtract_cell_decl IOBUFDS_DIFF_OUT - xtract_cell_decl IOBUFDS_DIFF_OUT_DCIEN - xtract_cell_decl IOBUFDS_DIFF_OUT_INTERMDISABLE - xtract_cell_decl ISERDESE2 - xtract_cell_decl KEEPER - xtract_cell_decl LDCE - xtract_cell_decl LDPE - # xtract_cell_decl LUT1 - # xtract_cell_decl LUT2 - # xtract_cell_decl LUT3 - # xtract_cell_decl LUT4 - # xtract_cell_decl LUT5 - # xtract_cell_decl LUT6 - xtract_cell_decl LUT6_2 - xtract_cell_decl MMCME2_ADV - xtract_cell_decl MMCME2_BASE - # xtract_cell_decl MUXF7 - # xtract_cell_decl MUXF8 - # xtract_cell_decl OBUF - xtract_cell_decl OBUFDS - xtract_cell_decl OBUFT - xtract_cell_decl OBUFTDS - xtract_cell_decl ODDR - xtract_cell_decl ODELAYE2 - xtract_cell_decl OSERDESE2 - xtract_cell_decl OUT_FIFO - xtract_cell_decl PHASER_IN - xtract_cell_decl PHASER_IN_PHY - xtract_cell_decl PHASER_OUT - xtract_cell_decl PHASER_OUT_PHY - xtract_cell_decl PHASER_REF - xtract_cell_decl PHY_CONTROL - xtract_cell_decl PLLE2_ADV - xtract_cell_decl PLLE2_BASE - xtract_cell_decl PULLDOWN - xtract_cell_decl PULLUP - # xtract_cell_decl RAM128X1D - xtract_cell_decl RAM128X1S - xtract_cell_decl RAM256X1S - xtract_cell_decl RAM32M - xtract_cell_decl RAM32X1D - xtract_cell_decl RAM32X1S - xtract_cell_decl RAM32X1S_1 - xtract_cell_decl RAM32X2S - xtract_cell_decl RAM64M - # xtract_cell_decl RAM64X1D - xtract_cell_decl RAM64X1S - xtract_cell_decl RAM64X1S_1 - xtract_cell_decl RAM64X2S - # xtract_cell_decl RAMB18E1 - # xtract_cell_decl RAMB36E1 - xtract_cell_decl ROM128X1 - xtract_cell_decl ROM256X1 - xtract_cell_decl ROM32X1 - xtract_cell_decl ROM64X1 - xtract_cell_decl SRL16E - xtract_cell_decl SRLC32E - xtract_cell_decl STARTUPE2 - xtract_cell_decl USR_ACCESSE2 - xtract_cell_decl XADC -} > cells_xtra.new - -mv cells_xtra.new cells_xtra.v -exit 0 - diff --git a/techlibs/xilinx/lut2lut.v b/techlibs/xilinx/lut2lut.v deleted file mode 100644 index 061ad2041..000000000 --- a/techlibs/xilinx/lut2lut.v +++ /dev/null @@ -1,65 +0,0 @@ -module LUT1(output O, input I0); - parameter [1:0] INIT = 0; - \$lut #( - .WIDTH(1), - .LUT(INIT) - ) _TECHMAP_REPLACE_ ( - .A(I0), - .Y(O) - ); -endmodule - -module LUT2(output O, input I0, I1); - parameter [3:0] INIT = 0; - \$lut #( - .WIDTH(2), - .LUT(INIT) - ) _TECHMAP_REPLACE_ ( - .A({I1, I0}), - .Y(O) - ); -endmodule - -module LUT3(output O, input I0, I1, I2); - parameter [7:0] INIT = 0; - \$lut #( - .WIDTH(3), - .LUT(INIT) - ) _TECHMAP_REPLACE_ ( - .A({I2, I1, I0}), - .Y(O) - ); -endmodule - -module LUT4(output O, input I0, I1, I2, I3); - parameter [15:0] INIT = 0; - \$lut #( - .WIDTH(4), - .LUT(INIT) - ) _TECHMAP_REPLACE_ ( - .A({I3, I2, I1, I0}), - .Y(O) - ); -endmodule - -module LUT5(output O, input I0, I1, I2, I3, I4); - parameter [31:0] INIT = 0; - \$lut #( - .WIDTH(5), - .LUT(INIT) - ) _TECHMAP_REPLACE_ ( - .A({I4, I3, I2, I1, I0}), - .Y(O) - ); -endmodule - -module LUT6(output O, input I0, I1, I2, I3, I4, I5); - parameter [63:0] INIT = 0; - \$lut #( - .WIDTH(6), - .LUT(INIT) - ) _TECHMAP_REPLACE_ ( - .A({I5, I4, I3, I2, I1, I0}), - .Y(O) - ); -endmodule diff --git a/techlibs/xilinx/lut_map.v b/techlibs/xilinx/lut_map.v new file mode 100644 index 000000000..13d3c3268 --- /dev/null +++ b/techlibs/xilinx/lut_map.v @@ -0,0 +1,119 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +// ============================================================================ +// LUT mapping + +`ifndef _NO_LUTS + +module \$lut (A, Y); + parameter WIDTH = 0; + parameter LUT = 0; + + input [WIDTH-1:0] A; + output Y; + + // Need to swap input ordering, and fix init accordingly, + // to match ABC's expectation of LUT inputs in non-decreasing + // delay order + function [WIDTH-1:0] permute_index; + input [WIDTH-1:0] i; + integer j; + begin + permute_index = 0; + for (j = 0; j < WIDTH; j = j + 1) + permute_index[WIDTH-1 - j] = i[j]; + end + endfunction + + function [2**WIDTH-1:0] permute_init; + input [2**WIDTH-1:0] orig; + integer i; + begin + permute_init = 0; + for (i = 0; i < 2**WIDTH; i = i + 1) + permute_init[i] = orig[permute_index(i)]; + end + endfunction + + parameter [2**WIDTH-1:0] P_LUT = permute_init(LUT); + + generate + if (WIDTH == 1) begin + LUT1 #(.INIT(P_LUT)) _TECHMAP_REPLACE_ (.O(Y), + .I0(A[0])); + end else + if (WIDTH == 2) begin + LUT2 #(.INIT(P_LUT)) _TECHMAP_REPLACE_ (.O(Y), + .I0(A[1]), .I1(A[0])); + end else + if (WIDTH == 3) begin + LUT3 #(.INIT(P_LUT)) _TECHMAP_REPLACE_ (.O(Y), + .I0(A[2]), .I1(A[1]), .I2(A[0])); + end else + if (WIDTH == 4) begin + LUT4 #(.INIT(P_LUT)) _TECHMAP_REPLACE_ (.O(Y), + .I0(A[3]), .I1(A[2]), .I2(A[1]), + .I3(A[0])); + end else + if (WIDTH == 5) begin + LUT5 #(.INIT(P_LUT)) _TECHMAP_REPLACE_ (.O(Y), + .I0(A[4]), .I1(A[3]), .I2(A[2]), + .I3(A[1]), .I4(A[0])); + end else + if (WIDTH == 6) begin + LUT6 #(.INIT(P_LUT)) _TECHMAP_REPLACE_ (.O(Y), + .I0(A[5]), .I1(A[4]), .I2(A[3]), + .I3(A[2]), .I4(A[1]), .I5(A[0])); + end else + if (WIDTH == 7) begin + wire T0, T1; + LUT6 #(.INIT(P_LUT[63:0])) fpga_lut_0 (.O(T0), + .I0(A[6]), .I1(A[5]), .I2(A[4]), + .I3(A[3]), .I4(A[2]), .I5(A[1])); + LUT6 #(.INIT(P_LUT[127:64])) fpga_lut_1 (.O(T1), + .I0(A[6]), .I1(A[5]), .I2(A[4]), + .I3(A[3]), .I4(A[2]), .I5(A[1])); + MUXF7 fpga_mux_0 (.O(Y), .I0(T0), .I1(T1), .S(A[0])); + end else + if (WIDTH == 8) begin + wire T0, T1, T2, T3, T4, T5; + LUT6 #(.INIT(P_LUT[63:0])) fpga_lut_0 (.O(T0), + .I0(A[7]), .I1(A[6]), .I2(A[5]), + .I3(A[4]), .I4(A[3]), .I5(A[2])); + LUT6 #(.INIT(P_LUT[127:64])) fpga_lut_1 (.O(T1), + .I0(A[7]), .I1(A[6]), .I2(A[5]), + .I3(A[4]), .I4(A[3]), .I5(A[2])); + LUT6 #(.INIT(P_LUT[191:128])) fpga_lut_2 (.O(T2), + .I0(A[7]), .I1(A[6]), .I2(A[5]), + .I3(A[4]), .I4(A[3]), .I5(A[2])); + LUT6 #(.INIT(P_LUT[255:192])) fpga_lut_3 (.O(T3), + .I0(A[7]), .I1(A[6]), .I2(A[5]), + .I3(A[4]), .I4(A[3]), .I5(A[2])); + MUXF7 fpga_mux_0 (.O(T4), .I0(T0), .I1(T1), .S(A[1])); + MUXF7 fpga_mux_1 (.O(T5), .I0(T2), .I1(T3), .S(A[1])); + MUXF8 fpga_mux_2 (.O(Y), .I0(T4), .I1(T5), .S(A[0])); + end else begin + wire _TECHMAP_FAIL_ = 1; + end + endgenerate +endmodule + +`endif + diff --git a/techlibs/xilinx/drams.txt b/techlibs/xilinx/lutrams.txt index e6635d0e2..2613c206c 100644 --- a/techlibs/xilinx/drams.txt +++ b/techlibs/xilinx/lutrams.txt @@ -1,4 +1,17 @@ +bram $__XILINX_RAM32X1D + init 1 + abits 5 + dbits 1 + groups 2 + ports 1 1 + wrmode 0 1 + enable 0 1 + transp 0 0 + clocks 0 1 + clkpol 0 2 +endbram + bram $__XILINX_RAM64X1D init 1 abits 6 @@ -25,12 +38,23 @@ bram $__XILINX_RAM128X1D clkpol 0 2 endbram +match $__XILINX_RAM32X1D + min bits 3 + min wports 1 + make_outreg + or_next_if_better +endmatch + match $__XILINX_RAM64X1D + min bits 5 + min wports 1 make_outreg or_next_if_better endmatch match $__XILINX_RAM128X1D + min bits 9 + min wports 1 make_outreg endmatch diff --git a/techlibs/xilinx/drams_map.v b/techlibs/xilinx/lutrams_map.v index 47476b592..77041ca86 100644 --- a/techlibs/xilinx/drams_map.v +++ b/techlibs/xilinx/lutrams_map.v @@ -1,4 +1,38 @@ +module \$__XILINX_RAM32X1D (CLK1, A1ADDR, A1DATA, B1ADDR, B1DATA, B1EN); + parameter [31:0] INIT = 32'bx; + parameter CLKPOL2 = 1; + input CLK1; + + input [4:0] A1ADDR; + output A1DATA; + + input [4:0] B1ADDR; + input B1DATA; + input B1EN; + + RAM32X1D #( + .INIT(INIT), + .IS_WCLK_INVERTED(!CLKPOL2) + ) _TECHMAP_REPLACE_ ( + .DPRA0(A1ADDR[0]), + .DPRA1(A1ADDR[1]), + .DPRA2(A1ADDR[2]), + .DPRA3(A1ADDR[3]), + .DPRA4(A1ADDR[4]), + .DPO(A1DATA), + + .A0(B1ADDR[0]), + .A1(B1ADDR[1]), + .A2(B1ADDR[2]), + .A3(B1ADDR[3]), + .A4(B1ADDR[4]), + .D(B1DATA), + .WCLK(CLK1), + .WE(B1EN) + ); +endmodule + module \$__XILINX_RAM64X1D (CLK1, A1ADDR, A1DATA, B1ADDR, B1DATA, B1EN); parameter [63:0] INIT = 64'bx; parameter CLKPOL2 = 1; diff --git a/techlibs/xilinx/mux_map.v b/techlibs/xilinx/mux_map.v new file mode 100644 index 000000000..91aaf2118 --- /dev/null +++ b/techlibs/xilinx/mux_map.v @@ -0,0 +1,71 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * 2019 Eddie Hung <eddie@fpgeh.com> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +// The purpose of these mapping rules is to allow preserve all (sufficiently +// wide) $shiftx cells during 'techmap' so that they can be mapped to hard +// resources, rather than being bit-blasted to gates during 'techmap' +// execution + +module \$shiftx (A, B, Y); + parameter A_SIGNED = 0; + parameter B_SIGNED = 0; + parameter A_WIDTH = 1; + parameter B_WIDTH = 1; + parameter Y_WIDTH = 1; + + input [A_WIDTH-1:0] A; + input [B_WIDTH-1:0] B; + output [Y_WIDTH-1:0] Y; + + parameter [B_WIDTH-1:0] _TECHMAP_CONSTMSK_B_ = 0; + parameter [B_WIDTH-1:0] _TECHMAP_CONSTVAL_B_ = 0; + + generate + if (B_SIGNED) begin + if (_TECHMAP_CONSTMSK_B_[B_WIDTH-1] && (_TECHMAP_CONSTVAL_B_[B_WIDTH-1] == 1'b0 || _TECHMAP_CONSTVAL_B_[B_WIDTH-1] === 1'bx)) + // Optimisation to remove B_SIGNED if sign bit of B is constant-0 + \$shiftx #( + .A_SIGNED(A_SIGNED), + .B_SIGNED(0), + .A_WIDTH(A_WIDTH), + .B_WIDTH(B_WIDTH-1'd1), + .Y_WIDTH(Y_WIDTH) + ) _TECHMAP_REPLACE_ ( + .A(A), .B(B[B_WIDTH-2:0]), .Y(Y) + ); + else + wire _TECHMAP_FAIL_ = 1; + end + else begin + if (((A_WIDTH + Y_WIDTH - 1) / Y_WIDTH) < `MIN_MUX_INPUTS) + wire _TECHMAP_FAIL_ = 1; + else + \$__XILINX_SHIFTX #( + .A_SIGNED(A_SIGNED), + .B_SIGNED(B_SIGNED), + .A_WIDTH(A_WIDTH), + .B_WIDTH(B_WIDTH), + .Y_WIDTH(Y_WIDTH) + ) _TECHMAP_REPLACE_ ( + .A(A), .B(B), .Y(Y) + ); + end + endgenerate +endmodule diff --git a/techlibs/xilinx/synth_xilinx.cc b/techlibs/xilinx/synth_xilinx.cc index 1bc61daef..888b5ed7b 100644 --- a/techlibs/xilinx/synth_xilinx.cc +++ b/techlibs/xilinx/synth_xilinx.cc @@ -2,6 +2,7 @@ * yosys -- Yosys Open SYnthesis Suite * * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * (C) 2019 Eddie Hung <eddie@fpgeh.com> * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above @@ -25,20 +26,14 @@ USING_YOSYS_NAMESPACE PRIVATE_NAMESPACE_BEGIN -bool check_label(bool &active, std::string run_from, std::string run_to, std::string label) -{ - if (label == run_from) - active = true; - if (label == run_to) - active = false; - return active; -} - -struct SynthXilinxPass : public Pass +#define XC7_WIRE_DELAY 300 // Number with which ABC will map a 6-input gate + // to one LUT6 (instead of a LUT5 + LUT2) + +struct SynthXilinxPass : public ScriptPass { - SynthXilinxPass() : Pass("synth_xilinx", "synthesis for Xilinx FPGAs") { } + SynthXilinxPass() : ScriptPass("synth_xilinx", "synthesis for Xilinx FPGAs") { } - virtual void help() + void help() YS_OVERRIDE { // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| log("\n"); @@ -51,6 +46,11 @@ struct SynthXilinxPass : public Pass log(" -top <module>\n"); log(" use the specified module as top module\n"); log("\n"); + log(" -family {xcup|xcu|xc7|xc6v|xc6s}\n"); + log(" run synthesis for the specified Xilinx architecture\n"); + log(" generate the synthesis netlist for the specified family.\n"); + log(" default: xc7\n"); + log("\n"); log(" -edif <file>\n"); log(" write the design to the specified edif file. writing of an output file\n"); log(" is omitted if this parameter is not specified.\n"); @@ -63,80 +63,91 @@ struct SynthXilinxPass : public Pass log(" generate an output netlist (and BLIF file) suitable for VPR\n"); log(" (this feature is experimental and incomplete)\n"); log("\n"); - log(" -run <from_label>:<to_label>\n"); - log(" only run the commands between the labels (see below). an empty\n"); - log(" from label is synonymous to 'begin', and empty to label is\n"); - log(" synonymous to the end of the command list.\n"); + log(" -ise\n"); + log(" generate an output netlist suitable for ISE (enables -iopad)\n"); log("\n"); - log(" -flatten\n"); - log(" flatten design before synthesis\n"); + log(" -nobram\n"); + log(" do not use block RAM cells in output netlist\n"); log("\n"); - log(" -retime\n"); - log(" run 'abc' with -dff option\n"); + log(" -nolutram\n"); + log(" do not use distributed RAM cells in output netlist\n"); log("\n"); + log(" -nosrl\n"); + log(" do not use distributed SRL cells in output netlist\n"); log("\n"); - log("The following commands are executed by this synthesis command:\n"); + log(" -nocarry\n"); + log(" do not use XORCY/MUXCY/CARRY4 cells in output netlist\n"); log("\n"); - log(" begin:\n"); - log(" read_verilog -lib +/xilinx/cells_sim.v\n"); - log(" read_verilog -lib +/xilinx/cells_xtra.v\n"); - log(" read_verilog -lib +/xilinx/brams_bb.v\n"); - log(" hierarchy -check -top <top>\n"); + log(" -nowidelut\n"); + log(" do not use MUXF[78] resources to implement LUTs larger than LUT6s\n"); log("\n"); - log(" flatten: (only if -flatten)\n"); - log(" proc\n"); - log(" flatten\n"); + log(" -iopad\n"); + log(" enable I/O buffer insertion (selected automatically by -ise)\n"); log("\n"); - log(" coarse:\n"); - log(" synth -run coarse\n"); + log(" -noiopad\n"); + log(" disable I/O buffer insertion (only useful with -ise)\n"); log("\n"); - log(" bram:\n"); - log(" memory_bram -rules +/xilinx/brams.txt\n"); - log(" techmap -map +/xilinx/brams_map.v\n"); + log(" -noclkbuf\n"); + log(" disable automatic clock buffer insertion\n"); log("\n"); - log(" dram:\n"); - log(" memory_bram -rules +/xilinx/drams.txt\n"); - log(" techmap -map +/xilinx/drams_map.v\n"); + log(" -widemux <int>\n"); + log(" enable inference of hard multiplexer resources (MUXF[78]) for muxes at or\n"); + log(" above this number of inputs (minimum value 2, recommended value >= 5).\n"); + log(" default: 0 (no inference)\n"); log("\n"); - log(" fine:\n"); - log(" opt -fast -full\n"); - log(" memory_map\n"); - log(" dffsr2dff\n"); - log(" dff2dffe\n"); - log(" opt -full\n"); - log(" techmap -map +/techmap.v -map +/xilinx/arith_map.v\n"); - log(" opt -fast\n"); + log(" -run <from_label>:<to_label>\n"); + log(" only run the commands between the labels (see below). an empty\n"); + log(" from label is synonymous to 'begin', and empty to label is\n"); + log(" synonymous to the end of the command list.\n"); log("\n"); - log(" map_luts:\n"); - log(" abc -luts 2:2,3,6:5,10,20 [-dff]\n"); - log(" clean\n"); + log(" -flatten\n"); + log(" flatten design before synthesis\n"); log("\n"); - log(" map_cells:\n"); - log(" techmap -map +/xilinx/cells_map.v (with -D NO_LUT in vpr mode)\n"); - log(" dffinit -ff FDRE Q INIT -ff FDCE Q INIT -ff FDPE Q INIT\n"); - log(" clean\n"); + log(" -retime\n"); + log(" run 'abc' with -dff option\n"); log("\n"); - log(" check:\n"); - log(" hierarchy -check\n"); - log(" stat\n"); - log(" check -noinit\n"); + log(" -abc9\n"); + log(" use new ABC9 flow (EXPERIMENTAL)\n"); log("\n"); - log(" edif: (only if -edif)\n"); - log(" write_edif <file-name>\n"); log("\n"); - log(" blif: (only if -blif)\n"); - log(" write_blif <file-name>\n"); + log("The following commands are executed by this synthesis command:\n"); + help_script(); log("\n"); } - virtual void execute(std::vector<std::string> args, RTLIL::Design *design) + + std::string top_opt, edif_file, blif_file, family; + bool flatten, retime, vpr, ise, iopad, noiopad, noclkbuf, nobram, nolutram, nosrl, nocarry, nowidelut, abc9; + bool flatten_before_abc; + int widemux; + + void clear_flags() YS_OVERRIDE + { + top_opt = "-auto-top"; + edif_file.clear(); + blif_file.clear(); + family = "xc7"; + flatten = false; + retime = false; + vpr = false; + ise = false; + iopad = false; + noiopad = false; + noclkbuf = false; + nocarry = false; + nobram = false; + nolutram = false; + nosrl = false; + nocarry = false; + nowidelut = false; + abc9 = false; + flatten_before_abc = false; + widemux = 0; + } + + void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE { - std::string top_opt = "-auto-top"; - std::string edif_file; - std::string blif_file; std::string run_from, run_to; - bool flatten = false; - bool retime = false; - bool vpr = false; + clear_flags(); size_t argidx; for (argidx = 1; argidx < args.size(); argidx++) @@ -145,6 +156,10 @@ struct SynthXilinxPass : public Pass top_opt = "-top " + args[++argidx]; continue; } + if ((args[argidx] == "-family" || args[argidx] == "-arch") && argidx+1 < args.size()) { + family = args[++argidx]; + continue; + } if (args[argidx] == "-edif" && argidx+1 < args.size()) { edif_file = args[++argidx]; continue; @@ -165,103 +180,332 @@ struct SynthXilinxPass : public Pass flatten = true; continue; } + if (args[argidx] == "-flatten_before_abc") { + flatten_before_abc = true; + continue; + } if (args[argidx] == "-retime") { retime = true; continue; } + if (args[argidx] == "-nocarry") { + nocarry = true; + continue; + } + if (args[argidx] == "-nowidelut") { + nowidelut = true; + continue; + } if (args[argidx] == "-vpr") { vpr = true; continue; } + if (args[argidx] == "-ise") { + ise = true; + continue; + } + if (args[argidx] == "-iopad") { + iopad = true; + continue; + } + if (args[argidx] == "-noiopad") { + noiopad = true; + continue; + } + if (args[argidx] == "-noclkbuf") { + noclkbuf = true; + continue; + } + if (args[argidx] == "-nocarry") { + nocarry = true; + continue; + } + if (args[argidx] == "-nobram") { + nobram = true; + continue; + } + if (args[argidx] == "-nolutram" || /*deprecated alias*/ args[argidx] == "-nodram") { + nolutram = true; + continue; + } + if (args[argidx] == "-nosrl") { + nosrl = true; + continue; + } + if (args[argidx] == "-widemux" && argidx+1 < args.size()) { + widemux = atoi(args[++argidx].c_str()); + continue; + } + if (args[argidx] == "-abc9") { + abc9 = true; + continue; + } break; } extra_args(args, argidx, design); + if (family != "xcup" && family != "xcu" && family != "xc7" && family != "xc6v" && family != "xc6s") + log_cmd_error("Invalid Xilinx -family setting: '%s'.\n", family.c_str()); + + if (widemux != 0 && widemux < 2) + log_cmd_error("-widemux value must be 0 or >= 2.\n"); + if (!design->full_selection()) - log_cmd_error("This comannd only operates on fully selected designs!\n"); + log_cmd_error("This command only operates on fully selected designs!\n"); - bool active = run_from.empty(); + if (abc9 && retime) + log_cmd_error("-retime option not currently compatible with -abc9!\n"); log_header(design, "Executing SYNTH_XILINX pass.\n"); log_push(); - if (check_label(active, run_from, run_to, "begin")) - { - Pass::call(design, "read_verilog -lib +/xilinx/cells_sim.v"); - Pass::call(design, "read_verilog -lib +/xilinx/cells_xtra.v"); - Pass::call(design, "read_verilog -lib +/xilinx/brams_bb.v"); - Pass::call(design, stringf("hierarchy -check %s", top_opt.c_str())); + run_script(design, run_from, run_to); + + log_pop(); + } + + void script() YS_OVERRIDE + { + std::string ff_map_file; + if (help_mode) + ff_map_file = "+/xilinx/{family}_ff_map.v"; + else if (family == "xc6s") + ff_map_file = "+/xilinx/xc6s_ff_map.v"; + else + ff_map_file = "+/xilinx/xc7_ff_map.v"; + + if (check_label("begin")) { + if (vpr) + run("read_verilog -lib -D_EXPLICIT_CARRY +/xilinx/cells_sim.v"); + else + run("read_verilog -lib +/xilinx/cells_sim.v"); + + if (help_mode) + run("read_verilog -lib +/xilinx/{family}_cells_xtra.v"); + else if (family == "xc6s") + run("read_verilog -lib +/xilinx/xc6s_cells_xtra.v"); + else if (family == "xc6v") + run("read_verilog -lib +/xilinx/xc6v_cells_xtra.v"); + else if (family == "xc7") + run("read_verilog -lib +/xilinx/xc7_cells_xtra.v"); + else if (family == "xcu" || family == "xcup") + run("read_verilog -lib +/xilinx/xcu_cells_xtra.v"); + + if (help_mode) { + run("read_verilog -lib +/xilinx/{family}_brams_bb.v"); + } else if (family == "xc6s") { + run("read_verilog -lib +/xilinx/xc6s_brams_bb.v"); + } else if (family == "xc6v" || family == "xc7") { + run("read_verilog -lib +/xilinx/xc7_brams_bb.v"); + } + + run(stringf("hierarchy -check %s", top_opt.c_str())); } - if (flatten && check_label(active, run_from, run_to, "flatten")) - { - Pass::call(design, "proc"); - Pass::call(design, "flatten"); + if (check_label("coarse")) { + run("proc"); + if (help_mode || flatten) + run("flatten", "(if -flatten)"); + run("opt_expr"); + run("opt_clean"); + run("check"); + run("opt"); + if (help_mode) + run("wreduce [-keepdc]", "(option for '-widemux')"); + else + run("wreduce" + std::string(widemux > 0 ? " -keepdc" : "")); + run("peepopt"); + run("opt_clean"); + + if (widemux > 0 || help_mode) + run("muxpack", " ('-widemux' only)"); + + // xilinx_srl looks for $shiftx cells for identifying variable-length + // shift registers, so attempt to convert $pmux-es to this + // Also: wide multiplexer inference benefits from this too + if (!(nosrl && widemux == 0) || help_mode) { + run("pmux2shiftx", "(skip if '-nosrl' and '-widemux=0')"); + run("clean", " (skip if '-nosrl' and '-widemux=0')"); + } + + run("techmap -map +/cmp2lut.v -D LUT_WIDTH=6"); + run("alumacc"); + run("share"); + run("opt"); + run("fsm"); + run("opt -fast"); + run("memory -nomap"); + run("opt_clean"); } - if (check_label(active, run_from, run_to, "coarse")) - { - Pass::call(design, "synth -run coarse"); + if (check_label("map_bram", "(skip if '-nobram')")) { + if (help_mode) { + run("memory_bram -rules +/xilinx/{family}_brams.txt"); + run("techmap -map +/xilinx/{family}_brams_map.v"); + } else if (!nobram) { + if (family == "xc6s") { + run("memory_bram -rules +/xilinx/xc6s_brams.txt"); + run("techmap -map +/xilinx/xc6s_brams_map.v"); + } else if (family == "xc6v" || family == "xc7") { + run("memory_bram -rules +/xilinx/xc7_brams.txt"); + run("techmap -map +/xilinx/xc7_brams_map.v"); + } else { + log_warning("Block RAM inference not yet supported for family %s.\n", family.c_str()); + } + } } - if (check_label(active, run_from, run_to, "bram")) - { - Pass::call(design, "memory_bram -rules +/xilinx/brams.txt"); - Pass::call(design, "techmap -map +/xilinx/brams_map.v"); + if (check_label("map_lutram", "(skip if '-nolutram')")) { + if (!nolutram || help_mode) { + run("memory_bram -rules +/xilinx/lutrams.txt"); + run("techmap -map +/xilinx/lutrams_map.v"); + } } - if (check_label(active, run_from, run_to, "dram")) - { - Pass::call(design, "memory_bram -rules +/xilinx/drams.txt"); - Pass::call(design, "techmap -map +/xilinx/drams_map.v"); + if (check_label("map_ffram")) { + if (widemux > 0) + run("opt -fast -mux_bool -undriven -fine"); // Necessary to omit -mux_undef otherwise muxcover + // performs less efficiently + else + run("opt -fast -full"); + run("memory_map"); } - if (check_label(active, run_from, run_to, "fine")) - { - Pass::call(design, "opt -fast -full"); - Pass::call(design, "memory_map"); - Pass::call(design, "dffsr2dff"); - Pass::call(design, "dff2dffe"); - Pass::call(design, "opt -full"); - Pass::call(design, "techmap -map +/techmap.v -map +/xilinx/arith_map.v"); - Pass::call(design, "opt -fast"); + if (check_label("fine")) { + run("dffsr2dff"); + run("dff2dffe"); + if (help_mode) { + run("simplemap t:$mux", " ('-widemux' only)"); + run("muxcover <internal options>, ('-widemux' only)"); + } + else if (widemux > 0) { + run("simplemap t:$mux"); + constexpr int cost_mux2 = 100; + std::string muxcover_args = stringf(" -nodecode -mux2=%d", cost_mux2); + switch (widemux) { + case 2: muxcover_args += stringf(" -mux4=%d -mux8=%d -mux16=%d", cost_mux2+1, cost_mux2+2, cost_mux2+3); break; + case 3: + case 4: muxcover_args += stringf(" -mux4=%d -mux8=%d -mux16=%d", cost_mux2*(widemux-1)-2, cost_mux2*(widemux-1)-1, cost_mux2*(widemux-1)); break; + case 5: + case 6: + case 7: + case 8: muxcover_args += stringf(" -mux8=%d -mux16=%d", cost_mux2*(widemux-1)-1, cost_mux2*(widemux-1)); break; + case 9: + case 10: + case 11: + case 12: + case 13: + case 14: + case 15: + default: muxcover_args += stringf(" -mux16=%d", cost_mux2*(widemux-1)-1); break; + } + run("muxcover " + muxcover_args); + } + run("opt -full"); + + if (!nosrl || help_mode) + run("xilinx_srl -variable -minlen 3", "(skip if '-nosrl')"); + + std::string techmap_args = " -map +/techmap.v"; + if (help_mode) + techmap_args += " [-map +/xilinx/mux_map.v]"; + else if (widemux > 0) + techmap_args += stringf(" -D MIN_MUX_INPUTS=%d -map +/xilinx/mux_map.v", widemux); + if (help_mode) + techmap_args += " [-map +/xilinx/arith_map.v]"; + else if (!nocarry) { + techmap_args += " -map +/xilinx/arith_map.v"; + if (vpr) + techmap_args += " -D _EXPLICIT_CARRY"; + else if (abc9) + techmap_args += " -D _CLB_CARRY"; + } + run("techmap " + techmap_args); + run("opt -fast"); } - if (check_label(active, run_from, run_to, "map_luts")) - { - Pass::call(design, "abc -luts 2:2,3,6:5,10,20" + string(retime ? " -dff" : "")); - Pass::call(design, "clean"); + if (check_label("map_cells")) { + std::string techmap_args = "-map +/techmap.v -map +/xilinx/cells_map.v"; + if (widemux > 0) + techmap_args += stringf(" -D MIN_MUX_INPUTS=%d", widemux); + run("techmap " + techmap_args); + run("clean"); } - if (check_label(active, run_from, run_to, "map_cells")) - { - if (vpr) - Pass::call(design, "techmap -D NO_LUT -map +/xilinx/cells_map.v"); + if (check_label("map_ffs")) { + if (abc9 || help_mode) { + run("techmap -map " + ff_map_file, "('-abc9' only)"); + } + } + + if (check_label("map_luts")) { + run("opt_expr -mux_undef"); + if (flatten_before_abc) + run("flatten"); + if (help_mode) + run("abc -luts 2:2,3,6:5[,10,20] [-dff]", "(option for 'nowidelut'; option for '-retime')"); + else if (abc9) { + if (family != "xc7") + log_warning("'synth_xilinx -abc9' currently supports '-family xc7' only.\n"); + run("techmap -map +/xilinx/abc_map.v -max_iter 1"); + run("read_verilog -icells -lib +/xilinx/abc_model.v"); + if (nowidelut) + run("abc9 -lut +/xilinx/abc_xc7_nowide.lut -box +/xilinx/abc_xc7.box -W " + std::to_string(XC7_WIRE_DELAY)); + else + run("abc9 -lut +/xilinx/abc_xc7.lut -box +/xilinx/abc_xc7.box -W " + std::to_string(XC7_WIRE_DELAY)); + } + else { + if (nowidelut) + run("abc -luts 2:2,3,6:5" + string(retime ? " -dff" : "")); + else + run("abc -luts 2:2,3,6:5,10,20" + string(retime ? " -dff" : "")); + } + run("clean"); + + // This shregmap call infers fixed length shift registers after abc + // has performed any necessary retiming + if (!nosrl || help_mode) + run("xilinx_srl -fixed -minlen 3", "(skip if '-nosrl')"); + std::string techmap_args = "-map +/xilinx/lut_map.v -map +/xilinx/cells_map.v"; + if (help_mode) + techmap_args += " [-map " + ff_map_file + "]"; + else if (abc9) + techmap_args += " -map +/xilinx/abc_unmap.v"; else - Pass::call(design, "techmap -map +/xilinx/cells_map.v"); - Pass::call(design, "dffinit -ff FDRE Q INIT -ff FDCE Q INIT -ff FDPE Q INIT"); - Pass::call(design, "clean"); + techmap_args += " -map " + ff_map_file; + run("techmap " + techmap_args); + run("clean"); } - if (check_label(active, run_from, run_to, "check")) - { - Pass::call(design, "hierarchy -check"); - Pass::call(design, "stat"); - Pass::call(design, "check -noinit"); + if (check_label("finalize")) { + bool do_iopad = iopad || (ise && !noiopad); + if (help_mode || !noclkbuf) { + if (help_mode || do_iopad) + run("clkbufmap -buf BUFG O:I -inpad IBUFG O:I", "(skip if '-noclkbuf', '-inpad' passed if '-iopad' or '-ise' and not '-noiopad')"); + else + run("clkbufmap -buf BUFG O:I"); + } + if (help_mode || do_iopad) + run("iopadmap -bits -outpad OBUF I:O -inpad IBUF O:I A:top", "(only if '-iopad' or '-ise' and not '-noiopad')"); + if (help_mode || ise) + run("extractinv -inv INV O:I", "(only if '-ise')"); } - if (check_label(active, run_from, run_to, "edif")) - { - if (!edif_file.empty()) - Pass::call(design, stringf("write_edif %s", edif_file.c_str())); + if (check_label("check")) { + run("hierarchy -check"); + run("stat -tech xilinx"); + run("check -noinit"); } - if (check_label(active, run_from, run_to, "blif")) - { - if (!blif_file.empty()) - Pass::call(design, stringf("write_blif %s", edif_file.c_str())); + + if (check_label("edif")) { + if (!edif_file.empty() || help_mode) + run(stringf("write_edif -pvector bra %s", edif_file.c_str())); } - log_pop(); + if (check_label("blif")) { + if (!blif_file.empty() || help_mode) + run(stringf("write_blif %s", edif_file.c_str())); + } } } SynthXilinxPass; diff --git a/techlibs/xilinx/xc6s_brams.txt b/techlibs/xilinx/xc6s_brams.txt new file mode 100644 index 000000000..17cd8e355 --- /dev/null +++ b/techlibs/xilinx/xc6s_brams.txt @@ -0,0 +1,84 @@ + +bram $__XILINX_RAMB8BWER_SDP + init 1 + abits 8 + dbits 36 + groups 2 + ports 1 1 + wrmode 0 1 + enable 1 4 + transp 0 0 + clocks 2 3 + clkpol 2 3 +endbram + +bram $__XILINX_RAMB16BWER_TDP + init 1 + abits 9 @a9d36 + dbits 36 @a9d36 + abits 10 @a10d18 + dbits 18 @a10d18 + abits 11 @a11d9 + dbits 9 @a11d9 + abits 12 @a12d4 + dbits 4 @a12d4 + abits 13 @a13d2 + dbits 2 @a13d2 + abits 14 @a14d1 + dbits 1 @a14d1 + groups 2 + ports 1 1 + wrmode 0 1 + enable 1 4 @a9d36 + enable 1 2 @a10d18 + enable 1 1 @a11d9 @a12d4 @a13d2 @a14d1 + transp 0 0 + clocks 2 3 + clkpol 2 3 +endbram + +bram $__XILINX_RAMB8BWER_TDP + init 1 + abits 9 @a9d18 + dbits 18 @a9d18 + abits 10 @a10d9 + dbits 9 @a10d9 + abits 11 @a11d4 + dbits 4 @a11d4 + abits 12 @a12d2 + dbits 2 @a12d2 + abits 13 @a13d1 + dbits 1 @a13d1 + groups 2 + ports 1 1 + wrmode 0 1 + enable 1 2 @a9d18 + enable 1 1 @a10d9 @a11d4 @a12d2 @a13d1 + transp 0 0 + clocks 2 3 + clkpol 2 3 +endbram + +match $__XILINX_RAMB8BWER_SDP + min bits 4096 + min efficiency 5 + shuffle_enable B + make_transp + or_next_if_better +endmatch + +match $__XILINX_RAMB16BWER_TDP + min bits 4096 + min efficiency 5 + shuffle_enable B + make_transp + or_next_if_better +endmatch + +match $__XILINX_RAMB8BWER_TDP + min bits 4096 + min efficiency 5 + shuffle_enable B + make_transp +endmatch + diff --git a/techlibs/xilinx/xc6s_brams_bb.v b/techlibs/xilinx/xc6s_brams_bb.v new file mode 100644 index 000000000..041d6b54f --- /dev/null +++ b/techlibs/xilinx/xc6s_brams_bb.v @@ -0,0 +1,215 @@ +module RAMB8BWER ( + (* clkbuf_sink *) + input CLKAWRCLK, + (* clkbuf_sink *) + input CLKBRDCLK, + input ENAWREN, + input ENBRDEN, + input REGCEA, + input REGCEBREGCE, + input RSTA, + input RSTBRST, + + input [12:0] ADDRAWRADDR, + input [12:0] ADDRBRDADDR, + input [15:0] DIADI, + input [15:0] DIBDI, + input [1:0] DIPADIP, + input [1:0] DIPBDIP, + input [1:0] WEAWEL, + input [1:0] WEBWEU, + + output [15:0] DOADO, + output [15:0] DOBDO, + output [1:0] DOPADOP, + output [1:0] DOPBDOP +); + parameter INITP_00 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INITP_01 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INITP_02 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INITP_03 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + + parameter INIT_00 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_01 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_02 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_03 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_04 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_05 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_06 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_07 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_08 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_09 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_10 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_11 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_12 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_13 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_14 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_15 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_16 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_17 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_18 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_19 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + + parameter RAM_MODE = "TDP"; + parameter integer DOA_REG = 0; + parameter integer DOB_REG = 0; + + parameter integer DATA_WIDTH_A = 0; + parameter integer DATA_WIDTH_B = 0; + + parameter WRITE_MODE_A = "WRITE_FIRST"; + parameter WRITE_MODE_B = "WRITE_FIRST"; + + parameter EN_RSTRAM_A = "TRUE"; + parameter EN_RSTRAM_B = "TRUE"; + + parameter INIT_A = 18'h000000000; + parameter INIT_B = 18'h000000000; + parameter SRVAL_A = 18'h000000000; + parameter SRVAL_B = 18'h000000000; + + parameter RST_PRIORITY_A = "CE"; + parameter RST_PRIORITY_B = "CE"; + + parameter RSTTYPE = "SYNC"; + + parameter SIM_COLLISION_CHECK = "ALL"; +endmodule + +module RAMB16BWER ( + (* clkbuf_sink *) + input CLKA, + (* clkbuf_sink *) + input CLKB, + input ENA, + input ENB, + input REGCEA, + input REGCEB, + input RSTA, + input RSTB, + + input [13:0] ADDRA, + input [13:0] ADDRB, + input [31:0] DIA, + input [31:0] DIB, + input [3:0] DIPA, + input [3:0] DIPB, + input [3:0] WEA, + input [3:0] WEB, + + output [31:0] DOA, + output [31:0] DOB, + output [3:0] DOPA, + output [3:0] DOPB +); + parameter INITP_00 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INITP_01 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INITP_02 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INITP_03 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INITP_04 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INITP_05 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INITP_06 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INITP_07 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + + parameter INIT_00 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_01 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_02 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_03 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_04 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_05 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_06 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_07 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_08 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_09 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_0F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_10 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_11 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_12 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_13 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_14 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_15 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_16 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_17 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_18 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_19 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_1F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_20 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_21 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_22 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_23 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_24 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_25 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_26 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_27 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_28 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_29 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_2A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_2B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_2C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_2D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_2E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_2F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_30 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_31 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_32 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_33 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_34 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_35 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_36 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_37 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_38 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_39 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_3A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_3B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_3C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_3D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_3E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter INIT_3F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + + parameter integer DOA_REG = 0; + parameter integer DOB_REG = 0; + + parameter integer DATA_WIDTH_A = 0; + parameter integer DATA_WIDTH_B = 0; + + parameter WRITE_MODE_A = "WRITE_FIRST"; + parameter WRITE_MODE_B = "WRITE_FIRST"; + + parameter EN_RSTRAM_A = "TRUE"; + parameter EN_RSTRAM_B = "TRUE"; + + parameter INIT_A = 36'h000000000; + parameter INIT_B = 36'h000000000; + parameter SRVAL_A = 36'h000000000; + parameter SRVAL_B = 36'h000000000; + + parameter RST_PRIORITY_A = "CE"; + parameter RST_PRIORITY_B = "CE"; + + parameter RSTTYPE = "SYNC"; + + parameter SIM_COLLISION_CHECK = "ALL"; +endmodule + diff --git a/techlibs/xilinx/xc6s_brams_map.v b/techlibs/xilinx/xc6s_brams_map.v new file mode 100644 index 000000000..16fd15e74 --- /dev/null +++ b/techlibs/xilinx/xc6s_brams_map.v @@ -0,0 +1,255 @@ +module \$__XILINX_RAMB8BWER_SDP (CLK2, CLK3, A1ADDR, A1DATA, A1EN, B1ADDR, B1DATA, B1EN); + parameter CLKPOL2 = 1; + parameter CLKPOL3 = 1; + parameter [9215:0] INIT = 9216'bx; + + input CLK2; + input CLK3; + + input [7:0] A1ADDR; + output [35:0] A1DATA; + input A1EN; + + input [7:0] B1ADDR; + input [35:0] B1DATA; + input [3:0] B1EN; + + wire [12:0] A1ADDR_13 = {A1ADDR, 5'b0}; + wire [12:0] B1ADDR_13 = {B1ADDR, 5'b0}; + + wire [3:0] DIP, DOP; + wire [31:0] DI, DO; + + assign A1DATA = { DOP[3], DO[31:24], DOP[2], DO[23:16], DOP[1], DO[15: 8], DOP[0], DO[ 7: 0] }; + assign { DIP[3], DI[31:24], DIP[2], DI[23:16], DIP[1], DI[15: 8], DIP[0], DI[ 7: 0] } = B1DATA; + + RAMB8BWER #( + .RAM_MODE("SDP"), + .DATA_WIDTH_A(36), + .DATA_WIDTH_B(36), + .WRITE_MODE_A("READ_FIRST"), + .WRITE_MODE_B("READ_FIRST"), + `include "brams_init_9.vh" + ) _TECHMAP_REPLACE_ ( + .DOBDO(DO[31:16]), + .DOADO(DO[15:0]), + .DOPBDOP(DOP[3:2]), + .DOPADOP(DOP[1:0]), + .DIBDI(DI[31:16]), + .DIADI(DI[15:0]), + .DIPBDIP(DIP[3:2]), + .DIPADIP(DIP[1:0]), + .WEBWEU(B1EN[3:2]), + .WEAWEL(B1EN[1:0]), + + .ADDRAWRADDR(B1ADDR_13), + .CLKAWRCLK(CLK3 ^ !CLKPOL3), + .ENAWREN(|1), + .REGCEA(|0), + .RSTA(|0), + + .ADDRBRDADDR(A1ADDR_13), + .CLKBRDCLK(CLK2 ^ !CLKPOL2), + .ENBRDEN(A1EN), + .REGCEBREGCE(|1), + .RSTBRST(|0) + ); +endmodule + +// ------------------------------------------------------------------------ + +module \$__XILINX_RAMB16BWER_TDP (CLK2, CLK3, A1ADDR, A1DATA, A1EN, B1ADDR, B1DATA, B1EN); + parameter CFG_ABITS = 9; + parameter CFG_DBITS = 36; + parameter CFG_ENABLE_B = 4; + + parameter CLKPOL2 = 1; + parameter CLKPOL3 = 1; + parameter [18431:0] INIT = 18432'bx; + + input CLK2; + input CLK3; + + input [CFG_ABITS-1:0] A1ADDR; + output [CFG_DBITS-1:0] A1DATA; + input A1EN; + + input [CFG_ABITS-1:0] B1ADDR; + input [CFG_DBITS-1:0] B1DATA; + input [CFG_ENABLE_B-1:0] B1EN; + + wire [13:0] A1ADDR_14 = A1ADDR << (14 - CFG_ABITS); + wire [13:0] B1ADDR_14 = B1ADDR << (14 - CFG_ABITS); + wire [3:0] B1EN_4 = {4{B1EN}}; + + wire [3:0] DIP, DOP; + wire [31:0] DI, DO; + + wire [31:0] DOB; + wire [3:0] DOPB; + + assign A1DATA = { DOP[3], DO[31:24], DOP[2], DO[23:16], DOP[1], DO[15: 8], DOP[0], DO[ 7: 0] }; + assign { DIP[3], DI[31:24], DIP[2], DI[23:16], DIP[1], DI[15: 8], DIP[0], DI[ 7: 0] } = B1DATA; + + generate if (CFG_DBITS > 8) begin + RAMB16BWER #( + .DATA_WIDTH_A(CFG_DBITS), + .DATA_WIDTH_B(CFG_DBITS), + .WRITE_MODE_A("READ_FIRST"), + .WRITE_MODE_B("READ_FIRST"), + `include "brams_init_18.vh" + ) _TECHMAP_REPLACE_ ( + .DIA(32'd0), + .DIPA(4'd0), + .DOA(DO[31:0]), + .DOPA(DOP[3:0]), + .ADDRA(A1ADDR_14), + .CLKA(CLK2 ^ !CLKPOL2), + .ENA(A1EN), + .REGCEA(|1), + .RSTA(|0), + .WEA(4'b0), + + .DIB(DI), + .DIPB(DIP), + .DOB(DOB), + .DOPB(DOPB), + .ADDRB(B1ADDR_14), + .CLKB(CLK3 ^ !CLKPOL3), + .ENB(|1), + .REGCEB(|0), + .RSTB(|0), + .WEB(B1EN_4) + ); + end else begin + RAMB16BWER #( + .DATA_WIDTH_A(CFG_DBITS), + .DATA_WIDTH_B(CFG_DBITS), + .WRITE_MODE_A("READ_FIRST"), + .WRITE_MODE_B("READ_FIRST"), + `include "brams_init_16.vh" + ) _TECHMAP_REPLACE_ ( + .DIA(32'd0), + .DIPA(4'd0), + .DOA(DO[31:0]), + .DOPA(DOP[3:0]), + .ADDRA(A1ADDR_14), + .CLKA(CLK2 ^ !CLKPOL2), + .ENA(A1EN), + .REGCEA(|1), + .RSTA(|0), + .WEA(4'b0), + + .DIB(DI), + .DIPB(DIP), + .DOB(DOB), + .DOPB(DOPB), + .ADDRB(B1ADDR_14), + .CLKB(CLK3 ^ !CLKPOL3), + .ENB(|1), + .REGCEB(|0), + .RSTB(|0), + .WEB(B1EN_4) + ); + end endgenerate +endmodule + +// ------------------------------------------------------------------------ + +module \$__XILINX_RAMB8BWER_TDP (CLK2, CLK3, A1ADDR, A1DATA, A1EN, B1ADDR, B1DATA, B1EN); + parameter CFG_ABITS = 9; + parameter CFG_DBITS = 18; + parameter CFG_ENABLE_B = 2; + + parameter CLKPOL2 = 1; + parameter CLKPOL3 = 1; + parameter [9215:0] INIT = 9216'bx; + + input CLK2; + input CLK3; + + input [CFG_ABITS-1:0] A1ADDR; + output [CFG_DBITS-1:0] A1DATA; + input A1EN; + + input [CFG_ABITS-1:0] B1ADDR; + input [CFG_DBITS-1:0] B1DATA; + input [CFG_ENABLE_B-1:0] B1EN; + + wire [12:0] A1ADDR_13 = A1ADDR << (13 - CFG_ABITS); + wire [12:0] B1ADDR_13 = B1ADDR << (13 - CFG_ABITS); + wire [1:0] B1EN_2 = {2{B1EN}}; + + wire [1:0] DIP, DOP; + wire [15:0] DI, DO; + + wire [15:0] DOBDO; + wire [1:0] DOPBDOP; + + assign A1DATA = { DOP[1], DO[15: 8], DOP[0], DO[ 7: 0] }; + assign { DIP[1], DI[15: 8], DIP[0], DI[ 7: 0] } = B1DATA; + + generate if (CFG_DBITS > 8) begin + RAMB8BWER #( + .RAM_MODE("TDP"), + .DATA_WIDTH_A(CFG_DBITS), + .DATA_WIDTH_B(CFG_DBITS), + .WRITE_MODE_A("READ_FIRST"), + .WRITE_MODE_B("READ_FIRST"), + `include "brams_init_9.vh" + ) _TECHMAP_REPLACE_ ( + .DIADI(16'b0), + .DIPADIP(2'b0), + .DOADO(DO), + .DOPADOP(DOP), + .ADDRAWRADDR(A1ADDR_13), + .CLKAWRCLK(CLK2 ^ !CLKPOL2), + .ENAWREN(A1EN), + .REGCEA(|1), + .RSTA(|0), + .WEAWEL(2'b0), + + .DIBDI(DI), + .DIPBDIP(DIP), + .DOBDO(DOBDO), + .DOPBDOP(DOPBDOP), + .ADDRBRDADDR(B1ADDR_13), + .CLKBRDCLK(CLK3 ^ !CLKPOL3), + .ENBRDEN(|1), + .REGCEBREGCE(|0), + .RSTBRST(|0), + .WEBWEU(B1EN_2) + ); + end else begin + RAMB8BWER #( + .RAM_MODE("TDP"), + .DATA_WIDTH_A(CFG_DBITS), + .DATA_WIDTH_B(CFG_DBITS), + .WRITE_MODE_A("READ_FIRST"), + .WRITE_MODE_B("READ_FIRST"), + `include "brams_init_8.vh" + ) _TECHMAP_REPLACE_ ( + .DIADI(16'b0), + .DIPADIP(2'b0), + .DOADO(DO), + .DOPADOP(DOP), + .ADDRAWRADDR(A1ADDR_13), + .CLKAWRCLK(CLK2 ^ !CLKPOL2), + .ENAWREN(A1EN), + .REGCEA(|1), + .RSTA(|0), + .WEAWEL(2'b0), + + .DIBDI(DI), + .DIPBDIP(DIP), + .DOBDO(DOBDO), + .DOPBDOP(DOPBDOP), + .ADDRBRDADDR(B1ADDR_13), + .CLKBRDCLK(CLK3 ^ !CLKPOL3), + .ENBRDEN(|1), + .REGCEBREGCE(|0), + .RSTBRST(|0), + .WEBWEU(B1EN_2) + ); + end endgenerate +endmodule diff --git a/techlibs/xilinx/xc6s_cells_xtra.v b/techlibs/xilinx/xc6s_cells_xtra.v new file mode 100644 index 000000000..014e73df0 --- /dev/null +++ b/techlibs/xilinx/xc6s_cells_xtra.v @@ -0,0 +1,1859 @@ +// Created by cells_xtra.py from Xilinx models + +module MCB (...); + parameter integer ARB_NUM_TIME_SLOTS = 12; + parameter [17:0] ARB_TIME_SLOT_0 = 18'b111111111111111111; + parameter [17:0] ARB_TIME_SLOT_1 = 18'b111111111111111111; + parameter [17:0] ARB_TIME_SLOT_10 = 18'b111111111111111111; + parameter [17:0] ARB_TIME_SLOT_11 = 18'b111111111111111111; + parameter [17:0] ARB_TIME_SLOT_2 = 18'b111111111111111111; + parameter [17:0] ARB_TIME_SLOT_3 = 18'b111111111111111111; + parameter [17:0] ARB_TIME_SLOT_4 = 18'b111111111111111111; + parameter [17:0] ARB_TIME_SLOT_5 = 18'b111111111111111111; + parameter [17:0] ARB_TIME_SLOT_6 = 18'b111111111111111111; + parameter [17:0] ARB_TIME_SLOT_7 = 18'b111111111111111111; + parameter [17:0] ARB_TIME_SLOT_8 = 18'b111111111111111111; + parameter [17:0] ARB_TIME_SLOT_9 = 18'b111111111111111111; + parameter [2:0] CAL_BA = 3'h0; + parameter CAL_BYPASS = "YES"; + parameter [11:0] CAL_CA = 12'h000; + parameter CAL_CALIBRATION_MODE = "NOCALIBRATION"; + parameter integer CAL_CLK_DIV = 1; + parameter CAL_DELAY = "QUARTER"; + parameter [14:0] CAL_RA = 15'h0000; + parameter MEM_ADDR_ORDER = "BANK_ROW_COLUMN"; + parameter integer MEM_BA_SIZE = 3; + parameter integer MEM_BURST_LEN = 8; + parameter integer MEM_CAS_LATENCY = 4; + parameter integer MEM_CA_SIZE = 11; + parameter MEM_DDR1_2_ODS = "FULL"; + parameter MEM_DDR2_3_HIGH_TEMP_SR = "NORMAL"; + parameter MEM_DDR2_3_PA_SR = "FULL"; + parameter integer MEM_DDR2_ADD_LATENCY = 0; + parameter MEM_DDR2_DIFF_DQS_EN = "YES"; + parameter MEM_DDR2_RTT = "50OHMS"; + parameter integer MEM_DDR2_WRT_RECOVERY = 4; + parameter MEM_DDR3_ADD_LATENCY = "OFF"; + parameter MEM_DDR3_AUTO_SR = "ENABLED"; + parameter integer MEM_DDR3_CAS_LATENCY = 7; + parameter integer MEM_DDR3_CAS_WR_LATENCY = 5; + parameter MEM_DDR3_DYN_WRT_ODT = "OFF"; + parameter MEM_DDR3_ODS = "DIV7"; + parameter MEM_DDR3_RTT = "DIV2"; + parameter integer MEM_DDR3_WRT_RECOVERY = 7; + parameter MEM_MDDR_ODS = "FULL"; + parameter MEM_MOBILE_PA_SR = "FULL"; + parameter integer MEM_MOBILE_TC_SR = 0; + parameter integer MEM_RAS_VAL = 0; + parameter integer MEM_RA_SIZE = 13; + parameter integer MEM_RCD_VAL = 1; + parameter integer MEM_REFI_VAL = 0; + parameter integer MEM_RFC_VAL = 0; + parameter integer MEM_RP_VAL = 0; + parameter integer MEM_RTP_VAL = 0; + parameter MEM_TYPE = "DDR3"; + parameter integer MEM_WIDTH = 4; + parameter integer MEM_WR_VAL = 0; + parameter integer MEM_WTR_VAL = 3; + parameter PORT_CONFIG = "B32_B32_B32_B32"; + output CAS; + output CKE; + output DQIOWEN0; + output DQSIOWEN90N; + output DQSIOWEN90P; + output IOIDRPADD; + output IOIDRPBROADCAST; + output IOIDRPCLK; + output IOIDRPCS; + output IOIDRPSDO; + output IOIDRPTRAIN; + output IOIDRPUPDATE; + output LDMN; + output LDMP; + output ODT; + output P0CMDEMPTY; + output P0CMDFULL; + output P0RDEMPTY; + output P0RDERROR; + output P0RDFULL; + output P0RDOVERFLOW; + output P0WREMPTY; + output P0WRERROR; + output P0WRFULL; + output P0WRUNDERRUN; + output P1CMDEMPTY; + output P1CMDFULL; + output P1RDEMPTY; + output P1RDERROR; + output P1RDFULL; + output P1RDOVERFLOW; + output P1WREMPTY; + output P1WRERROR; + output P1WRFULL; + output P1WRUNDERRUN; + output P2CMDEMPTY; + output P2CMDFULL; + output P2EMPTY; + output P2ERROR; + output P2FULL; + output P2RDOVERFLOW; + output P2WRUNDERRUN; + output P3CMDEMPTY; + output P3CMDFULL; + output P3EMPTY; + output P3ERROR; + output P3FULL; + output P3RDOVERFLOW; + output P3WRUNDERRUN; + output P4CMDEMPTY; + output P4CMDFULL; + output P4EMPTY; + output P4ERROR; + output P4FULL; + output P4RDOVERFLOW; + output P4WRUNDERRUN; + output P5CMDEMPTY; + output P5CMDFULL; + output P5EMPTY; + output P5ERROR; + output P5FULL; + output P5RDOVERFLOW; + output P5WRUNDERRUN; + output RAS; + output RST; + output SELFREFRESHMODE; + output UDMN; + output UDMP; + output UOCALSTART; + output UOCMDREADYIN; + output UODATAVALID; + output UODONECAL; + output UOREFRSHFLAG; + output UOSDO; + output WE; + output [14:0] ADDR; + output [15:0] DQON; + output [15:0] DQOP; + output [2:0] BA; + output [31:0] P0RDDATA; + output [31:0] P1RDDATA; + output [31:0] P2RDDATA; + output [31:0] P3RDDATA; + output [31:0] P4RDDATA; + output [31:0] P5RDDATA; + output [31:0] STATUS; + output [4:0] IOIDRPADDR; + output [6:0] P0RDCOUNT; + output [6:0] P0WRCOUNT; + output [6:0] P1RDCOUNT; + output [6:0] P1WRCOUNT; + output [6:0] P2COUNT; + output [6:0] P3COUNT; + output [6:0] P4COUNT; + output [6:0] P5COUNT; + output [7:0] UODATA; + input DQSIOIN; + input DQSIOIP; + input IOIDRPSDI; + input P0ARBEN; + input P0CMDCLK; + input P0CMDEN; + input P0RDCLK; + input P0RDEN; + input P0WRCLK; + input P0WREN; + input P1ARBEN; + input P1CMDCLK; + input P1CMDEN; + input P1RDCLK; + input P1RDEN; + input P1WRCLK; + input P1WREN; + input P2ARBEN; + input P2CLK; + input P2CMDCLK; + input P2CMDEN; + input P2EN; + input P3ARBEN; + input P3CLK; + input P3CMDCLK; + input P3CMDEN; + input P3EN; + input P4ARBEN; + input P4CLK; + input P4CMDCLK; + input P4CMDEN; + input P4EN; + input P5ARBEN; + input P5CLK; + input P5CMDCLK; + input P5CMDEN; + input P5EN; + input PLLLOCK; + input RECAL; + input SELFREFRESHENTER; + input SYSRST; + input UDQSIOIN; + input UDQSIOIP; + input UIADD; + input UIBROADCAST; + input UICLK; + input UICMD; + input UICMDEN; + input UICMDIN; + input UICS; + input UIDONECAL; + input UIDQLOWERDEC; + input UIDQLOWERINC; + input UIDQUPPERDEC; + input UIDQUPPERINC; + input UIDRPUPDATE; + input UILDQSDEC; + input UILDQSINC; + input UIREAD; + input UISDI; + input UIUDQSDEC; + input UIUDQSINC; + input [11:0] P0CMDCA; + input [11:0] P1CMDCA; + input [11:0] P2CMDCA; + input [11:0] P3CMDCA; + input [11:0] P4CMDCA; + input [11:0] P5CMDCA; + input [14:0] P0CMDRA; + input [14:0] P1CMDRA; + input [14:0] P2CMDRA; + input [14:0] P3CMDRA; + input [14:0] P4CMDRA; + input [14:0] P5CMDRA; + input [15:0] DQI; + input [1:0] PLLCE; + input [1:0] PLLCLK; + input [2:0] P0CMDBA; + input [2:0] P0CMDINSTR; + input [2:0] P1CMDBA; + input [2:0] P1CMDINSTR; + input [2:0] P2CMDBA; + input [2:0] P2CMDINSTR; + input [2:0] P3CMDBA; + input [2:0] P3CMDINSTR; + input [2:0] P4CMDBA; + input [2:0] P4CMDINSTR; + input [2:0] P5CMDBA; + input [2:0] P5CMDINSTR; + input [31:0] P0WRDATA; + input [31:0] P1WRDATA; + input [31:0] P2WRDATA; + input [31:0] P3WRDATA; + input [31:0] P4WRDATA; + input [31:0] P5WRDATA; + input [3:0] P0RWRMASK; + input [3:0] P1RWRMASK; + input [3:0] P2WRMASK; + input [3:0] P3WRMASK; + input [3:0] P4WRMASK; + input [3:0] P5WRMASK; + input [3:0] UIDQCOUNT; + input [4:0] UIADDR; + input [5:0] P0CMDBL; + input [5:0] P1CMDBL; + input [5:0] P2CMDBL; + input [5:0] P3CMDBL; + input [5:0] P4CMDBL; + input [5:0] P5CMDBL; +endmodule + +module PCIE_A1 (...); + parameter [31:0] BAR0 = 32'h00000000; + parameter [31:0] BAR1 = 32'h00000000; + parameter [31:0] BAR2 = 32'h00000000; + parameter [31:0] BAR3 = 32'h00000000; + parameter [31:0] BAR4 = 32'h00000000; + parameter [31:0] BAR5 = 32'h00000000; + parameter [31:0] CARDBUS_CIS_POINTER = 32'h00000000; + parameter [23:0] CLASS_CODE = 24'h000000; + parameter integer DEV_CAP_ENDPOINT_L0S_LATENCY = 7; + parameter integer DEV_CAP_ENDPOINT_L1_LATENCY = 7; + parameter DEV_CAP_EXT_TAG_SUPPORTED = "FALSE"; + parameter integer DEV_CAP_MAX_PAYLOAD_SUPPORTED = 2; + parameter integer DEV_CAP_PHANTOM_FUNCTIONS_SUPPORT = 0; + parameter DEV_CAP_ROLE_BASED_ERROR = "TRUE"; + parameter DISABLE_BAR_FILTERING = "FALSE"; + parameter DISABLE_ID_CHECK = "FALSE"; + parameter DISABLE_SCRAMBLING = "FALSE"; + parameter ENABLE_RX_TD_ECRC_TRIM = "FALSE"; + parameter [21:0] EXPANSION_ROM = 22'h000000; + parameter FAST_TRAIN = "FALSE"; + parameter integer GTP_SEL = 0; + parameter integer LINK_CAP_ASPM_SUPPORT = 1; + parameter integer LINK_CAP_L0S_EXIT_LATENCY = 7; + parameter integer LINK_CAP_L1_EXIT_LATENCY = 7; + parameter LINK_STATUS_SLOT_CLOCK_CONFIG = "FALSE"; + parameter [14:0] LL_ACK_TIMEOUT = 15'h0204; + parameter LL_ACK_TIMEOUT_EN = "FALSE"; + parameter [14:0] LL_REPLAY_TIMEOUT = 15'h060D; + parameter LL_REPLAY_TIMEOUT_EN = "FALSE"; + parameter integer MSI_CAP_MULTIMSGCAP = 0; + parameter integer MSI_CAP_MULTIMSG_EXTENSION = 0; + parameter [3:0] PCIE_CAP_CAPABILITY_VERSION = 4'h1; + parameter [3:0] PCIE_CAP_DEVICE_PORT_TYPE = 4'h0; + parameter [4:0] PCIE_CAP_INT_MSG_NUM = 5'b00000; + parameter PCIE_CAP_SLOT_IMPLEMENTED = "FALSE"; + parameter [11:0] PCIE_GENERIC = 12'h000; + parameter PLM_AUTO_CONFIG = "FALSE"; + parameter integer PM_CAP_AUXCURRENT = 0; + parameter PM_CAP_D1SUPPORT = "TRUE"; + parameter PM_CAP_D2SUPPORT = "TRUE"; + parameter PM_CAP_DSI = "FALSE"; + parameter [4:0] PM_CAP_PMESUPPORT = 5'b01111; + parameter PM_CAP_PME_CLOCK = "FALSE"; + parameter integer PM_CAP_VERSION = 3; + parameter [7:0] PM_DATA0 = 8'h1E; + parameter [7:0] PM_DATA1 = 8'h1E; + parameter [7:0] PM_DATA2 = 8'h1E; + parameter [7:0] PM_DATA3 = 8'h1E; + parameter [7:0] PM_DATA4 = 8'h1E; + parameter [7:0] PM_DATA5 = 8'h1E; + parameter [7:0] PM_DATA6 = 8'h1E; + parameter [7:0] PM_DATA7 = 8'h1E; + parameter [1:0] PM_DATA_SCALE0 = 2'b01; + parameter [1:0] PM_DATA_SCALE1 = 2'b01; + parameter [1:0] PM_DATA_SCALE2 = 2'b01; + parameter [1:0] PM_DATA_SCALE3 = 2'b01; + parameter [1:0] PM_DATA_SCALE4 = 2'b01; + parameter [1:0] PM_DATA_SCALE5 = 2'b01; + parameter [1:0] PM_DATA_SCALE6 = 2'b01; + parameter [1:0] PM_DATA_SCALE7 = 2'b01; + parameter SIM_VERSION = "1.0"; + parameter SLOT_CAP_ATT_BUTTON_PRESENT = "FALSE"; + parameter SLOT_CAP_ATT_INDICATOR_PRESENT = "FALSE"; + parameter SLOT_CAP_POWER_INDICATOR_PRESENT = "FALSE"; + parameter integer TL_RX_RAM_RADDR_LATENCY = 1; + parameter integer TL_RX_RAM_RDATA_LATENCY = 2; + parameter integer TL_RX_RAM_WRITE_LATENCY = 0; + parameter TL_TFC_DISABLE = "FALSE"; + parameter TL_TX_CHECKS_DISABLE = "FALSE"; + parameter integer TL_TX_RAM_RADDR_LATENCY = 0; + parameter integer TL_TX_RAM_RDATA_LATENCY = 2; + parameter USR_CFG = "FALSE"; + parameter USR_EXT_CFG = "FALSE"; + parameter VC0_CPL_INFINITE = "TRUE"; + parameter [11:0] VC0_RX_RAM_LIMIT = 12'h01E; + parameter integer VC0_TOTAL_CREDITS_CD = 104; + parameter integer VC0_TOTAL_CREDITS_CH = 36; + parameter integer VC0_TOTAL_CREDITS_NPH = 8; + parameter integer VC0_TOTAL_CREDITS_PD = 288; + parameter integer VC0_TOTAL_CREDITS_PH = 32; + parameter integer VC0_TX_LASTPACKET = 31; + output CFGCOMMANDBUSMASTERENABLE; + output CFGCOMMANDINTERRUPTDISABLE; + output CFGCOMMANDIOENABLE; + output CFGCOMMANDMEMENABLE; + output CFGCOMMANDSERREN; + output CFGDEVCONTROLAUXPOWEREN; + output CFGDEVCONTROLCORRERRREPORTINGEN; + output CFGDEVCONTROLENABLERO; + output CFGDEVCONTROLEXTTAGEN; + output CFGDEVCONTROLFATALERRREPORTINGEN; + output CFGDEVCONTROLNONFATALREPORTINGEN; + output CFGDEVCONTROLNOSNOOPEN; + output CFGDEVCONTROLPHANTOMEN; + output CFGDEVCONTROLURERRREPORTINGEN; + output CFGDEVSTATUSCORRERRDETECTED; + output CFGDEVSTATUSFATALERRDETECTED; + output CFGDEVSTATUSNONFATALERRDETECTED; + output CFGDEVSTATUSURDETECTED; + output CFGERRCPLRDYN; + output CFGINTERRUPTMSIENABLE; + output CFGINTERRUPTRDYN; + output CFGLINKCONTOLRCB; + output CFGLINKCONTROLCOMMONCLOCK; + output CFGLINKCONTROLEXTENDEDSYNC; + output CFGRDWRDONEN; + output CFGTOTURNOFFN; + output DBGBADDLLPSTATUS; + output DBGBADTLPLCRC; + output DBGBADTLPSEQNUM; + output DBGBADTLPSTATUS; + output DBGDLPROTOCOLSTATUS; + output DBGFCPROTOCOLERRSTATUS; + output DBGMLFRMDLENGTH; + output DBGMLFRMDMPS; + output DBGMLFRMDTCVC; + output DBGMLFRMDTLPSTATUS; + output DBGMLFRMDUNRECTYPE; + output DBGPOISTLPSTATUS; + output DBGRCVROVERFLOWSTATUS; + output DBGREGDETECTEDCORRECTABLE; + output DBGREGDETECTEDFATAL; + output DBGREGDETECTEDNONFATAL; + output DBGREGDETECTEDUNSUPPORTED; + output DBGRPLYROLLOVERSTATUS; + output DBGRPLYTIMEOUTSTATUS; + output DBGURNOBARHIT; + output DBGURPOISCFGWR; + output DBGURSTATUS; + output DBGURUNSUPMSG; + output MIMRXREN; + output MIMRXWEN; + output MIMTXREN; + output MIMTXWEN; + output PIPEGTTXELECIDLEA; + output PIPEGTTXELECIDLEB; + output PIPERXPOLARITYA; + output PIPERXPOLARITYB; + output PIPERXRESETA; + output PIPERXRESETB; + output PIPETXRCVRDETA; + output PIPETXRCVRDETB; + output RECEIVEDHOTRESET; + output TRNLNKUPN; + output TRNREOFN; + output TRNRERRFWDN; + output TRNRSOFN; + output TRNRSRCDSCN; + output TRNRSRCRDYN; + output TRNTCFGREQN; + output TRNTDSTRDYN; + output TRNTERRDROPN; + output USERRSTN; + output [11:0] MIMRXRADDR; + output [11:0] MIMRXWADDR; + output [11:0] MIMTXRADDR; + output [11:0] MIMTXWADDR; + output [11:0] TRNFCCPLD; + output [11:0] TRNFCNPD; + output [11:0] TRNFCPD; + output [15:0] PIPETXDATAA; + output [15:0] PIPETXDATAB; + output [1:0] CFGLINKCONTROLASPMCONTROL; + output [1:0] PIPEGTPOWERDOWNA; + output [1:0] PIPEGTPOWERDOWNB; + output [1:0] PIPETXCHARDISPMODEA; + output [1:0] PIPETXCHARDISPMODEB; + output [1:0] PIPETXCHARDISPVALA; + output [1:0] PIPETXCHARDISPVALB; + output [1:0] PIPETXCHARISKA; + output [1:0] PIPETXCHARISKB; + output [2:0] CFGDEVCONTROLMAXPAYLOAD; + output [2:0] CFGDEVCONTROLMAXREADREQ; + output [2:0] CFGFUNCTIONNUMBER; + output [2:0] CFGINTERRUPTMMENABLE; + output [2:0] CFGPCIELINKSTATEN; + output [31:0] CFGDO; + output [31:0] TRNRD; + output [34:0] MIMRXWDATA; + output [35:0] MIMTXWDATA; + output [4:0] CFGDEVICENUMBER; + output [4:0] CFGLTSSMSTATE; + output [5:0] TRNTBUFAV; + output [6:0] TRNRBARHITN; + output [7:0] CFGBUSNUMBER; + output [7:0] CFGINTERRUPTDO; + output [7:0] TRNFCCPLH; + output [7:0] TRNFCNPH; + output [7:0] TRNFCPH; + input CFGERRCORN; + input CFGERRCPLABORTN; + input CFGERRCPLTIMEOUTN; + input CFGERRECRCN; + input CFGERRLOCKEDN; + input CFGERRPOSTEDN; + input CFGERRURN; + input CFGINTERRUPTASSERTN; + input CFGINTERRUPTN; + input CFGPMWAKEN; + input CFGRDENN; + input CFGTRNPENDINGN; + input CFGTURNOFFOKN; + input CLOCKLOCKED; + input MGTCLK; + input PIPEGTRESETDONEA; + input PIPEGTRESETDONEB; + input PIPEPHYSTATUSA; + input PIPEPHYSTATUSB; + input PIPERXENTERELECIDLEA; + input PIPERXENTERELECIDLEB; + input SYSRESETN; + input TRNRDSTRDYN; + input TRNRNPOKN; + input TRNTCFGGNTN; + input TRNTEOFN; + input TRNTERRFWDN; + input TRNTSOFN; + input TRNTSRCDSCN; + input TRNTSRCRDYN; + input TRNTSTRN; + input USERCLK; + input [15:0] CFGDEVID; + input [15:0] CFGSUBSYSID; + input [15:0] CFGSUBSYSVENID; + input [15:0] CFGVENID; + input [15:0] PIPERXDATAA; + input [15:0] PIPERXDATAB; + input [1:0] PIPERXCHARISKA; + input [1:0] PIPERXCHARISKB; + input [2:0] PIPERXSTATUSA; + input [2:0] PIPERXSTATUSB; + input [2:0] TRNFCSEL; + input [31:0] TRNTD; + input [34:0] MIMRXRDATA; + input [35:0] MIMTXRDATA; + input [47:0] CFGERRTLPCPLHEADER; + input [63:0] CFGDSN; + input [7:0] CFGINTERRUPTDI; + input [7:0] CFGREVID; + input [9:0] CFGDWADDR; +endmodule + +module DSP48A1 (...); + parameter integer A0REG = 0; + parameter integer A1REG = 1; + parameter integer B0REG = 0; + parameter integer B1REG = 1; + parameter integer CARRYINREG = 1; + parameter integer CARRYOUTREG = 1; + parameter CARRYINSEL = "OPMODE5"; + parameter integer CREG = 1; + parameter integer DREG = 1; + parameter integer MREG = 1; + parameter integer OPMODEREG = 1; + parameter integer PREG = 1; + parameter RSTTYPE = "SYNC"; + output [17:0] BCOUT; + output CARRYOUT; + output CARRYOUTF; + output [35:0] M; + output [47:0] P; + output [47:0] PCOUT; + input [17:0] A; + input [17:0] B; + input [47:0] C; + input CARRYIN; + input CEA; + input CEB; + input CEC; + input CECARRYIN; + input CED; + input CEM; + input CEOPMODE; + input CEP; + (* clkbuf_sink *) + input CLK; + input [17:0] D; + input [7:0] OPMODE; + input [47:0] PCIN; + input RSTA; + input RSTB; + input RSTC; + input RSTCARRYIN; + input RSTD; + input RSTM; + input RSTOPMODE; + input RSTP; +endmodule + +module BUFGCE (...); + parameter CE_TYPE = "SYNC"; + parameter [0:0] IS_CE_INVERTED = 1'b0; + parameter [0:0] IS_I_INVERTED = 1'b0; + (* clkbuf_driver *) + output O; + (* invertible_pin = "IS_CE_INVERTED" *) + input CE; + (* invertible_pin = "IS_I_INVERTED" *) + input I; +endmodule + +module BUFGCE_1 (...); + (* clkbuf_driver *) + output O; + input CE; + input I; +endmodule + +module BUFGMUX (...); + parameter CLK_SEL_TYPE = "SYNC"; + (* clkbuf_driver *) + output O; + input I0; + input I1; + input S; +endmodule + +module BUFGMUX_1 (...); + parameter CLK_SEL_TYPE = "SYNC"; + (* clkbuf_driver *) + output O; + input I0; + input I1; + input S; +endmodule + +module BUFH (...); + (* clkbuf_driver *) + output O; + input I; +endmodule + +module BUFIO2 (...); + parameter DIVIDE_BYPASS = "TRUE"; + parameter integer DIVIDE = 1; + parameter I_INVERT = "FALSE"; + parameter USE_DOUBLER = "FALSE"; + (* clkbuf_driver *) + output DIVCLK; + (* clkbuf_driver *) + output IOCLK; + output SERDESSTROBE; + input I; +endmodule + +module BUFIO2_2CLK (...); + parameter integer DIVIDE = 2; + (* clkbuf_driver *) + output DIVCLK; + (* clkbuf_driver *) + output IOCLK; + output SERDESSTROBE; + input I; + input IB; +endmodule + +module BUFIO2FB (...); + parameter DIVIDE_BYPASS = "TRUE"; + (* clkbuf_driver *) + output O; + input I; +endmodule + +module BUFPLL_MCB (...); + parameter integer DIVIDE = 2; + parameter LOCK_SRC = "LOCK_TO_0"; + (* clkbuf_driver *) + output IOCLK0; + (* clkbuf_driver *) + output IOCLK1; + output LOCK; + output SERDESSTROBE0; + output SERDESSTROBE1; + input GCLK; + input LOCKED; + input PLLIN0; + input PLLIN1; +endmodule + +module DCM_CLKGEN (...); + parameter SPREAD_SPECTRUM = "NONE"; + parameter STARTUP_WAIT = "FALSE"; + parameter integer CLKFXDV_DIVIDE = 2; + parameter integer CLKFX_DIVIDE = 1; + parameter integer CLKFX_MULTIPLY = 4; + parameter real CLKFX_MD_MAX = 0.0; + parameter real CLKIN_PERIOD = 0.0; + output CLKFX180; + output CLKFX; + output CLKFXDV; + output LOCKED; + output PROGDONE; + output [2:1] STATUS; + input CLKIN; + input FREEZEDCM; + input PROGCLK; + input PROGDATA; + input PROGEN; + input RST; +endmodule + +module DCM_SP (...); + parameter real CLKDV_DIVIDE = 2.0; + parameter integer CLKFX_DIVIDE = 1; + parameter integer CLKFX_MULTIPLY = 4; + parameter CLKIN_DIVIDE_BY_2 = "FALSE"; + parameter real CLKIN_PERIOD = 10.0; + parameter CLKOUT_PHASE_SHIFT = "NONE"; + parameter CLK_FEEDBACK = "1X"; + parameter DESKEW_ADJUST = "SYSTEM_SYNCHRONOUS"; + parameter DFS_FREQUENCY_MODE = "LOW"; + parameter DLL_FREQUENCY_MODE = "LOW"; + parameter DSS_MODE = "NONE"; + parameter DUTY_CYCLE_CORRECTION = "TRUE"; + parameter FACTORY_JF = 16'hC080; + parameter integer PHASE_SHIFT = 0; + parameter STARTUP_WAIT = "FALSE"; + input CLKFB; + input CLKIN; + input DSSEN; + input PSCLK; + input PSEN; + input PSINCDEC; + input RST; + output CLK0; + output CLK180; + output CLK270; + output CLK2X; + output CLK2X180; + output CLK90; + output CLKDV; + output CLKFX; + output CLKFX180; + output LOCKED; + output PSDONE; + output [7:0] STATUS; +endmodule + +module PLL_BASE (...); + parameter BANDWIDTH = "OPTIMIZED"; + parameter integer CLKFBOUT_MULT = 1; + parameter real CLKFBOUT_PHASE = 0.0; + parameter real CLKIN_PERIOD = 0.000; + parameter integer CLKOUT0_DIVIDE = 1; + parameter real CLKOUT0_DUTY_CYCLE = 0.5; + parameter real CLKOUT0_PHASE = 0.0; + parameter integer CLKOUT1_DIVIDE = 1; + parameter real CLKOUT1_DUTY_CYCLE = 0.5; + parameter real CLKOUT1_PHASE = 0.0; + parameter integer CLKOUT2_DIVIDE = 1; + parameter real CLKOUT2_DUTY_CYCLE = 0.5; + parameter real CLKOUT2_PHASE = 0.0; + parameter integer CLKOUT3_DIVIDE = 1; + parameter real CLKOUT3_DUTY_CYCLE = 0.5; + parameter real CLKOUT3_PHASE = 0.0; + parameter integer CLKOUT4_DIVIDE = 1; + parameter real CLKOUT4_DUTY_CYCLE = 0.5; + parameter real CLKOUT4_PHASE = 0.0; + parameter integer CLKOUT5_DIVIDE = 1; + parameter real CLKOUT5_DUTY_CYCLE = 0.5; + parameter real CLKOUT5_PHASE = 0.0; + parameter CLK_FEEDBACK = "CLKFBOUT"; + parameter COMPENSATION = "SYSTEM_SYNCHRONOUS"; + parameter integer DIVCLK_DIVIDE = 1; + parameter real REF_JITTER = 0.100; + parameter RESET_ON_LOSS_OF_LOCK = "FALSE"; + output CLKFBOUT; + output CLKOUT0; + output CLKOUT1; + output CLKOUT2; + output CLKOUT3; + output CLKOUT4; + output CLKOUT5; + output LOCKED; + input CLKFBIN; + input CLKIN; + input RST; +endmodule + +(* keep *) +module BSCAN_SPARTAN6 (...); + parameter integer JTAG_CHAIN = 1; + output CAPTURE; + output DRCK; + output RESET; + output RUNTEST; + output SEL; + output SHIFT; + output TCK; + output TDI; + output TMS; + output UPDATE; + input TDO; +endmodule + +module DNA_PORT (...); + parameter [56:0] SIM_DNA_VALUE = 57'h0; + output DOUT; + input CLK; + input DIN; + input READ; + input SHIFT; +endmodule + +(* keep *) +module ICAP_SPARTAN6 (...); + parameter DEVICE_ID = 32'h04000093; + parameter SIM_CFG_FILE_NAME = "NONE"; + output BUSY; + output [15:0] O; + input CLK; + input CE; + input WRITE; + input [15:0] I; +endmodule + +module POST_CRC_INTERNAL (...); + output CRCERROR; +endmodule + +(* keep *) +module STARTUP_SPARTAN6 (...); + output CFGCLK; + output CFGMCLK; + output EOS; + input CLK; + input GSR; + input GTS; + input KEYCLEARB; +endmodule + +(* keep *) +module SUSPEND_SYNC (...); + output SREQ; + input CLK; + input SACK; +endmodule + +module GTPA1_DUAL (...); + parameter AC_CAP_DIS_0 = "TRUE"; + parameter AC_CAP_DIS_1 = "TRUE"; + parameter integer ALIGN_COMMA_WORD_0 = 1; + parameter integer ALIGN_COMMA_WORD_1 = 1; + parameter integer CB2_INH_CC_PERIOD_0 = 8; + parameter integer CB2_INH_CC_PERIOD_1 = 8; + parameter [4:0] CDR_PH_ADJ_TIME_0 = 5'b01010; + parameter [4:0] CDR_PH_ADJ_TIME_1 = 5'b01010; + parameter integer CHAN_BOND_1_MAX_SKEW_0 = 7; + parameter integer CHAN_BOND_1_MAX_SKEW_1 = 7; + parameter integer CHAN_BOND_2_MAX_SKEW_0 = 1; + parameter integer CHAN_BOND_2_MAX_SKEW_1 = 1; + parameter CHAN_BOND_KEEP_ALIGN_0 = "FALSE"; + parameter CHAN_BOND_KEEP_ALIGN_1 = "FALSE"; + parameter [9:0] CHAN_BOND_SEQ_1_1_0 = 10'b0101111100; + parameter [9:0] CHAN_BOND_SEQ_1_1_1 = 10'b0101111100; + parameter [9:0] CHAN_BOND_SEQ_1_2_0 = 10'b0001001010; + parameter [9:0] CHAN_BOND_SEQ_1_2_1 = 10'b0001001010; + parameter [9:0] CHAN_BOND_SEQ_1_3_0 = 10'b0001001010; + parameter [9:0] CHAN_BOND_SEQ_1_3_1 = 10'b0001001010; + parameter [9:0] CHAN_BOND_SEQ_1_4_0 = 10'b0110111100; + parameter [9:0] CHAN_BOND_SEQ_1_4_1 = 10'b0110111100; + parameter [3:0] CHAN_BOND_SEQ_1_ENABLE_0 = 4'b1111; + parameter [3:0] CHAN_BOND_SEQ_1_ENABLE_1 = 4'b1111; + parameter [9:0] CHAN_BOND_SEQ_2_1_0 = 10'b0110111100; + parameter [9:0] CHAN_BOND_SEQ_2_1_1 = 10'b0110111100; + parameter [9:0] CHAN_BOND_SEQ_2_2_0 = 10'b0100111100; + parameter [9:0] CHAN_BOND_SEQ_2_2_1 = 10'b0100111100; + parameter [9:0] CHAN_BOND_SEQ_2_3_0 = 10'b0100111100; + parameter [9:0] CHAN_BOND_SEQ_2_3_1 = 10'b0100111100; + parameter [9:0] CHAN_BOND_SEQ_2_4_0 = 10'b0100111100; + parameter [9:0] CHAN_BOND_SEQ_2_4_1 = 10'b0100111100; + parameter [3:0] CHAN_BOND_SEQ_2_ENABLE_0 = 4'b1111; + parameter [3:0] CHAN_BOND_SEQ_2_ENABLE_1 = 4'b1111; + parameter CHAN_BOND_SEQ_2_USE_0 = "FALSE"; + parameter CHAN_BOND_SEQ_2_USE_1 = "FALSE"; + parameter integer CHAN_BOND_SEQ_LEN_0 = 1; + parameter integer CHAN_BOND_SEQ_LEN_1 = 1; + parameter integer CLK25_DIVIDER_0 = 4; + parameter integer CLK25_DIVIDER_1 = 4; + parameter CLKINDC_B_0 = "TRUE"; + parameter CLKINDC_B_1 = "TRUE"; + parameter CLKRCV_TRST_0 = "TRUE"; + parameter CLKRCV_TRST_1 = "TRUE"; + parameter CLK_CORRECT_USE_0 = "TRUE"; + parameter CLK_CORRECT_USE_1 = "TRUE"; + parameter integer CLK_COR_ADJ_LEN_0 = 1; + parameter integer CLK_COR_ADJ_LEN_1 = 1; + parameter integer CLK_COR_DET_LEN_0 = 1; + parameter integer CLK_COR_DET_LEN_1 = 1; + parameter CLK_COR_INSERT_IDLE_FLAG_0 = "FALSE"; + parameter CLK_COR_INSERT_IDLE_FLAG_1 = "FALSE"; + parameter CLK_COR_KEEP_IDLE_0 = "FALSE"; + parameter CLK_COR_KEEP_IDLE_1 = "FALSE"; + parameter integer CLK_COR_MAX_LAT_0 = 20; + parameter integer CLK_COR_MAX_LAT_1 = 20; + parameter integer CLK_COR_MIN_LAT_0 = 18; + parameter integer CLK_COR_MIN_LAT_1 = 18; + parameter CLK_COR_PRECEDENCE_0 = "TRUE"; + parameter CLK_COR_PRECEDENCE_1 = "TRUE"; + parameter integer CLK_COR_REPEAT_WAIT_0 = 0; + parameter integer CLK_COR_REPEAT_WAIT_1 = 0; + parameter [9:0] CLK_COR_SEQ_1_1_0 = 10'b0100011100; + parameter [9:0] CLK_COR_SEQ_1_1_1 = 10'b0100011100; + parameter [9:0] CLK_COR_SEQ_1_2_0 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_1_2_1 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_1_3_0 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_1_3_1 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_1_4_0 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_1_4_1 = 10'b0000000000; + parameter [3:0] CLK_COR_SEQ_1_ENABLE_0 = 4'b1111; + parameter [3:0] CLK_COR_SEQ_1_ENABLE_1 = 4'b1111; + parameter [9:0] CLK_COR_SEQ_2_1_0 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_2_1_1 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_2_2_0 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_2_2_1 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_2_3_0 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_2_3_1 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_2_4_0 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_2_4_1 = 10'b0000000000; + parameter [3:0] CLK_COR_SEQ_2_ENABLE_0 = 4'b1111; + parameter [3:0] CLK_COR_SEQ_2_ENABLE_1 = 4'b1111; + parameter CLK_COR_SEQ_2_USE_0 = "FALSE"; + parameter CLK_COR_SEQ_2_USE_1 = "FALSE"; + parameter CLK_OUT_GTP_SEL_0 = "REFCLKPLL0"; + parameter CLK_OUT_GTP_SEL_1 = "REFCLKPLL1"; + parameter [1:0] CM_TRIM_0 = 2'b00; + parameter [1:0] CM_TRIM_1 = 2'b00; + parameter [9:0] COMMA_10B_ENABLE_0 = 10'b1111111111; + parameter [9:0] COMMA_10B_ENABLE_1 = 10'b1111111111; + parameter [3:0] COM_BURST_VAL_0 = 4'b1111; + parameter [3:0] COM_BURST_VAL_1 = 4'b1111; + parameter DEC_MCOMMA_DETECT_0 = "TRUE"; + parameter DEC_MCOMMA_DETECT_1 = "TRUE"; + parameter DEC_PCOMMA_DETECT_0 = "TRUE"; + parameter DEC_PCOMMA_DETECT_1 = "TRUE"; + parameter DEC_VALID_COMMA_ONLY_0 = "TRUE"; + parameter DEC_VALID_COMMA_ONLY_1 = "TRUE"; + parameter GTP_CFG_PWRUP_0 = "TRUE"; + parameter GTP_CFG_PWRUP_1 = "TRUE"; + parameter [9:0] MCOMMA_10B_VALUE_0 = 10'b1010000011; + parameter [9:0] MCOMMA_10B_VALUE_1 = 10'b1010000011; + parameter MCOMMA_DETECT_0 = "TRUE"; + parameter MCOMMA_DETECT_1 = "TRUE"; + parameter [2:0] OOBDETECT_THRESHOLD_0 = 3'b110; + parameter [2:0] OOBDETECT_THRESHOLD_1 = 3'b110; + parameter integer OOB_CLK_DIVIDER_0 = 4; + parameter integer OOB_CLK_DIVIDER_1 = 4; + parameter PCI_EXPRESS_MODE_0 = "FALSE"; + parameter PCI_EXPRESS_MODE_1 = "FALSE"; + parameter [9:0] PCOMMA_10B_VALUE_0 = 10'b0101111100; + parameter [9:0] PCOMMA_10B_VALUE_1 = 10'b0101111100; + parameter PCOMMA_DETECT_0 = "TRUE"; + parameter PCOMMA_DETECT_1 = "TRUE"; + parameter [2:0] PLLLKDET_CFG_0 = 3'b101; + parameter [2:0] PLLLKDET_CFG_1 = 3'b101; + parameter [23:0] PLL_COM_CFG_0 = 24'h21680A; + parameter [23:0] PLL_COM_CFG_1 = 24'h21680A; + parameter [7:0] PLL_CP_CFG_0 = 8'h00; + parameter [7:0] PLL_CP_CFG_1 = 8'h00; + parameter integer PLL_DIVSEL_FB_0 = 5; + parameter integer PLL_DIVSEL_FB_1 = 5; + parameter integer PLL_DIVSEL_REF_0 = 2; + parameter integer PLL_DIVSEL_REF_1 = 2; + parameter integer PLL_RXDIVSEL_OUT_0 = 1; + parameter integer PLL_RXDIVSEL_OUT_1 = 1; + parameter PLL_SATA_0 = "FALSE"; + parameter PLL_SATA_1 = "FALSE"; + parameter PLL_SOURCE_0 = "PLL0"; + parameter PLL_SOURCE_1 = "PLL0"; + parameter integer PLL_TXDIVSEL_OUT_0 = 1; + parameter integer PLL_TXDIVSEL_OUT_1 = 1; + parameter [26:0] PMA_CDR_SCAN_0 = 27'h6404040; + parameter [26:0] PMA_CDR_SCAN_1 = 27'h6404040; + parameter [35:0] PMA_COM_CFG_EAST = 36'h000008000; + parameter [35:0] PMA_COM_CFG_WEST = 36'h00000A000; + parameter [6:0] PMA_RXSYNC_CFG_0 = 7'h00; + parameter [6:0] PMA_RXSYNC_CFG_1 = 7'h00; + parameter [24:0] PMA_RX_CFG_0 = 25'h05CE048; + parameter [24:0] PMA_RX_CFG_1 = 25'h05CE048; + parameter [19:0] PMA_TX_CFG_0 = 20'h00082; + parameter [19:0] PMA_TX_CFG_1 = 20'h00082; + parameter RCV_TERM_GND_0 = "FALSE"; + parameter RCV_TERM_GND_1 = "FALSE"; + parameter RCV_TERM_VTTRX_0 = "TRUE"; + parameter RCV_TERM_VTTRX_1 = "TRUE"; + parameter [7:0] RXEQ_CFG_0 = 8'b01111011; + parameter [7:0] RXEQ_CFG_1 = 8'b01111011; + parameter [0:0] RXPRBSERR_LOOPBACK_0 = 1'b0; + parameter [0:0] RXPRBSERR_LOOPBACK_1 = 1'b0; + parameter RX_BUFFER_USE_0 = "TRUE"; + parameter RX_BUFFER_USE_1 = "TRUE"; + parameter RX_DECODE_SEQ_MATCH_0 = "TRUE"; + parameter RX_DECODE_SEQ_MATCH_1 = "TRUE"; + parameter RX_EN_IDLE_HOLD_CDR_0 = "FALSE"; + parameter RX_EN_IDLE_HOLD_CDR_1 = "FALSE"; + parameter RX_EN_IDLE_RESET_BUF_0 = "TRUE"; + parameter RX_EN_IDLE_RESET_BUF_1 = "TRUE"; + parameter RX_EN_IDLE_RESET_FR_0 = "TRUE"; + parameter RX_EN_IDLE_RESET_FR_1 = "TRUE"; + parameter RX_EN_IDLE_RESET_PH_0 = "TRUE"; + parameter RX_EN_IDLE_RESET_PH_1 = "TRUE"; + parameter RX_EN_MODE_RESET_BUF_0 = "TRUE"; + parameter RX_EN_MODE_RESET_BUF_1 = "TRUE"; + parameter [3:0] RX_IDLE_HI_CNT_0 = 4'b1000; + parameter [3:0] RX_IDLE_HI_CNT_1 = 4'b1000; + parameter [3:0] RX_IDLE_LO_CNT_0 = 4'b0000; + parameter [3:0] RX_IDLE_LO_CNT_1 = 4'b0000; + parameter RX_LOSS_OF_SYNC_FSM_0 = "FALSE"; + parameter RX_LOSS_OF_SYNC_FSM_1 = "FALSE"; + parameter integer RX_LOS_INVALID_INCR_0 = 1; + parameter integer RX_LOS_INVALID_INCR_1 = 1; + parameter integer RX_LOS_THRESHOLD_0 = 4; + parameter integer RX_LOS_THRESHOLD_1 = 4; + parameter RX_SLIDE_MODE_0 = "PCS"; + parameter RX_SLIDE_MODE_1 = "PCS"; + parameter RX_STATUS_FMT_0 = "PCIE"; + parameter RX_STATUS_FMT_1 = "PCIE"; + parameter RX_XCLK_SEL_0 = "RXREC"; + parameter RX_XCLK_SEL_1 = "RXREC"; + parameter [2:0] SATA_BURST_VAL_0 = 3'b100; + parameter [2:0] SATA_BURST_VAL_1 = 3'b100; + parameter [2:0] SATA_IDLE_VAL_0 = 3'b011; + parameter [2:0] SATA_IDLE_VAL_1 = 3'b011; + parameter integer SATA_MAX_BURST_0 = 7; + parameter integer SATA_MAX_BURST_1 = 7; + parameter integer SATA_MAX_INIT_0 = 22; + parameter integer SATA_MAX_INIT_1 = 22; + parameter integer SATA_MAX_WAKE_0 = 7; + parameter integer SATA_MAX_WAKE_1 = 7; + parameter integer SATA_MIN_BURST_0 = 4; + parameter integer SATA_MIN_BURST_1 = 4; + parameter integer SATA_MIN_INIT_0 = 12; + parameter integer SATA_MIN_INIT_1 = 12; + parameter integer SATA_MIN_WAKE_0 = 4; + parameter integer SATA_MIN_WAKE_1 = 4; + parameter integer SIM_GTPRESET_SPEEDUP = 0; + parameter SIM_RECEIVER_DETECT_PASS = "FALSE"; + parameter [2:0] SIM_REFCLK0_SOURCE = 3'b000; + parameter [2:0] SIM_REFCLK1_SOURCE = 3'b000; + parameter SIM_TX_ELEC_IDLE_LEVEL = "X"; + parameter SIM_VERSION = "2.0"; + parameter [4:0] TERMINATION_CTRL_0 = 5'b10100; + parameter [4:0] TERMINATION_CTRL_1 = 5'b10100; + parameter TERMINATION_OVRD_0 = "FALSE"; + parameter TERMINATION_OVRD_1 = "FALSE"; + parameter [11:0] TRANS_TIME_FROM_P2_0 = 12'h03C; + parameter [11:0] TRANS_TIME_FROM_P2_1 = 12'h03C; + parameter [7:0] TRANS_TIME_NON_P2_0 = 8'h19; + parameter [7:0] TRANS_TIME_NON_P2_1 = 8'h19; + parameter [9:0] TRANS_TIME_TO_P2_0 = 10'h064; + parameter [9:0] TRANS_TIME_TO_P2_1 = 10'h064; + parameter [31:0] TST_ATTR_0 = 32'h00000000; + parameter [31:0] TST_ATTR_1 = 32'h00000000; + parameter [2:0] TXRX_INVERT_0 = 3'b011; + parameter [2:0] TXRX_INVERT_1 = 3'b011; + parameter TX_BUFFER_USE_0 = "FALSE"; + parameter TX_BUFFER_USE_1 = "FALSE"; + parameter [13:0] TX_DETECT_RX_CFG_0 = 14'h1832; + parameter [13:0] TX_DETECT_RX_CFG_1 = 14'h1832; + parameter [2:0] TX_IDLE_DELAY_0 = 3'b011; + parameter [2:0] TX_IDLE_DELAY_1 = 3'b011; + parameter [1:0] TX_TDCC_CFG_0 = 2'b00; + parameter [1:0] TX_TDCC_CFG_1 = 2'b00; + parameter TX_XCLK_SEL_0 = "TXUSR"; + parameter TX_XCLK_SEL_1 = "TXUSR"; + output DRDY; + output PHYSTATUS0; + output PHYSTATUS1; + output PLLLKDET0; + output PLLLKDET1; + output REFCLKOUT0; + output REFCLKOUT1; + output REFCLKPLL0; + output REFCLKPLL1; + output RESETDONE0; + output RESETDONE1; + output RXBYTEISALIGNED0; + output RXBYTEISALIGNED1; + output RXBYTEREALIGN0; + output RXBYTEREALIGN1; + output RXCHANBONDSEQ0; + output RXCHANBONDSEQ1; + output RXCHANISALIGNED0; + output RXCHANISALIGNED1; + output RXCHANREALIGN0; + output RXCHANREALIGN1; + output RXCOMMADET0; + output RXCOMMADET1; + output RXELECIDLE0; + output RXELECIDLE1; + output RXPRBSERR0; + output RXPRBSERR1; + output RXRECCLK0; + output RXRECCLK1; + output RXVALID0; + output RXVALID1; + output TXN0; + output TXN1; + output TXOUTCLK0; + output TXOUTCLK1; + output TXP0; + output TXP1; + output [15:0] DRPDO; + output [1:0] GTPCLKFBEAST; + output [1:0] GTPCLKFBWEST; + output [1:0] GTPCLKOUT0; + output [1:0] GTPCLKOUT1; + output [1:0] RXLOSSOFSYNC0; + output [1:0] RXLOSSOFSYNC1; + output [1:0] TXBUFSTATUS0; + output [1:0] TXBUFSTATUS1; + output [2:0] RXBUFSTATUS0; + output [2:0] RXBUFSTATUS1; + output [2:0] RXCHBONDO; + output [2:0] RXCLKCORCNT0; + output [2:0] RXCLKCORCNT1; + output [2:0] RXSTATUS0; + output [2:0] RXSTATUS1; + output [31:0] RXDATA0; + output [31:0] RXDATA1; + output [3:0] RXCHARISCOMMA0; + output [3:0] RXCHARISCOMMA1; + output [3:0] RXCHARISK0; + output [3:0] RXCHARISK1; + output [3:0] RXDISPERR0; + output [3:0] RXDISPERR1; + output [3:0] RXNOTINTABLE0; + output [3:0] RXNOTINTABLE1; + output [3:0] RXRUNDISP0; + output [3:0] RXRUNDISP1; + output [3:0] TXKERR0; + output [3:0] TXKERR1; + output [3:0] TXRUNDISP0; + output [3:0] TXRUNDISP1; + output [4:0] RCALOUTEAST; + output [4:0] RCALOUTWEST; + output [4:0] TSTOUT0; + output [4:0] TSTOUT1; + input CLK00; + input CLK01; + input CLK10; + input CLK11; + input CLKINEAST0; + input CLKINEAST1; + input CLKINWEST0; + input CLKINWEST1; + input DCLK; + input DEN; + input DWE; + input GATERXELECIDLE0; + input GATERXELECIDLE1; + input GCLK00; + input GCLK01; + input GCLK10; + input GCLK11; + input GTPRESET0; + input GTPRESET1; + input IGNORESIGDET0; + input IGNORESIGDET1; + input INTDATAWIDTH0; + input INTDATAWIDTH1; + input PLLCLK00; + input PLLCLK01; + input PLLCLK10; + input PLLCLK11; + input PLLLKDETEN0; + input PLLLKDETEN1; + input PLLPOWERDOWN0; + input PLLPOWERDOWN1; + input PRBSCNTRESET0; + input PRBSCNTRESET1; + input REFCLKPWRDNB0; + input REFCLKPWRDNB1; + input RXBUFRESET0; + input RXBUFRESET1; + input RXCDRRESET0; + input RXCDRRESET1; + input RXCHBONDMASTER0; + input RXCHBONDMASTER1; + input RXCHBONDSLAVE0; + input RXCHBONDSLAVE1; + input RXCOMMADETUSE0; + input RXCOMMADETUSE1; + input RXDEC8B10BUSE0; + input RXDEC8B10BUSE1; + input RXENCHANSYNC0; + input RXENCHANSYNC1; + input RXENMCOMMAALIGN0; + input RXENMCOMMAALIGN1; + input RXENPCOMMAALIGN0; + input RXENPCOMMAALIGN1; + input RXENPMAPHASEALIGN0; + input RXENPMAPHASEALIGN1; + input RXN0; + input RXN1; + input RXP0; + input RXP1; + input RXPMASETPHASE0; + input RXPMASETPHASE1; + input RXPOLARITY0; + input RXPOLARITY1; + input RXRESET0; + input RXRESET1; + input RXSLIDE0; + input RXSLIDE1; + input RXUSRCLK0; + input RXUSRCLK1; + input RXUSRCLK20; + input RXUSRCLK21; + input TSTCLK0; + input TSTCLK1; + input TXCOMSTART0; + input TXCOMSTART1; + input TXCOMTYPE0; + input TXCOMTYPE1; + input TXDETECTRX0; + input TXDETECTRX1; + input TXELECIDLE0; + input TXELECIDLE1; + input TXENC8B10BUSE0; + input TXENC8B10BUSE1; + input TXENPMAPHASEALIGN0; + input TXENPMAPHASEALIGN1; + input TXINHIBIT0; + input TXINHIBIT1; + input TXPDOWNASYNCH0; + input TXPDOWNASYNCH1; + input TXPMASETPHASE0; + input TXPMASETPHASE1; + input TXPOLARITY0; + input TXPOLARITY1; + input TXPRBSFORCEERR0; + input TXPRBSFORCEERR1; + input TXRESET0; + input TXRESET1; + input TXUSRCLK0; + input TXUSRCLK1; + input TXUSRCLK20; + input TXUSRCLK21; + input USRCODEERR0; + input USRCODEERR1; + input [11:0] TSTIN0; + input [11:0] TSTIN1; + input [15:0] DI; + input [1:0] GTPCLKFBSEL0EAST; + input [1:0] GTPCLKFBSEL0WEST; + input [1:0] GTPCLKFBSEL1EAST; + input [1:0] GTPCLKFBSEL1WEST; + input [1:0] RXDATAWIDTH0; + input [1:0] RXDATAWIDTH1; + input [1:0] RXEQMIX0; + input [1:0] RXEQMIX1; + input [1:0] RXPOWERDOWN0; + input [1:0] RXPOWERDOWN1; + input [1:0] TXDATAWIDTH0; + input [1:0] TXDATAWIDTH1; + input [1:0] TXPOWERDOWN0; + input [1:0] TXPOWERDOWN1; + input [2:0] LOOPBACK0; + input [2:0] LOOPBACK1; + input [2:0] REFSELDYPLL0; + input [2:0] REFSELDYPLL1; + input [2:0] RXCHBONDI; + input [2:0] RXENPRBSTST0; + input [2:0] RXENPRBSTST1; + input [2:0] TXBUFDIFFCTRL0; + input [2:0] TXBUFDIFFCTRL1; + input [2:0] TXENPRBSTST0; + input [2:0] TXENPRBSTST1; + input [2:0] TXPREEMPHASIS0; + input [2:0] TXPREEMPHASIS1; + input [31:0] TXDATA0; + input [31:0] TXDATA1; + input [3:0] TXBYPASS8B10B0; + input [3:0] TXBYPASS8B10B1; + input [3:0] TXCHARDISPMODE0; + input [3:0] TXCHARDISPMODE1; + input [3:0] TXCHARDISPVAL0; + input [3:0] TXCHARDISPVAL1; + input [3:0] TXCHARISK0; + input [3:0] TXCHARISK1; + input [3:0] TXDIFFCTRL0; + input [3:0] TXDIFFCTRL1; + input [4:0] RCALINEAST; + input [4:0] RCALINWEST; + input [7:0] DADDR; + input [7:0] GTPTEST0; + input [7:0] GTPTEST1; +endmodule + +module IBUFDS (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_DELAY_VALUE = "0"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IFD_DELAY_VALUE = "AUTO"; + parameter IOSTANDARD = "DEFAULT"; + output O; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; +endmodule + +module IBUFDS_DIFF_OUT (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + output O; + output OB; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; +endmodule + +module IBUFG (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter IBUF_DELAY_VALUE = "0"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + output O; + (* iopad_external_pin *) + input I; +endmodule + +module IBUFGDS (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter DIFF_TERM = "FALSE"; + parameter IBUF_DELAY_VALUE = "0"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + output O; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; +endmodule + +module IBUFGDS_DIFF_OUT (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + output O; + output OB; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; +endmodule + +module IOBUF (...); + parameter integer DRIVE = 12; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SLEW = "SLOW"; + output O; + (* iopad_external_pin *) + inout IO; + input I; + input T; +endmodule + +module IOBUFDS (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SLEW = "SLOW"; + output O; + (* iopad_external_pin *) + inout IO; + inout IOB; + input I; + input T; +endmodule + +module IODELAY2 (...); + parameter COUNTER_WRAPAROUND = "WRAPAROUND"; + parameter DATA_RATE = "SDR"; + parameter DELAY_SRC = "IO"; + parameter integer IDELAY2_VALUE = 0; + parameter IDELAY_MODE = "NORMAL"; + parameter IDELAY_TYPE = "DEFAULT"; + parameter integer IDELAY_VALUE = 0; + parameter integer ODELAY_VALUE = 0; + parameter SERDES_MODE = "NONE"; + parameter integer SIM_TAPDELAY_VALUE = 75; + output BUSY; + output DATAOUT2; + output DATAOUT; + output DOUT; + output TOUT; + input CAL; + input CE; + (* clkbuf_sink *) + input CLK; + input IDATAIN; + input INC; + (* clkbuf_sink *) + input IOCLK0; + (* clkbuf_sink *) + input IOCLK1; + input ODATAIN; + input RST; + input T; +endmodule + +module IODRP2 (...); + parameter DATA_RATE = "SDR"; + parameter integer SIM_TAPDELAY_VALUE = 75; + output DATAOUT2; + output DATAOUT; + output DOUT; + output SDO; + output TOUT; + input ADD; + input BKST; + (* clkbuf_sink *) + input CLK; + input CS; + input IDATAIN; + (* clkbuf_sink *) + input IOCLK0; + (* clkbuf_sink *) + input IOCLK1; + input ODATAIN; + input SDI; + input T; +endmodule + +module IODRP2_MCB (...); + parameter DATA_RATE = "SDR"; + parameter integer IDELAY_VALUE = 0; + parameter integer MCB_ADDRESS = 0; + parameter integer ODELAY_VALUE = 0; + parameter SERDES_MODE = "NONE"; + parameter integer SIM_TAPDELAY_VALUE = 75; + output AUXSDO; + output DATAOUT2; + output DATAOUT; + output DOUT; + output DQSOUTN; + output DQSOUTP; + output SDO; + output TOUT; + input ADD; + input AUXSDOIN; + input BKST; + (* clkbuf_sink *) + input CLK; + input CS; + input IDATAIN; + (* clkbuf_sink *) + input IOCLK0; + (* clkbuf_sink *) + input IOCLK1; + input MEMUPDATE; + input ODATAIN; + input SDI; + input T; + input [4:0] AUXADDR; +endmodule + +module ISERDES2 (...); + parameter BITSLIP_ENABLE = "FALSE"; + parameter DATA_RATE = "SDR"; + parameter integer DATA_WIDTH = 1; + parameter INTERFACE_TYPE = "NETWORKING"; + parameter SERDES_MODE = "NONE"; + output CFB0; + output CFB1; + output DFB; + output FABRICOUT; + output INCDEC; + output Q1; + output Q2; + output Q3; + output Q4; + output SHIFTOUT; + output VALID; + input BITSLIP; + input CE0; + (* clkbuf_sink *) + input CLK0; + (* clkbuf_sink *) + input CLK1; + (* clkbuf_sink *) + input CLKDIV; + input D; + input IOCE; + input RST; + input SHIFTIN; +endmodule + +module KEEPER (...); + inout O; +endmodule + +module OBUFDS (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SLEW = "SLOW"; + (* iopad_external_pin *) + output O; + (* iopad_external_pin *) + output OB; + input I; +endmodule + +module OBUFT (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter integer DRIVE = 12; + parameter IOSTANDARD = "DEFAULT"; + parameter SLEW = "SLOW"; + (* iopad_external_pin *) + output O; + input I; + input T; +endmodule + +module OBUFTDS (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SLEW = "SLOW"; + (* iopad_external_pin *) + output O; + (* iopad_external_pin *) + output OB; + input I; + input T; +endmodule + +module OSERDES2 (...); + parameter BYPASS_GCLK_FF = "FALSE"; + parameter DATA_RATE_OQ = "DDR"; + parameter DATA_RATE_OT = "DDR"; + parameter integer DATA_WIDTH = 2; + parameter OUTPUT_MODE = "SINGLE_ENDED"; + parameter SERDES_MODE = "NONE"; + parameter integer TRAIN_PATTERN = 0; + output OQ; + output SHIFTOUT1; + output SHIFTOUT2; + output SHIFTOUT3; + output SHIFTOUT4; + output TQ; + (* clkbuf_sink *) + input CLK0; + (* clkbuf_sink *) + input CLK1; + (* clkbuf_sink *) + input CLKDIV; + input D1; + input D2; + input D3; + input D4; + input IOCE; + input OCE; + input RST; + input SHIFTIN1; + input SHIFTIN2; + input SHIFTIN3; + input SHIFTIN4; + input T1; + input T2; + input T3; + input T4; + input TCE; + input TRAIN; +endmodule + +module PULLDOWN (...); + output O; +endmodule + +module PULLUP (...); + output O; +endmodule + +module RAM128X1S (...); + parameter [127:0] INIT = 128'h00000000000000000000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input A6; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM256X1S (...); + parameter [255:0] INIT = 256'h0; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O; + input [7:0] A; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM32M (...); + parameter [63:0] INIT_A = 64'h0000000000000000; + parameter [63:0] INIT_B = 64'h0000000000000000; + parameter [63:0] INIT_C = 64'h0000000000000000; + parameter [63:0] INIT_D = 64'h0000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output [1:0] DOA; + output [1:0] DOB; + output [1:0] DOC; + output [1:0] DOD; + input [4:0] ADDRA; + input [4:0] ADDRB; + input [4:0] ADDRC; + input [4:0] ADDRD; + input [1:0] DIA; + input [1:0] DIB; + input [1:0] DIC; + input [1:0] DID; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM32X1S (...); + parameter [31:0] INIT = 32'h00000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM32X1S_1 (...); + parameter [31:0] INIT = 32'h00000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM32X2S (...); + parameter [31:0] INIT_00 = 32'h00000000; + parameter [31:0] INIT_01 = 32'h00000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O0; + output O1; + input A0; + input A1; + input A2; + input A3; + input A4; + input D0; + input D1; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM64M (...); + parameter [63:0] INIT_A = 64'h0000000000000000; + parameter [63:0] INIT_B = 64'h0000000000000000; + parameter [63:0] INIT_C = 64'h0000000000000000; + parameter [63:0] INIT_D = 64'h0000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output DOA; + output DOB; + output DOC; + output DOD; + input [5:0] ADDRA; + input [5:0] ADDRB; + input [5:0] ADDRC; + input [5:0] ADDRD; + input DIA; + input DIB; + input DIC; + input DID; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM64X1S (...); + parameter [63:0] INIT = 64'h0000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM64X1S_1 (...); + parameter [63:0] INIT = 64'h0000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM64X2S (...); + parameter [63:0] INIT_00 = 64'h0000000000000000; + parameter [63:0] INIT_01 = 64'h0000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O0; + output O1; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input D0; + input D1; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module ROM128X1 (...); + parameter [127:0] INIT = 128'h00000000000000000000000000000000; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input A6; +endmodule + +module ROM256X1 (...); + parameter [255:0] INIT = 256'h0000000000000000000000000000000000000000000000000000000000000000; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input A6; + input A7; +endmodule + +module ROM32X1 (...); + parameter [31:0] INIT = 32'h00000000; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; +endmodule + +module ROM64X1 (...); + parameter [63:0] INIT = 64'h0000000000000000; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; +endmodule + +module IDDR2 (...); + parameter DDR_ALIGNMENT = "NONE"; + parameter [0:0] INIT_Q0 = 1'b0; + parameter [0:0] INIT_Q1 = 1'b0; + parameter SRTYPE = "SYNC"; + output Q0; + output Q1; + (* clkbuf_sink *) + input C0; + (* clkbuf_sink *) + input C1; + input CE; + input D; + input R; + input S; +endmodule + +module LDCE (...); + parameter [0:0] INIT = 1'b0; + parameter [0:0] IS_CLR_INVERTED = 1'b0; + parameter [0:0] IS_G_INVERTED = 1'b0; + parameter MSGON = "TRUE"; + parameter XON = "TRUE"; + output Q; + (* invertible_pin = "IS_CLR_INVERTED" *) + input CLR; + input D; + (* invertible_pin = "IS_G_INVERTED" *) + input G; + input GE; +endmodule + +module LDPE (...); + parameter [0:0] INIT = 1'b1; + parameter [0:0] IS_G_INVERTED = 1'b0; + parameter [0:0] IS_PRE_INVERTED = 1'b0; + parameter MSGON = "TRUE"; + parameter XON = "TRUE"; + output Q; + input D; + (* invertible_pin = "IS_G_INVERTED" *) + input G; + input GE; + (* invertible_pin = "IS_PRE_INVERTED" *) + input PRE; +endmodule + +module ODDR2 (...); + parameter DDR_ALIGNMENT = "NONE"; + parameter [0:0] INIT = 1'b0; + parameter SRTYPE = "SYNC"; + output Q; + (* clkbuf_sink *) + input C0; + (* clkbuf_sink *) + input C1; + input CE; + input D0; + input D1; + input R; + input S; +endmodule + +module CFGLUT5 (...); + parameter [31:0] INIT = 32'h00000000; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + output CDO; + output O5; + output O6; + input I4; + input I3; + input I2; + input I1; + input I0; + input CDI; + input CE; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK; +endmodule + diff --git a/techlibs/xilinx/xc6s_ff_map.v b/techlibs/xilinx/xc6s_ff_map.v new file mode 100644 index 000000000..520a67579 --- /dev/null +++ b/techlibs/xilinx/xc6s_ff_map.v @@ -0,0 +1,126 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +// ============================================================================ +// FF mapping + +`ifndef _NO_FFS + +module \$_DFF_N_ (input D, C, output Q); + parameter [0:0] _TECHMAP_WIREINIT_Q_ = 1'bx; + generate if (_TECHMAP_WIREINIT_Q_ === 1'b1) + FDSE_1 #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .S(1'b0)); + else + FDRE_1 #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .R(1'b0)); + endgenerate +endmodule +module \$_DFF_P_ (input D, C, output Q); + parameter [0:0] _TECHMAP_WIREINIT_Q_ = 1'bx; + generate if (_TECHMAP_WIREINIT_Q_ === 1'b1) + FDSE #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .S(1'b0)); + else + FDRE #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .R(1'b0)); + endgenerate +endmodule + +module \$_DFFE_NP_ (input D, C, E, output Q); + parameter [0:0] _TECHMAP_WIREINIT_Q_ = 1'bx; + generate if (_TECHMAP_WIREINIT_Q_ === 1'b1) + FDSE_1 #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(E), .S(1'b0)); + else + FDRE_1 #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(E), .R(1'b0)); + endgenerate +endmodule +module \$_DFFE_PP_ (input D, C, E, output Q); + parameter [0:0] _TECHMAP_WIREINIT_Q_ = 1'bx; + generate if (_TECHMAP_WIREINIT_Q_ === 1'b1) + FDSE #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(E), .S(1'b0)); + else + FDRE #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(E), .R(1'b0)); + endgenerate +endmodule + +module \$_DFF_NN0_ (input D, C, R, output Q); + parameter [0:0] _TECHMAP_WIREINIT_Q_ = 1'bx; + generate if (_TECHMAP_WIREINIT_Q_ === 1'b1) + $error("Spartan 6 doesn't support FFs with asynchronous reset initialized to 1"); + else + FDCE_1 #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .CLR(!R)); + endgenerate +endmodule +module \$_DFF_NP0_ (input D, C, R, output Q); + parameter [0:0] _TECHMAP_WIREINIT_Q_ = 1'bx; + generate if (_TECHMAP_WIREINIT_Q_ === 1'b1) + $error("Spartan 6 doesn't support FFs with asynchronous reset initialized to 1"); + else + FDCE_1 #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .CLR( R)); + endgenerate +endmodule +module \$_DFF_PN0_ (input D, C, R, output Q); + parameter [0:0] _TECHMAP_WIREINIT_Q_ = 1'bx; + generate if (_TECHMAP_WIREINIT_Q_ === 1'b1) + $error("Spartan 6 doesn't support FFs with asynchronous reset initialized to 1"); + else + FDCE #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .CLR(!R)); + endgenerate +endmodule +module \$_DFF_PP0_ (input D, C, R, output Q); + parameter [0:0] _TECHMAP_WIREINIT_Q_ = 1'bx; + generate if (_TECHMAP_WIREINIT_Q_ === 1'b1) + $error("Spartan 6 doesn't support FFs with asynchronous reset initialized to 1"); + else + FDCE #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .CLR( R)); + endgenerate +endmodule + +module \$_DFF_NN1_ (input D, C, R, output Q); + parameter [0:0] _TECHMAP_WIREINIT_Q_ = 1'bx; + generate if (_TECHMAP_WIREINIT_Q_ === 1'b0) + $error("Spartan 6 doesn't support FFs with asynchronous set initialized to 0"); + else + FDPE_1 #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .PRE(!R)); + endgenerate +endmodule +module \$_DFF_NP1_ (input D, C, R, output Q); + parameter [0:0] _TECHMAP_WIREINIT_Q_ = 1'bx; + generate if (_TECHMAP_WIREINIT_Q_ === 1'b0) + $error("Spartan 6 doesn't support FFs with asynchronous set initialized to 0"); + else + FDPE_1 #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .PRE( R)); + endgenerate +endmodule +module \$_DFF_PN1_ (input D, C, R, output Q); + parameter [0:0] _TECHMAP_WIREINIT_Q_ = 1'bx; + generate if (_TECHMAP_WIREINIT_Q_ === 1'b0) + $error("Spartan 6 doesn't support FFs with asynchronous set initialized to 0"); + else + FDPE #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .PRE(!R)); + endgenerate +endmodule +module \$_DFF_PP1_ (input D, C, R, output Q); + parameter [0:0] _TECHMAP_WIREINIT_Q_ = 1'bx; + generate if (_TECHMAP_WIREINIT_Q_ === 1'b0) + $error("Spartan 6 doesn't support FFs with asynchronous set initialized to 0"); + else + FDPE #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .PRE( R)); + endgenerate +endmodule + +`endif + diff --git a/techlibs/xilinx/xc6v_cells_xtra.v b/techlibs/xilinx/xc6v_cells_xtra.v new file mode 100644 index 000000000..263bcc69d --- /dev/null +++ b/techlibs/xilinx/xc6v_cells_xtra.v @@ -0,0 +1,2720 @@ +// Created by cells_xtra.py from Xilinx models + +module PCIE_2_0 (...); + parameter [11:0] AER_BASE_PTR = 12'h128; + parameter AER_CAP_ECRC_CHECK_CAPABLE = "FALSE"; + parameter AER_CAP_ECRC_GEN_CAPABLE = "FALSE"; + parameter [15:0] AER_CAP_ID = 16'h0001; + parameter [4:0] AER_CAP_INT_MSG_NUM_MSI = 5'h0A; + parameter [4:0] AER_CAP_INT_MSG_NUM_MSIX = 5'h15; + parameter [11:0] AER_CAP_NEXTPTR = 12'h160; + parameter AER_CAP_ON = "FALSE"; + parameter AER_CAP_PERMIT_ROOTERR_UPDATE = "TRUE"; + parameter [3:0] AER_CAP_VERSION = 4'h1; + parameter ALLOW_X8_GEN2 = "FALSE"; + parameter [31:0] BAR0 = 32'hFFFFFF00; + parameter [31:0] BAR1 = 32'hFFFF0000; + parameter [31:0] BAR2 = 32'hFFFF000C; + parameter [31:0] BAR3 = 32'hFFFFFFFF; + parameter [31:0] BAR4 = 32'h00000000; + parameter [31:0] BAR5 = 32'h00000000; + parameter [7:0] CAPABILITIES_PTR = 8'h40; + parameter [31:0] CARDBUS_CIS_POINTER = 32'h00000000; + parameter [23:0] CLASS_CODE = 24'h000000; + parameter CMD_INTX_IMPLEMENTED = "TRUE"; + parameter CPL_TIMEOUT_DISABLE_SUPPORTED = "FALSE"; + parameter [3:0] CPL_TIMEOUT_RANGES_SUPPORTED = 4'h0; + parameter [6:0] CRM_MODULE_RSTS = 7'h00; + parameter [15:0] DEVICE_ID = 16'h0007; + parameter DEV_CAP_ENABLE_SLOT_PWR_LIMIT_SCALE = "TRUE"; + parameter DEV_CAP_ENABLE_SLOT_PWR_LIMIT_VALUE = "TRUE"; + parameter integer DEV_CAP_ENDPOINT_L0S_LATENCY = 0; + parameter integer DEV_CAP_ENDPOINT_L1_LATENCY = 0; + parameter DEV_CAP_EXT_TAG_SUPPORTED = "TRUE"; + parameter DEV_CAP_FUNCTION_LEVEL_RESET_CAPABLE = "FALSE"; + parameter integer DEV_CAP_MAX_PAYLOAD_SUPPORTED = 2; + parameter integer DEV_CAP_PHANTOM_FUNCTIONS_SUPPORT = 0; + parameter DEV_CAP_ROLE_BASED_ERROR = "TRUE"; + parameter integer DEV_CAP_RSVD_14_12 = 0; + parameter integer DEV_CAP_RSVD_17_16 = 0; + parameter integer DEV_CAP_RSVD_31_29 = 0; + parameter DEV_CONTROL_AUX_POWER_SUPPORTED = "FALSE"; + parameter DISABLE_ASPM_L1_TIMER = "FALSE"; + parameter DISABLE_BAR_FILTERING = "FALSE"; + parameter DISABLE_ID_CHECK = "FALSE"; + parameter DISABLE_LANE_REVERSAL = "FALSE"; + parameter DISABLE_RX_TC_FILTER = "FALSE"; + parameter DISABLE_SCRAMBLING = "FALSE"; + parameter [7:0] DNSTREAM_LINK_NUM = 8'h00; + parameter [11:0] DSN_BASE_PTR = 12'h100; + parameter [15:0] DSN_CAP_ID = 16'h0003; + parameter [11:0] DSN_CAP_NEXTPTR = 12'h000; + parameter DSN_CAP_ON = "TRUE"; + parameter [3:0] DSN_CAP_VERSION = 4'h1; + parameter [10:0] ENABLE_MSG_ROUTE = 11'h000; + parameter ENABLE_RX_TD_ECRC_TRIM = "FALSE"; + parameter ENTER_RVRY_EI_L0 = "TRUE"; + parameter EXIT_LOOPBACK_ON_EI = "TRUE"; + parameter [31:0] EXPANSION_ROM = 32'hFFFFF001; + parameter [5:0] EXT_CFG_CAP_PTR = 6'h3F; + parameter [9:0] EXT_CFG_XP_CAP_PTR = 10'h3FF; + parameter [7:0] HEADER_TYPE = 8'h00; + parameter [4:0] INFER_EI = 5'h00; + parameter [7:0] INTERRUPT_PIN = 8'h01; + parameter IS_SWITCH = "FALSE"; + parameter [9:0] LAST_CONFIG_DWORD = 10'h042; + parameter integer LINK_CAP_ASPM_SUPPORT = 1; + parameter LINK_CAP_CLOCK_POWER_MANAGEMENT = "FALSE"; + parameter LINK_CAP_DLL_LINK_ACTIVE_REPORTING_CAP = "FALSE"; + parameter integer LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN1 = 7; + parameter integer LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN2 = 7; + parameter integer LINK_CAP_L0S_EXIT_LATENCY_GEN1 = 7; + parameter integer LINK_CAP_L0S_EXIT_LATENCY_GEN2 = 7; + parameter integer LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN1 = 7; + parameter integer LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN2 = 7; + parameter integer LINK_CAP_L1_EXIT_LATENCY_GEN1 = 7; + parameter integer LINK_CAP_L1_EXIT_LATENCY_GEN2 = 7; + parameter LINK_CAP_LINK_BANDWIDTH_NOTIFICATION_CAP = "FALSE"; + parameter [3:0] LINK_CAP_MAX_LINK_SPEED = 4'h1; + parameter [5:0] LINK_CAP_MAX_LINK_WIDTH = 6'h08; + parameter integer LINK_CAP_RSVD_23_22 = 0; + parameter LINK_CAP_SURPRISE_DOWN_ERROR_CAPABLE = "FALSE"; + parameter integer LINK_CONTROL_RCB = 0; + parameter LINK_CTRL2_DEEMPHASIS = "FALSE"; + parameter LINK_CTRL2_HW_AUTONOMOUS_SPEED_DISABLE = "FALSE"; + parameter [3:0] LINK_CTRL2_TARGET_LINK_SPEED = 4'h2; + parameter LINK_STATUS_SLOT_CLOCK_CONFIG = "TRUE"; + parameter [14:0] LL_ACK_TIMEOUT = 15'h0000; + parameter LL_ACK_TIMEOUT_EN = "FALSE"; + parameter integer LL_ACK_TIMEOUT_FUNC = 0; + parameter [14:0] LL_REPLAY_TIMEOUT = 15'h0000; + parameter LL_REPLAY_TIMEOUT_EN = "FALSE"; + parameter integer LL_REPLAY_TIMEOUT_FUNC = 0; + parameter [5:0] LTSSM_MAX_LINK_WIDTH = 6'h01; + parameter [7:0] MSIX_BASE_PTR = 8'h9C; + parameter [7:0] MSIX_CAP_ID = 8'h11; + parameter [7:0] MSIX_CAP_NEXTPTR = 8'h00; + parameter MSIX_CAP_ON = "FALSE"; + parameter integer MSIX_CAP_PBA_BIR = 0; + parameter [28:0] MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] MSIX_CAP_TABLE_SIZE = 11'h000; + parameter [7:0] MSI_BASE_PTR = 8'h48; + parameter MSI_CAP_64_BIT_ADDR_CAPABLE = "TRUE"; + parameter [7:0] MSI_CAP_ID = 8'h05; + parameter integer MSI_CAP_MULTIMSGCAP = 0; + parameter integer MSI_CAP_MULTIMSG_EXTENSION = 0; + parameter [7:0] MSI_CAP_NEXTPTR = 8'h60; + parameter MSI_CAP_ON = "FALSE"; + parameter MSI_CAP_PER_VECTOR_MASKING_CAPABLE = "TRUE"; + parameter integer N_FTS_COMCLK_GEN1 = 255; + parameter integer N_FTS_COMCLK_GEN2 = 255; + parameter integer N_FTS_GEN1 = 255; + parameter integer N_FTS_GEN2 = 255; + parameter [7:0] PCIE_BASE_PTR = 8'h60; + parameter [7:0] PCIE_CAP_CAPABILITY_ID = 8'h10; + parameter [3:0] PCIE_CAP_CAPABILITY_VERSION = 4'h2; + parameter [3:0] PCIE_CAP_DEVICE_PORT_TYPE = 4'h0; + parameter [4:0] PCIE_CAP_INT_MSG_NUM = 5'h00; + parameter [7:0] PCIE_CAP_NEXTPTR = 8'h00; + parameter PCIE_CAP_ON = "TRUE"; + parameter integer PCIE_CAP_RSVD_15_14 = 0; + parameter PCIE_CAP_SLOT_IMPLEMENTED = "FALSE"; + parameter integer PCIE_REVISION = 2; + parameter integer PGL0_LANE = 0; + parameter integer PGL1_LANE = 1; + parameter integer PGL2_LANE = 2; + parameter integer PGL3_LANE = 3; + parameter integer PGL4_LANE = 4; + parameter integer PGL5_LANE = 5; + parameter integer PGL6_LANE = 6; + parameter integer PGL7_LANE = 7; + parameter integer PL_AUTO_CONFIG = 0; + parameter PL_FAST_TRAIN = "FALSE"; + parameter [7:0] PM_BASE_PTR = 8'h40; + parameter integer PM_CAP_AUXCURRENT = 0; + parameter PM_CAP_D1SUPPORT = "TRUE"; + parameter PM_CAP_D2SUPPORT = "TRUE"; + parameter PM_CAP_DSI = "FALSE"; + parameter [7:0] PM_CAP_ID = 8'h01; + parameter [7:0] PM_CAP_NEXTPTR = 8'h48; + parameter PM_CAP_ON = "TRUE"; + parameter [4:0] PM_CAP_PMESUPPORT = 5'h0F; + parameter PM_CAP_PME_CLOCK = "FALSE"; + parameter integer PM_CAP_RSVD_04 = 0; + parameter integer PM_CAP_VERSION = 3; + parameter PM_CSR_B2B3 = "FALSE"; + parameter PM_CSR_BPCCEN = "FALSE"; + parameter PM_CSR_NOSOFTRST = "TRUE"; + parameter [7:0] PM_DATA0 = 8'h01; + parameter [7:0] PM_DATA1 = 8'h01; + parameter [7:0] PM_DATA2 = 8'h01; + parameter [7:0] PM_DATA3 = 8'h01; + parameter [7:0] PM_DATA4 = 8'h01; + parameter [7:0] PM_DATA5 = 8'h01; + parameter [7:0] PM_DATA6 = 8'h01; + parameter [7:0] PM_DATA7 = 8'h01; + parameter [1:0] PM_DATA_SCALE0 = 2'h1; + parameter [1:0] PM_DATA_SCALE1 = 2'h1; + parameter [1:0] PM_DATA_SCALE2 = 2'h1; + parameter [1:0] PM_DATA_SCALE3 = 2'h1; + parameter [1:0] PM_DATA_SCALE4 = 2'h1; + parameter [1:0] PM_DATA_SCALE5 = 2'h1; + parameter [1:0] PM_DATA_SCALE6 = 2'h1; + parameter [1:0] PM_DATA_SCALE7 = 2'h1; + parameter integer RECRC_CHK = 0; + parameter RECRC_CHK_TRIM = "FALSE"; + parameter [7:0] REVISION_ID = 8'h00; + parameter ROOT_CAP_CRS_SW_VISIBILITY = "FALSE"; + parameter SELECT_DLL_IF = "FALSE"; + parameter SIM_VERSION = "1.0"; + parameter SLOT_CAP_ATT_BUTTON_PRESENT = "FALSE"; + parameter SLOT_CAP_ATT_INDICATOR_PRESENT = "FALSE"; + parameter SLOT_CAP_ELEC_INTERLOCK_PRESENT = "FALSE"; + parameter SLOT_CAP_HOTPLUG_CAPABLE = "FALSE"; + parameter SLOT_CAP_HOTPLUG_SURPRISE = "FALSE"; + parameter SLOT_CAP_MRL_SENSOR_PRESENT = "FALSE"; + parameter SLOT_CAP_NO_CMD_COMPLETED_SUPPORT = "FALSE"; + parameter [12:0] SLOT_CAP_PHYSICAL_SLOT_NUM = 13'h0000; + parameter SLOT_CAP_POWER_CONTROLLER_PRESENT = "FALSE"; + parameter SLOT_CAP_POWER_INDICATOR_PRESENT = "FALSE"; + parameter integer SLOT_CAP_SLOT_POWER_LIMIT_SCALE = 0; + parameter [7:0] SLOT_CAP_SLOT_POWER_LIMIT_VALUE = 8'h00; + parameter integer SPARE_BIT0 = 0; + parameter integer SPARE_BIT1 = 0; + parameter integer SPARE_BIT2 = 0; + parameter integer SPARE_BIT3 = 0; + parameter integer SPARE_BIT4 = 0; + parameter integer SPARE_BIT5 = 0; + parameter integer SPARE_BIT6 = 0; + parameter integer SPARE_BIT7 = 0; + parameter integer SPARE_BIT8 = 0; + parameter [7:0] SPARE_BYTE0 = 8'h00; + parameter [7:0] SPARE_BYTE1 = 8'h00; + parameter [7:0] SPARE_BYTE2 = 8'h00; + parameter [7:0] SPARE_BYTE3 = 8'h00; + parameter [31:0] SPARE_WORD0 = 32'h00000000; + parameter [31:0] SPARE_WORD1 = 32'h00000000; + parameter [31:0] SPARE_WORD2 = 32'h00000000; + parameter [31:0] SPARE_WORD3 = 32'h00000000; + parameter [15:0] SUBSYSTEM_ID = 16'h0007; + parameter [15:0] SUBSYSTEM_VENDOR_ID = 16'h10EE; + parameter TL_RBYPASS = "FALSE"; + parameter integer TL_RX_RAM_RADDR_LATENCY = 0; + parameter integer TL_RX_RAM_RDATA_LATENCY = 2; + parameter integer TL_RX_RAM_WRITE_LATENCY = 0; + parameter TL_TFC_DISABLE = "FALSE"; + parameter TL_TX_CHECKS_DISABLE = "FALSE"; + parameter integer TL_TX_RAM_RADDR_LATENCY = 0; + parameter integer TL_TX_RAM_RDATA_LATENCY = 2; + parameter integer TL_TX_RAM_WRITE_LATENCY = 0; + parameter UPCONFIG_CAPABLE = "TRUE"; + parameter UPSTREAM_FACING = "TRUE"; + parameter UR_INV_REQ = "TRUE"; + parameter integer USER_CLK_FREQ = 3; + parameter VC0_CPL_INFINITE = "TRUE"; + parameter [12:0] VC0_RX_RAM_LIMIT = 13'h03FF; + parameter integer VC0_TOTAL_CREDITS_CD = 127; + parameter integer VC0_TOTAL_CREDITS_CH = 31; + parameter integer VC0_TOTAL_CREDITS_NPH = 12; + parameter integer VC0_TOTAL_CREDITS_PD = 288; + parameter integer VC0_TOTAL_CREDITS_PH = 32; + parameter integer VC0_TX_LASTPACKET = 31; + parameter [11:0] VC_BASE_PTR = 12'h10C; + parameter [15:0] VC_CAP_ID = 16'h0002; + parameter [11:0] VC_CAP_NEXTPTR = 12'h000; + parameter VC_CAP_ON = "FALSE"; + parameter VC_CAP_REJECT_SNOOP_TRANSACTIONS = "FALSE"; + parameter [3:0] VC_CAP_VERSION = 4'h1; + parameter [15:0] VENDOR_ID = 16'h10EE; + parameter [11:0] VSEC_BASE_PTR = 12'h160; + parameter [15:0] VSEC_CAP_HDR_ID = 16'h1234; + parameter [11:0] VSEC_CAP_HDR_LENGTH = 12'h018; + parameter [3:0] VSEC_CAP_HDR_REVISION = 4'h1; + parameter [15:0] VSEC_CAP_ID = 16'h000B; + parameter VSEC_CAP_IS_LINK_VISIBLE = "TRUE"; + parameter [11:0] VSEC_CAP_NEXTPTR = 12'h000; + parameter VSEC_CAP_ON = "FALSE"; + parameter [3:0] VSEC_CAP_VERSION = 4'h1; + output CFGAERECRCCHECKEN; + output CFGAERECRCGENEN; + output CFGCOMMANDBUSMASTERENABLE; + output CFGCOMMANDINTERRUPTDISABLE; + output CFGCOMMANDIOENABLE; + output CFGCOMMANDMEMENABLE; + output CFGCOMMANDSERREN; + output CFGDEVCONTROL2CPLTIMEOUTDIS; + output CFGDEVCONTROLAUXPOWEREN; + output CFGDEVCONTROLCORRERRREPORTINGEN; + output CFGDEVCONTROLENABLERO; + output CFGDEVCONTROLEXTTAGEN; + output CFGDEVCONTROLFATALERRREPORTINGEN; + output CFGDEVCONTROLNONFATALREPORTINGEN; + output CFGDEVCONTROLNOSNOOPEN; + output CFGDEVCONTROLPHANTOMEN; + output CFGDEVCONTROLURERRREPORTINGEN; + output CFGDEVSTATUSCORRERRDETECTED; + output CFGDEVSTATUSFATALERRDETECTED; + output CFGDEVSTATUSNONFATALERRDETECTED; + output CFGDEVSTATUSURDETECTED; + output CFGERRAERHEADERLOGSETN; + output CFGERRCPLRDYN; + output CFGINTERRUPTMSIENABLE; + output CFGINTERRUPTMSIXENABLE; + output CFGINTERRUPTMSIXFM; + output CFGINTERRUPTRDYN; + output CFGLINKCONTROLAUTOBANDWIDTHINTEN; + output CFGLINKCONTROLBANDWIDTHINTEN; + output CFGLINKCONTROLCLOCKPMEN; + output CFGLINKCONTROLCOMMONCLOCK; + output CFGLINKCONTROLEXTENDEDSYNC; + output CFGLINKCONTROLHWAUTOWIDTHDIS; + output CFGLINKCONTROLLINKDISABLE; + output CFGLINKCONTROLRCB; + output CFGLINKCONTROLRETRAINLINK; + output CFGLINKSTATUSAUTOBANDWIDTHSTATUS; + output CFGLINKSTATUSBANDWITHSTATUS; + output CFGLINKSTATUSDLLACTIVE; + output CFGLINKSTATUSLINKTRAINING; + output CFGMSGRECEIVED; + output CFGMSGRECEIVEDASSERTINTA; + output CFGMSGRECEIVEDASSERTINTB; + output CFGMSGRECEIVEDASSERTINTC; + output CFGMSGRECEIVEDASSERTINTD; + output CFGMSGRECEIVEDDEASSERTINTA; + output CFGMSGRECEIVEDDEASSERTINTB; + output CFGMSGRECEIVEDDEASSERTINTC; + output CFGMSGRECEIVEDDEASSERTINTD; + output CFGMSGRECEIVEDERRCOR; + output CFGMSGRECEIVEDERRFATAL; + output CFGMSGRECEIVEDERRNONFATAL; + output CFGMSGRECEIVEDPMASNAK; + output CFGMSGRECEIVEDPMETO; + output CFGMSGRECEIVEDPMETOACK; + output CFGMSGRECEIVEDPMPME; + output CFGMSGRECEIVEDSETSLOTPOWERLIMIT; + output CFGMSGRECEIVEDUNLOCK; + output CFGPMCSRPMEEN; + output CFGPMCSRPMESTATUS; + output CFGPMRCVASREQL1N; + output CFGPMRCVENTERL1N; + output CFGPMRCVENTERL23N; + output CFGPMRCVREQACKN; + output CFGRDWRDONEN; + output CFGSLOTCONTROLELECTROMECHILCTLPULSE; + output CFGTRANSACTION; + output CFGTRANSACTIONTYPE; + output DBGSCLRA; + output DBGSCLRB; + output DBGSCLRC; + output DBGSCLRD; + output DBGSCLRE; + output DBGSCLRF; + output DBGSCLRG; + output DBGSCLRH; + output DBGSCLRI; + output DBGSCLRJ; + output DBGSCLRK; + output DRPDRDY; + output LL2BADDLLPERRN; + output LL2BADTLPERRN; + output LL2PROTOCOLERRN; + output LL2REPLAYROERRN; + output LL2REPLAYTOERRN; + output LL2SUSPENDOKN; + output LL2TFCINIT1SEQN; + output LL2TFCINIT2SEQN; + output LNKCLKEN; + output MIMRXRCE; + output MIMRXREN; + output MIMRXWEN; + output MIMTXRCE; + output MIMTXREN; + output MIMTXWEN; + output PIPERX0POLARITY; + output PIPERX1POLARITY; + output PIPERX2POLARITY; + output PIPERX3POLARITY; + output PIPERX4POLARITY; + output PIPERX5POLARITY; + output PIPERX6POLARITY; + output PIPERX7POLARITY; + output PIPETX0COMPLIANCE; + output PIPETX0ELECIDLE; + output PIPETX1COMPLIANCE; + output PIPETX1ELECIDLE; + output PIPETX2COMPLIANCE; + output PIPETX2ELECIDLE; + output PIPETX3COMPLIANCE; + output PIPETX3ELECIDLE; + output PIPETX4COMPLIANCE; + output PIPETX4ELECIDLE; + output PIPETX5COMPLIANCE; + output PIPETX5ELECIDLE; + output PIPETX6COMPLIANCE; + output PIPETX6ELECIDLE; + output PIPETX7COMPLIANCE; + output PIPETX7ELECIDLE; + output PIPETXDEEMPH; + output PIPETXRATE; + output PIPETXRCVRDET; + output PIPETXRESET; + output PL2LINKUPN; + output PL2RECEIVERERRN; + output PL2RECOVERYN; + output PL2RXELECIDLE; + output PL2SUSPENDOK; + output PLLINKGEN2CAP; + output PLLINKPARTNERGEN2SUPPORTED; + output PLLINKUPCFGCAP; + output PLPHYLNKUPN; + output PLRECEIVEDHOTRST; + output PLSELLNKRATE; + output RECEIVEDFUNCLVLRSTN; + output TL2ASPMSUSPENDCREDITCHECKOKN; + output TL2ASPMSUSPENDREQN; + output TL2PPMSUSPENDOKN; + output TRNLNKUPN; + output TRNRDLLPSRCRDYN; + output TRNRECRCERRN; + output TRNREOFN; + output TRNRERRFWDN; + output TRNRREMN; + output TRNRSOFN; + output TRNRSRCDSCN; + output TRNRSRCRDYN; + output TRNTCFGREQN; + output TRNTDLLPDSTRDYN; + output TRNTDSTRDYN; + output TRNTERRDROPN; + output USERRSTN; + output [11:0] DBGVECC; + output [11:0] PLDBGVEC; + output [11:0] TRNFCCPLD; + output [11:0] TRNFCNPD; + output [11:0] TRNFCPD; + output [12:0] MIMRXRADDR; + output [12:0] MIMRXWADDR; + output [12:0] MIMTXRADDR; + output [12:0] MIMTXWADDR; + output [15:0] CFGMSGDATA; + output [15:0] DRPDO; + output [15:0] PIPETX0DATA; + output [15:0] PIPETX1DATA; + output [15:0] PIPETX2DATA; + output [15:0] PIPETX3DATA; + output [15:0] PIPETX4DATA; + output [15:0] PIPETX5DATA; + output [15:0] PIPETX6DATA; + output [15:0] PIPETX7DATA; + output [1:0] CFGLINKCONTROLASPMCONTROL; + output [1:0] CFGLINKSTATUSCURRENTSPEED; + output [1:0] CFGPMCSRPOWERSTATE; + output [1:0] PIPETX0CHARISK; + output [1:0] PIPETX0POWERDOWN; + output [1:0] PIPETX1CHARISK; + output [1:0] PIPETX1POWERDOWN; + output [1:0] PIPETX2CHARISK; + output [1:0] PIPETX2POWERDOWN; + output [1:0] PIPETX3CHARISK; + output [1:0] PIPETX3POWERDOWN; + output [1:0] PIPETX4CHARISK; + output [1:0] PIPETX4POWERDOWN; + output [1:0] PIPETX5CHARISK; + output [1:0] PIPETX5POWERDOWN; + output [1:0] PIPETX6CHARISK; + output [1:0] PIPETX6POWERDOWN; + output [1:0] PIPETX7CHARISK; + output [1:0] PIPETX7POWERDOWN; + output [1:0] PLLANEREVERSALMODE; + output [1:0] PLRXPMSTATE; + output [1:0] PLSELLNKWIDTH; + output [2:0] CFGDEVCONTROLMAXPAYLOAD; + output [2:0] CFGDEVCONTROLMAXREADREQ; + output [2:0] CFGINTERRUPTMMENABLE; + output [2:0] CFGPCIELINKSTATE; + output [2:0] PIPETXMARGIN; + output [2:0] PLINITIALLINKWIDTH; + output [2:0] PLTXPMSTATE; + output [31:0] CFGDO; + output [31:0] TRNRDLLPDATA; + output [3:0] CFGDEVCONTROL2CPLTIMEOUTVAL; + output [3:0] CFGLINKSTATUSNEGOTIATEDWIDTH; + output [5:0] PLLTSSMSTATE; + output [5:0] TRNTBUFAV; + output [63:0] DBGVECA; + output [63:0] DBGVECB; + output [63:0] TRNRD; + output [67:0] MIMRXWDATA; + output [68:0] MIMTXWDATA; + output [6:0] CFGTRANSACTIONADDR; + output [6:0] CFGVCTCVCMAP; + output [6:0] TRNRBARHITN; + output [7:0] CFGINTERRUPTDO; + output [7:0] TRNFCCPLH; + output [7:0] TRNFCNPH; + output [7:0] TRNFCPH; + input CFGERRACSN; + input CFGERRCORN; + input CFGERRCPLABORTN; + input CFGERRCPLTIMEOUTN; + input CFGERRCPLUNEXPECTN; + input CFGERRECRCN; + input CFGERRLOCKEDN; + input CFGERRPOSTEDN; + input CFGERRURN; + input CFGINTERRUPTASSERTN; + input CFGINTERRUPTN; + input CFGPMDIRECTASPML1N; + input CFGPMSENDPMACKN; + input CFGPMSENDPMETON; + input CFGPMSENDPMNAKN; + input CFGPMTURNOFFOKN; + input CFGPMWAKEN; + input CFGRDENN; + input CFGTRNPENDINGN; + input CFGWRENN; + input CFGWRREADONLYN; + input CFGWRRW1CASRWN; + input CMRSTN; + input CMSTICKYRSTN; + input DBGSUBMODE; + input DLRSTN; + input DRPCLK; + input DRPDEN; + input DRPDWE; + input FUNCLVLRSTN; + input LL2SENDASREQL1N; + input LL2SENDENTERL1N; + input LL2SENDENTERL23N; + input LL2SUSPENDNOWN; + input LL2TLPRCVN; + input PIPECLK; + input PIPERX0CHANISALIGNED; + input PIPERX0ELECIDLE; + input PIPERX0PHYSTATUS; + input PIPERX0VALID; + input PIPERX1CHANISALIGNED; + input PIPERX1ELECIDLE; + input PIPERX1PHYSTATUS; + input PIPERX1VALID; + input PIPERX2CHANISALIGNED; + input PIPERX2ELECIDLE; + input PIPERX2PHYSTATUS; + input PIPERX2VALID; + input PIPERX3CHANISALIGNED; + input PIPERX3ELECIDLE; + input PIPERX3PHYSTATUS; + input PIPERX3VALID; + input PIPERX4CHANISALIGNED; + input PIPERX4ELECIDLE; + input PIPERX4PHYSTATUS; + input PIPERX4VALID; + input PIPERX5CHANISALIGNED; + input PIPERX5ELECIDLE; + input PIPERX5PHYSTATUS; + input PIPERX5VALID; + input PIPERX6CHANISALIGNED; + input PIPERX6ELECIDLE; + input PIPERX6PHYSTATUS; + input PIPERX6VALID; + input PIPERX7CHANISALIGNED; + input PIPERX7ELECIDLE; + input PIPERX7PHYSTATUS; + input PIPERX7VALID; + input PLDIRECTEDLINKAUTON; + input PLDIRECTEDLINKSPEED; + input PLDOWNSTREAMDEEMPHSOURCE; + input PLRSTN; + input PLTRANSMITHOTRST; + input PLUPSTREAMPREFERDEEMPH; + input SYSRSTN; + input TL2ASPMSUSPENDCREDITCHECKN; + input TL2PPMSUSPENDREQN; + input TLRSTN; + input TRNRDSTRDYN; + input TRNRNPOKN; + input TRNTCFGGNTN; + input TRNTDLLPSRCRDYN; + input TRNTECRCGENN; + input TRNTEOFN; + input TRNTERRFWDN; + input TRNTREMN; + input TRNTSOFN; + input TRNTSRCDSCN; + input TRNTSRCRDYN; + input TRNTSTRN; + input USERCLK; + input [127:0] CFGERRAERHEADERLOG; + input [15:0] DRPDI; + input [15:0] PIPERX0DATA; + input [15:0] PIPERX1DATA; + input [15:0] PIPERX2DATA; + input [15:0] PIPERX3DATA; + input [15:0] PIPERX4DATA; + input [15:0] PIPERX5DATA; + input [15:0] PIPERX6DATA; + input [15:0] PIPERX7DATA; + input [1:0] DBGMODE; + input [1:0] PIPERX0CHARISK; + input [1:0] PIPERX1CHARISK; + input [1:0] PIPERX2CHARISK; + input [1:0] PIPERX3CHARISK; + input [1:0] PIPERX4CHARISK; + input [1:0] PIPERX5CHARISK; + input [1:0] PIPERX6CHARISK; + input [1:0] PIPERX7CHARISK; + input [1:0] PLDIRECTEDLINKCHANGE; + input [1:0] PLDIRECTEDLINKWIDTH; + input [2:0] CFGDSFUNCTIONNUMBER; + input [2:0] PIPERX0STATUS; + input [2:0] PIPERX1STATUS; + input [2:0] PIPERX2STATUS; + input [2:0] PIPERX3STATUS; + input [2:0] PIPERX4STATUS; + input [2:0] PIPERX5STATUS; + input [2:0] PIPERX6STATUS; + input [2:0] PIPERX7STATUS; + input [2:0] PLDBGMODE; + input [2:0] TRNFCSEL; + input [31:0] CFGDI; + input [31:0] TRNTDLLPDATA; + input [3:0] CFGBYTEENN; + input [47:0] CFGERRTLPCPLHEADER; + input [4:0] CFGDSDEVICENUMBER; + input [4:0] PL2DIRECTEDLSTATE; + input [63:0] CFGDSN; + input [63:0] TRNTD; + input [67:0] MIMRXRDATA; + input [68:0] MIMTXRDATA; + input [7:0] CFGDSBUSNUMBER; + input [7:0] CFGINTERRUPTDI; + input [7:0] CFGPORTNUMBER; + input [8:0] DRPDADDR; + input [9:0] CFGDWADDR; +endmodule + +module SYSMON (...); + parameter [15:0] INIT_40 = 16'h0; + parameter [15:0] INIT_41 = 16'h0; + parameter [15:0] INIT_42 = 16'h0800; + parameter [15:0] INIT_43 = 16'h0; + parameter [15:0] INIT_44 = 16'h0; + parameter [15:0] INIT_45 = 16'h0; + parameter [15:0] INIT_46 = 16'h0; + parameter [15:0] INIT_47 = 16'h0; + parameter [15:0] INIT_48 = 16'h0; + parameter [15:0] INIT_49 = 16'h0; + parameter [15:0] INIT_4A = 16'h0; + parameter [15:0] INIT_4B = 16'h0; + parameter [15:0] INIT_4C = 16'h0; + parameter [15:0] INIT_4D = 16'h0; + parameter [15:0] INIT_4E = 16'h0; + parameter [15:0] INIT_4F = 16'h0; + parameter [15:0] INIT_50 = 16'h0; + parameter [15:0] INIT_51 = 16'h0; + parameter [15:0] INIT_52 = 16'h0; + parameter [15:0] INIT_53 = 16'h0; + parameter [15:0] INIT_54 = 16'h0; + parameter [15:0] INIT_55 = 16'h0; + parameter [15:0] INIT_56 = 16'h0; + parameter [15:0] INIT_57 = 16'h0; + parameter SIM_DEVICE = "VIRTEX5"; + parameter SIM_MONITOR_FILE = "design.txt"; + output BUSY; + output DRDY; + output EOC; + output EOS; + output JTAGBUSY; + output JTAGLOCKED; + output JTAGMODIFIED; + output OT; + output [15:0] DO; + output [2:0] ALM; + output [4:0] CHANNEL; + input CONVST; + input CONVSTCLK; + input DCLK; + input DEN; + input DWE; + input RESET; + input VN; + input VP; + input [15:0] DI; + input [15:0] VAUXN; + input [15:0] VAUXP; + input [6:0] DADDR; +endmodule + +module DSP48E1 (...); + parameter integer ACASCREG = 1; + parameter integer ADREG = 1; + parameter integer ALUMODEREG = 1; + parameter integer AREG = 1; + parameter AUTORESET_PATDET = "NO_RESET"; + parameter A_INPUT = "DIRECT"; + parameter integer BCASCREG = 1; + parameter integer BREG = 1; + parameter B_INPUT = "DIRECT"; + parameter integer CARRYINREG = 1; + parameter integer CARRYINSELREG = 1; + parameter integer CREG = 1; + parameter integer DREG = 1; + parameter integer INMODEREG = 1; + parameter integer MREG = 1; + parameter integer OPMODEREG = 1; + parameter integer PREG = 1; + parameter SEL_MASK = "MASK"; + parameter SEL_PATTERN = "PATTERN"; + parameter USE_DPORT = "FALSE"; + parameter USE_MULT = "MULTIPLY"; + parameter USE_PATTERN_DETECT = "NO_PATDET"; + parameter USE_SIMD = "ONE48"; + parameter [47:0] MASK = 48'h3FFFFFFFFFFF; + parameter [47:0] PATTERN = 48'h000000000000; + parameter [3:0] IS_ALUMODE_INVERTED = 4'b0; + parameter [0:0] IS_CARRYIN_INVERTED = 1'b0; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + parameter [4:0] IS_INMODE_INVERTED = 5'b0; + parameter [6:0] IS_OPMODE_INVERTED = 7'b0; + output [29:0] ACOUT; + output [17:0] BCOUT; + output CARRYCASCOUT; + output [3:0] CARRYOUT; + output MULTSIGNOUT; + output OVERFLOW; + output [47:0] P; + output PATTERNBDETECT; + output PATTERNDETECT; + output [47:0] PCOUT; + output UNDERFLOW; + input [29:0] A; + input [29:0] ACIN; + (* invertible_pin = "IS_ALUMODE_INVERTED" *) + input [3:0] ALUMODE; + input [17:0] B; + input [17:0] BCIN; + input [47:0] C; + input CARRYCASCIN; + (* invertible_pin = "IS_CARRYIN_INVERTED" *) + input CARRYIN; + input [2:0] CARRYINSEL; + input CEA1; + input CEA2; + input CEAD; + input CEALUMODE; + input CEB1; + input CEB2; + input CEC; + input CECARRYIN; + input CECTRL; + input CED; + input CEINMODE; + input CEM; + input CEP; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK; + input [24:0] D; + (* invertible_pin = "IS_INMODE_INVERTED" *) + input [4:0] INMODE; + input MULTSIGNIN; + (* invertible_pin = "IS_OPMODE_INVERTED" *) + input [6:0] OPMODE; + input [47:0] PCIN; + input RSTA; + input RSTALLCARRYIN; + input RSTALUMODE; + input RSTB; + input RSTC; + input RSTCTRL; + input RSTD; + input RSTINMODE; + input RSTM; + input RSTP; +endmodule + +module BUFGCE (...); + parameter CE_TYPE = "SYNC"; + parameter [0:0] IS_CE_INVERTED = 1'b0; + parameter [0:0] IS_I_INVERTED = 1'b0; + (* clkbuf_driver *) + output O; + (* invertible_pin = "IS_CE_INVERTED" *) + input CE; + (* invertible_pin = "IS_I_INVERTED" *) + input I; +endmodule + +module BUFGCE_1 (...); + (* clkbuf_driver *) + output O; + input CE; + input I; +endmodule + +module BUFGMUX (...); + parameter CLK_SEL_TYPE = "SYNC"; + (* clkbuf_driver *) + output O; + input I0; + input I1; + input S; +endmodule + +module BUFGMUX_1 (...); + parameter CLK_SEL_TYPE = "SYNC"; + (* clkbuf_driver *) + output O; + input I0; + input I1; + input S; +endmodule + +module BUFGMUX_CTRL (...); + (* clkbuf_driver *) + output O; + input I0; + input I1; + input S; +endmodule + +module BUFH (...); + (* clkbuf_driver *) + output O; + input I; +endmodule + +module BUFIO (...); + (* clkbuf_driver *) + output O; + input I; +endmodule + +module BUFIODQS (...); + parameter DQSMASK_ENABLE = "FALSE"; + (* clkbuf_driver *) + output O; + input DQSMASK; + input I; +endmodule + +module BUFR (...); + parameter BUFR_DIVIDE = "BYPASS"; + parameter SIM_DEVICE = "7SERIES"; + (* clkbuf_driver *) + output O; + input CE; + input CLR; + input I; +endmodule + +module IBUFDS_GTXE1 (...); + parameter CLKCM_CFG = "TRUE"; + parameter CLKRCV_TRST = "TRUE"; + parameter [9:0] REFCLKOUT_DLY = 10'b0000000000; + output O; + output ODIV2; + input CEB; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; +endmodule + +module MMCM_ADV (...); + parameter BANDWIDTH = "OPTIMIZED"; + parameter CLKFBOUT_USE_FINE_PS = "FALSE"; + parameter CLKOUT0_USE_FINE_PS = "FALSE"; + parameter CLKOUT1_USE_FINE_PS = "FALSE"; + parameter CLKOUT2_USE_FINE_PS = "FALSE"; + parameter CLKOUT3_USE_FINE_PS = "FALSE"; + parameter CLKOUT4_CASCADE = "FALSE"; + parameter CLKOUT4_USE_FINE_PS = "FALSE"; + parameter CLKOUT5_USE_FINE_PS = "FALSE"; + parameter CLKOUT6_USE_FINE_PS = "FALSE"; + parameter CLOCK_HOLD = "FALSE"; + parameter COMPENSATION = "ZHOLD"; + parameter STARTUP_WAIT = "FALSE"; + parameter integer CLKOUT1_DIVIDE = 1; + parameter integer CLKOUT2_DIVIDE = 1; + parameter integer CLKOUT3_DIVIDE = 1; + parameter integer CLKOUT4_DIVIDE = 1; + parameter integer CLKOUT5_DIVIDE = 1; + parameter integer CLKOUT6_DIVIDE = 1; + parameter integer DIVCLK_DIVIDE = 1; + parameter real CLKFBOUT_MULT_F = 5.000; + parameter real CLKFBOUT_PHASE = 0.000; + parameter real CLKIN1_PERIOD = 0.000; + parameter real CLKIN2_PERIOD = 0.000; + parameter real CLKOUT0_DIVIDE_F = 1.000; + parameter real CLKOUT0_DUTY_CYCLE = 0.500; + parameter real CLKOUT0_PHASE = 0.000; + parameter real CLKOUT1_DUTY_CYCLE = 0.500; + parameter real CLKOUT1_PHASE = 0.000; + parameter real CLKOUT2_DUTY_CYCLE = 0.500; + parameter real CLKOUT2_PHASE = 0.000; + parameter real CLKOUT3_DUTY_CYCLE = 0.500; + parameter real CLKOUT3_PHASE = 0.000; + parameter real CLKOUT4_DUTY_CYCLE = 0.500; + parameter real CLKOUT4_PHASE = 0.000; + parameter real CLKOUT5_DUTY_CYCLE = 0.500; + parameter real CLKOUT5_PHASE = 0.000; + parameter real CLKOUT6_DUTY_CYCLE = 0.500; + parameter real CLKOUT6_PHASE = 0.000; + parameter real REF_JITTER1 = 0.010; + parameter real REF_JITTER2 = 0.010; + parameter real VCOCLK_FREQ_MAX = 1600.0; + parameter real VCOCLK_FREQ_MIN = 600.0; + parameter real CLKIN_FREQ_MAX = 800.0; + parameter real CLKIN_FREQ_MIN = 10.0; + parameter real CLKPFD_FREQ_MAX = 550.0; + parameter real CLKPFD_FREQ_MIN = 10.0; + output CLKFBOUT; + output CLKFBOUTB; + output CLKFBSTOPPED; + output CLKINSTOPPED; + output CLKOUT0; + output CLKOUT0B; + output CLKOUT1; + output CLKOUT1B; + output CLKOUT2; + output CLKOUT2B; + output CLKOUT3; + output CLKOUT3B; + output CLKOUT4; + output CLKOUT5; + output CLKOUT6; + output DRDY; + output LOCKED; + output PSDONE; + output [15:0] DO; + input CLKFBIN; + input CLKIN1; + input CLKIN2; + input CLKINSEL; + input DCLK; + input DEN; + input DWE; + input PSCLK; + input PSEN; + input PSINCDEC; + input PWRDWN; + input RST; + input [15:0] DI; + input [6:0] DADDR; +endmodule + +module MMCM_BASE (...); + parameter BANDWIDTH = "OPTIMIZED"; + parameter real CLKFBOUT_MULT_F = 5.000; + parameter real CLKFBOUT_PHASE = 0.000; + parameter real CLKIN1_PERIOD = 0.000; + parameter real CLKOUT0_DIVIDE_F = 1.000; + parameter real CLKOUT0_DUTY_CYCLE = 0.500; + parameter real CLKOUT0_PHASE = 0.000; + parameter integer CLKOUT1_DIVIDE = 1; + parameter real CLKOUT1_DUTY_CYCLE = 0.500; + parameter real CLKOUT1_PHASE = 0.000; + parameter integer CLKOUT2_DIVIDE = 1; + parameter real CLKOUT2_DUTY_CYCLE = 0.500; + parameter real CLKOUT2_PHASE = 0.000; + parameter integer CLKOUT3_DIVIDE = 1; + parameter real CLKOUT3_DUTY_CYCLE = 0.500; + parameter real CLKOUT3_PHASE = 0.000; + parameter CLKOUT4_CASCADE = "FALSE"; + parameter integer CLKOUT4_DIVIDE = 1; + parameter real CLKOUT4_DUTY_CYCLE = 0.500; + parameter real CLKOUT4_PHASE = 0.000; + parameter integer CLKOUT5_DIVIDE = 1; + parameter real CLKOUT5_DUTY_CYCLE = 0.500; + parameter real CLKOUT5_PHASE = 0.000; + parameter integer CLKOUT6_DIVIDE = 1; + parameter real CLKOUT6_DUTY_CYCLE = 0.500; + parameter real CLKOUT6_PHASE = 0.000; + parameter CLOCK_HOLD = "FALSE"; + parameter integer DIVCLK_DIVIDE = 1; + parameter real REF_JITTER1 = 0.010; + parameter STARTUP_WAIT = "FALSE"; + output CLKFBOUT; + output CLKFBOUTB; + output CLKOUT0; + output CLKOUT0B; + output CLKOUT1; + output CLKOUT1B; + output CLKOUT2; + output CLKOUT2B; + output CLKOUT3; + output CLKOUT3B; + output CLKOUT4; + output CLKOUT5; + output CLKOUT6; + output LOCKED; + input CLKFBIN; + input CLKIN1; + input PWRDWN; + input RST; +endmodule + +(* keep *) +module BSCAN_VIRTEX6 (...); + parameter DISABLE_JTAG = "FALSE"; + parameter integer JTAG_CHAIN = 1; + output CAPTURE; + output DRCK; + output RESET; + output RUNTEST; + output SEL; + output SHIFT; + output TCK; + output TDI; + output TMS; + output UPDATE; + input TDO; +endmodule + +(* keep *) +module CAPTURE_VIRTEX6 (...); + parameter ONESHOT = "TRUE"; + input CAP; + input CLK; +endmodule + +module DNA_PORT (...); + parameter [56:0] SIM_DNA_VALUE = 57'h0; + output DOUT; + input CLK; + input DIN; + input READ; + input SHIFT; +endmodule + +module EFUSE_USR (...); + parameter [31:0] SIM_EFUSE_VALUE = 32'h00000000; + output [31:0] EFUSEUSR; +endmodule + +module FRAME_ECC_VIRTEX6 (...); + parameter FARSRC = "EFAR"; + parameter FRAME_RBT_IN_FILENAME = "NONE"; + output CRCERROR; + output ECCERROR; + output ECCERRORSINGLE; + output SYNDROMEVALID; + output [12:0] SYNDROME; + output [23:0] FAR; + output [4:0] SYNBIT; + output [6:0] SYNWORD; +endmodule + +(* keep *) +module ICAP_VIRTEX6 (...); + parameter [31:0] DEVICE_ID = 32'h04244093; + parameter ICAP_WIDTH = "X8"; + parameter SIM_CFG_FILE_NAME = "NONE"; + output BUSY; + output [31:0] O; + input CLK; + input CSB; + input RDWRB; + input [31:0] I; +endmodule + +(* keep *) +module STARTUP_VIRTEX6 (...); + parameter PROG_USR = "FALSE"; + output CFGCLK; + output CFGMCLK; + output DINSPI; + output EOS; + output PREQ; + output TCKSPI; + input CLK; + input GSR; + input GTS; + input KEYCLEARB; + input PACK; + input USRCCLKO; + input USRCCLKTS; + input USRDONEO; + input USRDONETS; +endmodule + +module USR_ACCESS_VIRTEX6 (...); + output CFGCLK; + output [31:0] DATA; + output DATAVALID; +endmodule + +(* keep *) +module DCIRESET (...); + output LOCKED; + input RST; +endmodule + +module GTHE1_QUAD (...); + parameter [15:0] BER_CONST_PTRN0 = 16'h0000; + parameter [15:0] BER_CONST_PTRN1 = 16'h0000; + parameter [15:0] BUFFER_CONFIG_LANE0 = 16'h4004; + parameter [15:0] BUFFER_CONFIG_LANE1 = 16'h4004; + parameter [15:0] BUFFER_CONFIG_LANE2 = 16'h4004; + parameter [15:0] BUFFER_CONFIG_LANE3 = 16'h4004; + parameter [15:0] DFE_TRAIN_CTRL_LANE0 = 16'h0000; + parameter [15:0] DFE_TRAIN_CTRL_LANE1 = 16'h0000; + parameter [15:0] DFE_TRAIN_CTRL_LANE2 = 16'h0000; + parameter [15:0] DFE_TRAIN_CTRL_LANE3 = 16'h0000; + parameter [15:0] DLL_CFG0 = 16'h8202; + parameter [15:0] DLL_CFG1 = 16'h0000; + parameter [15:0] E10GBASEKR_LD_COEFF_UPD_LANE0 = 16'h0000; + parameter [15:0] E10GBASEKR_LD_COEFF_UPD_LANE1 = 16'h0000; + parameter [15:0] E10GBASEKR_LD_COEFF_UPD_LANE2 = 16'h0000; + parameter [15:0] E10GBASEKR_LD_COEFF_UPD_LANE3 = 16'h0000; + parameter [15:0] E10GBASEKR_LP_COEFF_UPD_LANE0 = 16'h0000; + parameter [15:0] E10GBASEKR_LP_COEFF_UPD_LANE1 = 16'h0000; + parameter [15:0] E10GBASEKR_LP_COEFF_UPD_LANE2 = 16'h0000; + parameter [15:0] E10GBASEKR_LP_COEFF_UPD_LANE3 = 16'h0000; + parameter [15:0] E10GBASEKR_PMA_CTRL_LANE0 = 16'h0002; + parameter [15:0] E10GBASEKR_PMA_CTRL_LANE1 = 16'h0002; + parameter [15:0] E10GBASEKR_PMA_CTRL_LANE2 = 16'h0002; + parameter [15:0] E10GBASEKR_PMA_CTRL_LANE3 = 16'h0002; + parameter [15:0] E10GBASEKX_CTRL_LANE0 = 16'h0000; + parameter [15:0] E10GBASEKX_CTRL_LANE1 = 16'h0000; + parameter [15:0] E10GBASEKX_CTRL_LANE2 = 16'h0000; + parameter [15:0] E10GBASEKX_CTRL_LANE3 = 16'h0000; + parameter [15:0] E10GBASER_PCS_CFG_LANE0 = 16'h070C; + parameter [15:0] E10GBASER_PCS_CFG_LANE1 = 16'h070C; + parameter [15:0] E10GBASER_PCS_CFG_LANE2 = 16'h070C; + parameter [15:0] E10GBASER_PCS_CFG_LANE3 = 16'h070C; + parameter [15:0] E10GBASER_PCS_SEEDA0_LANE0 = 16'h0001; + parameter [15:0] E10GBASER_PCS_SEEDA0_LANE1 = 16'h0001; + parameter [15:0] E10GBASER_PCS_SEEDA0_LANE2 = 16'h0001; + parameter [15:0] E10GBASER_PCS_SEEDA0_LANE3 = 16'h0001; + parameter [15:0] E10GBASER_PCS_SEEDA1_LANE0 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDA1_LANE1 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDA1_LANE2 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDA1_LANE3 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDA2_LANE0 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDA2_LANE1 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDA2_LANE2 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDA2_LANE3 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDA3_LANE0 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDA3_LANE1 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDA3_LANE2 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDA3_LANE3 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDB0_LANE0 = 16'h0001; + parameter [15:0] E10GBASER_PCS_SEEDB0_LANE1 = 16'h0001; + parameter [15:0] E10GBASER_PCS_SEEDB0_LANE2 = 16'h0001; + parameter [15:0] E10GBASER_PCS_SEEDB0_LANE3 = 16'h0001; + parameter [15:0] E10GBASER_PCS_SEEDB1_LANE0 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDB1_LANE1 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDB1_LANE2 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDB1_LANE3 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDB2_LANE0 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDB2_LANE1 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDB2_LANE2 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDB2_LANE3 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDB3_LANE0 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDB3_LANE1 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDB3_LANE2 = 16'h0000; + parameter [15:0] E10GBASER_PCS_SEEDB3_LANE3 = 16'h0000; + parameter [15:0] E10GBASER_PCS_TEST_CTRL_LANE0 = 16'h0000; + parameter [15:0] E10GBASER_PCS_TEST_CTRL_LANE1 = 16'h0000; + parameter [15:0] E10GBASER_PCS_TEST_CTRL_LANE2 = 16'h0000; + parameter [15:0] E10GBASER_PCS_TEST_CTRL_LANE3 = 16'h0000; + parameter [15:0] E10GBASEX_PCS_TSTCTRL_LANE0 = 16'h0000; + parameter [15:0] E10GBASEX_PCS_TSTCTRL_LANE1 = 16'h0000; + parameter [15:0] E10GBASEX_PCS_TSTCTRL_LANE2 = 16'h0000; + parameter [15:0] E10GBASEX_PCS_TSTCTRL_LANE3 = 16'h0000; + parameter [15:0] GLBL0_NOISE_CTRL = 16'hF0B8; + parameter [15:0] GLBL_AMON_SEL = 16'h0000; + parameter [15:0] GLBL_DMON_SEL = 16'h0200; + parameter [15:0] GLBL_PWR_CTRL = 16'h0000; + parameter [0:0] GTH_CFG_PWRUP_LANE0 = 1'b1; + parameter [0:0] GTH_CFG_PWRUP_LANE1 = 1'b1; + parameter [0:0] GTH_CFG_PWRUP_LANE2 = 1'b1; + parameter [0:0] GTH_CFG_PWRUP_LANE3 = 1'b1; + parameter [15:0] LANE_AMON_SEL = 16'h00F0; + parameter [15:0] LANE_DMON_SEL = 16'h0000; + parameter [15:0] LANE_LNK_CFGOVRD = 16'h0000; + parameter [15:0] LANE_PWR_CTRL_LANE0 = 16'h0400; + parameter [15:0] LANE_PWR_CTRL_LANE1 = 16'h0400; + parameter [15:0] LANE_PWR_CTRL_LANE2 = 16'h0400; + parameter [15:0] LANE_PWR_CTRL_LANE3 = 16'h0400; + parameter [15:0] LNK_TRN_CFG_LANE0 = 16'h0000; + parameter [15:0] LNK_TRN_CFG_LANE1 = 16'h0000; + parameter [15:0] LNK_TRN_CFG_LANE2 = 16'h0000; + parameter [15:0] LNK_TRN_CFG_LANE3 = 16'h0000; + parameter [15:0] LNK_TRN_COEFF_REQ_LANE0 = 16'h0000; + parameter [15:0] LNK_TRN_COEFF_REQ_LANE1 = 16'h0000; + parameter [15:0] LNK_TRN_COEFF_REQ_LANE2 = 16'h0000; + parameter [15:0] LNK_TRN_COEFF_REQ_LANE3 = 16'h0000; + parameter [15:0] MISC_CFG = 16'h0008; + parameter [15:0] MODE_CFG1 = 16'h0000; + parameter [15:0] MODE_CFG2 = 16'h0000; + parameter [15:0] MODE_CFG3 = 16'h0000; + parameter [15:0] MODE_CFG4 = 16'h0000; + parameter [15:0] MODE_CFG5 = 16'h0000; + parameter [15:0] MODE_CFG6 = 16'h0000; + parameter [15:0] MODE_CFG7 = 16'h0000; + parameter [15:0] PCS_ABILITY_LANE0 = 16'h0010; + parameter [15:0] PCS_ABILITY_LANE1 = 16'h0010; + parameter [15:0] PCS_ABILITY_LANE2 = 16'h0010; + parameter [15:0] PCS_ABILITY_LANE3 = 16'h0010; + parameter [15:0] PCS_CTRL1_LANE0 = 16'h2040; + parameter [15:0] PCS_CTRL1_LANE1 = 16'h2040; + parameter [15:0] PCS_CTRL1_LANE2 = 16'h2040; + parameter [15:0] PCS_CTRL1_LANE3 = 16'h2040; + parameter [15:0] PCS_CTRL2_LANE0 = 16'h0000; + parameter [15:0] PCS_CTRL2_LANE1 = 16'h0000; + parameter [15:0] PCS_CTRL2_LANE2 = 16'h0000; + parameter [15:0] PCS_CTRL2_LANE3 = 16'h0000; + parameter [15:0] PCS_MISC_CFG_0_LANE0 = 16'h1116; + parameter [15:0] PCS_MISC_CFG_0_LANE1 = 16'h1116; + parameter [15:0] PCS_MISC_CFG_0_LANE2 = 16'h1116; + parameter [15:0] PCS_MISC_CFG_0_LANE3 = 16'h1116; + parameter [15:0] PCS_MISC_CFG_1_LANE0 = 16'h0000; + parameter [15:0] PCS_MISC_CFG_1_LANE1 = 16'h0000; + parameter [15:0] PCS_MISC_CFG_1_LANE2 = 16'h0000; + parameter [15:0] PCS_MISC_CFG_1_LANE3 = 16'h0000; + parameter [15:0] PCS_MODE_LANE0 = 16'h0000; + parameter [15:0] PCS_MODE_LANE1 = 16'h0000; + parameter [15:0] PCS_MODE_LANE2 = 16'h0000; + parameter [15:0] PCS_MODE_LANE3 = 16'h0000; + parameter [15:0] PCS_RESET_1_LANE0 = 16'h0002; + parameter [15:0] PCS_RESET_1_LANE1 = 16'h0002; + parameter [15:0] PCS_RESET_1_LANE2 = 16'h0002; + parameter [15:0] PCS_RESET_1_LANE3 = 16'h0002; + parameter [15:0] PCS_RESET_LANE0 = 16'h0000; + parameter [15:0] PCS_RESET_LANE1 = 16'h0000; + parameter [15:0] PCS_RESET_LANE2 = 16'h0000; + parameter [15:0] PCS_RESET_LANE3 = 16'h0000; + parameter [15:0] PCS_TYPE_LANE0 = 16'h002C; + parameter [15:0] PCS_TYPE_LANE1 = 16'h002C; + parameter [15:0] PCS_TYPE_LANE2 = 16'h002C; + parameter [15:0] PCS_TYPE_LANE3 = 16'h002C; + parameter [15:0] PLL_CFG0 = 16'h95DF; + parameter [15:0] PLL_CFG1 = 16'h81C0; + parameter [15:0] PLL_CFG2 = 16'h0424; + parameter [15:0] PMA_CTRL1_LANE0 = 16'h0000; + parameter [15:0] PMA_CTRL1_LANE1 = 16'h0000; + parameter [15:0] PMA_CTRL1_LANE2 = 16'h0000; + parameter [15:0] PMA_CTRL1_LANE3 = 16'h0000; + parameter [15:0] PMA_CTRL2_LANE0 = 16'h000B; + parameter [15:0] PMA_CTRL2_LANE1 = 16'h000B; + parameter [15:0] PMA_CTRL2_LANE2 = 16'h000B; + parameter [15:0] PMA_CTRL2_LANE3 = 16'h000B; + parameter [15:0] PMA_LPBK_CTRL_LANE0 = 16'h0004; + parameter [15:0] PMA_LPBK_CTRL_LANE1 = 16'h0004; + parameter [15:0] PMA_LPBK_CTRL_LANE2 = 16'h0004; + parameter [15:0] PMA_LPBK_CTRL_LANE3 = 16'h0004; + parameter [15:0] PRBS_BER_CFG0_LANE0 = 16'h0000; + parameter [15:0] PRBS_BER_CFG0_LANE1 = 16'h0000; + parameter [15:0] PRBS_BER_CFG0_LANE2 = 16'h0000; + parameter [15:0] PRBS_BER_CFG0_LANE3 = 16'h0000; + parameter [15:0] PRBS_BER_CFG1_LANE0 = 16'h0000; + parameter [15:0] PRBS_BER_CFG1_LANE1 = 16'h0000; + parameter [15:0] PRBS_BER_CFG1_LANE2 = 16'h0000; + parameter [15:0] PRBS_BER_CFG1_LANE3 = 16'h0000; + parameter [15:0] PRBS_CFG_LANE0 = 16'h000A; + parameter [15:0] PRBS_CFG_LANE1 = 16'h000A; + parameter [15:0] PRBS_CFG_LANE2 = 16'h000A; + parameter [15:0] PRBS_CFG_LANE3 = 16'h000A; + parameter [15:0] PTRN_CFG0_LSB = 16'h5555; + parameter [15:0] PTRN_CFG0_MSB = 16'h5555; + parameter [15:0] PTRN_LEN_CFG = 16'h001F; + parameter [15:0] PWRUP_DLY = 16'h0000; + parameter [15:0] RX_AEQ_VAL0_LANE0 = 16'h03C0; + parameter [15:0] RX_AEQ_VAL0_LANE1 = 16'h03C0; + parameter [15:0] RX_AEQ_VAL0_LANE2 = 16'h03C0; + parameter [15:0] RX_AEQ_VAL0_LANE3 = 16'h03C0; + parameter [15:0] RX_AEQ_VAL1_LANE0 = 16'h0000; + parameter [15:0] RX_AEQ_VAL1_LANE1 = 16'h0000; + parameter [15:0] RX_AEQ_VAL1_LANE2 = 16'h0000; + parameter [15:0] RX_AEQ_VAL1_LANE3 = 16'h0000; + parameter [15:0] RX_AGC_CTRL_LANE0 = 16'h0000; + parameter [15:0] RX_AGC_CTRL_LANE1 = 16'h0000; + parameter [15:0] RX_AGC_CTRL_LANE2 = 16'h0000; + parameter [15:0] RX_AGC_CTRL_LANE3 = 16'h0000; + parameter [15:0] RX_CDR_CTRL0_LANE0 = 16'h0005; + parameter [15:0] RX_CDR_CTRL0_LANE1 = 16'h0005; + parameter [15:0] RX_CDR_CTRL0_LANE2 = 16'h0005; + parameter [15:0] RX_CDR_CTRL0_LANE3 = 16'h0005; + parameter [15:0] RX_CDR_CTRL1_LANE0 = 16'h4200; + parameter [15:0] RX_CDR_CTRL1_LANE1 = 16'h4200; + parameter [15:0] RX_CDR_CTRL1_LANE2 = 16'h4200; + parameter [15:0] RX_CDR_CTRL1_LANE3 = 16'h4200; + parameter [15:0] RX_CDR_CTRL2_LANE0 = 16'h2000; + parameter [15:0] RX_CDR_CTRL2_LANE1 = 16'h2000; + parameter [15:0] RX_CDR_CTRL2_LANE2 = 16'h2000; + parameter [15:0] RX_CDR_CTRL2_LANE3 = 16'h2000; + parameter [15:0] RX_CFG0_LANE0 = 16'h0500; + parameter [15:0] RX_CFG0_LANE1 = 16'h0500; + parameter [15:0] RX_CFG0_LANE2 = 16'h0500; + parameter [15:0] RX_CFG0_LANE3 = 16'h0500; + parameter [15:0] RX_CFG1_LANE0 = 16'h821F; + parameter [15:0] RX_CFG1_LANE1 = 16'h821F; + parameter [15:0] RX_CFG1_LANE2 = 16'h821F; + parameter [15:0] RX_CFG1_LANE3 = 16'h821F; + parameter [15:0] RX_CFG2_LANE0 = 16'h1001; + parameter [15:0] RX_CFG2_LANE1 = 16'h1001; + parameter [15:0] RX_CFG2_LANE2 = 16'h1001; + parameter [15:0] RX_CFG2_LANE3 = 16'h1001; + parameter [15:0] RX_CTLE_CTRL_LANE0 = 16'h008F; + parameter [15:0] RX_CTLE_CTRL_LANE1 = 16'h008F; + parameter [15:0] RX_CTLE_CTRL_LANE2 = 16'h008F; + parameter [15:0] RX_CTLE_CTRL_LANE3 = 16'h008F; + parameter [15:0] RX_CTRL_OVRD_LANE0 = 16'h000C; + parameter [15:0] RX_CTRL_OVRD_LANE1 = 16'h000C; + parameter [15:0] RX_CTRL_OVRD_LANE2 = 16'h000C; + parameter [15:0] RX_CTRL_OVRD_LANE3 = 16'h000C; + parameter integer RX_FABRIC_WIDTH0 = 6466; + parameter integer RX_FABRIC_WIDTH1 = 6466; + parameter integer RX_FABRIC_WIDTH2 = 6466; + parameter integer RX_FABRIC_WIDTH3 = 6466; + parameter [15:0] RX_LOOP_CTRL_LANE0 = 16'h007F; + parameter [15:0] RX_LOOP_CTRL_LANE1 = 16'h007F; + parameter [15:0] RX_LOOP_CTRL_LANE2 = 16'h007F; + parameter [15:0] RX_LOOP_CTRL_LANE3 = 16'h007F; + parameter [15:0] RX_MVAL0_LANE0 = 16'h0000; + parameter [15:0] RX_MVAL0_LANE1 = 16'h0000; + parameter [15:0] RX_MVAL0_LANE2 = 16'h0000; + parameter [15:0] RX_MVAL0_LANE3 = 16'h0000; + parameter [15:0] RX_MVAL1_LANE0 = 16'h0000; + parameter [15:0] RX_MVAL1_LANE1 = 16'h0000; + parameter [15:0] RX_MVAL1_LANE2 = 16'h0000; + parameter [15:0] RX_MVAL1_LANE3 = 16'h0000; + parameter [15:0] RX_P0S_CTRL = 16'h1206; + parameter [15:0] RX_P0_CTRL = 16'h11F0; + parameter [15:0] RX_P1_CTRL = 16'h120F; + parameter [15:0] RX_P2_CTRL = 16'h0E0F; + parameter [15:0] RX_PI_CTRL0 = 16'hD2F0; + parameter [15:0] RX_PI_CTRL1 = 16'h0080; + parameter integer SIM_GTHRESET_SPEEDUP = 1; + parameter SIM_VERSION = "1.0"; + parameter [15:0] SLICE_CFG = 16'h0000; + parameter [15:0] SLICE_NOISE_CTRL_0_LANE01 = 16'h0000; + parameter [15:0] SLICE_NOISE_CTRL_0_LANE23 = 16'h0000; + parameter [15:0] SLICE_NOISE_CTRL_1_LANE01 = 16'h0000; + parameter [15:0] SLICE_NOISE_CTRL_1_LANE23 = 16'h0000; + parameter [15:0] SLICE_NOISE_CTRL_2_LANE01 = 16'h7FFF; + parameter [15:0] SLICE_NOISE_CTRL_2_LANE23 = 16'h7FFF; + parameter [15:0] SLICE_TX_RESET_LANE01 = 16'h0000; + parameter [15:0] SLICE_TX_RESET_LANE23 = 16'h0000; + parameter [15:0] TERM_CTRL_LANE0 = 16'h5007; + parameter [15:0] TERM_CTRL_LANE1 = 16'h5007; + parameter [15:0] TERM_CTRL_LANE2 = 16'h5007; + parameter [15:0] TERM_CTRL_LANE3 = 16'h5007; + parameter [15:0] TX_CFG0_LANE0 = 16'h203D; + parameter [15:0] TX_CFG0_LANE1 = 16'h203D; + parameter [15:0] TX_CFG0_LANE2 = 16'h203D; + parameter [15:0] TX_CFG0_LANE3 = 16'h203D; + parameter [15:0] TX_CFG1_LANE0 = 16'h0F00; + parameter [15:0] TX_CFG1_LANE1 = 16'h0F00; + parameter [15:0] TX_CFG1_LANE2 = 16'h0F00; + parameter [15:0] TX_CFG1_LANE3 = 16'h0F00; + parameter [15:0] TX_CFG2_LANE0 = 16'h0081; + parameter [15:0] TX_CFG2_LANE1 = 16'h0081; + parameter [15:0] TX_CFG2_LANE2 = 16'h0081; + parameter [15:0] TX_CFG2_LANE3 = 16'h0081; + parameter [15:0] TX_CLK_SEL0_LANE0 = 16'h2121; + parameter [15:0] TX_CLK_SEL0_LANE1 = 16'h2121; + parameter [15:0] TX_CLK_SEL0_LANE2 = 16'h2121; + parameter [15:0] TX_CLK_SEL0_LANE3 = 16'h2121; + parameter [15:0] TX_CLK_SEL1_LANE0 = 16'h2121; + parameter [15:0] TX_CLK_SEL1_LANE1 = 16'h2121; + parameter [15:0] TX_CLK_SEL1_LANE2 = 16'h2121; + parameter [15:0] TX_CLK_SEL1_LANE3 = 16'h2121; + parameter [15:0] TX_DISABLE_LANE0 = 16'h0000; + parameter [15:0] TX_DISABLE_LANE1 = 16'h0000; + parameter [15:0] TX_DISABLE_LANE2 = 16'h0000; + parameter [15:0] TX_DISABLE_LANE3 = 16'h0000; + parameter integer TX_FABRIC_WIDTH0 = 6466; + parameter integer TX_FABRIC_WIDTH1 = 6466; + parameter integer TX_FABRIC_WIDTH2 = 6466; + parameter integer TX_FABRIC_WIDTH3 = 6466; + parameter [15:0] TX_P0P0S_CTRL = 16'h060C; + parameter [15:0] TX_P1P2_CTRL = 16'h0C39; + parameter [15:0] TX_PREEMPH_LANE0 = 16'h00A1; + parameter [15:0] TX_PREEMPH_LANE1 = 16'h00A1; + parameter [15:0] TX_PREEMPH_LANE2 = 16'h00A1; + parameter [15:0] TX_PREEMPH_LANE3 = 16'h00A1; + parameter [15:0] TX_PWR_RATE_OVRD_LANE0 = 16'h0060; + parameter [15:0] TX_PWR_RATE_OVRD_LANE1 = 16'h0060; + parameter [15:0] TX_PWR_RATE_OVRD_LANE2 = 16'h0060; + parameter [15:0] TX_PWR_RATE_OVRD_LANE3 = 16'h0060; + output DRDY; + output GTHINITDONE; + output MGMTPCSRDACK; + output RXCTRLACK0; + output RXCTRLACK1; + output RXCTRLACK2; + output RXCTRLACK3; + output RXDATATAP0; + output RXDATATAP1; + output RXDATATAP2; + output RXDATATAP3; + output RXPCSCLKSMPL0; + output RXPCSCLKSMPL1; + output RXPCSCLKSMPL2; + output RXPCSCLKSMPL3; + output RXUSERCLKOUT0; + output RXUSERCLKOUT1; + output RXUSERCLKOUT2; + output RXUSERCLKOUT3; + output TSTPATH; + output TSTREFCLKFAB; + output TSTREFCLKOUT; + output TXCTRLACK0; + output TXCTRLACK1; + output TXCTRLACK2; + output TXCTRLACK3; + output TXDATATAP10; + output TXDATATAP11; + output TXDATATAP12; + output TXDATATAP13; + output TXDATATAP20; + output TXDATATAP21; + output TXDATATAP22; + output TXDATATAP23; + output TXN0; + output TXN1; + output TXN2; + output TXN3; + output TXP0; + output TXP1; + output TXP2; + output TXP3; + output TXPCSCLKSMPL0; + output TXPCSCLKSMPL1; + output TXPCSCLKSMPL2; + output TXPCSCLKSMPL3; + output TXUSERCLKOUT0; + output TXUSERCLKOUT1; + output TXUSERCLKOUT2; + output TXUSERCLKOUT3; + output [15:0] DRPDO; + output [15:0] MGMTPCSRDDATA; + output [63:0] RXDATA0; + output [63:0] RXDATA1; + output [63:0] RXDATA2; + output [63:0] RXDATA3; + output [7:0] RXCODEERR0; + output [7:0] RXCODEERR1; + output [7:0] RXCODEERR2; + output [7:0] RXCODEERR3; + output [7:0] RXCTRL0; + output [7:0] RXCTRL1; + output [7:0] RXCTRL2; + output [7:0] RXCTRL3; + output [7:0] RXDISPERR0; + output [7:0] RXDISPERR1; + output [7:0] RXDISPERR2; + output [7:0] RXDISPERR3; + output [7:0] RXVALID0; + output [7:0] RXVALID1; + output [7:0] RXVALID2; + output [7:0] RXVALID3; + input DCLK; + input DEN; + input DFETRAINCTRL0; + input DFETRAINCTRL1; + input DFETRAINCTRL2; + input DFETRAINCTRL3; + input DISABLEDRP; + input DWE; + input GTHINIT; + input GTHRESET; + input GTHX2LANE01; + input GTHX2LANE23; + input GTHX4LANE; + input MGMTPCSREGRD; + input MGMTPCSREGWR; + input POWERDOWN0; + input POWERDOWN1; + input POWERDOWN2; + input POWERDOWN3; + input REFCLK; + input RXBUFRESET0; + input RXBUFRESET1; + input RXBUFRESET2; + input RXBUFRESET3; + input RXENCOMMADET0; + input RXENCOMMADET1; + input RXENCOMMADET2; + input RXENCOMMADET3; + input RXN0; + input RXN1; + input RXN2; + input RXN3; + input RXP0; + input RXP1; + input RXP2; + input RXP3; + input RXPOLARITY0; + input RXPOLARITY1; + input RXPOLARITY2; + input RXPOLARITY3; + input RXSLIP0; + input RXSLIP1; + input RXSLIP2; + input RXSLIP3; + input RXUSERCLKIN0; + input RXUSERCLKIN1; + input RXUSERCLKIN2; + input RXUSERCLKIN3; + input TXBUFRESET0; + input TXBUFRESET1; + input TXBUFRESET2; + input TXBUFRESET3; + input TXDEEMPH0; + input TXDEEMPH1; + input TXDEEMPH2; + input TXDEEMPH3; + input TXUSERCLKIN0; + input TXUSERCLKIN1; + input TXUSERCLKIN2; + input TXUSERCLKIN3; + input [15:0] DADDR; + input [15:0] DI; + input [15:0] MGMTPCSREGADDR; + input [15:0] MGMTPCSWRDATA; + input [1:0] RXPOWERDOWN0; + input [1:0] RXPOWERDOWN1; + input [1:0] RXPOWERDOWN2; + input [1:0] RXPOWERDOWN3; + input [1:0] RXRATE0; + input [1:0] RXRATE1; + input [1:0] RXRATE2; + input [1:0] RXRATE3; + input [1:0] TXPOWERDOWN0; + input [1:0] TXPOWERDOWN1; + input [1:0] TXPOWERDOWN2; + input [1:0] TXPOWERDOWN3; + input [1:0] TXRATE0; + input [1:0] TXRATE1; + input [1:0] TXRATE2; + input [1:0] TXRATE3; + input [2:0] PLLREFCLKSEL; + input [2:0] SAMPLERATE0; + input [2:0] SAMPLERATE1; + input [2:0] SAMPLERATE2; + input [2:0] SAMPLERATE3; + input [2:0] TXMARGIN0; + input [2:0] TXMARGIN1; + input [2:0] TXMARGIN2; + input [2:0] TXMARGIN3; + input [3:0] MGMTPCSLANESEL; + input [4:0] MGMTPCSMMDADDR; + input [5:0] PLLPCSCLKDIV; + input [63:0] TXDATA0; + input [63:0] TXDATA1; + input [63:0] TXDATA2; + input [63:0] TXDATA3; + input [7:0] TXCTRL0; + input [7:0] TXCTRL1; + input [7:0] TXCTRL2; + input [7:0] TXCTRL3; + input [7:0] TXDATAMSB0; + input [7:0] TXDATAMSB1; + input [7:0] TXDATAMSB2; + input [7:0] TXDATAMSB3; +endmodule + +module GTXE1 (...); + parameter AC_CAP_DIS = "TRUE"; + parameter integer ALIGN_COMMA_WORD = 1; + parameter [1:0] BGTEST_CFG = 2'b00; + parameter [16:0] BIAS_CFG = 17'h00000; + parameter [4:0] CDR_PH_ADJ_TIME = 5'b10100; + parameter integer CHAN_BOND_1_MAX_SKEW = 7; + parameter integer CHAN_BOND_2_MAX_SKEW = 1; + parameter CHAN_BOND_KEEP_ALIGN = "FALSE"; + parameter [9:0] CHAN_BOND_SEQ_1_1 = 10'b0101111100; + parameter [9:0] CHAN_BOND_SEQ_1_2 = 10'b0001001010; + parameter [9:0] CHAN_BOND_SEQ_1_3 = 10'b0001001010; + parameter [9:0] CHAN_BOND_SEQ_1_4 = 10'b0110111100; + parameter [3:0] CHAN_BOND_SEQ_1_ENABLE = 4'b1111; + parameter [9:0] CHAN_BOND_SEQ_2_1 = 10'b0100111100; + parameter [9:0] CHAN_BOND_SEQ_2_2 = 10'b0100111100; + parameter [9:0] CHAN_BOND_SEQ_2_3 = 10'b0110111100; + parameter [9:0] CHAN_BOND_SEQ_2_4 = 10'b0100111100; + parameter [4:0] CHAN_BOND_SEQ_2_CFG = 5'b00000; + parameter [3:0] CHAN_BOND_SEQ_2_ENABLE = 4'b1111; + parameter CHAN_BOND_SEQ_2_USE = "FALSE"; + parameter integer CHAN_BOND_SEQ_LEN = 1; + parameter CLK_CORRECT_USE = "TRUE"; + parameter integer CLK_COR_ADJ_LEN = 1; + parameter integer CLK_COR_DET_LEN = 1; + parameter CLK_COR_INSERT_IDLE_FLAG = "FALSE"; + parameter CLK_COR_KEEP_IDLE = "FALSE"; + parameter integer CLK_COR_MAX_LAT = 20; + parameter integer CLK_COR_MIN_LAT = 18; + parameter CLK_COR_PRECEDENCE = "TRUE"; + parameter integer CLK_COR_REPEAT_WAIT = 0; + parameter [9:0] CLK_COR_SEQ_1_1 = 10'b0100011100; + parameter [9:0] CLK_COR_SEQ_1_2 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_1_3 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_1_4 = 10'b0000000000; + parameter [3:0] CLK_COR_SEQ_1_ENABLE = 4'b1111; + parameter [9:0] CLK_COR_SEQ_2_1 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_2_2 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_2_3 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_2_4 = 10'b0000000000; + parameter [3:0] CLK_COR_SEQ_2_ENABLE = 4'b1111; + parameter CLK_COR_SEQ_2_USE = "FALSE"; + parameter [1:0] CM_TRIM = 2'b01; + parameter [9:0] COMMA_10B_ENABLE = 10'b1111111111; + parameter COMMA_DOUBLE = "FALSE"; + parameter [3:0] COM_BURST_VAL = 4'b1111; + parameter DEC_MCOMMA_DETECT = "TRUE"; + parameter DEC_PCOMMA_DETECT = "TRUE"; + parameter DEC_VALID_COMMA_ONLY = "TRUE"; + parameter [4:0] DFE_CAL_TIME = 5'b01100; + parameter [7:0] DFE_CFG = 8'b00011011; + parameter [2:0] GEARBOX_ENDEC = 3'b000; + parameter GEN_RXUSRCLK = "TRUE"; + parameter GEN_TXUSRCLK = "TRUE"; + parameter GTX_CFG_PWRUP = "TRUE"; + parameter [9:0] MCOMMA_10B_VALUE = 10'b1010000011; + parameter MCOMMA_DETECT = "TRUE"; + parameter [2:0] OOBDETECT_THRESHOLD = 3'b011; + parameter PCI_EXPRESS_MODE = "FALSE"; + parameter [9:0] PCOMMA_10B_VALUE = 10'b0101111100; + parameter PCOMMA_DETECT = "TRUE"; + parameter PMA_CAS_CLK_EN = "FALSE"; + parameter [26:0] PMA_CDR_SCAN = 27'h640404C; + parameter [75:0] PMA_CFG = 76'h0040000040000000003; + parameter [6:0] PMA_RXSYNC_CFG = 7'h00; + parameter [24:0] PMA_RX_CFG = 25'h05CE048; + parameter [19:0] PMA_TX_CFG = 20'h00082; + parameter [9:0] POWER_SAVE = 10'b0000110100; + parameter RCV_TERM_GND = "FALSE"; + parameter RCV_TERM_VTTRX = "TRUE"; + parameter RXGEARBOX_USE = "FALSE"; + parameter [23:0] RXPLL_COM_CFG = 24'h21680A; + parameter [7:0] RXPLL_CP_CFG = 8'h00; + parameter integer RXPLL_DIVSEL45_FB = 5; + parameter integer RXPLL_DIVSEL_FB = 2; + parameter integer RXPLL_DIVSEL_OUT = 1; + parameter integer RXPLL_DIVSEL_REF = 1; + parameter [2:0] RXPLL_LKDET_CFG = 3'b111; + parameter [0:0] RXPRBSERR_LOOPBACK = 1'b0; + parameter RXRECCLK_CTRL = "RXRECCLKPCS"; + parameter [9:0] RXRECCLK_DLY = 10'b0000000000; + parameter [15:0] RXUSRCLK_DLY = 16'h0000; + parameter RX_BUFFER_USE = "TRUE"; + parameter integer RX_CLK25_DIVIDER = 6; + parameter integer RX_DATA_WIDTH = 20; + parameter RX_DECODE_SEQ_MATCH = "TRUE"; + parameter [3:0] RX_DLYALIGN_CTRINC = 4'b0100; + parameter [4:0] RX_DLYALIGN_EDGESET = 5'b00110; + parameter [3:0] RX_DLYALIGN_LPFINC = 4'b0111; + parameter [2:0] RX_DLYALIGN_MONSEL = 3'b000; + parameter [7:0] RX_DLYALIGN_OVRDSETTING = 8'b00000000; + parameter RX_EN_IDLE_HOLD_CDR = "FALSE"; + parameter RX_EN_IDLE_HOLD_DFE = "TRUE"; + parameter RX_EN_IDLE_RESET_BUF = "TRUE"; + parameter RX_EN_IDLE_RESET_FR = "TRUE"; + parameter RX_EN_IDLE_RESET_PH = "TRUE"; + parameter RX_EN_MODE_RESET_BUF = "TRUE"; + parameter RX_EN_RATE_RESET_BUF = "TRUE"; + parameter RX_EN_REALIGN_RESET_BUF = "FALSE"; + parameter RX_EN_REALIGN_RESET_BUF2 = "FALSE"; + parameter [7:0] RX_EYE_OFFSET = 8'h4C; + parameter [1:0] RX_EYE_SCANMODE = 2'b00; + parameter RX_FIFO_ADDR_MODE = "FULL"; + parameter [3:0] RX_IDLE_HI_CNT = 4'b1000; + parameter [3:0] RX_IDLE_LO_CNT = 4'b0000; + parameter RX_LOSS_OF_SYNC_FSM = "FALSE"; + parameter integer RX_LOS_INVALID_INCR = 1; + parameter integer RX_LOS_THRESHOLD = 4; + parameter RX_OVERSAMPLE_MODE = "FALSE"; + parameter integer RX_SLIDE_AUTO_WAIT = 5; + parameter RX_SLIDE_MODE = "OFF"; + parameter RX_XCLK_SEL = "RXREC"; + parameter integer SAS_MAX_COMSAS = 52; + parameter integer SAS_MIN_COMSAS = 40; + parameter [2:0] SATA_BURST_VAL = 3'b100; + parameter [2:0] SATA_IDLE_VAL = 3'b100; + parameter integer SATA_MAX_BURST = 7; + parameter integer SATA_MAX_INIT = 22; + parameter integer SATA_MAX_WAKE = 7; + parameter integer SATA_MIN_BURST = 4; + parameter integer SATA_MIN_INIT = 12; + parameter integer SATA_MIN_WAKE = 4; + parameter SHOW_REALIGN_COMMA = "TRUE"; + parameter integer SIM_GTXRESET_SPEEDUP = 1; + parameter SIM_RECEIVER_DETECT_PASS = "TRUE"; + parameter [2:0] SIM_RXREFCLK_SOURCE = 3'b000; + parameter [2:0] SIM_TXREFCLK_SOURCE = 3'b000; + parameter SIM_TX_ELEC_IDLE_LEVEL = "X"; + parameter SIM_VERSION = "2.0"; + parameter [4:0] TERMINATION_CTRL = 5'b10100; + parameter TERMINATION_OVRD = "FALSE"; + parameter [11:0] TRANS_TIME_FROM_P2 = 12'h03C; + parameter [7:0] TRANS_TIME_NON_P2 = 8'h19; + parameter [7:0] TRANS_TIME_RATE = 8'h0E; + parameter [9:0] TRANS_TIME_TO_P2 = 10'h064; + parameter [31:0] TST_ATTR = 32'h00000000; + parameter TXDRIVE_LOOPBACK_HIZ = "FALSE"; + parameter TXDRIVE_LOOPBACK_PD = "FALSE"; + parameter TXGEARBOX_USE = "FALSE"; + parameter TXOUTCLK_CTRL = "TXOUTCLKPCS"; + parameter [9:0] TXOUTCLK_DLY = 10'b0000000000; + parameter [23:0] TXPLL_COM_CFG = 24'h21680A; + parameter [7:0] TXPLL_CP_CFG = 8'h00; + parameter integer TXPLL_DIVSEL45_FB = 5; + parameter integer TXPLL_DIVSEL_FB = 2; + parameter integer TXPLL_DIVSEL_OUT = 1; + parameter integer TXPLL_DIVSEL_REF = 1; + parameter [2:0] TXPLL_LKDET_CFG = 3'b111; + parameter [1:0] TXPLL_SATA = 2'b00; + parameter TX_BUFFER_USE = "TRUE"; + parameter [5:0] TX_BYTECLK_CFG = 6'h00; + parameter integer TX_CLK25_DIVIDER = 6; + parameter TX_CLK_SOURCE = "RXPLL"; + parameter integer TX_DATA_WIDTH = 20; + parameter [4:0] TX_DEEMPH_0 = 5'b11010; + parameter [4:0] TX_DEEMPH_1 = 5'b10000; + parameter [13:0] TX_DETECT_RX_CFG = 14'h1832; + parameter [3:0] TX_DLYALIGN_CTRINC = 4'b0100; + parameter [3:0] TX_DLYALIGN_LPFINC = 4'b0110; + parameter [2:0] TX_DLYALIGN_MONSEL = 3'b000; + parameter [7:0] TX_DLYALIGN_OVRDSETTING = 8'b10000000; + parameter TX_DRIVE_MODE = "DIRECT"; + parameter TX_EN_RATE_RESET_BUF = "TRUE"; + parameter [2:0] TX_IDLE_ASSERT_DELAY = 3'b100; + parameter [2:0] TX_IDLE_DEASSERT_DELAY = 3'b010; + parameter [6:0] TX_MARGIN_FULL_0 = 7'b1001110; + parameter [6:0] TX_MARGIN_FULL_1 = 7'b1001001; + parameter [6:0] TX_MARGIN_FULL_2 = 7'b1000101; + parameter [6:0] TX_MARGIN_FULL_3 = 7'b1000010; + parameter [6:0] TX_MARGIN_FULL_4 = 7'b1000000; + parameter [6:0] TX_MARGIN_LOW_0 = 7'b1000110; + parameter [6:0] TX_MARGIN_LOW_1 = 7'b1000100; + parameter [6:0] TX_MARGIN_LOW_2 = 7'b1000010; + parameter [6:0] TX_MARGIN_LOW_3 = 7'b1000000; + parameter [6:0] TX_MARGIN_LOW_4 = 7'b1000000; + parameter TX_OVERSAMPLE_MODE = "FALSE"; + parameter [0:0] TX_PMADATA_OPT = 1'b0; + parameter [1:0] TX_TDCC_CFG = 2'b11; + parameter [5:0] TX_USRCLK_CFG = 6'h00; + parameter TX_XCLK_SEL = "TXUSR"; + output COMFINISH; + output COMINITDET; + output COMSASDET; + output COMWAKEDET; + output DRDY; + output PHYSTATUS; + output RXBYTEISALIGNED; + output RXBYTEREALIGN; + output RXCHANBONDSEQ; + output RXCHANISALIGNED; + output RXCHANREALIGN; + output RXCOMMADET; + output RXDATAVALID; + output RXELECIDLE; + output RXHEADERVALID; + output RXOVERSAMPLEERR; + output RXPLLLKDET; + output RXPRBSERR; + output RXRATEDONE; + output RXRECCLK; + output RXRECCLKPCS; + output RXRESETDONE; + output RXSTARTOFSEQ; + output RXVALID; + output TXGEARBOXREADY; + output TXN; + output TXOUTCLK; + output TXOUTCLKPCS; + output TXP; + output TXPLLLKDET; + output TXRATEDONE; + output TXRESETDONE; + output [15:0] DRPDO; + output [1:0] MGTREFCLKFAB; + output [1:0] RXLOSSOFSYNC; + output [1:0] TXBUFSTATUS; + output [2:0] DFESENSCAL; + output [2:0] RXBUFSTATUS; + output [2:0] RXCLKCORCNT; + output [2:0] RXHEADER; + output [2:0] RXSTATUS; + output [31:0] RXDATA; + output [3:0] DFETAP3MONITOR; + output [3:0] DFETAP4MONITOR; + output [3:0] RXCHARISCOMMA; + output [3:0] RXCHARISK; + output [3:0] RXCHBONDO; + output [3:0] RXDISPERR; + output [3:0] RXNOTINTABLE; + output [3:0] RXRUNDISP; + output [3:0] TXKERR; + output [3:0] TXRUNDISP; + output [4:0] DFEEYEDACMON; + output [4:0] DFETAP1MONITOR; + output [4:0] DFETAP2MONITOR; + output [5:0] DFECLKDLYADJMON; + output [7:0] RXDLYALIGNMONITOR; + output [7:0] TXDLYALIGNMONITOR; + output [9:0] TSTOUT; + input DCLK; + input DEN; + input DFEDLYOVRD; + input DFETAPOVRD; + input DWE; + input GATERXELECIDLE; + input GREFCLKRX; + input GREFCLKTX; + input GTXRXRESET; + input GTXTXRESET; + input IGNORESIGDET; + input PERFCLKRX; + input PERFCLKTX; + input PLLRXRESET; + input PLLTXRESET; + input PRBSCNTRESET; + input RXBUFRESET; + input RXCDRRESET; + input RXCHBONDMASTER; + input RXCHBONDSLAVE; + input RXCOMMADETUSE; + input RXDEC8B10BUSE; + input RXDLYALIGNDISABLE; + input RXDLYALIGNMONENB; + input RXDLYALIGNOVERRIDE; + input RXDLYALIGNRESET; + input RXDLYALIGNSWPPRECURB; + input RXDLYALIGNUPDSW; + input RXENCHANSYNC; + input RXENMCOMMAALIGN; + input RXENPCOMMAALIGN; + input RXENPMAPHASEALIGN; + input RXENSAMPLEALIGN; + input RXGEARBOXSLIP; + input RXN; + input RXP; + input RXPLLLKDETEN; + input RXPLLPOWERDOWN; + input RXPMASETPHASE; + input RXPOLARITY; + input RXRESET; + input RXSLIDE; + input RXUSRCLK2; + input RXUSRCLK; + input TSTCLK0; + input TSTCLK1; + input TXCOMINIT; + input TXCOMSAS; + input TXCOMWAKE; + input TXDEEMPH; + input TXDETECTRX; + input TXDLYALIGNDISABLE; + input TXDLYALIGNMONENB; + input TXDLYALIGNOVERRIDE; + input TXDLYALIGNRESET; + input TXDLYALIGNUPDSW; + input TXELECIDLE; + input TXENC8B10BUSE; + input TXENPMAPHASEALIGN; + input TXINHIBIT; + input TXPDOWNASYNCH; + input TXPLLLKDETEN; + input TXPLLPOWERDOWN; + input TXPMASETPHASE; + input TXPOLARITY; + input TXPRBSFORCEERR; + input TXRESET; + input TXSTARTSEQ; + input TXSWING; + input TXUSRCLK2; + input TXUSRCLK; + input USRCODEERR; + input [12:0] GTXTEST; + input [15:0] DI; + input [19:0] TSTIN; + input [1:0] MGTREFCLKRX; + input [1:0] MGTREFCLKTX; + input [1:0] NORTHREFCLKRX; + input [1:0] NORTHREFCLKTX; + input [1:0] RXPOWERDOWN; + input [1:0] RXRATE; + input [1:0] SOUTHREFCLKRX; + input [1:0] SOUTHREFCLKTX; + input [1:0] TXPOWERDOWN; + input [1:0] TXRATE; + input [2:0] LOOPBACK; + input [2:0] RXCHBONDLEVEL; + input [2:0] RXENPRBSTST; + input [2:0] RXPLLREFSELDY; + input [2:0] TXBUFDIFFCTRL; + input [2:0] TXENPRBSTST; + input [2:0] TXHEADER; + input [2:0] TXMARGIN; + input [2:0] TXPLLREFSELDY; + input [31:0] TXDATA; + input [3:0] DFETAP3; + input [3:0] DFETAP4; + input [3:0] RXCHBONDI; + input [3:0] TXBYPASS8B10B; + input [3:0] TXCHARDISPMODE; + input [3:0] TXCHARDISPVAL; + input [3:0] TXCHARISK; + input [3:0] TXDIFFCTRL; + input [3:0] TXPREEMPHASIS; + input [4:0] DFETAP1; + input [4:0] DFETAP2; + input [4:0] TXPOSTEMPHASIS; + input [5:0] DFECLKDLYADJ; + input [6:0] TXSEQUENCE; + input [7:0] DADDR; + input [9:0] RXEQMIX; +endmodule + +module IBUFDS (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_DELAY_VALUE = "0"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IFD_DELAY_VALUE = "AUTO"; + parameter IOSTANDARD = "DEFAULT"; + output O; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; +endmodule + +module IBUFDS_DIFF_OUT (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + output O; + output OB; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; +endmodule + +module IBUFDS_GTHE1 (...); + output O; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; +endmodule + +module IBUFG (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter IBUF_DELAY_VALUE = "0"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + output O; + (* iopad_external_pin *) + input I; +endmodule + +module IBUFGDS (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter DIFF_TERM = "FALSE"; + parameter IBUF_DELAY_VALUE = "0"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + output O; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; +endmodule + +module IBUFGDS_DIFF_OUT (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + output O; + output OB; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; +endmodule + +(* keep *) +module IDELAYCTRL (...); + parameter SIM_DEVICE = "7SERIES"; + output RDY; + (* clkbuf_sink *) + input REFCLK; + input RST; +endmodule + +module IOBUF (...); + parameter integer DRIVE = 12; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SLEW = "SLOW"; + output O; + (* iopad_external_pin *) + inout IO; + input I; + input T; +endmodule + +module IOBUFDS (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SLEW = "SLOW"; + output O; + (* iopad_external_pin *) + inout IO; + inout IOB; + input I; + input T; +endmodule + +module IODELAYE1 (...); + parameter CINVCTRL_SEL = "FALSE"; + parameter DELAY_SRC = "I"; + parameter HIGH_PERFORMANCE_MODE = "FALSE"; + parameter IDELAY_TYPE = "DEFAULT"; + parameter integer IDELAY_VALUE = 0; + parameter ODELAY_TYPE = "FIXED"; + parameter integer ODELAY_VALUE = 0; + parameter real REFCLK_FREQUENCY = 200.0; + parameter SIGNAL_PATTERN = "DATA"; + output [4:0] CNTVALUEOUT; + output DATAOUT; + (* clkbuf_sink *) + input C; + input CE; + input CINVCTRL; + input CLKIN; + input [4:0] CNTVALUEIN; + input DATAIN; + input IDATAIN; + input INC; + input ODATAIN; + input RST; + input T; +endmodule + +module ISERDESE1 (...); + parameter DATA_RATE = "DDR"; + parameter integer DATA_WIDTH = 4; + parameter DYN_CLKDIV_INV_EN = "FALSE"; + parameter DYN_CLK_INV_EN = "FALSE"; + parameter [0:0] INIT_Q1 = 1'b0; + parameter [0:0] INIT_Q2 = 1'b0; + parameter [0:0] INIT_Q3 = 1'b0; + parameter [0:0] INIT_Q4 = 1'b0; + parameter INTERFACE_TYPE = "MEMORY"; + parameter integer NUM_CE = 2; + parameter IOBDELAY = "NONE"; + parameter OFB_USED = "FALSE"; + parameter SERDES_MODE = "MASTER"; + parameter [0:0] SRVAL_Q1 = 1'b0; + parameter [0:0] SRVAL_Q2 = 1'b0; + parameter [0:0] SRVAL_Q3 = 1'b0; + parameter [0:0] SRVAL_Q4 = 1'b0; + output O; + output Q1; + output Q2; + output Q3; + output Q4; + output Q5; + output Q6; + output SHIFTOUT1; + output SHIFTOUT2; + input BITSLIP; + input CE1; + input CE2; + (* clkbuf_sink *) + input CLK; + (* clkbuf_sink *) + input CLKB; + (* clkbuf_sink *) + input CLKDIV; + input D; + input DDLY; + input DYNCLKDIVSEL; + input DYNCLKSEL; + (* clkbuf_sink *) + input OCLK; + input OFB; + input RST; + input SHIFTIN1; + input SHIFTIN2; +endmodule + +module KEEPER (...); + inout O; +endmodule + +module OBUFDS (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SLEW = "SLOW"; + (* iopad_external_pin *) + output O; + (* iopad_external_pin *) + output OB; + input I; +endmodule + +module OBUFT (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter integer DRIVE = 12; + parameter IOSTANDARD = "DEFAULT"; + parameter SLEW = "SLOW"; + (* iopad_external_pin *) + output O; + input I; + input T; +endmodule + +module OBUFTDS (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SLEW = "SLOW"; + (* iopad_external_pin *) + output O; + (* iopad_external_pin *) + output OB; + input I; + input T; +endmodule + +module OSERDESE1 (...); + parameter DATA_RATE_OQ = "DDR"; + parameter DATA_RATE_TQ = "DDR"; + parameter integer DATA_WIDTH = 4; + parameter integer DDR3_DATA = 1; + parameter [0:0] INIT_OQ = 1'b0; + parameter [0:0] INIT_TQ = 1'b0; + parameter INTERFACE_TYPE = "DEFAULT"; + parameter integer ODELAY_USED = 0; + parameter SERDES_MODE = "MASTER"; + parameter [0:0] SRVAL_OQ = 1'b0; + parameter [0:0] SRVAL_TQ = 1'b0; + parameter integer TRISTATE_WIDTH = 4; + output OCBEXTEND; + output OFB; + output OQ; + output SHIFTOUT1; + output SHIFTOUT2; + output TFB; + output TQ; + (* clkbuf_sink *) + input CLK; + (* clkbuf_sink *) + input CLKDIV; + input CLKPERF; + input CLKPERFDELAY; + input D1; + input D2; + input D3; + input D4; + input D5; + input D6; + input OCE; + input ODV; + input RST; + input SHIFTIN1; + input SHIFTIN2; + input T1; + input T2; + input T3; + input T4; + input TCE; + input WC; +endmodule + +module PULLDOWN (...); + output O; +endmodule + +module PULLUP (...); + output O; +endmodule + +module TEMAC_SINGLE (...); + parameter EMAC_1000BASEX_ENABLE = "FALSE"; + parameter EMAC_ADDRFILTER_ENABLE = "FALSE"; + parameter EMAC_BYTEPHY = "FALSE"; + parameter EMAC_CTRLLENCHECK_DISABLE = "FALSE"; + parameter [0:7] EMAC_DCRBASEADDR = 8'h00; + parameter EMAC_GTLOOPBACK = "FALSE"; + parameter EMAC_HOST_ENABLE = "FALSE"; + parameter [8:0] EMAC_LINKTIMERVAL = 9'h000; + parameter EMAC_LTCHECK_DISABLE = "FALSE"; + parameter EMAC_MDIO_ENABLE = "FALSE"; + parameter EMAC_MDIO_IGNORE_PHYADZERO = "FALSE"; + parameter [47:0] EMAC_PAUSEADDR = 48'h000000000000; + parameter EMAC_PHYINITAUTONEG_ENABLE = "FALSE"; + parameter EMAC_PHYISOLATE = "FALSE"; + parameter EMAC_PHYLOOPBACKMSB = "FALSE"; + parameter EMAC_PHYPOWERDOWN = "FALSE"; + parameter EMAC_PHYRESET = "FALSE"; + parameter EMAC_RGMII_ENABLE = "FALSE"; + parameter EMAC_RX16BITCLIENT_ENABLE = "FALSE"; + parameter EMAC_RXFLOWCTRL_ENABLE = "FALSE"; + parameter EMAC_RXHALFDUPLEX = "FALSE"; + parameter EMAC_RXINBANDFCS_ENABLE = "FALSE"; + parameter EMAC_RXJUMBOFRAME_ENABLE = "FALSE"; + parameter EMAC_RXRESET = "FALSE"; + parameter EMAC_RXVLAN_ENABLE = "FALSE"; + parameter EMAC_RX_ENABLE = "TRUE"; + parameter EMAC_SGMII_ENABLE = "FALSE"; + parameter EMAC_SPEED_LSB = "FALSE"; + parameter EMAC_SPEED_MSB = "FALSE"; + parameter EMAC_TX16BITCLIENT_ENABLE = "FALSE"; + parameter EMAC_TXFLOWCTRL_ENABLE = "FALSE"; + parameter EMAC_TXHALFDUPLEX = "FALSE"; + parameter EMAC_TXIFGADJUST_ENABLE = "FALSE"; + parameter EMAC_TXINBANDFCS_ENABLE = "FALSE"; + parameter EMAC_TXJUMBOFRAME_ENABLE = "FALSE"; + parameter EMAC_TXRESET = "FALSE"; + parameter EMAC_TXVLAN_ENABLE = "FALSE"; + parameter EMAC_TX_ENABLE = "TRUE"; + parameter [47:0] EMAC_UNICASTADDR = 48'h000000000000; + parameter EMAC_UNIDIRECTION_ENABLE = "FALSE"; + parameter EMAC_USECLKEN = "FALSE"; + parameter SIM_VERSION = "1.0"; + output DCRHOSTDONEIR; + output EMACCLIENTANINTERRUPT; + output EMACCLIENTRXBADFRAME; + output EMACCLIENTRXCLIENTCLKOUT; + output EMACCLIENTRXDVLD; + output EMACCLIENTRXDVLDMSW; + output EMACCLIENTRXFRAMEDROP; + output EMACCLIENTRXGOODFRAME; + output EMACCLIENTRXSTATSBYTEVLD; + output EMACCLIENTRXSTATSVLD; + output EMACCLIENTTXACK; + output EMACCLIENTTXCLIENTCLKOUT; + output EMACCLIENTTXCOLLISION; + output EMACCLIENTTXRETRANSMIT; + output EMACCLIENTTXSTATS; + output EMACCLIENTTXSTATSBYTEVLD; + output EMACCLIENTTXSTATSVLD; + output EMACDCRACK; + output EMACPHYENCOMMAALIGN; + output EMACPHYLOOPBACKMSB; + output EMACPHYMCLKOUT; + output EMACPHYMDOUT; + output EMACPHYMDTRI; + output EMACPHYMGTRXRESET; + output EMACPHYMGTTXRESET; + output EMACPHYPOWERDOWN; + output EMACPHYSYNCACQSTATUS; + output EMACPHYTXCHARDISPMODE; + output EMACPHYTXCHARDISPVAL; + output EMACPHYTXCHARISK; + output EMACPHYTXCLK; + output EMACPHYTXEN; + output EMACPHYTXER; + output EMACPHYTXGMIIMIICLKOUT; + output EMACSPEEDIS10100; + output HOSTMIIMRDY; + output [0:31] EMACDCRDBUS; + output [15:0] EMACCLIENTRXD; + output [31:0] HOSTRDDATA; + output [6:0] EMACCLIENTRXSTATS; + output [7:0] EMACPHYTXD; + input CLIENTEMACDCMLOCKED; + input CLIENTEMACPAUSEREQ; + input CLIENTEMACRXCLIENTCLKIN; + input CLIENTEMACTXCLIENTCLKIN; + input CLIENTEMACTXDVLD; + input CLIENTEMACTXDVLDMSW; + input CLIENTEMACTXFIRSTBYTE; + input CLIENTEMACTXUNDERRUN; + input DCREMACCLK; + input DCREMACENABLE; + input DCREMACREAD; + input DCREMACWRITE; + input HOSTCLK; + input HOSTMIIMSEL; + input HOSTREQ; + input PHYEMACCOL; + input PHYEMACCRS; + input PHYEMACGTXCLK; + input PHYEMACMCLKIN; + input PHYEMACMDIN; + input PHYEMACMIITXCLK; + input PHYEMACRXCHARISCOMMA; + input PHYEMACRXCHARISK; + input PHYEMACRXCLK; + input PHYEMACRXDISPERR; + input PHYEMACRXDV; + input PHYEMACRXER; + input PHYEMACRXNOTINTABLE; + input PHYEMACRXRUNDISP; + input PHYEMACSIGNALDET; + input PHYEMACTXBUFERR; + input PHYEMACTXGMIIMIICLKIN; + input RESET; + input [0:31] DCREMACDBUS; + input [0:9] DCREMACABUS; + input [15:0] CLIENTEMACPAUSEVAL; + input [15:0] CLIENTEMACTXD; + input [1:0] HOSTOPCODE; + input [1:0] PHYEMACRXBUFSTATUS; + input [2:0] PHYEMACRXCLKCORCNT; + input [31:0] HOSTWRDATA; + input [4:0] PHYEMACPHYAD; + input [7:0] CLIENTEMACTXIFGDELAY; + input [7:0] PHYEMACRXD; + input [9:0] HOSTADDR; +endmodule + +module FIFO18E1 (...); + parameter ALMOST_EMPTY_OFFSET = 13'h0080; + parameter ALMOST_FULL_OFFSET = 13'h0080; + parameter integer DATA_WIDTH = 4; + parameter integer DO_REG = 1; + parameter EN_SYN = "FALSE"; + parameter FIFO_MODE = "FIFO18"; + parameter FIRST_WORD_FALL_THROUGH = "FALSE"; + parameter INIT = 36'h0; + parameter SIM_DEVICE = "VIRTEX6"; + parameter SRVAL = 36'h0; + parameter IS_RDCLK_INVERTED = 1'b0; + parameter IS_RDEN_INVERTED = 1'b0; + parameter IS_RSTREG_INVERTED = 1'b0; + parameter IS_RST_INVERTED = 1'b0; + parameter IS_WRCLK_INVERTED = 1'b0; + parameter IS_WREN_INVERTED = 1'b0; + output ALMOSTEMPTY; + output ALMOSTFULL; + output [31:0] DO; + output [3:0] DOP; + output EMPTY; + output FULL; + output [11:0] RDCOUNT; + output RDERR; + output [11:0] WRCOUNT; + output WRERR; + input [31:0] DI; + input [3:0] DIP; + (* clkbuf_sink *) + (* invertible_pin = "IS_RDCLK_INVERTED" *) + input RDCLK; + (* invertible_pin = "IS_RDEN_INVERTED" *) + input RDEN; + input REGCE; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; + (* invertible_pin = "IS_RSTREG_INVERTED" *) + input RSTREG; + (* clkbuf_sink *) + (* invertible_pin = "IS_WRCLK_INVERTED" *) + input WRCLK; + (* invertible_pin = "IS_WREN_INVERTED" *) + input WREN; +endmodule + +module FIFO36E1 (...); + parameter ALMOST_EMPTY_OFFSET = 13'h0080; + parameter ALMOST_FULL_OFFSET = 13'h0080; + parameter integer DATA_WIDTH = 4; + parameter integer DO_REG = 1; + parameter EN_ECC_READ = "FALSE"; + parameter EN_ECC_WRITE = "FALSE"; + parameter EN_SYN = "FALSE"; + parameter FIFO_MODE = "FIFO36"; + parameter FIRST_WORD_FALL_THROUGH = "FALSE"; + parameter INIT = 72'h0; + parameter SIM_DEVICE = "VIRTEX6"; + parameter SRVAL = 72'h0; + parameter IS_RDCLK_INVERTED = 1'b0; + parameter IS_RDEN_INVERTED = 1'b0; + parameter IS_RSTREG_INVERTED = 1'b0; + parameter IS_RST_INVERTED = 1'b0; + parameter IS_WRCLK_INVERTED = 1'b0; + parameter IS_WREN_INVERTED = 1'b0; + output ALMOSTEMPTY; + output ALMOSTFULL; + output DBITERR; + output [63:0] DO; + output [7:0] DOP; + output [7:0] ECCPARITY; + output EMPTY; + output FULL; + output [12:0] RDCOUNT; + output RDERR; + output SBITERR; + output [12:0] WRCOUNT; + output WRERR; + input [63:0] DI; + input [7:0] DIP; + input INJECTDBITERR; + input INJECTSBITERR; + (* clkbuf_sink *) + (* invertible_pin = "IS_RDCLK_INVERTED" *) + input RDCLK; + (* invertible_pin = "IS_RDEN_INVERTED" *) + input RDEN; + input REGCE; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; + (* invertible_pin = "IS_RSTREG_INVERTED" *) + input RSTREG; + (* clkbuf_sink *) + (* invertible_pin = "IS_WRCLK_INVERTED" *) + input WRCLK; + (* invertible_pin = "IS_WREN_INVERTED" *) + input WREN; +endmodule + +module RAM128X1S (...); + parameter [127:0] INIT = 128'h00000000000000000000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input A6; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM256X1S (...); + parameter [255:0] INIT = 256'h0; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O; + input [7:0] A; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM32M (...); + parameter [63:0] INIT_A = 64'h0000000000000000; + parameter [63:0] INIT_B = 64'h0000000000000000; + parameter [63:0] INIT_C = 64'h0000000000000000; + parameter [63:0] INIT_D = 64'h0000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output [1:0] DOA; + output [1:0] DOB; + output [1:0] DOC; + output [1:0] DOD; + input [4:0] ADDRA; + input [4:0] ADDRB; + input [4:0] ADDRC; + input [4:0] ADDRD; + input [1:0] DIA; + input [1:0] DIB; + input [1:0] DIC; + input [1:0] DID; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM32X1S (...); + parameter [31:0] INIT = 32'h00000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM32X1S_1 (...); + parameter [31:0] INIT = 32'h00000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM32X2S (...); + parameter [31:0] INIT_00 = 32'h00000000; + parameter [31:0] INIT_01 = 32'h00000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O0; + output O1; + input A0; + input A1; + input A2; + input A3; + input A4; + input D0; + input D1; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM64M (...); + parameter [63:0] INIT_A = 64'h0000000000000000; + parameter [63:0] INIT_B = 64'h0000000000000000; + parameter [63:0] INIT_C = 64'h0000000000000000; + parameter [63:0] INIT_D = 64'h0000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output DOA; + output DOB; + output DOC; + output DOD; + input [5:0] ADDRA; + input [5:0] ADDRB; + input [5:0] ADDRC; + input [5:0] ADDRD; + input DIA; + input DIB; + input DIC; + input DID; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM64X1S (...); + parameter [63:0] INIT = 64'h0000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM64X1S_1 (...); + parameter [63:0] INIT = 64'h0000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM64X2S (...); + parameter [63:0] INIT_00 = 64'h0000000000000000; + parameter [63:0] INIT_01 = 64'h0000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O0; + output O1; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input D0; + input D1; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module ROM128X1 (...); + parameter [127:0] INIT = 128'h00000000000000000000000000000000; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input A6; +endmodule + +module ROM256X1 (...); + parameter [255:0] INIT = 256'h0000000000000000000000000000000000000000000000000000000000000000; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input A6; + input A7; +endmodule + +module ROM32X1 (...); + parameter [31:0] INIT = 32'h00000000; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; +endmodule + +module ROM64X1 (...); + parameter [63:0] INIT = 64'h0000000000000000; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; +endmodule + +module IDDR (...); + parameter DDR_CLK_EDGE = "OPPOSITE_EDGE"; + parameter INIT_Q1 = 1'b0; + parameter INIT_Q2 = 1'b0; + parameter [0:0] IS_C_INVERTED = 1'b0; + parameter [0:0] IS_D_INVERTED = 1'b0; + parameter SRTYPE = "SYNC"; + parameter MSGON = "TRUE"; + parameter XON = "TRUE"; + output Q1; + output Q2; + (* clkbuf_sink *) + (* invertible_pin = "IS_C_INVERTED" *) + input C; + input CE; + (* invertible_pin = "IS_D_INVERTED" *) + input D; + input R; + input S; +endmodule + +module IDDR_2CLK (...); + parameter DDR_CLK_EDGE = "OPPOSITE_EDGE"; + parameter INIT_Q1 = 1'b0; + parameter INIT_Q2 = 1'b0; + parameter [0:0] IS_CB_INVERTED = 1'b0; + parameter [0:0] IS_C_INVERTED = 1'b0; + parameter [0:0] IS_D_INVERTED = 1'b0; + parameter SRTYPE = "SYNC"; + output Q1; + output Q2; + (* clkbuf_sink *) + (* invertible_pin = "IS_C_INVERTED" *) + input C; + (* clkbuf_sink *) + (* invertible_pin = "IS_CB_INVERTED" *) + input CB; + input CE; + (* invertible_pin = "IS_D_INVERTED" *) + input D; + input R; + input S; +endmodule + +module LDCE (...); + parameter [0:0] INIT = 1'b0; + parameter [0:0] IS_CLR_INVERTED = 1'b0; + parameter [0:0] IS_G_INVERTED = 1'b0; + parameter MSGON = "TRUE"; + parameter XON = "TRUE"; + output Q; + (* invertible_pin = "IS_CLR_INVERTED" *) + input CLR; + input D; + (* invertible_pin = "IS_G_INVERTED" *) + input G; + input GE; +endmodule + +module LDPE (...); + parameter [0:0] INIT = 1'b1; + parameter [0:0] IS_G_INVERTED = 1'b0; + parameter [0:0] IS_PRE_INVERTED = 1'b0; + parameter MSGON = "TRUE"; + parameter XON = "TRUE"; + output Q; + input D; + (* invertible_pin = "IS_G_INVERTED" *) + input G; + input GE; + (* invertible_pin = "IS_PRE_INVERTED" *) + input PRE; +endmodule + +module ODDR (...); + parameter DDR_CLK_EDGE = "OPPOSITE_EDGE"; + parameter INIT = 1'b0; + parameter [0:0] IS_C_INVERTED = 1'b0; + parameter [0:0] IS_D1_INVERTED = 1'b0; + parameter [0:0] IS_D2_INVERTED = 1'b0; + parameter SRTYPE = "SYNC"; + parameter MSGON = "TRUE"; + parameter XON = "TRUE"; + output Q; + (* clkbuf_sink *) + (* invertible_pin = "IS_C_INVERTED" *) + input C; + input CE; + (* invertible_pin = "IS_D1_INVERTED" *) + input D1; + (* invertible_pin = "IS_D2_INVERTED" *) + input D2; + input R; + input S; +endmodule + +module CFGLUT5 (...); + parameter [31:0] INIT = 32'h00000000; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + output CDO; + output O5; + output O6; + input I4; + input I3; + input I2; + input I1; + input I0; + input CDI; + input CE; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK; +endmodule + diff --git a/techlibs/xilinx/brams.txt b/techlibs/xilinx/xc7_brams.txt index f1161114e..f1161114e 100644 --- a/techlibs/xilinx/brams.txt +++ b/techlibs/xilinx/xc7_brams.txt diff --git a/techlibs/xilinx/brams_bb.v b/techlibs/xilinx/xc7_brams_bb.v index a682ba4a7..a28ba5b14 100644 --- a/techlibs/xilinx/brams_bb.v +++ b/techlibs/xilinx/xc7_brams_bb.v @@ -1,13 +1,25 @@ +// Max delays from https://github.com/SymbiFlow/prjxray-db/blob/f8e0364116b2983ac72a3dc8c509ea1cc79e2e3d/artix7/timings/BRAM_L.sdf#L138-L147 + module RAMB18E1 ( + (* clkbuf_sink *) + (* invertible_pin = "IS_CLKARDCLK_INVERTED" *) input CLKARDCLK, + (* clkbuf_sink *) + (* invertible_pin = "IS_CLKBWRCLK_INVERTED" *) input CLKBWRCLK, + (* invertible_pin = "IS_ENARDEN_INVERTED" *) input ENARDEN, + (* invertible_pin = "IS_ENBWREN_INVERTED" *) input ENBWREN, input REGCEAREGCE, input REGCEB, + (* invertible_pin = "IS_RSTRAMARSTRAM_INVERTED" *) input RSTRAMARSTRAM, + (* invertible_pin = "IS_RSTRAMB_INVERTED" *) input RSTRAMB, + (* invertible_pin = "IS_RSTREGARSTREG_INVERTED" *) input RSTREGARSTREG, + (* invertible_pin = "IS_RSTREGB_INVERTED" *) input RSTREGB, input [13:0] ADDRARDADDR, @@ -19,9 +31,13 @@ module RAMB18E1 ( input [1:0] WEA, input [3:0] WEBWE, + (* abc_arrival=2454 *) output [15:0] DOADO, + (* abc_arrival=2454 *) output [15:0] DOBDO, + (* abc_arrival=2454 *) output [1:0] DOPADOP, + (* abc_arrival=2454 *) output [1:0] DOPBDOP ); parameter INITP_00 = 256'h0000000000000000000000000000000000000000000000000000000000000000; @@ -123,15 +139,25 @@ module RAMB18E1 ( endmodule module RAMB36E1 ( + (* clkbuf_sink *) + (* invertible_pin = "IS_CLKARDCLK_INVERTED" *) input CLKARDCLK, + (* clkbuf_sink *) + (* invertible_pin = "IS_CLKBWRCLK_INVERTED" *) input CLKBWRCLK, + (* invertible_pin = "IS_ENARDEN_INVERTED" *) input ENARDEN, + (* invertible_pin = "IS_ENBWREN_INVERTED" *) input ENBWREN, input REGCEAREGCE, input REGCEB, + (* invertible_pin = "IS_RSTRAMARSTRAM_INVERTED" *) input RSTRAMARSTRAM, + (* invertible_pin = "IS_RSTRAMB_INVERTED" *) input RSTRAMB, + (* invertible_pin = "IS_RSTREGARSTREG_INVERTED" *) input RSTREGARSTREG, + (* invertible_pin = "IS_RSTREGB_INVERTED" *) input RSTREGB, input [15:0] ADDRARDADDR, @@ -143,9 +169,13 @@ module RAMB36E1 ( input [3:0] WEA, input [7:0] WEBWE, + (* abc_arrival=2454 *) output [31:0] DOADO, + (* abc_arrival=2454 *) output [31:0] DOBDO, + (* abc_arrival=2454 *) output [3:0] DOPADOP, + (* abc_arrival=2454 *) output [3:0] DOPBDOP ); parameter INITP_00 = 256'h0000000000000000000000000000000000000000000000000000000000000000; diff --git a/techlibs/xilinx/brams_map.v b/techlibs/xilinx/xc7_brams_map.v index 7ea49158d..7ea49158d 100644 --- a/techlibs/xilinx/brams_map.v +++ b/techlibs/xilinx/xc7_brams_map.v diff --git a/techlibs/xilinx/cells_xtra.v b/techlibs/xilinx/xc7_cells_xtra.v index a2dd01ad5..817932e9f 100644 --- a/techlibs/xilinx/cells_xtra.v +++ b/techlibs/xilinx/xc7_cells_xtra.v @@ -1,328 +1,4 @@ -// Created by cells_xtra.sh from Xilinx models - -module BSCANE2 (...); - parameter DISABLE_JTAG = "FALSE"; - parameter integer JTAG_CHAIN = 1; - output CAPTURE; - output DRCK; - output RESET; - output RUNTEST; - output SEL; - output SHIFT; - output TCK; - output TDI; - output TMS; - output UPDATE; - input TDO; -endmodule - -module BUFGCE (...); - parameter CE_TYPE = "SYNC"; - parameter [0:0] IS_CE_INVERTED = 1'b0; - parameter [0:0] IS_I_INVERTED = 1'b0; - output O; - input CE; - input I; -endmodule - -module BUFGCE_1 (...); - output O; - input CE, I; -endmodule - -module BUFGCTRL (...); - output O; - input CE0; - input CE1; - input I0; - input I1; - input IGNORE0; - input IGNORE1; - input S0; - input S1; - parameter integer INIT_OUT = 0; - parameter PRESELECT_I0 = "FALSE"; - parameter PRESELECT_I1 = "FALSE"; - parameter [0:0] IS_CE0_INVERTED = 1'b0; - parameter [0:0] IS_CE1_INVERTED = 1'b0; - parameter [0:0] IS_I0_INVERTED = 1'b0; - parameter [0:0] IS_I1_INVERTED = 1'b0; - parameter [0:0] IS_IGNORE0_INVERTED = 1'b0; - parameter [0:0] IS_IGNORE1_INVERTED = 1'b0; - parameter [0:0] IS_S0_INVERTED = 1'b0; - parameter [0:0] IS_S1_INVERTED = 1'b0; -endmodule - -module BUFGMUX (...); - parameter CLK_SEL_TYPE = "SYNC"; - output O; - input I0, I1, S; -endmodule - -module BUFGMUX_1 (...); - parameter CLK_SEL_TYPE = "SYNC"; - output O; - input I0, I1, S; -endmodule - -module BUFGMUX_CTRL (...); - output O; - input I0; - input I1; - input S; -endmodule - -module BUFH (...); - output O; - input I; -endmodule - -module BUFHCE (...); - parameter CE_TYPE = "SYNC"; - parameter integer INIT_OUT = 0; - parameter [0:0] IS_CE_INVERTED = 1'b0; - output O; - input CE; - input I; -endmodule - -module BUFIO (...); - output O; - input I; -endmodule - -module BUFMR (...); - output O; - input I; -endmodule - -module BUFMRCE (...); - parameter CE_TYPE = "SYNC"; - parameter integer INIT_OUT = 0; - parameter [0:0] IS_CE_INVERTED = 1'b0; - output O; - input CE; - input I; -endmodule - -module BUFR (...); - output O; - input CE; - input CLR; - input I; - parameter BUFR_DIVIDE = "BYPASS"; - parameter SIM_DEVICE = "7SERIES"; -endmodule - -module CAPTUREE2 (...); - parameter ONESHOT = "TRUE"; - input CAP; - input CLK; -endmodule - -module CFGLUT5 (...); - parameter [31:0] INIT = 32'h00000000; - parameter [0:0] IS_CLK_INVERTED = 1'b0; - output CDO; - output O5; - output O6; - input I4, I3, I2, I1, I0; - input CDI, CE, CLK; -endmodule - -module DCIRESET (...); - output LOCKED; - input RST; -endmodule - -module DNA_PORT (...); - parameter [56:0] SIM_DNA_VALUE = 57'h0; - output DOUT; - input CLK, DIN, READ, SHIFT; -endmodule - -module DSP48E1 (...); - parameter integer ACASCREG = 1; - parameter integer ADREG = 1; - parameter integer ALUMODEREG = 1; - parameter integer AREG = 1; - parameter AUTORESET_PATDET = "NO_RESET"; - parameter A_INPUT = "DIRECT"; - parameter integer BCASCREG = 1; - parameter integer BREG = 1; - parameter B_INPUT = "DIRECT"; - parameter integer CARRYINREG = 1; - parameter integer CARRYINSELREG = 1; - parameter integer CREG = 1; - parameter integer DREG = 1; - parameter integer INMODEREG = 1; - parameter integer MREG = 1; - parameter integer OPMODEREG = 1; - parameter integer PREG = 1; - parameter SEL_MASK = "MASK"; - parameter SEL_PATTERN = "PATTERN"; - parameter USE_DPORT = "FALSE"; - parameter USE_MULT = "MULTIPLY"; - parameter USE_PATTERN_DETECT = "NO_PATDET"; - parameter USE_SIMD = "ONE48"; - parameter [47:0] MASK = 48'h3FFFFFFFFFFF; - parameter [47:0] PATTERN = 48'h000000000000; - parameter [3:0] IS_ALUMODE_INVERTED = 4'b0; - parameter [0:0] IS_CARRYIN_INVERTED = 1'b0; - parameter [0:0] IS_CLK_INVERTED = 1'b0; - parameter [4:0] IS_INMODE_INVERTED = 5'b0; - parameter [6:0] IS_OPMODE_INVERTED = 7'b0; - output [29:0] ACOUT; - output [17:0] BCOUT; - output CARRYCASCOUT; - output [3:0] CARRYOUT; - output MULTSIGNOUT; - output OVERFLOW; - output [47:0] P; - output PATTERNBDETECT; - output PATTERNDETECT; - output [47:0] PCOUT; - output UNDERFLOW; - input [29:0] A; - input [29:0] ACIN; - input [3:0] ALUMODE; - input [17:0] B; - input [17:0] BCIN; - input [47:0] C; - input CARRYCASCIN; - input CARRYIN; - input [2:0] CARRYINSEL; - input CEA1; - input CEA2; - input CEAD; - input CEALUMODE; - input CEB1; - input CEB2; - input CEC; - input CECARRYIN; - input CECTRL; - input CED; - input CEINMODE; - input CEM; - input CEP; - input CLK; - input [24:0] D; - input [4:0] INMODE; - input MULTSIGNIN; - input [6:0] OPMODE; - input [47:0] PCIN; - input RSTA; - input RSTALLCARRYIN; - input RSTALUMODE; - input RSTB; - input RSTC; - input RSTCTRL; - input RSTD; - input RSTINMODE; - input RSTM; - input RSTP; -endmodule - -module EFUSE_USR (...); - parameter [31:0] SIM_EFUSE_VALUE = 32'h00000000; - output [31:0] EFUSEUSR; -endmodule - -module FIFO18E1 (...); - parameter ALMOST_EMPTY_OFFSET = 13'h0080; - parameter ALMOST_FULL_OFFSET = 13'h0080; - parameter integer DATA_WIDTH = 4; - parameter integer DO_REG = 1; - parameter EN_SYN = "FALSE"; - parameter FIFO_MODE = "FIFO18"; - parameter FIRST_WORD_FALL_THROUGH = "FALSE"; - parameter INIT = 36'h0; - parameter SIM_DEVICE = "VIRTEX6"; - parameter SRVAL = 36'h0; - parameter IS_RDCLK_INVERTED = 1'b0; - parameter IS_RDEN_INVERTED = 1'b0; - parameter IS_RSTREG_INVERTED = 1'b0; - parameter IS_RST_INVERTED = 1'b0; - parameter IS_WRCLK_INVERTED = 1'b0; - parameter IS_WREN_INVERTED = 1'b0; - output ALMOSTEMPTY; - output ALMOSTFULL; - output [31:0] DO; - output [3:0] DOP; - output EMPTY; - output FULL; - output [11:0] RDCOUNT; - output RDERR; - output [11:0] WRCOUNT; - output WRERR; - input [31:0] DI; - input [3:0] DIP; - input RDCLK; - input RDEN; - input REGCE; - input RST; - input RSTREG; - input WRCLK; - input WREN; -endmodule - -module FIFO36E1 (...); - parameter ALMOST_EMPTY_OFFSET = 13'h0080; - parameter ALMOST_FULL_OFFSET = 13'h0080; - parameter integer DATA_WIDTH = 4; - parameter integer DO_REG = 1; - parameter EN_ECC_READ = "FALSE"; - parameter EN_ECC_WRITE = "FALSE"; - parameter EN_SYN = "FALSE"; - parameter FIFO_MODE = "FIFO36"; - parameter FIRST_WORD_FALL_THROUGH = "FALSE"; - parameter INIT = 72'h0; - parameter SIM_DEVICE = "VIRTEX6"; - parameter SRVAL = 72'h0; - parameter IS_RDCLK_INVERTED = 1'b0; - parameter IS_RDEN_INVERTED = 1'b0; - parameter IS_RSTREG_INVERTED = 1'b0; - parameter IS_RST_INVERTED = 1'b0; - parameter IS_WRCLK_INVERTED = 1'b0; - parameter IS_WREN_INVERTED = 1'b0; - output ALMOSTEMPTY; - output ALMOSTFULL; - output DBITERR; - output [63:0] DO; - output [7:0] DOP; - output [7:0] ECCPARITY; - output EMPTY; - output FULL; - output [12:0] RDCOUNT; - output RDERR; - output SBITERR; - output [12:0] WRCOUNT; - output WRERR; - input [63:0] DI; - input [7:0] DIP; - input INJECTDBITERR; - input INJECTSBITERR; - input RDCLK; - input RDEN; - input REGCE; - input RST; - input RSTREG; - input WRCLK; - input WREN; -endmodule - -module FRAME_ECCE2 (...); - parameter FARSRC = "EFAR"; - parameter FRAME_RBT_IN_FILENAME = "NONE"; - output CRCERROR; - output ECCERROR; - output ECCERRORSINGLE; - output SYNDROMEVALID; - output [12:0] SYNDROME; - output [25:0] FAR; - output [4:0] SYNBIT; - output [6:0] SYNWORD; -endmodule +// Created by cells_xtra.py from Xilinx models module GTHE2_CHANNEL (...); parameter [0:0] ACJTAG_DEBUG_MODE = 1'b0; @@ -671,20 +347,26 @@ module GTHE2_CHANNEL (...); output [7:0] RXDISPERR; output [7:0] RXNOTINTABLE; input CFGRESET; + (* invertible_pin = "IS_CLKRSVD0_INVERTED" *) input CLKRSVD0; + (* invertible_pin = "IS_CLKRSVD1_INVERTED" *) input CLKRSVD1; + (* invertible_pin = "IS_CPLLLOCKDETCLK_INVERTED" *) input CPLLLOCKDETCLK; input CPLLLOCKEN; input CPLLPD; input CPLLRESET; input DMONFIFORESET; + (* invertible_pin = "IS_DMONITORCLK_INVERTED" *) input DMONITORCLK; + (* invertible_pin = "IS_DRPCLK_INVERTED" *) input DRPCLK; input DRPEN; input DRPWE; input EYESCANMODE; input EYESCANRESET; input EYESCANTRIGGER; + (* invertible_pin = "IS_GTGREFCLK_INVERTED" *) input GTGREFCLK; input GTHRXN; input GTHRXP; @@ -780,9 +462,12 @@ module GTHE2_CHANNEL (...); input RXSYNCIN; input RXSYNCMODE; input RXUSERRDY; + (* invertible_pin = "IS_RXUSRCLK2_INVERTED" *) input RXUSRCLK2; + (* invertible_pin = "IS_RXUSRCLK_INVERTED" *) input RXUSRCLK; input SETERRSTATUS; + (* invertible_pin = "IS_SIGVALIDCLK_INVERTED" *) input SIGVALIDCLK; input TX8B10BEN; input TXCOMINIT; @@ -805,6 +490,7 @@ module GTHE2_CHANNEL (...); input TXPHALIGNEN; input TXPHDLYPD; input TXPHDLYRESET; + (* invertible_pin = "IS_TXPHDLYTSTCLK_INVERTED" *) input TXPHDLYTSTCLK; input TXPHINIT; input TXPHOVRDEN; @@ -828,7 +514,9 @@ module GTHE2_CHANNEL (...); input TXSYNCIN; input TXSYNCMODE; input TXUSERRDY; + (* invertible_pin = "IS_TXUSRCLK2_INVERTED" *) input TXUSRCLK2; + (* invertible_pin = "IS_TXUSRCLK_INVERTED" *) input TXUSRCLK; input [13:0] RXADAPTSELTEST; input [15:0] DRPDI; @@ -917,9 +605,11 @@ module GTHE2_COMMON (...); input BGMONITORENB; input BGPDB; input BGRCALOVRDENB; + (* invertible_pin = "IS_DRPCLK_INVERTED" *) input DRPCLK; input DRPEN; input DRPWE; + (* invertible_pin = "IS_GTGREFCLK_INVERTED" *) input GTGREFCLK; input GTNORTHREFCLK0; input GTNORTHREFCLK1; @@ -927,6 +617,7 @@ module GTHE2_COMMON (...); input GTREFCLK1; input GTSOUTHREFCLK0; input GTSOUTHREFCLK1; + (* invertible_pin = "IS_QPLLLOCKDETCLK_INVERTED" *) input QPLLLOCKDETCLK; input QPLLLOCKEN; input QPLLOUTRESET; @@ -1252,10 +943,14 @@ module GTPE2_CHANNEL (...); output [4:0] RXPHMONITOR; output [4:0] RXPHSLIPMONITOR; input CFGRESET; + (* invertible_pin = "IS_CLKRSVD0_INVERTED" *) input CLKRSVD0; + (* invertible_pin = "IS_CLKRSVD1_INVERTED" *) input CLKRSVD1; input DMONFIFORESET; + (* invertible_pin = "IS_DMONITORCLK_INVERTED" *) input DMONITORCLK; + (* invertible_pin = "IS_DRPCLK_INVERTED" *) input DRPCLK; input DRPEN; input DRPWE; @@ -1329,9 +1024,12 @@ module GTPE2_CHANNEL (...); input RXSYNCIN; input RXSYNCMODE; input RXUSERRDY; + (* invertible_pin = "IS_RXUSRCLK2_INVERTED" *) input RXUSRCLK2; + (* invertible_pin = "IS_RXUSRCLK_INVERTED" *) input RXUSRCLK; input SETERRSTATUS; + (* invertible_pin = "IS_SIGVALIDCLK_INVERTED" *) input SIGVALIDCLK; input TX8B10BEN; input TXCOMINIT; @@ -1354,6 +1052,7 @@ module GTPE2_CHANNEL (...); input TXPHALIGNEN; input TXPHDLYPD; input TXPHDLYRESET; + (* invertible_pin = "IS_TXPHDLYTSTCLK_INVERTED" *) input TXPHDLYTSTCLK; input TXPHINIT; input TXPHOVRDEN; @@ -1374,7 +1073,9 @@ module GTPE2_CHANNEL (...); input TXSYNCIN; input TXSYNCMODE; input TXUSERRDY; + (* invertible_pin = "IS_TXUSRCLK2_INVERTED" *) input TXUSRCLK2; + (* invertible_pin = "IS_TXUSRCLK_INVERTED" *) input TXUSRCLK; input [13:0] RXADAPTSELTEST; input [15:0] DRPDI; @@ -1463,21 +1164,26 @@ module GTPE2_COMMON (...); input BGMONITORENB; input BGPDB; input BGRCALOVRDENB; + (* invertible_pin = "IS_DRPCLK_INVERTED" *) input DRPCLK; input DRPEN; input DRPWE; input GTEASTREFCLK0; input GTEASTREFCLK1; + (* invertible_pin = "IS_GTGREFCLK0_INVERTED" *) input GTGREFCLK0; + (* invertible_pin = "IS_GTGREFCLK1_INVERTED" *) input GTGREFCLK1; input GTREFCLK0; input GTREFCLK1; input GTWESTREFCLK0; input GTWESTREFCLK1; + (* invertible_pin = "IS_PLL0LOCKDETCLK_INVERTED" *) input PLL0LOCKDETCLK; input PLL0LOCKEN; input PLL0PD; input PLL0RESET; + (* invertible_pin = "IS_PLL1LOCKDETCLK_INVERTED" *) input PLL1LOCKDETCLK; input PLL1LOCKEN; input PLL1PD; @@ -1766,16 +1472,19 @@ module GTXE2_CHANNEL (...); output [7:0] RXNOTINTABLE; output [9:0] TSTOUT; input CFGRESET; + (* invertible_pin = "IS_CPLLLOCKDETCLK_INVERTED" *) input CPLLLOCKDETCLK; input CPLLLOCKEN; input CPLLPD; input CPLLRESET; + (* invertible_pin = "IS_DRPCLK_INVERTED" *) input DRPCLK; input DRPEN; input DRPWE; input EYESCANMODE; input EYESCANRESET; input EYESCANTRIGGER; + (* invertible_pin = "IS_GTGREFCLK_INVERTED" *) input GTGREFCLK; input GTNORTHREFCLK0; input GTNORTHREFCLK1; @@ -1852,7 +1561,9 @@ module GTXE2_CHANNEL (...); input RXQPIEN; input RXSLIDE; input RXUSERRDY; + (* invertible_pin = "IS_RXUSRCLK2_INVERTED" *) input RXUSRCLK2; + (* invertible_pin = "IS_RXUSRCLK_INVERTED" *) input RXUSRCLK; input SETERRSTATUS; input TX8B10BEN; @@ -1876,6 +1587,7 @@ module GTXE2_CHANNEL (...); input TXPHALIGNEN; input TXPHDLYPD; input TXPHDLYRESET; + (* invertible_pin = "IS_TXPHDLYTSTCLK_INVERTED" *) input TXPHDLYTSTCLK; input TXPHINIT; input TXPHOVRDEN; @@ -1891,7 +1603,9 @@ module GTXE2_CHANNEL (...); input TXSTARTSEQ; input TXSWING; input TXUSERRDY; + (* invertible_pin = "IS_TXUSRCLK2_INVERTED" *) input TXUSRCLK2; + (* invertible_pin = "IS_TXUSRCLK_INVERTED" *) input TXUSRCLK; input [15:0] DRPDI; input [15:0] GTRSVD; @@ -1968,9 +1682,11 @@ module GTXE2_COMMON (...); input BGBYPASSB; input BGMONITORENB; input BGPDB; + (* invertible_pin = "IS_DRPCLK_INVERTED" *) input DRPCLK; input DRPEN; input DRPWE; + (* invertible_pin = "IS_GTGREFCLK_INVERTED" *) input GTGREFCLK; input GTNORTHREFCLK0; input GTNORTHREFCLK1; @@ -1978,6 +1694,7 @@ module GTXE2_COMMON (...); input GTREFCLK1; input GTSOUTHREFCLK0; input GTSOUTHREFCLK1; + (* invertible_pin = "IS_QPLLLOCKDETCLK_INVERTED" *) input QPLLLOCKDETCLK; input QPLLLOCKEN; input QPLLOUTRESET; @@ -1993,12 +1710,2195 @@ module GTXE2_COMMON (...); input [7:0] PMARSVD; endmodule +module PCIE_2_1 (...); + parameter [11:0] AER_BASE_PTR = 12'h140; + parameter AER_CAP_ECRC_CHECK_CAPABLE = "FALSE"; + parameter AER_CAP_ECRC_GEN_CAPABLE = "FALSE"; + parameter [15:0] AER_CAP_ID = 16'h0001; + parameter AER_CAP_MULTIHEADER = "FALSE"; + parameter [11:0] AER_CAP_NEXTPTR = 12'h178; + parameter AER_CAP_ON = "FALSE"; + parameter [23:0] AER_CAP_OPTIONAL_ERR_SUPPORT = 24'h000000; + parameter AER_CAP_PERMIT_ROOTERR_UPDATE = "TRUE"; + parameter [3:0] AER_CAP_VERSION = 4'h2; + parameter ALLOW_X8_GEN2 = "FALSE"; + parameter [31:0] BAR0 = 32'hFFFFFF00; + parameter [31:0] BAR1 = 32'hFFFF0000; + parameter [31:0] BAR2 = 32'hFFFF000C; + parameter [31:0] BAR3 = 32'hFFFFFFFF; + parameter [31:0] BAR4 = 32'h00000000; + parameter [31:0] BAR5 = 32'h00000000; + parameter [7:0] CAPABILITIES_PTR = 8'h40; + parameter [31:0] CARDBUS_CIS_POINTER = 32'h00000000; + parameter integer CFG_ECRC_ERR_CPLSTAT = 0; + parameter [23:0] CLASS_CODE = 24'h000000; + parameter CMD_INTX_IMPLEMENTED = "TRUE"; + parameter CPL_TIMEOUT_DISABLE_SUPPORTED = "FALSE"; + parameter [3:0] CPL_TIMEOUT_RANGES_SUPPORTED = 4'h0; + parameter [6:0] CRM_MODULE_RSTS = 7'h00; + parameter DEV_CAP2_ARI_FORWARDING_SUPPORTED = "FALSE"; + parameter DEV_CAP2_ATOMICOP32_COMPLETER_SUPPORTED = "FALSE"; + parameter DEV_CAP2_ATOMICOP64_COMPLETER_SUPPORTED = "FALSE"; + parameter DEV_CAP2_ATOMICOP_ROUTING_SUPPORTED = "FALSE"; + parameter DEV_CAP2_CAS128_COMPLETER_SUPPORTED = "FALSE"; + parameter DEV_CAP2_ENDEND_TLP_PREFIX_SUPPORTED = "FALSE"; + parameter DEV_CAP2_EXTENDED_FMT_FIELD_SUPPORTED = "FALSE"; + parameter DEV_CAP2_LTR_MECHANISM_SUPPORTED = "FALSE"; + parameter [1:0] DEV_CAP2_MAX_ENDEND_TLP_PREFIXES = 2'h0; + parameter DEV_CAP2_NO_RO_ENABLED_PRPR_PASSING = "FALSE"; + parameter [1:0] DEV_CAP2_TPH_COMPLETER_SUPPORTED = 2'h0; + parameter DEV_CAP_ENABLE_SLOT_PWR_LIMIT_SCALE = "TRUE"; + parameter DEV_CAP_ENABLE_SLOT_PWR_LIMIT_VALUE = "TRUE"; + parameter integer DEV_CAP_ENDPOINT_L0S_LATENCY = 0; + parameter integer DEV_CAP_ENDPOINT_L1_LATENCY = 0; + parameter DEV_CAP_EXT_TAG_SUPPORTED = "TRUE"; + parameter DEV_CAP_FUNCTION_LEVEL_RESET_CAPABLE = "FALSE"; + parameter integer DEV_CAP_MAX_PAYLOAD_SUPPORTED = 2; + parameter integer DEV_CAP_PHANTOM_FUNCTIONS_SUPPORT = 0; + parameter DEV_CAP_ROLE_BASED_ERROR = "TRUE"; + parameter integer DEV_CAP_RSVD_14_12 = 0; + parameter integer DEV_CAP_RSVD_17_16 = 0; + parameter integer DEV_CAP_RSVD_31_29 = 0; + parameter DEV_CONTROL_AUX_POWER_SUPPORTED = "FALSE"; + parameter DEV_CONTROL_EXT_TAG_DEFAULT = "FALSE"; + parameter DISABLE_ASPM_L1_TIMER = "FALSE"; + parameter DISABLE_BAR_FILTERING = "FALSE"; + parameter DISABLE_ERR_MSG = "FALSE"; + parameter DISABLE_ID_CHECK = "FALSE"; + parameter DISABLE_LANE_REVERSAL = "FALSE"; + parameter DISABLE_LOCKED_FILTER = "FALSE"; + parameter DISABLE_PPM_FILTER = "FALSE"; + parameter DISABLE_RX_POISONED_RESP = "FALSE"; + parameter DISABLE_RX_TC_FILTER = "FALSE"; + parameter DISABLE_SCRAMBLING = "FALSE"; + parameter [7:0] DNSTREAM_LINK_NUM = 8'h00; + parameter [11:0] DSN_BASE_PTR = 12'h100; + parameter [15:0] DSN_CAP_ID = 16'h0003; + parameter [11:0] DSN_CAP_NEXTPTR = 12'h10C; + parameter DSN_CAP_ON = "TRUE"; + parameter [3:0] DSN_CAP_VERSION = 4'h1; + parameter [10:0] ENABLE_MSG_ROUTE = 11'h000; + parameter ENABLE_RX_TD_ECRC_TRIM = "FALSE"; + parameter ENDEND_TLP_PREFIX_FORWARDING_SUPPORTED = "FALSE"; + parameter ENTER_RVRY_EI_L0 = "TRUE"; + parameter EXIT_LOOPBACK_ON_EI = "TRUE"; + parameter [31:0] EXPANSION_ROM = 32'hFFFFF001; + parameter [5:0] EXT_CFG_CAP_PTR = 6'h3F; + parameter [9:0] EXT_CFG_XP_CAP_PTR = 10'h3FF; + parameter [7:0] HEADER_TYPE = 8'h00; + parameter [4:0] INFER_EI = 5'h00; + parameter [7:0] INTERRUPT_PIN = 8'h01; + parameter INTERRUPT_STAT_AUTO = "TRUE"; + parameter IS_SWITCH = "FALSE"; + parameter [9:0] LAST_CONFIG_DWORD = 10'h3FF; + parameter LINK_CAP_ASPM_OPTIONALITY = "TRUE"; + parameter integer LINK_CAP_ASPM_SUPPORT = 1; + parameter LINK_CAP_CLOCK_POWER_MANAGEMENT = "FALSE"; + parameter LINK_CAP_DLL_LINK_ACTIVE_REPORTING_CAP = "FALSE"; + parameter integer LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN1 = 7; + parameter integer LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN2 = 7; + parameter integer LINK_CAP_L0S_EXIT_LATENCY_GEN1 = 7; + parameter integer LINK_CAP_L0S_EXIT_LATENCY_GEN2 = 7; + parameter integer LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN1 = 7; + parameter integer LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN2 = 7; + parameter integer LINK_CAP_L1_EXIT_LATENCY_GEN1 = 7; + parameter integer LINK_CAP_L1_EXIT_LATENCY_GEN2 = 7; + parameter LINK_CAP_LINK_BANDWIDTH_NOTIFICATION_CAP = "FALSE"; + parameter [3:0] LINK_CAP_MAX_LINK_SPEED = 4'h1; + parameter [5:0] LINK_CAP_MAX_LINK_WIDTH = 6'h08; + parameter integer LINK_CAP_RSVD_23 = 0; + parameter LINK_CAP_SURPRISE_DOWN_ERROR_CAPABLE = "FALSE"; + parameter integer LINK_CONTROL_RCB = 0; + parameter LINK_CTRL2_DEEMPHASIS = "FALSE"; + parameter LINK_CTRL2_HW_AUTONOMOUS_SPEED_DISABLE = "FALSE"; + parameter [3:0] LINK_CTRL2_TARGET_LINK_SPEED = 4'h2; + parameter LINK_STATUS_SLOT_CLOCK_CONFIG = "TRUE"; + parameter [14:0] LL_ACK_TIMEOUT = 15'h0000; + parameter LL_ACK_TIMEOUT_EN = "FALSE"; + parameter integer LL_ACK_TIMEOUT_FUNC = 0; + parameter [14:0] LL_REPLAY_TIMEOUT = 15'h0000; + parameter LL_REPLAY_TIMEOUT_EN = "FALSE"; + parameter integer LL_REPLAY_TIMEOUT_FUNC = 0; + parameter [5:0] LTSSM_MAX_LINK_WIDTH = 6'h01; + parameter MPS_FORCE = "FALSE"; + parameter [7:0] MSIX_BASE_PTR = 8'h9C; + parameter [7:0] MSIX_CAP_ID = 8'h11; + parameter [7:0] MSIX_CAP_NEXTPTR = 8'h00; + parameter MSIX_CAP_ON = "FALSE"; + parameter integer MSIX_CAP_PBA_BIR = 0; + parameter [28:0] MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] MSIX_CAP_TABLE_SIZE = 11'h000; + parameter [7:0] MSI_BASE_PTR = 8'h48; + parameter MSI_CAP_64_BIT_ADDR_CAPABLE = "TRUE"; + parameter [7:0] MSI_CAP_ID = 8'h05; + parameter integer MSI_CAP_MULTIMSGCAP = 0; + parameter integer MSI_CAP_MULTIMSG_EXTENSION = 0; + parameter [7:0] MSI_CAP_NEXTPTR = 8'h60; + parameter MSI_CAP_ON = "FALSE"; + parameter MSI_CAP_PER_VECTOR_MASKING_CAPABLE = "TRUE"; + parameter integer N_FTS_COMCLK_GEN1 = 255; + parameter integer N_FTS_COMCLK_GEN2 = 255; + parameter integer N_FTS_GEN1 = 255; + parameter integer N_FTS_GEN2 = 255; + parameter [7:0] PCIE_BASE_PTR = 8'h60; + parameter [7:0] PCIE_CAP_CAPABILITY_ID = 8'h10; + parameter [3:0] PCIE_CAP_CAPABILITY_VERSION = 4'h2; + parameter [3:0] PCIE_CAP_DEVICE_PORT_TYPE = 4'h0; + parameter [7:0] PCIE_CAP_NEXTPTR = 8'h9C; + parameter PCIE_CAP_ON = "TRUE"; + parameter integer PCIE_CAP_RSVD_15_14 = 0; + parameter PCIE_CAP_SLOT_IMPLEMENTED = "FALSE"; + parameter integer PCIE_REVISION = 2; + parameter integer PL_AUTO_CONFIG = 0; + parameter PL_FAST_TRAIN = "FALSE"; + parameter [14:0] PM_ASPML0S_TIMEOUT = 15'h0000; + parameter PM_ASPML0S_TIMEOUT_EN = "FALSE"; + parameter integer PM_ASPML0S_TIMEOUT_FUNC = 0; + parameter PM_ASPM_FASTEXIT = "FALSE"; + parameter [7:0] PM_BASE_PTR = 8'h40; + parameter integer PM_CAP_AUXCURRENT = 0; + parameter PM_CAP_D1SUPPORT = "TRUE"; + parameter PM_CAP_D2SUPPORT = "TRUE"; + parameter PM_CAP_DSI = "FALSE"; + parameter [7:0] PM_CAP_ID = 8'h01; + parameter [7:0] PM_CAP_NEXTPTR = 8'h48; + parameter PM_CAP_ON = "TRUE"; + parameter [4:0] PM_CAP_PMESUPPORT = 5'h0F; + parameter PM_CAP_PME_CLOCK = "FALSE"; + parameter integer PM_CAP_RSVD_04 = 0; + parameter integer PM_CAP_VERSION = 3; + parameter PM_CSR_B2B3 = "FALSE"; + parameter PM_CSR_BPCCEN = "FALSE"; + parameter PM_CSR_NOSOFTRST = "TRUE"; + parameter [7:0] PM_DATA0 = 8'h01; + parameter [7:0] PM_DATA1 = 8'h01; + parameter [7:0] PM_DATA2 = 8'h01; + parameter [7:0] PM_DATA3 = 8'h01; + parameter [7:0] PM_DATA4 = 8'h01; + parameter [7:0] PM_DATA5 = 8'h01; + parameter [7:0] PM_DATA6 = 8'h01; + parameter [7:0] PM_DATA7 = 8'h01; + parameter [1:0] PM_DATA_SCALE0 = 2'h1; + parameter [1:0] PM_DATA_SCALE1 = 2'h1; + parameter [1:0] PM_DATA_SCALE2 = 2'h1; + parameter [1:0] PM_DATA_SCALE3 = 2'h1; + parameter [1:0] PM_DATA_SCALE4 = 2'h1; + parameter [1:0] PM_DATA_SCALE5 = 2'h1; + parameter [1:0] PM_DATA_SCALE6 = 2'h1; + parameter [1:0] PM_DATA_SCALE7 = 2'h1; + parameter PM_MF = "FALSE"; + parameter [11:0] RBAR_BASE_PTR = 12'h178; + parameter [4:0] RBAR_CAP_CONTROL_ENCODEDBAR0 = 5'h00; + parameter [4:0] RBAR_CAP_CONTROL_ENCODEDBAR1 = 5'h00; + parameter [4:0] RBAR_CAP_CONTROL_ENCODEDBAR2 = 5'h00; + parameter [4:0] RBAR_CAP_CONTROL_ENCODEDBAR3 = 5'h00; + parameter [4:0] RBAR_CAP_CONTROL_ENCODEDBAR4 = 5'h00; + parameter [4:0] RBAR_CAP_CONTROL_ENCODEDBAR5 = 5'h00; + parameter [15:0] RBAR_CAP_ID = 16'h0015; + parameter [2:0] RBAR_CAP_INDEX0 = 3'h0; + parameter [2:0] RBAR_CAP_INDEX1 = 3'h0; + parameter [2:0] RBAR_CAP_INDEX2 = 3'h0; + parameter [2:0] RBAR_CAP_INDEX3 = 3'h0; + parameter [2:0] RBAR_CAP_INDEX4 = 3'h0; + parameter [2:0] RBAR_CAP_INDEX5 = 3'h0; + parameter [11:0] RBAR_CAP_NEXTPTR = 12'h000; + parameter RBAR_CAP_ON = "FALSE"; + parameter [31:0] RBAR_CAP_SUP0 = 32'h00000000; + parameter [31:0] RBAR_CAP_SUP1 = 32'h00000000; + parameter [31:0] RBAR_CAP_SUP2 = 32'h00000000; + parameter [31:0] RBAR_CAP_SUP3 = 32'h00000000; + parameter [31:0] RBAR_CAP_SUP4 = 32'h00000000; + parameter [31:0] RBAR_CAP_SUP5 = 32'h00000000; + parameter [3:0] RBAR_CAP_VERSION = 4'h1; + parameter [2:0] RBAR_NUM = 3'h1; + parameter integer RECRC_CHK = 0; + parameter RECRC_CHK_TRIM = "FALSE"; + parameter ROOT_CAP_CRS_SW_VISIBILITY = "FALSE"; + parameter [1:0] RP_AUTO_SPD = 2'h1; + parameter [4:0] RP_AUTO_SPD_LOOPCNT = 5'h1F; + parameter SELECT_DLL_IF = "FALSE"; + parameter SIM_VERSION = "1.0"; + parameter SLOT_CAP_ATT_BUTTON_PRESENT = "FALSE"; + parameter SLOT_CAP_ATT_INDICATOR_PRESENT = "FALSE"; + parameter SLOT_CAP_ELEC_INTERLOCK_PRESENT = "FALSE"; + parameter SLOT_CAP_HOTPLUG_CAPABLE = "FALSE"; + parameter SLOT_CAP_HOTPLUG_SURPRISE = "FALSE"; + parameter SLOT_CAP_MRL_SENSOR_PRESENT = "FALSE"; + parameter SLOT_CAP_NO_CMD_COMPLETED_SUPPORT = "FALSE"; + parameter [12:0] SLOT_CAP_PHYSICAL_SLOT_NUM = 13'h0000; + parameter SLOT_CAP_POWER_CONTROLLER_PRESENT = "FALSE"; + parameter SLOT_CAP_POWER_INDICATOR_PRESENT = "FALSE"; + parameter integer SLOT_CAP_SLOT_POWER_LIMIT_SCALE = 0; + parameter [7:0] SLOT_CAP_SLOT_POWER_LIMIT_VALUE = 8'h00; + parameter integer SPARE_BIT0 = 0; + parameter integer SPARE_BIT1 = 0; + parameter integer SPARE_BIT2 = 0; + parameter integer SPARE_BIT3 = 0; + parameter integer SPARE_BIT4 = 0; + parameter integer SPARE_BIT5 = 0; + parameter integer SPARE_BIT6 = 0; + parameter integer SPARE_BIT7 = 0; + parameter integer SPARE_BIT8 = 0; + parameter [7:0] SPARE_BYTE0 = 8'h00; + parameter [7:0] SPARE_BYTE1 = 8'h00; + parameter [7:0] SPARE_BYTE2 = 8'h00; + parameter [7:0] SPARE_BYTE3 = 8'h00; + parameter [31:0] SPARE_WORD0 = 32'h00000000; + parameter [31:0] SPARE_WORD1 = 32'h00000000; + parameter [31:0] SPARE_WORD2 = 32'h00000000; + parameter [31:0] SPARE_WORD3 = 32'h00000000; + parameter SSL_MESSAGE_AUTO = "FALSE"; + parameter TECRC_EP_INV = "FALSE"; + parameter TL_RBYPASS = "FALSE"; + parameter integer TL_RX_RAM_RADDR_LATENCY = 0; + parameter integer TL_RX_RAM_RDATA_LATENCY = 2; + parameter integer TL_RX_RAM_WRITE_LATENCY = 0; + parameter TL_TFC_DISABLE = "FALSE"; + parameter TL_TX_CHECKS_DISABLE = "FALSE"; + parameter integer TL_TX_RAM_RADDR_LATENCY = 0; + parameter integer TL_TX_RAM_RDATA_LATENCY = 2; + parameter integer TL_TX_RAM_WRITE_LATENCY = 0; + parameter TRN_DW = "FALSE"; + parameter TRN_NP_FC = "FALSE"; + parameter UPCONFIG_CAPABLE = "TRUE"; + parameter UPSTREAM_FACING = "TRUE"; + parameter UR_ATOMIC = "TRUE"; + parameter UR_CFG1 = "TRUE"; + parameter UR_INV_REQ = "TRUE"; + parameter UR_PRS_RESPONSE = "TRUE"; + parameter USER_CLK2_DIV2 = "FALSE"; + parameter integer USER_CLK_FREQ = 3; + parameter USE_RID_PINS = "FALSE"; + parameter VC0_CPL_INFINITE = "TRUE"; + parameter [12:0] VC0_RX_RAM_LIMIT = 13'h03FF; + parameter integer VC0_TOTAL_CREDITS_CD = 127; + parameter integer VC0_TOTAL_CREDITS_CH = 31; + parameter integer VC0_TOTAL_CREDITS_NPD = 24; + parameter integer VC0_TOTAL_CREDITS_NPH = 12; + parameter integer VC0_TOTAL_CREDITS_PD = 288; + parameter integer VC0_TOTAL_CREDITS_PH = 32; + parameter integer VC0_TX_LASTPACKET = 31; + parameter [11:0] VC_BASE_PTR = 12'h10C; + parameter [15:0] VC_CAP_ID = 16'h0002; + parameter [11:0] VC_CAP_NEXTPTR = 12'h000; + parameter VC_CAP_ON = "FALSE"; + parameter VC_CAP_REJECT_SNOOP_TRANSACTIONS = "FALSE"; + parameter [3:0] VC_CAP_VERSION = 4'h1; + parameter [11:0] VSEC_BASE_PTR = 12'h128; + parameter [15:0] VSEC_CAP_HDR_ID = 16'h1234; + parameter [11:0] VSEC_CAP_HDR_LENGTH = 12'h018; + parameter [3:0] VSEC_CAP_HDR_REVISION = 4'h1; + parameter [15:0] VSEC_CAP_ID = 16'h000B; + parameter VSEC_CAP_IS_LINK_VISIBLE = "TRUE"; + parameter [11:0] VSEC_CAP_NEXTPTR = 12'h140; + parameter VSEC_CAP_ON = "FALSE"; + parameter [3:0] VSEC_CAP_VERSION = 4'h1; + output CFGAERECRCCHECKEN; + output CFGAERECRCGENEN; + output CFGAERROOTERRCORRERRRECEIVED; + output CFGAERROOTERRCORRERRREPORTINGEN; + output CFGAERROOTERRFATALERRRECEIVED; + output CFGAERROOTERRFATALERRREPORTINGEN; + output CFGAERROOTERRNONFATALERRRECEIVED; + output CFGAERROOTERRNONFATALERRREPORTINGEN; + output CFGBRIDGESERREN; + output CFGCOMMANDBUSMASTERENABLE; + output CFGCOMMANDINTERRUPTDISABLE; + output CFGCOMMANDIOENABLE; + output CFGCOMMANDMEMENABLE; + output CFGCOMMANDSERREN; + output CFGDEVCONTROL2ARIFORWARDEN; + output CFGDEVCONTROL2ATOMICEGRESSBLOCK; + output CFGDEVCONTROL2ATOMICREQUESTEREN; + output CFGDEVCONTROL2CPLTIMEOUTDIS; + output CFGDEVCONTROL2IDOCPLEN; + output CFGDEVCONTROL2IDOREQEN; + output CFGDEVCONTROL2LTREN; + output CFGDEVCONTROL2TLPPREFIXBLOCK; + output CFGDEVCONTROLAUXPOWEREN; + output CFGDEVCONTROLCORRERRREPORTINGEN; + output CFGDEVCONTROLENABLERO; + output CFGDEVCONTROLEXTTAGEN; + output CFGDEVCONTROLFATALERRREPORTINGEN; + output CFGDEVCONTROLNONFATALREPORTINGEN; + output CFGDEVCONTROLNOSNOOPEN; + output CFGDEVCONTROLPHANTOMEN; + output CFGDEVCONTROLURERRREPORTINGEN; + output CFGDEVSTATUSCORRERRDETECTED; + output CFGDEVSTATUSFATALERRDETECTED; + output CFGDEVSTATUSNONFATALERRDETECTED; + output CFGDEVSTATUSURDETECTED; + output CFGERRAERHEADERLOGSETN; + output CFGERRCPLRDYN; + output CFGINTERRUPTMSIENABLE; + output CFGINTERRUPTMSIXENABLE; + output CFGINTERRUPTMSIXFM; + output CFGINTERRUPTRDYN; + output CFGLINKCONTROLAUTOBANDWIDTHINTEN; + output CFGLINKCONTROLBANDWIDTHINTEN; + output CFGLINKCONTROLCLOCKPMEN; + output CFGLINKCONTROLCOMMONCLOCK; + output CFGLINKCONTROLEXTENDEDSYNC; + output CFGLINKCONTROLHWAUTOWIDTHDIS; + output CFGLINKCONTROLLINKDISABLE; + output CFGLINKCONTROLRCB; + output CFGLINKCONTROLRETRAINLINK; + output CFGLINKSTATUSAUTOBANDWIDTHSTATUS; + output CFGLINKSTATUSBANDWIDTHSTATUS; + output CFGLINKSTATUSDLLACTIVE; + output CFGLINKSTATUSLINKTRAINING; + output CFGMGMTRDWRDONEN; + output CFGMSGRECEIVED; + output CFGMSGRECEIVEDASSERTINTA; + output CFGMSGRECEIVEDASSERTINTB; + output CFGMSGRECEIVEDASSERTINTC; + output CFGMSGRECEIVEDASSERTINTD; + output CFGMSGRECEIVEDDEASSERTINTA; + output CFGMSGRECEIVEDDEASSERTINTB; + output CFGMSGRECEIVEDDEASSERTINTC; + output CFGMSGRECEIVEDDEASSERTINTD; + output CFGMSGRECEIVEDERRCOR; + output CFGMSGRECEIVEDERRFATAL; + output CFGMSGRECEIVEDERRNONFATAL; + output CFGMSGRECEIVEDPMASNAK; + output CFGMSGRECEIVEDPMETO; + output CFGMSGRECEIVEDPMETOACK; + output CFGMSGRECEIVEDPMPME; + output CFGMSGRECEIVEDSETSLOTPOWERLIMIT; + output CFGMSGRECEIVEDUNLOCK; + output CFGPMCSRPMEEN; + output CFGPMCSRPMESTATUS; + output CFGPMRCVASREQL1N; + output CFGPMRCVENTERL1N; + output CFGPMRCVENTERL23N; + output CFGPMRCVREQACKN; + output CFGROOTCONTROLPMEINTEN; + output CFGROOTCONTROLSYSERRCORRERREN; + output CFGROOTCONTROLSYSERRFATALERREN; + output CFGROOTCONTROLSYSERRNONFATALERREN; + output CFGSLOTCONTROLELECTROMECHILCTLPULSE; + output CFGTRANSACTION; + output CFGTRANSACTIONTYPE; + output DBGSCLRA; + output DBGSCLRB; + output DBGSCLRC; + output DBGSCLRD; + output DBGSCLRE; + output DBGSCLRF; + output DBGSCLRG; + output DBGSCLRH; + output DBGSCLRI; + output DBGSCLRJ; + output DBGSCLRK; + output DRPRDY; + output LL2BADDLLPERR; + output LL2BADTLPERR; + output LL2PROTOCOLERR; + output LL2RECEIVERERR; + output LL2REPLAYROERR; + output LL2REPLAYTOERR; + output LL2SUSPENDOK; + output LL2TFCINIT1SEQ; + output LL2TFCINIT2SEQ; + output LL2TXIDLE; + output LNKCLKEN; + output MIMRXREN; + output MIMRXWEN; + output MIMTXREN; + output MIMTXWEN; + output PIPERX0POLARITY; + output PIPERX1POLARITY; + output PIPERX2POLARITY; + output PIPERX3POLARITY; + output PIPERX4POLARITY; + output PIPERX5POLARITY; + output PIPERX6POLARITY; + output PIPERX7POLARITY; + output PIPETX0COMPLIANCE; + output PIPETX0ELECIDLE; + output PIPETX1COMPLIANCE; + output PIPETX1ELECIDLE; + output PIPETX2COMPLIANCE; + output PIPETX2ELECIDLE; + output PIPETX3COMPLIANCE; + output PIPETX3ELECIDLE; + output PIPETX4COMPLIANCE; + output PIPETX4ELECIDLE; + output PIPETX5COMPLIANCE; + output PIPETX5ELECIDLE; + output PIPETX6COMPLIANCE; + output PIPETX6ELECIDLE; + output PIPETX7COMPLIANCE; + output PIPETX7ELECIDLE; + output PIPETXDEEMPH; + output PIPETXRATE; + output PIPETXRCVRDET; + output PIPETXRESET; + output PL2L0REQ; + output PL2LINKUP; + output PL2RECEIVERERR; + output PL2RECOVERY; + output PL2RXELECIDLE; + output PL2SUSPENDOK; + output PLDIRECTEDCHANGEDONE; + output PLLINKGEN2CAP; + output PLLINKPARTNERGEN2SUPPORTED; + output PLLINKUPCFGCAP; + output PLPHYLNKUPN; + output PLRECEIVEDHOTRST; + output PLSELLNKRATE; + output RECEIVEDFUNCLVLRSTN; + output TL2ASPMSUSPENDCREDITCHECKOK; + output TL2ASPMSUSPENDREQ; + output TL2ERRFCPE; + output TL2ERRMALFORMED; + output TL2ERRRXOVERFLOW; + output TL2PPMSUSPENDOK; + output TRNLNKUP; + output TRNRECRCERR; + output TRNREOF; + output TRNRERRFWD; + output TRNRSOF; + output TRNRSRCDSC; + output TRNRSRCRDY; + output TRNTCFGREQ; + output TRNTDLLPDSTRDY; + output TRNTERRDROP; + output USERRSTN; + output [11:0] DBGVECC; + output [11:0] PLDBGVEC; + output [11:0] TRNFCCPLD; + output [11:0] TRNFCNPD; + output [11:0] TRNFCPD; + output [127:0] TRNRD; + output [12:0] MIMRXRADDR; + output [12:0] MIMRXWADDR; + output [12:0] MIMTXRADDR; + output [12:0] MIMTXWADDR; + output [15:0] CFGMSGDATA; + output [15:0] DRPDO; + output [15:0] PIPETX0DATA; + output [15:0] PIPETX1DATA; + output [15:0] PIPETX2DATA; + output [15:0] PIPETX3DATA; + output [15:0] PIPETX4DATA; + output [15:0] PIPETX5DATA; + output [15:0] PIPETX6DATA; + output [15:0] PIPETX7DATA; + output [1:0] CFGLINKCONTROLASPMCONTROL; + output [1:0] CFGLINKSTATUSCURRENTSPEED; + output [1:0] CFGPMCSRPOWERSTATE; + output [1:0] PIPETX0CHARISK; + output [1:0] PIPETX0POWERDOWN; + output [1:0] PIPETX1CHARISK; + output [1:0] PIPETX1POWERDOWN; + output [1:0] PIPETX2CHARISK; + output [1:0] PIPETX2POWERDOWN; + output [1:0] PIPETX3CHARISK; + output [1:0] PIPETX3POWERDOWN; + output [1:0] PIPETX4CHARISK; + output [1:0] PIPETX4POWERDOWN; + output [1:0] PIPETX5CHARISK; + output [1:0] PIPETX5POWERDOWN; + output [1:0] PIPETX6CHARISK; + output [1:0] PIPETX6POWERDOWN; + output [1:0] PIPETX7CHARISK; + output [1:0] PIPETX7POWERDOWN; + output [1:0] PL2RXPMSTATE; + output [1:0] PLLANEREVERSALMODE; + output [1:0] PLRXPMSTATE; + output [1:0] PLSELLNKWIDTH; + output [1:0] TRNRDLLPSRCRDY; + output [1:0] TRNRREM; + output [2:0] CFGDEVCONTROLMAXPAYLOAD; + output [2:0] CFGDEVCONTROLMAXREADREQ; + output [2:0] CFGINTERRUPTMMENABLE; + output [2:0] CFGPCIELINKSTATE; + output [2:0] PIPETXMARGIN; + output [2:0] PLINITIALLINKWIDTH; + output [2:0] PLTXPMSTATE; + output [31:0] CFGMGMTDO; + output [3:0] CFGDEVCONTROL2CPLTIMEOUTVAL; + output [3:0] CFGLINKSTATUSNEGOTIATEDWIDTH; + output [3:0] TRNTDSTRDY; + output [4:0] LL2LINKSTATUS; + output [5:0] PLLTSSMSTATE; + output [5:0] TRNTBUFAV; + output [63:0] DBGVECA; + output [63:0] DBGVECB; + output [63:0] TL2ERRHDR; + output [63:0] TRNRDLLPDATA; + output [67:0] MIMRXWDATA; + output [68:0] MIMTXWDATA; + output [6:0] CFGTRANSACTIONADDR; + output [6:0] CFGVCTCVCMAP; + output [7:0] CFGINTERRUPTDO; + output [7:0] TRNFCCPLH; + output [7:0] TRNFCNPH; + output [7:0] TRNFCPH; + output [7:0] TRNRBARHIT; + input CFGERRACSN; + input CFGERRATOMICEGRESSBLOCKEDN; + input CFGERRCORN; + input CFGERRCPLABORTN; + input CFGERRCPLTIMEOUTN; + input CFGERRCPLUNEXPECTN; + input CFGERRECRCN; + input CFGERRINTERNALCORN; + input CFGERRINTERNALUNCORN; + input CFGERRLOCKEDN; + input CFGERRMALFORMEDN; + input CFGERRMCBLOCKEDN; + input CFGERRNORECOVERYN; + input CFGERRPOISONEDN; + input CFGERRPOSTEDN; + input CFGERRURN; + input CFGFORCECOMMONCLOCKOFF; + input CFGFORCEEXTENDEDSYNCON; + input CFGINTERRUPTASSERTN; + input CFGINTERRUPTN; + input CFGINTERRUPTSTATN; + input CFGMGMTRDENN; + input CFGMGMTWRENN; + input CFGMGMTWRREADONLYN; + input CFGMGMTWRRW1CASRWN; + input CFGPMFORCESTATEENN; + input CFGPMHALTASPML0SN; + input CFGPMHALTASPML1N; + input CFGPMSENDPMETON; + input CFGPMTURNOFFOKN; + input CFGPMWAKEN; + input CFGTRNPENDINGN; + input CMRSTN; + input CMSTICKYRSTN; + input DBGSUBMODE; + input DLRSTN; + input DRPCLK; + input DRPEN; + input DRPWE; + input FUNCLVLRSTN; + input LL2SENDASREQL1; + input LL2SENDENTERL1; + input LL2SENDENTERL23; + input LL2SENDPMACK; + input LL2SUSPENDNOW; + input LL2TLPRCV; + input PIPECLK; + input PIPERX0CHANISALIGNED; + input PIPERX0ELECIDLE; + input PIPERX0PHYSTATUS; + input PIPERX0VALID; + input PIPERX1CHANISALIGNED; + input PIPERX1ELECIDLE; + input PIPERX1PHYSTATUS; + input PIPERX1VALID; + input PIPERX2CHANISALIGNED; + input PIPERX2ELECIDLE; + input PIPERX2PHYSTATUS; + input PIPERX2VALID; + input PIPERX3CHANISALIGNED; + input PIPERX3ELECIDLE; + input PIPERX3PHYSTATUS; + input PIPERX3VALID; + input PIPERX4CHANISALIGNED; + input PIPERX4ELECIDLE; + input PIPERX4PHYSTATUS; + input PIPERX4VALID; + input PIPERX5CHANISALIGNED; + input PIPERX5ELECIDLE; + input PIPERX5PHYSTATUS; + input PIPERX5VALID; + input PIPERX6CHANISALIGNED; + input PIPERX6ELECIDLE; + input PIPERX6PHYSTATUS; + input PIPERX6VALID; + input PIPERX7CHANISALIGNED; + input PIPERX7ELECIDLE; + input PIPERX7PHYSTATUS; + input PIPERX7VALID; + input PLDIRECTEDLINKAUTON; + input PLDIRECTEDLINKSPEED; + input PLDIRECTEDLTSSMNEWVLD; + input PLDIRECTEDLTSSMSTALL; + input PLDOWNSTREAMDEEMPHSOURCE; + input PLRSTN; + input PLTRANSMITHOTRST; + input PLUPSTREAMPREFERDEEMPH; + input SYSRSTN; + input TL2ASPMSUSPENDCREDITCHECK; + input TL2PPMSUSPENDREQ; + input TLRSTN; + input TRNRDSTRDY; + input TRNRFCPRET; + input TRNRNPOK; + input TRNRNPREQ; + input TRNTCFGGNT; + input TRNTDLLPSRCRDY; + input TRNTECRCGEN; + input TRNTEOF; + input TRNTERRFWD; + input TRNTSOF; + input TRNTSRCDSC; + input TRNTSRCRDY; + input TRNTSTR; + input USERCLK2; + input USERCLK; + input [127:0] CFGERRAERHEADERLOG; + input [127:0] TRNTD; + input [15:0] CFGDEVID; + input [15:0] CFGSUBSYSID; + input [15:0] CFGSUBSYSVENDID; + input [15:0] CFGVENDID; + input [15:0] DRPDI; + input [15:0] PIPERX0DATA; + input [15:0] PIPERX1DATA; + input [15:0] PIPERX2DATA; + input [15:0] PIPERX3DATA; + input [15:0] PIPERX4DATA; + input [15:0] PIPERX5DATA; + input [15:0] PIPERX6DATA; + input [15:0] PIPERX7DATA; + input [1:0] CFGPMFORCESTATE; + input [1:0] DBGMODE; + input [1:0] PIPERX0CHARISK; + input [1:0] PIPERX1CHARISK; + input [1:0] PIPERX2CHARISK; + input [1:0] PIPERX3CHARISK; + input [1:0] PIPERX4CHARISK; + input [1:0] PIPERX5CHARISK; + input [1:0] PIPERX6CHARISK; + input [1:0] PIPERX7CHARISK; + input [1:0] PLDIRECTEDLINKCHANGE; + input [1:0] PLDIRECTEDLINKWIDTH; + input [1:0] TRNTREM; + input [2:0] CFGDSFUNCTIONNUMBER; + input [2:0] CFGFORCEMPS; + input [2:0] PIPERX0STATUS; + input [2:0] PIPERX1STATUS; + input [2:0] PIPERX2STATUS; + input [2:0] PIPERX3STATUS; + input [2:0] PIPERX4STATUS; + input [2:0] PIPERX5STATUS; + input [2:0] PIPERX6STATUS; + input [2:0] PIPERX7STATUS; + input [2:0] PLDBGMODE; + input [2:0] TRNFCSEL; + input [31:0] CFGMGMTDI; + input [31:0] TRNTDLLPDATA; + input [3:0] CFGMGMTBYTEENN; + input [47:0] CFGERRTLPCPLHEADER; + input [4:0] CFGAERINTERRUPTMSGNUM; + input [4:0] CFGDSDEVICENUMBER; + input [4:0] CFGPCIECAPINTERRUPTMSGNUM; + input [4:0] PL2DIRECTEDLSTATE; + input [5:0] PLDIRECTEDLTSSMNEW; + input [63:0] CFGDSN; + input [67:0] MIMRXRDATA; + input [68:0] MIMTXRDATA; + input [7:0] CFGDSBUSNUMBER; + input [7:0] CFGINTERRUPTDI; + input [7:0] CFGPORTNUMBER; + input [7:0] CFGREVID; + input [8:0] DRPADDR; + input [9:0] CFGMGMTDWADDR; +endmodule + +module PCIE_3_0 (...); + parameter ARI_CAP_ENABLE = "FALSE"; + parameter AXISTEN_IF_CC_ALIGNMENT_MODE = "FALSE"; + parameter AXISTEN_IF_CC_PARITY_CHK = "TRUE"; + parameter AXISTEN_IF_CQ_ALIGNMENT_MODE = "FALSE"; + parameter AXISTEN_IF_ENABLE_CLIENT_TAG = "FALSE"; + parameter [17:0] AXISTEN_IF_ENABLE_MSG_ROUTE = 18'h00000; + parameter AXISTEN_IF_ENABLE_RX_MSG_INTFC = "FALSE"; + parameter AXISTEN_IF_RC_ALIGNMENT_MODE = "FALSE"; + parameter AXISTEN_IF_RC_STRADDLE = "FALSE"; + parameter AXISTEN_IF_RQ_ALIGNMENT_MODE = "FALSE"; + parameter AXISTEN_IF_RQ_PARITY_CHK = "TRUE"; + parameter [1:0] AXISTEN_IF_WIDTH = 2'h2; + parameter CRM_CORE_CLK_FREQ_500 = "TRUE"; + parameter [1:0] CRM_USER_CLK_FREQ = 2'h2; + parameter [7:0] DNSTREAM_LINK_NUM = 8'h00; + parameter [1:0] GEN3_PCS_AUTO_REALIGN = 2'h1; + parameter GEN3_PCS_RX_ELECIDLE_INTERNAL = "TRUE"; + parameter [8:0] LL_ACK_TIMEOUT = 9'h000; + parameter LL_ACK_TIMEOUT_EN = "FALSE"; + parameter integer LL_ACK_TIMEOUT_FUNC = 0; + parameter [15:0] LL_CPL_FC_UPDATE_TIMER = 16'h0000; + parameter LL_CPL_FC_UPDATE_TIMER_OVERRIDE = "FALSE"; + parameter [15:0] LL_FC_UPDATE_TIMER = 16'h0000; + parameter LL_FC_UPDATE_TIMER_OVERRIDE = "FALSE"; + parameter [15:0] LL_NP_FC_UPDATE_TIMER = 16'h0000; + parameter LL_NP_FC_UPDATE_TIMER_OVERRIDE = "FALSE"; + parameter [15:0] LL_P_FC_UPDATE_TIMER = 16'h0000; + parameter LL_P_FC_UPDATE_TIMER_OVERRIDE = "FALSE"; + parameter [8:0] LL_REPLAY_TIMEOUT = 9'h000; + parameter LL_REPLAY_TIMEOUT_EN = "FALSE"; + parameter integer LL_REPLAY_TIMEOUT_FUNC = 0; + parameter [9:0] LTR_TX_MESSAGE_MINIMUM_INTERVAL = 10'h0FA; + parameter LTR_TX_MESSAGE_ON_FUNC_POWER_STATE_CHANGE = "FALSE"; + parameter LTR_TX_MESSAGE_ON_LTR_ENABLE = "FALSE"; + parameter PF0_AER_CAP_ECRC_CHECK_CAPABLE = "FALSE"; + parameter PF0_AER_CAP_ECRC_GEN_CAPABLE = "FALSE"; + parameter [11:0] PF0_AER_CAP_NEXTPTR = 12'h000; + parameter [11:0] PF0_ARI_CAP_NEXTPTR = 12'h000; + parameter [7:0] PF0_ARI_CAP_NEXT_FUNC = 8'h00; + parameter [3:0] PF0_ARI_CAP_VER = 4'h1; + parameter [4:0] PF0_BAR0_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_BAR0_CONTROL = 3'h4; + parameter [4:0] PF0_BAR1_APERTURE_SIZE = 5'h00; + parameter [2:0] PF0_BAR1_CONTROL = 3'h0; + parameter [4:0] PF0_BAR2_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_BAR2_CONTROL = 3'h4; + parameter [4:0] PF0_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_BAR3_CONTROL = 3'h0; + parameter [4:0] PF0_BAR4_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_BAR4_CONTROL = 3'h4; + parameter [4:0] PF0_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_BAR5_CONTROL = 3'h0; + parameter [7:0] PF0_BIST_REGISTER = 8'h00; + parameter [7:0] PF0_CAPABILITY_POINTER = 8'h50; + parameter [23:0] PF0_CLASS_CODE = 24'h000000; + parameter [15:0] PF0_DEVICE_ID = 16'h0000; + parameter PF0_DEV_CAP2_128B_CAS_ATOMIC_COMPLETER_SUPPORT = "TRUE"; + parameter PF0_DEV_CAP2_32B_ATOMIC_COMPLETER_SUPPORT = "TRUE"; + parameter PF0_DEV_CAP2_64B_ATOMIC_COMPLETER_SUPPORT = "TRUE"; + parameter PF0_DEV_CAP2_CPL_TIMEOUT_DISABLE = "TRUE"; + parameter PF0_DEV_CAP2_LTR_SUPPORT = "TRUE"; + parameter [1:0] PF0_DEV_CAP2_OBFF_SUPPORT = 2'h0; + parameter PF0_DEV_CAP2_TPH_COMPLETER_SUPPORT = "FALSE"; + parameter integer PF0_DEV_CAP_ENDPOINT_L0S_LATENCY = 0; + parameter integer PF0_DEV_CAP_ENDPOINT_L1_LATENCY = 0; + parameter PF0_DEV_CAP_EXT_TAG_SUPPORTED = "TRUE"; + parameter PF0_DEV_CAP_FUNCTION_LEVEL_RESET_CAPABLE = "TRUE"; + parameter [2:0] PF0_DEV_CAP_MAX_PAYLOAD_SIZE = 3'h3; + parameter [11:0] PF0_DPA_CAP_NEXTPTR = 12'h000; + parameter [4:0] PF0_DPA_CAP_SUB_STATE_CONTROL = 5'h00; + parameter PF0_DPA_CAP_SUB_STATE_CONTROL_EN = "TRUE"; + parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION0 = 8'h00; + parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION1 = 8'h00; + parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION2 = 8'h00; + parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION3 = 8'h00; + parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION4 = 8'h00; + parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION5 = 8'h00; + parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION6 = 8'h00; + parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION7 = 8'h00; + parameter [3:0] PF0_DPA_CAP_VER = 4'h1; + parameter [11:0] PF0_DSN_CAP_NEXTPTR = 12'h10C; + parameter [4:0] PF0_EXPANSION_ROM_APERTURE_SIZE = 5'h03; + parameter PF0_EXPANSION_ROM_ENABLE = "FALSE"; + parameter [7:0] PF0_INTERRUPT_LINE = 8'h00; + parameter [2:0] PF0_INTERRUPT_PIN = 3'h1; + parameter integer PF0_LINK_CAP_ASPM_SUPPORT = 0; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN1 = 7; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN2 = 7; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN3 = 7; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_GEN1 = 7; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_GEN2 = 7; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_GEN3 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN1 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN2 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN3 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_GEN1 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_GEN2 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_GEN3 = 7; + parameter PF0_LINK_STATUS_SLOT_CLOCK_CONFIG = "TRUE"; + parameter [9:0] PF0_LTR_CAP_MAX_NOSNOOP_LAT = 10'h000; + parameter [9:0] PF0_LTR_CAP_MAX_SNOOP_LAT = 10'h000; + parameter [11:0] PF0_LTR_CAP_NEXTPTR = 12'h000; + parameter [3:0] PF0_LTR_CAP_VER = 4'h1; + parameter [7:0] PF0_MSIX_CAP_NEXTPTR = 8'h00; + parameter integer PF0_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] PF0_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer PF0_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] PF0_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] PF0_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer PF0_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] PF0_MSI_CAP_NEXTPTR = 8'h00; + parameter [11:0] PF0_PB_CAP_NEXTPTR = 12'h000; + parameter PF0_PB_CAP_SYSTEM_ALLOCATED = "FALSE"; + parameter [3:0] PF0_PB_CAP_VER = 4'h1; + parameter [7:0] PF0_PM_CAP_ID = 8'h01; + parameter [7:0] PF0_PM_CAP_NEXTPTR = 8'h00; + parameter PF0_PM_CAP_PMESUPPORT_D0 = "TRUE"; + parameter PF0_PM_CAP_PMESUPPORT_D1 = "TRUE"; + parameter PF0_PM_CAP_PMESUPPORT_D3HOT = "TRUE"; + parameter PF0_PM_CAP_SUPP_D1_STATE = "TRUE"; + parameter [2:0] PF0_PM_CAP_VER_ID = 3'h3; + parameter PF0_PM_CSR_NOSOFTRESET = "TRUE"; + parameter PF0_RBAR_CAP_ENABLE = "FALSE"; + parameter [2:0] PF0_RBAR_CAP_INDEX0 = 3'h0; + parameter [2:0] PF0_RBAR_CAP_INDEX1 = 3'h0; + parameter [2:0] PF0_RBAR_CAP_INDEX2 = 3'h0; + parameter [11:0] PF0_RBAR_CAP_NEXTPTR = 12'h000; + parameter [19:0] PF0_RBAR_CAP_SIZE0 = 20'h00000; + parameter [19:0] PF0_RBAR_CAP_SIZE1 = 20'h00000; + parameter [19:0] PF0_RBAR_CAP_SIZE2 = 20'h00000; + parameter [3:0] PF0_RBAR_CAP_VER = 4'h1; + parameter [2:0] PF0_RBAR_NUM = 3'h1; + parameter [7:0] PF0_REVISION_ID = 8'h00; + parameter [4:0] PF0_SRIOV_BAR0_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_SRIOV_BAR0_CONTROL = 3'h4; + parameter [4:0] PF0_SRIOV_BAR1_APERTURE_SIZE = 5'h00; + parameter [2:0] PF0_SRIOV_BAR1_CONTROL = 3'h0; + parameter [4:0] PF0_SRIOV_BAR2_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_SRIOV_BAR2_CONTROL = 3'h4; + parameter [4:0] PF0_SRIOV_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_SRIOV_BAR3_CONTROL = 3'h0; + parameter [4:0] PF0_SRIOV_BAR4_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_SRIOV_BAR4_CONTROL = 3'h4; + parameter [4:0] PF0_SRIOV_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_SRIOV_BAR5_CONTROL = 3'h0; + parameter [15:0] PF0_SRIOV_CAP_INITIAL_VF = 16'h0000; + parameter [11:0] PF0_SRIOV_CAP_NEXTPTR = 12'h000; + parameter [15:0] PF0_SRIOV_CAP_TOTAL_VF = 16'h0000; + parameter [3:0] PF0_SRIOV_CAP_VER = 4'h1; + parameter [15:0] PF0_SRIOV_FIRST_VF_OFFSET = 16'h0000; + parameter [15:0] PF0_SRIOV_FUNC_DEP_LINK = 16'h0000; + parameter [31:0] PF0_SRIOV_SUPPORTED_PAGE_SIZE = 32'h00000000; + parameter [15:0] PF0_SRIOV_VF_DEVICE_ID = 16'h0000; + parameter [15:0] PF0_SUBSYSTEM_ID = 16'h0000; + parameter PF0_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter PF0_TPHR_CAP_ENABLE = "FALSE"; + parameter PF0_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] PF0_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] PF0_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] PF0_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] PF0_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] PF0_TPHR_CAP_VER = 4'h1; + parameter [11:0] PF0_VC_CAP_NEXTPTR = 12'h000; + parameter [3:0] PF0_VC_CAP_VER = 4'h1; + parameter PF1_AER_CAP_ECRC_CHECK_CAPABLE = "FALSE"; + parameter PF1_AER_CAP_ECRC_GEN_CAPABLE = "FALSE"; + parameter [11:0] PF1_AER_CAP_NEXTPTR = 12'h000; + parameter [11:0] PF1_ARI_CAP_NEXTPTR = 12'h000; + parameter [7:0] PF1_ARI_CAP_NEXT_FUNC = 8'h00; + parameter [4:0] PF1_BAR0_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_BAR0_CONTROL = 3'h4; + parameter [4:0] PF1_BAR1_APERTURE_SIZE = 5'h00; + parameter [2:0] PF1_BAR1_CONTROL = 3'h0; + parameter [4:0] PF1_BAR2_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_BAR2_CONTROL = 3'h4; + parameter [4:0] PF1_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_BAR3_CONTROL = 3'h0; + parameter [4:0] PF1_BAR4_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_BAR4_CONTROL = 3'h4; + parameter [4:0] PF1_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_BAR5_CONTROL = 3'h0; + parameter [7:0] PF1_BIST_REGISTER = 8'h00; + parameter [7:0] PF1_CAPABILITY_POINTER = 8'h50; + parameter [23:0] PF1_CLASS_CODE = 24'h000000; + parameter [15:0] PF1_DEVICE_ID = 16'h0000; + parameter [2:0] PF1_DEV_CAP_MAX_PAYLOAD_SIZE = 3'h3; + parameter [11:0] PF1_DPA_CAP_NEXTPTR = 12'h000; + parameter [4:0] PF1_DPA_CAP_SUB_STATE_CONTROL = 5'h00; + parameter PF1_DPA_CAP_SUB_STATE_CONTROL_EN = "TRUE"; + parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION0 = 8'h00; + parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION1 = 8'h00; + parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION2 = 8'h00; + parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION3 = 8'h00; + parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION4 = 8'h00; + parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION5 = 8'h00; + parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION6 = 8'h00; + parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION7 = 8'h00; + parameter [3:0] PF1_DPA_CAP_VER = 4'h1; + parameter [11:0] PF1_DSN_CAP_NEXTPTR = 12'h10C; + parameter [4:0] PF1_EXPANSION_ROM_APERTURE_SIZE = 5'h03; + parameter PF1_EXPANSION_ROM_ENABLE = "FALSE"; + parameter [7:0] PF1_INTERRUPT_LINE = 8'h00; + parameter [2:0] PF1_INTERRUPT_PIN = 3'h1; + parameter [7:0] PF1_MSIX_CAP_NEXTPTR = 8'h00; + parameter integer PF1_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] PF1_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer PF1_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] PF1_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] PF1_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer PF1_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] PF1_MSI_CAP_NEXTPTR = 8'h00; + parameter [11:0] PF1_PB_CAP_NEXTPTR = 12'h000; + parameter PF1_PB_CAP_SYSTEM_ALLOCATED = "FALSE"; + parameter [3:0] PF1_PB_CAP_VER = 4'h1; + parameter [7:0] PF1_PM_CAP_ID = 8'h01; + parameter [7:0] PF1_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] PF1_PM_CAP_VER_ID = 3'h3; + parameter PF1_RBAR_CAP_ENABLE = "FALSE"; + parameter [2:0] PF1_RBAR_CAP_INDEX0 = 3'h0; + parameter [2:0] PF1_RBAR_CAP_INDEX1 = 3'h0; + parameter [2:0] PF1_RBAR_CAP_INDEX2 = 3'h0; + parameter [11:0] PF1_RBAR_CAP_NEXTPTR = 12'h000; + parameter [19:0] PF1_RBAR_CAP_SIZE0 = 20'h00000; + parameter [19:0] PF1_RBAR_CAP_SIZE1 = 20'h00000; + parameter [19:0] PF1_RBAR_CAP_SIZE2 = 20'h00000; + parameter [3:0] PF1_RBAR_CAP_VER = 4'h1; + parameter [2:0] PF1_RBAR_NUM = 3'h1; + parameter [7:0] PF1_REVISION_ID = 8'h00; + parameter [4:0] PF1_SRIOV_BAR0_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_SRIOV_BAR0_CONTROL = 3'h4; + parameter [4:0] PF1_SRIOV_BAR1_APERTURE_SIZE = 5'h00; + parameter [2:0] PF1_SRIOV_BAR1_CONTROL = 3'h0; + parameter [4:0] PF1_SRIOV_BAR2_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_SRIOV_BAR2_CONTROL = 3'h4; + parameter [4:0] PF1_SRIOV_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_SRIOV_BAR3_CONTROL = 3'h0; + parameter [4:0] PF1_SRIOV_BAR4_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_SRIOV_BAR4_CONTROL = 3'h4; + parameter [4:0] PF1_SRIOV_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_SRIOV_BAR5_CONTROL = 3'h0; + parameter [15:0] PF1_SRIOV_CAP_INITIAL_VF = 16'h0000; + parameter [11:0] PF1_SRIOV_CAP_NEXTPTR = 12'h000; + parameter [15:0] PF1_SRIOV_CAP_TOTAL_VF = 16'h0000; + parameter [3:0] PF1_SRIOV_CAP_VER = 4'h1; + parameter [15:0] PF1_SRIOV_FIRST_VF_OFFSET = 16'h0000; + parameter [15:0] PF1_SRIOV_FUNC_DEP_LINK = 16'h0000; + parameter [31:0] PF1_SRIOV_SUPPORTED_PAGE_SIZE = 32'h00000000; + parameter [15:0] PF1_SRIOV_VF_DEVICE_ID = 16'h0000; + parameter [15:0] PF1_SUBSYSTEM_ID = 16'h0000; + parameter PF1_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter PF1_TPHR_CAP_ENABLE = "FALSE"; + parameter PF1_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] PF1_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] PF1_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] PF1_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] PF1_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] PF1_TPHR_CAP_VER = 4'h1; + parameter PL_DISABLE_EI_INFER_IN_L0 = "FALSE"; + parameter PL_DISABLE_GEN3_DC_BALANCE = "FALSE"; + parameter PL_DISABLE_SCRAMBLING = "FALSE"; + parameter PL_DISABLE_UPCONFIG_CAPABLE = "FALSE"; + parameter PL_EQ_ADAPT_DISABLE_COEFF_CHECK = "FALSE"; + parameter PL_EQ_ADAPT_DISABLE_PRESET_CHECK = "FALSE"; + parameter [4:0] PL_EQ_ADAPT_ITER_COUNT = 5'h02; + parameter [1:0] PL_EQ_ADAPT_REJECT_RETRY_COUNT = 2'h1; + parameter PL_EQ_BYPASS_PHASE23 = "FALSE"; + parameter PL_EQ_SHORT_ADAPT_PHASE = "FALSE"; + parameter [15:0] PL_LANE0_EQ_CONTROL = 16'h3F00; + parameter [15:0] PL_LANE1_EQ_CONTROL = 16'h3F00; + parameter [15:0] PL_LANE2_EQ_CONTROL = 16'h3F00; + parameter [15:0] PL_LANE3_EQ_CONTROL = 16'h3F00; + parameter [15:0] PL_LANE4_EQ_CONTROL = 16'h3F00; + parameter [15:0] PL_LANE5_EQ_CONTROL = 16'h3F00; + parameter [15:0] PL_LANE6_EQ_CONTROL = 16'h3F00; + parameter [15:0] PL_LANE7_EQ_CONTROL = 16'h3F00; + parameter [2:0] PL_LINK_CAP_MAX_LINK_SPEED = 3'h4; + parameter [3:0] PL_LINK_CAP_MAX_LINK_WIDTH = 4'h8; + parameter integer PL_N_FTS_COMCLK_GEN1 = 255; + parameter integer PL_N_FTS_COMCLK_GEN2 = 255; + parameter integer PL_N_FTS_COMCLK_GEN3 = 255; + parameter integer PL_N_FTS_GEN1 = 255; + parameter integer PL_N_FTS_GEN2 = 255; + parameter integer PL_N_FTS_GEN3 = 255; + parameter PL_SIM_FAST_LINK_TRAINING = "FALSE"; + parameter PL_UPSTREAM_FACING = "TRUE"; + parameter [15:0] PM_ASPML0S_TIMEOUT = 16'h05DC; + parameter [19:0] PM_ASPML1_ENTRY_DELAY = 20'h00000; + parameter PM_ENABLE_SLOT_POWER_CAPTURE = "TRUE"; + parameter [31:0] PM_L1_REENTRY_DELAY = 32'h00000000; + parameter [19:0] PM_PME_SERVICE_TIMEOUT_DELAY = 20'h186A0; + parameter [15:0] PM_PME_TURNOFF_ACK_DELAY = 16'h0064; + parameter SIM_VERSION = "1.0"; + parameter integer SPARE_BIT0 = 0; + parameter integer SPARE_BIT1 = 0; + parameter integer SPARE_BIT2 = 0; + parameter integer SPARE_BIT3 = 0; + parameter integer SPARE_BIT4 = 0; + parameter integer SPARE_BIT5 = 0; + parameter integer SPARE_BIT6 = 0; + parameter integer SPARE_BIT7 = 0; + parameter integer SPARE_BIT8 = 0; + parameter [7:0] SPARE_BYTE0 = 8'h00; + parameter [7:0] SPARE_BYTE1 = 8'h00; + parameter [7:0] SPARE_BYTE2 = 8'h00; + parameter [7:0] SPARE_BYTE3 = 8'h00; + parameter [31:0] SPARE_WORD0 = 32'h00000000; + parameter [31:0] SPARE_WORD1 = 32'h00000000; + parameter [31:0] SPARE_WORD2 = 32'h00000000; + parameter [31:0] SPARE_WORD3 = 32'h00000000; + parameter SRIOV_CAP_ENABLE = "FALSE"; + parameter [23:0] TL_COMPL_TIMEOUT_REG0 = 24'hBEBC20; + parameter [27:0] TL_COMPL_TIMEOUT_REG1 = 28'h0000000; + parameter [11:0] TL_CREDITS_CD = 12'h3E0; + parameter [7:0] TL_CREDITS_CH = 8'h20; + parameter [11:0] TL_CREDITS_NPD = 12'h028; + parameter [7:0] TL_CREDITS_NPH = 8'h20; + parameter [11:0] TL_CREDITS_PD = 12'h198; + parameter [7:0] TL_CREDITS_PH = 8'h20; + parameter TL_ENABLE_MESSAGE_RID_CHECK_ENABLE = "TRUE"; + parameter TL_EXTENDED_CFG_EXTEND_INTERFACE_ENABLE = "FALSE"; + parameter TL_LEGACY_CFG_EXTEND_INTERFACE_ENABLE = "FALSE"; + parameter TL_LEGACY_MODE_ENABLE = "FALSE"; + parameter TL_PF_ENABLE_REG = "FALSE"; + parameter TL_TAG_MGMT_ENABLE = "TRUE"; + parameter [11:0] VF0_ARI_CAP_NEXTPTR = 12'h000; + parameter [7:0] VF0_CAPABILITY_POINTER = 8'h50; + parameter integer VF0_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VF0_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VF0_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VF0_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VF0_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer VF0_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] VF0_PM_CAP_ID = 8'h01; + parameter [7:0] VF0_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] VF0_PM_CAP_VER_ID = 3'h3; + parameter VF0_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter VF0_TPHR_CAP_ENABLE = "FALSE"; + parameter VF0_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] VF0_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VF0_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] VF0_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] VF0_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] VF0_TPHR_CAP_VER = 4'h1; + parameter [11:0] VF1_ARI_CAP_NEXTPTR = 12'h000; + parameter integer VF1_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VF1_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VF1_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VF1_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VF1_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer VF1_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] VF1_PM_CAP_ID = 8'h01; + parameter [7:0] VF1_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] VF1_PM_CAP_VER_ID = 3'h3; + parameter VF1_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter VF1_TPHR_CAP_ENABLE = "FALSE"; + parameter VF1_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] VF1_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VF1_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] VF1_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] VF1_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] VF1_TPHR_CAP_VER = 4'h1; + parameter [11:0] VF2_ARI_CAP_NEXTPTR = 12'h000; + parameter integer VF2_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VF2_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VF2_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VF2_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VF2_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer VF2_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] VF2_PM_CAP_ID = 8'h01; + parameter [7:0] VF2_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] VF2_PM_CAP_VER_ID = 3'h3; + parameter VF2_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter VF2_TPHR_CAP_ENABLE = "FALSE"; + parameter VF2_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] VF2_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VF2_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] VF2_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] VF2_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] VF2_TPHR_CAP_VER = 4'h1; + parameter [11:0] VF3_ARI_CAP_NEXTPTR = 12'h000; + parameter integer VF3_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VF3_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VF3_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VF3_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VF3_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer VF3_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] VF3_PM_CAP_ID = 8'h01; + parameter [7:0] VF3_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] VF3_PM_CAP_VER_ID = 3'h3; + parameter VF3_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter VF3_TPHR_CAP_ENABLE = "FALSE"; + parameter VF3_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] VF3_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VF3_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] VF3_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] VF3_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] VF3_TPHR_CAP_VER = 4'h1; + parameter [11:0] VF4_ARI_CAP_NEXTPTR = 12'h000; + parameter integer VF4_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VF4_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VF4_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VF4_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VF4_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer VF4_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] VF4_PM_CAP_ID = 8'h01; + parameter [7:0] VF4_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] VF4_PM_CAP_VER_ID = 3'h3; + parameter VF4_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter VF4_TPHR_CAP_ENABLE = "FALSE"; + parameter VF4_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] VF4_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VF4_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] VF4_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] VF4_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] VF4_TPHR_CAP_VER = 4'h1; + parameter [11:0] VF5_ARI_CAP_NEXTPTR = 12'h000; + parameter integer VF5_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VF5_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VF5_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VF5_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VF5_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer VF5_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] VF5_PM_CAP_ID = 8'h01; + parameter [7:0] VF5_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] VF5_PM_CAP_VER_ID = 3'h3; + parameter VF5_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter VF5_TPHR_CAP_ENABLE = "FALSE"; + parameter VF5_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] VF5_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VF5_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] VF5_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] VF5_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] VF5_TPHR_CAP_VER = 4'h1; + output CFGERRCOROUT; + output CFGERRFATALOUT; + output CFGERRNONFATALOUT; + output CFGEXTREADRECEIVED; + output CFGEXTWRITERECEIVED; + output CFGHOTRESETOUT; + output CFGINPUTUPDATEDONE; + output CFGINTERRUPTAOUTPUT; + output CFGINTERRUPTBOUTPUT; + output CFGINTERRUPTCOUTPUT; + output CFGINTERRUPTDOUTPUT; + output CFGINTERRUPTMSIFAIL; + output CFGINTERRUPTMSIMASKUPDATE; + output CFGINTERRUPTMSISENT; + output CFGINTERRUPTMSIXFAIL; + output CFGINTERRUPTMSIXSENT; + output CFGINTERRUPTSENT; + output CFGLOCALERROR; + output CFGLTRENABLE; + output CFGMCUPDATEDONE; + output CFGMGMTREADWRITEDONE; + output CFGMSGRECEIVED; + output CFGMSGTRANSMITDONE; + output CFGPERFUNCTIONUPDATEDONE; + output CFGPHYLINKDOWN; + output CFGPLSTATUSCHANGE; + output CFGPOWERSTATECHANGEINTERRUPT; + output CFGTPHSTTREADENABLE; + output CFGTPHSTTWRITEENABLE; + output DRPRDY; + output MAXISCQTLAST; + output MAXISCQTVALID; + output MAXISRCTLAST; + output MAXISRCTVALID; + output PCIERQSEQNUMVLD; + output PCIERQTAGVLD; + output PIPERX0POLARITY; + output PIPERX1POLARITY; + output PIPERX2POLARITY; + output PIPERX3POLARITY; + output PIPERX4POLARITY; + output PIPERX5POLARITY; + output PIPERX6POLARITY; + output PIPERX7POLARITY; + output PIPETX0COMPLIANCE; + output PIPETX0DATAVALID; + output PIPETX0ELECIDLE; + output PIPETX0STARTBLOCK; + output PIPETX1COMPLIANCE; + output PIPETX1DATAVALID; + output PIPETX1ELECIDLE; + output PIPETX1STARTBLOCK; + output PIPETX2COMPLIANCE; + output PIPETX2DATAVALID; + output PIPETX2ELECIDLE; + output PIPETX2STARTBLOCK; + output PIPETX3COMPLIANCE; + output PIPETX3DATAVALID; + output PIPETX3ELECIDLE; + output PIPETX3STARTBLOCK; + output PIPETX4COMPLIANCE; + output PIPETX4DATAVALID; + output PIPETX4ELECIDLE; + output PIPETX4STARTBLOCK; + output PIPETX5COMPLIANCE; + output PIPETX5DATAVALID; + output PIPETX5ELECIDLE; + output PIPETX5STARTBLOCK; + output PIPETX6COMPLIANCE; + output PIPETX6DATAVALID; + output PIPETX6ELECIDLE; + output PIPETX6STARTBLOCK; + output PIPETX7COMPLIANCE; + output PIPETX7DATAVALID; + output PIPETX7ELECIDLE; + output PIPETX7STARTBLOCK; + output PIPETXDEEMPH; + output PIPETXRCVRDET; + output PIPETXRESET; + output PIPETXSWING; + output PLEQINPROGRESS; + output [11:0] CFGFCCPLD; + output [11:0] CFGFCNPD; + output [11:0] CFGFCPD; + output [11:0] CFGVFSTATUS; + output [143:0] MIREPLAYRAMWRITEDATA; + output [143:0] MIREQUESTRAMWRITEDATA; + output [15:0] CFGPERFUNCSTATUSDATA; + output [15:0] DBGDATAOUT; + output [15:0] DRPDO; + output [17:0] CFGVFPOWERSTATE; + output [17:0] CFGVFTPHSTMODE; + output [1:0] CFGDPASUBSTATECHANGE; + output [1:0] CFGFLRINPROCESS; + output [1:0] CFGINTERRUPTMSIENABLE; + output [1:0] CFGINTERRUPTMSIXENABLE; + output [1:0] CFGINTERRUPTMSIXMASK; + output [1:0] CFGLINKPOWERSTATE; + output [1:0] CFGOBFFENABLE; + output [1:0] CFGPHYLINKSTATUS; + output [1:0] CFGRCBSTATUS; + output [1:0] CFGTPHREQUESTERENABLE; + output [1:0] MIREPLAYRAMREADENABLE; + output [1:0] MIREPLAYRAMWRITEENABLE; + output [1:0] PCIERQTAGAV; + output [1:0] PCIETFCNPDAV; + output [1:0] PCIETFCNPHAV; + output [1:0] PIPERX0EQCONTROL; + output [1:0] PIPERX1EQCONTROL; + output [1:0] PIPERX2EQCONTROL; + output [1:0] PIPERX3EQCONTROL; + output [1:0] PIPERX4EQCONTROL; + output [1:0] PIPERX5EQCONTROL; + output [1:0] PIPERX6EQCONTROL; + output [1:0] PIPERX7EQCONTROL; + output [1:0] PIPETX0CHARISK; + output [1:0] PIPETX0EQCONTROL; + output [1:0] PIPETX0POWERDOWN; + output [1:0] PIPETX0SYNCHEADER; + output [1:0] PIPETX1CHARISK; + output [1:0] PIPETX1EQCONTROL; + output [1:0] PIPETX1POWERDOWN; + output [1:0] PIPETX1SYNCHEADER; + output [1:0] PIPETX2CHARISK; + output [1:0] PIPETX2EQCONTROL; + output [1:0] PIPETX2POWERDOWN; + output [1:0] PIPETX2SYNCHEADER; + output [1:0] PIPETX3CHARISK; + output [1:0] PIPETX3EQCONTROL; + output [1:0] PIPETX3POWERDOWN; + output [1:0] PIPETX3SYNCHEADER; + output [1:0] PIPETX4CHARISK; + output [1:0] PIPETX4EQCONTROL; + output [1:0] PIPETX4POWERDOWN; + output [1:0] PIPETX4SYNCHEADER; + output [1:0] PIPETX5CHARISK; + output [1:0] PIPETX5EQCONTROL; + output [1:0] PIPETX5POWERDOWN; + output [1:0] PIPETX5SYNCHEADER; + output [1:0] PIPETX6CHARISK; + output [1:0] PIPETX6EQCONTROL; + output [1:0] PIPETX6POWERDOWN; + output [1:0] PIPETX6SYNCHEADER; + output [1:0] PIPETX7CHARISK; + output [1:0] PIPETX7EQCONTROL; + output [1:0] PIPETX7POWERDOWN; + output [1:0] PIPETX7SYNCHEADER; + output [1:0] PIPETXRATE; + output [1:0] PLEQPHASE; + output [255:0] MAXISCQTDATA; + output [255:0] MAXISRCTDATA; + output [2:0] CFGCURRENTSPEED; + output [2:0] CFGMAXPAYLOAD; + output [2:0] CFGMAXREADREQ; + output [2:0] CFGTPHFUNCTIONNUM; + output [2:0] PIPERX0EQPRESET; + output [2:0] PIPERX1EQPRESET; + output [2:0] PIPERX2EQPRESET; + output [2:0] PIPERX3EQPRESET; + output [2:0] PIPERX4EQPRESET; + output [2:0] PIPERX5EQPRESET; + output [2:0] PIPERX6EQPRESET; + output [2:0] PIPERX7EQPRESET; + output [2:0] PIPETXMARGIN; + output [31:0] CFGEXTWRITEDATA; + output [31:0] CFGINTERRUPTMSIDATA; + output [31:0] CFGMGMTREADDATA; + output [31:0] CFGTPHSTTWRITEDATA; + output [31:0] PIPETX0DATA; + output [31:0] PIPETX1DATA; + output [31:0] PIPETX2DATA; + output [31:0] PIPETX3DATA; + output [31:0] PIPETX4DATA; + output [31:0] PIPETX5DATA; + output [31:0] PIPETX6DATA; + output [31:0] PIPETX7DATA; + output [3:0] CFGEXTWRITEBYTEENABLE; + output [3:0] CFGNEGOTIATEDWIDTH; + output [3:0] CFGTPHSTTWRITEBYTEVALID; + output [3:0] MICOMPLETIONRAMREADENABLEL; + output [3:0] MICOMPLETIONRAMREADENABLEU; + output [3:0] MICOMPLETIONRAMWRITEENABLEL; + output [3:0] MICOMPLETIONRAMWRITEENABLEU; + output [3:0] MIREQUESTRAMREADENABLE; + output [3:0] MIREQUESTRAMWRITEENABLE; + output [3:0] PCIERQSEQNUM; + output [3:0] PIPERX0EQLPTXPRESET; + output [3:0] PIPERX1EQLPTXPRESET; + output [3:0] PIPERX2EQLPTXPRESET; + output [3:0] PIPERX3EQLPTXPRESET; + output [3:0] PIPERX4EQLPTXPRESET; + output [3:0] PIPERX5EQLPTXPRESET; + output [3:0] PIPERX6EQLPTXPRESET; + output [3:0] PIPERX7EQLPTXPRESET; + output [3:0] PIPETX0EQPRESET; + output [3:0] PIPETX1EQPRESET; + output [3:0] PIPETX2EQPRESET; + output [3:0] PIPETX3EQPRESET; + output [3:0] PIPETX4EQPRESET; + output [3:0] PIPETX5EQPRESET; + output [3:0] PIPETX6EQPRESET; + output [3:0] PIPETX7EQPRESET; + output [3:0] SAXISCCTREADY; + output [3:0] SAXISRQTREADY; + output [4:0] CFGMSGRECEIVEDTYPE; + output [4:0] CFGTPHSTTADDRESS; + output [5:0] CFGFUNCTIONPOWERSTATE; + output [5:0] CFGINTERRUPTMSIMMENABLE; + output [5:0] CFGINTERRUPTMSIVFENABLE; + output [5:0] CFGINTERRUPTMSIXVFENABLE; + output [5:0] CFGINTERRUPTMSIXVFMASK; + output [5:0] CFGLTSSMSTATE; + output [5:0] CFGTPHSTMODE; + output [5:0] CFGVFFLRINPROCESS; + output [5:0] CFGVFTPHREQUESTERENABLE; + output [5:0] PCIECQNPREQCOUNT; + output [5:0] PCIERQTAG; + output [5:0] PIPERX0EQLPLFFS; + output [5:0] PIPERX1EQLPLFFS; + output [5:0] PIPERX2EQLPLFFS; + output [5:0] PIPERX3EQLPLFFS; + output [5:0] PIPERX4EQLPLFFS; + output [5:0] PIPERX5EQLPLFFS; + output [5:0] PIPERX6EQLPLFFS; + output [5:0] PIPERX7EQLPLFFS; + output [5:0] PIPETX0EQDEEMPH; + output [5:0] PIPETX1EQDEEMPH; + output [5:0] PIPETX2EQDEEMPH; + output [5:0] PIPETX3EQDEEMPH; + output [5:0] PIPETX4EQDEEMPH; + output [5:0] PIPETX5EQDEEMPH; + output [5:0] PIPETX6EQDEEMPH; + output [5:0] PIPETX7EQDEEMPH; + output [71:0] MICOMPLETIONRAMWRITEDATAL; + output [71:0] MICOMPLETIONRAMWRITEDATAU; + output [74:0] MAXISRCTUSER; + output [7:0] CFGEXTFUNCTIONNUMBER; + output [7:0] CFGFCCPLH; + output [7:0] CFGFCNPH; + output [7:0] CFGFCPH; + output [7:0] CFGFUNCTIONSTATUS; + output [7:0] CFGMSGRECEIVEDDATA; + output [7:0] MAXISCQTKEEP; + output [7:0] MAXISRCTKEEP; + output [7:0] PLGEN3PCSRXSLIDE; + output [84:0] MAXISCQTUSER; + output [8:0] MIREPLAYRAMADDRESS; + output [8:0] MIREQUESTRAMREADADDRESSA; + output [8:0] MIREQUESTRAMREADADDRESSB; + output [8:0] MIREQUESTRAMWRITEADDRESSA; + output [8:0] MIREQUESTRAMWRITEADDRESSB; + output [9:0] CFGEXTREGISTERNUMBER; + output [9:0] MICOMPLETIONRAMREADADDRESSAL; + output [9:0] MICOMPLETIONRAMREADADDRESSAU; + output [9:0] MICOMPLETIONRAMREADADDRESSBL; + output [9:0] MICOMPLETIONRAMREADADDRESSBU; + output [9:0] MICOMPLETIONRAMWRITEADDRESSAL; + output [9:0] MICOMPLETIONRAMWRITEADDRESSAU; + output [9:0] MICOMPLETIONRAMWRITEADDRESSBL; + output [9:0] MICOMPLETIONRAMWRITEADDRESSBU; + input CFGCONFIGSPACEENABLE; + input CFGERRCORIN; + input CFGERRUNCORIN; + input CFGEXTREADDATAVALID; + input CFGHOTRESETIN; + input CFGINPUTUPDATEREQUEST; + input CFGINTERRUPTMSITPHPRESENT; + input CFGINTERRUPTMSIXINT; + input CFGLINKTRAININGENABLE; + input CFGMCUPDATEREQUEST; + input CFGMGMTREAD; + input CFGMGMTTYPE1CFGREGACCESS; + input CFGMGMTWRITE; + input CFGMSGTRANSMIT; + input CFGPERFUNCTIONOUTPUTREQUEST; + input CFGPOWERSTATECHANGEACK; + input CFGREQPMTRANSITIONL23READY; + input CFGTPHSTTREADDATAVALID; + input CORECLK; + input CORECLKMICOMPLETIONRAML; + input CORECLKMICOMPLETIONRAMU; + input CORECLKMIREPLAYRAM; + input CORECLKMIREQUESTRAM; + input DRPCLK; + input DRPEN; + input DRPWE; + input MGMTRESETN; + input MGMTSTICKYRESETN; + input PCIECQNPREQ; + input PIPECLK; + input PIPERESETN; + input PIPERX0DATAVALID; + input PIPERX0ELECIDLE; + input PIPERX0EQDONE; + input PIPERX0EQLPADAPTDONE; + input PIPERX0EQLPLFFSSEL; + input PIPERX0PHYSTATUS; + input PIPERX0STARTBLOCK; + input PIPERX0VALID; + input PIPERX1DATAVALID; + input PIPERX1ELECIDLE; + input PIPERX1EQDONE; + input PIPERX1EQLPADAPTDONE; + input PIPERX1EQLPLFFSSEL; + input PIPERX1PHYSTATUS; + input PIPERX1STARTBLOCK; + input PIPERX1VALID; + input PIPERX2DATAVALID; + input PIPERX2ELECIDLE; + input PIPERX2EQDONE; + input PIPERX2EQLPADAPTDONE; + input PIPERX2EQLPLFFSSEL; + input PIPERX2PHYSTATUS; + input PIPERX2STARTBLOCK; + input PIPERX2VALID; + input PIPERX3DATAVALID; + input PIPERX3ELECIDLE; + input PIPERX3EQDONE; + input PIPERX3EQLPADAPTDONE; + input PIPERX3EQLPLFFSSEL; + input PIPERX3PHYSTATUS; + input PIPERX3STARTBLOCK; + input PIPERX3VALID; + input PIPERX4DATAVALID; + input PIPERX4ELECIDLE; + input PIPERX4EQDONE; + input PIPERX4EQLPADAPTDONE; + input PIPERX4EQLPLFFSSEL; + input PIPERX4PHYSTATUS; + input PIPERX4STARTBLOCK; + input PIPERX4VALID; + input PIPERX5DATAVALID; + input PIPERX5ELECIDLE; + input PIPERX5EQDONE; + input PIPERX5EQLPADAPTDONE; + input PIPERX5EQLPLFFSSEL; + input PIPERX5PHYSTATUS; + input PIPERX5STARTBLOCK; + input PIPERX5VALID; + input PIPERX6DATAVALID; + input PIPERX6ELECIDLE; + input PIPERX6EQDONE; + input PIPERX6EQLPADAPTDONE; + input PIPERX6EQLPLFFSSEL; + input PIPERX6PHYSTATUS; + input PIPERX6STARTBLOCK; + input PIPERX6VALID; + input PIPERX7DATAVALID; + input PIPERX7ELECIDLE; + input PIPERX7EQDONE; + input PIPERX7EQLPADAPTDONE; + input PIPERX7EQLPLFFSSEL; + input PIPERX7PHYSTATUS; + input PIPERX7STARTBLOCK; + input PIPERX7VALID; + input PIPETX0EQDONE; + input PIPETX1EQDONE; + input PIPETX2EQDONE; + input PIPETX3EQDONE; + input PIPETX4EQDONE; + input PIPETX5EQDONE; + input PIPETX6EQDONE; + input PIPETX7EQDONE; + input PLDISABLESCRAMBLER; + input PLEQRESETEIEOSCOUNT; + input PLGEN3PCSDISABLE; + input RECCLK; + input RESETN; + input SAXISCCTLAST; + input SAXISCCTVALID; + input SAXISRQTLAST; + input SAXISRQTVALID; + input USERCLK; + input [10:0] DRPADDR; + input [143:0] MICOMPLETIONRAMREADDATA; + input [143:0] MIREPLAYRAMREADDATA; + input [143:0] MIREQUESTRAMREADDATA; + input [15:0] CFGDEVID; + input [15:0] CFGSUBSYSID; + input [15:0] CFGSUBSYSVENDID; + input [15:0] CFGVENDID; + input [15:0] DRPDI; + input [17:0] PIPERX0EQLPNEWTXCOEFFORPRESET; + input [17:0] PIPERX1EQLPNEWTXCOEFFORPRESET; + input [17:0] PIPERX2EQLPNEWTXCOEFFORPRESET; + input [17:0] PIPERX3EQLPNEWTXCOEFFORPRESET; + input [17:0] PIPERX4EQLPNEWTXCOEFFORPRESET; + input [17:0] PIPERX5EQLPNEWTXCOEFFORPRESET; + input [17:0] PIPERX6EQLPNEWTXCOEFFORPRESET; + input [17:0] PIPERX7EQLPNEWTXCOEFFORPRESET; + input [17:0] PIPETX0EQCOEFF; + input [17:0] PIPETX1EQCOEFF; + input [17:0] PIPETX2EQCOEFF; + input [17:0] PIPETX3EQCOEFF; + input [17:0] PIPETX4EQCOEFF; + input [17:0] PIPETX5EQCOEFF; + input [17:0] PIPETX6EQCOEFF; + input [17:0] PIPETX7EQCOEFF; + input [18:0] CFGMGMTADDR; + input [1:0] CFGFLRDONE; + input [1:0] CFGINTERRUPTMSITPHTYPE; + input [1:0] CFGINTERRUPTPENDING; + input [1:0] PIPERX0CHARISK; + input [1:0] PIPERX0SYNCHEADER; + input [1:0] PIPERX1CHARISK; + input [1:0] PIPERX1SYNCHEADER; + input [1:0] PIPERX2CHARISK; + input [1:0] PIPERX2SYNCHEADER; + input [1:0] PIPERX3CHARISK; + input [1:0] PIPERX3SYNCHEADER; + input [1:0] PIPERX4CHARISK; + input [1:0] PIPERX4SYNCHEADER; + input [1:0] PIPERX5CHARISK; + input [1:0] PIPERX5SYNCHEADER; + input [1:0] PIPERX6CHARISK; + input [1:0] PIPERX6SYNCHEADER; + input [1:0] PIPERX7CHARISK; + input [1:0] PIPERX7SYNCHEADER; + input [21:0] MAXISCQTREADY; + input [21:0] MAXISRCTREADY; + input [255:0] SAXISCCTDATA; + input [255:0] SAXISRQTDATA; + input [2:0] CFGDSFUNCTIONNUMBER; + input [2:0] CFGFCSEL; + input [2:0] CFGINTERRUPTMSIATTR; + input [2:0] CFGINTERRUPTMSIFUNCTIONNUMBER; + input [2:0] CFGMSGTRANSMITTYPE; + input [2:0] CFGPERFUNCSTATUSCONTROL; + input [2:0] CFGPERFUNCTIONNUMBER; + input [2:0] PIPERX0STATUS; + input [2:0] PIPERX1STATUS; + input [2:0] PIPERX2STATUS; + input [2:0] PIPERX3STATUS; + input [2:0] PIPERX4STATUS; + input [2:0] PIPERX5STATUS; + input [2:0] PIPERX6STATUS; + input [2:0] PIPERX7STATUS; + input [31:0] CFGEXTREADDATA; + input [31:0] CFGINTERRUPTMSIINT; + input [31:0] CFGINTERRUPTMSIXDATA; + input [31:0] CFGMGMTWRITEDATA; + input [31:0] CFGMSGTRANSMITDATA; + input [31:0] CFGTPHSTTREADDATA; + input [31:0] PIPERX0DATA; + input [31:0] PIPERX1DATA; + input [31:0] PIPERX2DATA; + input [31:0] PIPERX3DATA; + input [31:0] PIPERX4DATA; + input [31:0] PIPERX5DATA; + input [31:0] PIPERX6DATA; + input [31:0] PIPERX7DATA; + input [32:0] SAXISCCTUSER; + input [3:0] CFGINTERRUPTINT; + input [3:0] CFGINTERRUPTMSISELECT; + input [3:0] CFGMGMTBYTEENABLE; + input [4:0] CFGDSDEVICENUMBER; + input [59:0] SAXISRQTUSER; + input [5:0] CFGVFFLRDONE; + input [5:0] PIPEEQFS; + input [5:0] PIPEEQLF; + input [63:0] CFGDSN; + input [63:0] CFGINTERRUPTMSIPENDINGSTATUS; + input [63:0] CFGINTERRUPTMSIXADDRESS; + input [7:0] CFGDSBUSNUMBER; + input [7:0] CFGDSPORTNUMBER; + input [7:0] CFGREVID; + input [7:0] PLGEN3PCSRXSYNCDONE; + input [7:0] SAXISCCTKEEP; + input [7:0] SAXISRQTKEEP; + input [8:0] CFGINTERRUPTMSITPHSTTAG; +endmodule + +module XADC (...); + parameter [15:0] INIT_40 = 16'h0; + parameter [15:0] INIT_41 = 16'h0; + parameter [15:0] INIT_42 = 16'h0800; + parameter [15:0] INIT_43 = 16'h0; + parameter [15:0] INIT_44 = 16'h0; + parameter [15:0] INIT_45 = 16'h0; + parameter [15:0] INIT_46 = 16'h0; + parameter [15:0] INIT_47 = 16'h0; + parameter [15:0] INIT_48 = 16'h0; + parameter [15:0] INIT_49 = 16'h0; + parameter [15:0] INIT_4A = 16'h0; + parameter [15:0] INIT_4B = 16'h0; + parameter [15:0] INIT_4C = 16'h0; + parameter [15:0] INIT_4D = 16'h0; + parameter [15:0] INIT_4E = 16'h0; + parameter [15:0] INIT_4F = 16'h0; + parameter [15:0] INIT_50 = 16'h0; + parameter [15:0] INIT_51 = 16'h0; + parameter [15:0] INIT_52 = 16'h0; + parameter [15:0] INIT_53 = 16'h0; + parameter [15:0] INIT_54 = 16'h0; + parameter [15:0] INIT_55 = 16'h0; + parameter [15:0] INIT_56 = 16'h0; + parameter [15:0] INIT_57 = 16'h0; + parameter [15:0] INIT_58 = 16'h0; + parameter [15:0] INIT_59 = 16'h0; + parameter [15:0] INIT_5A = 16'h0; + parameter [15:0] INIT_5B = 16'h0; + parameter [15:0] INIT_5C = 16'h0; + parameter [15:0] INIT_5D = 16'h0; + parameter [15:0] INIT_5E = 16'h0; + parameter [15:0] INIT_5F = 16'h0; + parameter IS_CONVSTCLK_INVERTED = 1'b0; + parameter IS_DCLK_INVERTED = 1'b0; + parameter SIM_DEVICE = "7SERIES"; + parameter SIM_MONITOR_FILE = "design.txt"; + output BUSY; + output DRDY; + output EOC; + output EOS; + output JTAGBUSY; + output JTAGLOCKED; + output JTAGMODIFIED; + output OT; + output [15:0] DO; + output [7:0] ALM; + output [4:0] CHANNEL; + output [4:0] MUXADDR; + input CONVST; + (* invertible_pin = "IS_CONVSTCLK_INVERTED" *) + input CONVSTCLK; + (* invertible_pin = "IS_DCLK_INVERTED" *) + input DCLK; + input DEN; + input DWE; + input RESET; + input VN; + input VP; + input [15:0] DI; + input [15:0] VAUXN; + input [15:0] VAUXP; + input [6:0] DADDR; +endmodule + +module DSP48E1 (...); + parameter integer ACASCREG = 1; + parameter integer ADREG = 1; + parameter integer ALUMODEREG = 1; + parameter integer AREG = 1; + parameter AUTORESET_PATDET = "NO_RESET"; + parameter A_INPUT = "DIRECT"; + parameter integer BCASCREG = 1; + parameter integer BREG = 1; + parameter B_INPUT = "DIRECT"; + parameter integer CARRYINREG = 1; + parameter integer CARRYINSELREG = 1; + parameter integer CREG = 1; + parameter integer DREG = 1; + parameter integer INMODEREG = 1; + parameter integer MREG = 1; + parameter integer OPMODEREG = 1; + parameter integer PREG = 1; + parameter SEL_MASK = "MASK"; + parameter SEL_PATTERN = "PATTERN"; + parameter USE_DPORT = "FALSE"; + parameter USE_MULT = "MULTIPLY"; + parameter USE_PATTERN_DETECT = "NO_PATDET"; + parameter USE_SIMD = "ONE48"; + parameter [47:0] MASK = 48'h3FFFFFFFFFFF; + parameter [47:0] PATTERN = 48'h000000000000; + parameter [3:0] IS_ALUMODE_INVERTED = 4'b0; + parameter [0:0] IS_CARRYIN_INVERTED = 1'b0; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + parameter [4:0] IS_INMODE_INVERTED = 5'b0; + parameter [6:0] IS_OPMODE_INVERTED = 7'b0; + output [29:0] ACOUT; + output [17:0] BCOUT; + output CARRYCASCOUT; + output [3:0] CARRYOUT; + output MULTSIGNOUT; + output OVERFLOW; + output [47:0] P; + output PATTERNBDETECT; + output PATTERNDETECT; + output [47:0] PCOUT; + output UNDERFLOW; + input [29:0] A; + input [29:0] ACIN; + (* invertible_pin = "IS_ALUMODE_INVERTED" *) + input [3:0] ALUMODE; + input [17:0] B; + input [17:0] BCIN; + input [47:0] C; + input CARRYCASCIN; + (* invertible_pin = "IS_CARRYIN_INVERTED" *) + input CARRYIN; + input [2:0] CARRYINSEL; + input CEA1; + input CEA2; + input CEAD; + input CEALUMODE; + input CEB1; + input CEB2; + input CEC; + input CECARRYIN; + input CECTRL; + input CED; + input CEINMODE; + input CEM; + input CEP; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK; + input [24:0] D; + (* invertible_pin = "IS_INMODE_INVERTED" *) + input [4:0] INMODE; + input MULTSIGNIN; + (* invertible_pin = "IS_OPMODE_INVERTED" *) + input [6:0] OPMODE; + input [47:0] PCIN; + input RSTA; + input RSTALLCARRYIN; + input RSTALUMODE; + input RSTB; + input RSTC; + input RSTCTRL; + input RSTD; + input RSTINMODE; + input RSTM; + input RSTP; +endmodule + +module BUFGCE (...); + parameter CE_TYPE = "SYNC"; + parameter [0:0] IS_CE_INVERTED = 1'b0; + parameter [0:0] IS_I_INVERTED = 1'b0; + (* clkbuf_driver *) + output O; + (* invertible_pin = "IS_CE_INVERTED" *) + input CE; + (* invertible_pin = "IS_I_INVERTED" *) + input I; +endmodule + +module BUFGCE_1 (...); + (* clkbuf_driver *) + output O; + input CE; + input I; +endmodule + +module BUFGMUX (...); + parameter CLK_SEL_TYPE = "SYNC"; + (* clkbuf_driver *) + output O; + input I0; + input I1; + input S; +endmodule + +module BUFGMUX_1 (...); + parameter CLK_SEL_TYPE = "SYNC"; + (* clkbuf_driver *) + output O; + input I0; + input I1; + input S; +endmodule + +module BUFGMUX_CTRL (...); + (* clkbuf_driver *) + output O; + input I0; + input I1; + input S; +endmodule + +module BUFH (...); + (* clkbuf_driver *) + output O; + input I; +endmodule + +module BUFIO (...); + (* clkbuf_driver *) + output O; + input I; +endmodule + +module BUFMR (...); + (* clkbuf_driver *) + output O; + input I; +endmodule + +module BUFMRCE (...); + parameter CE_TYPE = "SYNC"; + parameter integer INIT_OUT = 0; + parameter [0:0] IS_CE_INVERTED = 1'b0; + (* clkbuf_driver *) + output O; + (* invertible_pin = "IS_CE_INVERTED" *) + input CE; + input I; +endmodule + +module BUFR (...); + parameter BUFR_DIVIDE = "BYPASS"; + parameter SIM_DEVICE = "7SERIES"; + (* clkbuf_driver *) + output O; + input CE; + input CLR; + input I; +endmodule + +module MMCME2_ADV (...); + parameter BANDWIDTH = "OPTIMIZED"; + parameter real CLKFBOUT_MULT_F = 5.000; + parameter real CLKFBOUT_PHASE = 0.000; + parameter CLKFBOUT_USE_FINE_PS = "FALSE"; + parameter real CLKIN1_PERIOD = 0.000; + parameter real CLKIN2_PERIOD = 0.000; + parameter real CLKIN_FREQ_MAX = 1066.000; + parameter real CLKIN_FREQ_MIN = 10.000; + parameter real CLKOUT0_DIVIDE_F = 1.000; + parameter real CLKOUT0_DUTY_CYCLE = 0.500; + parameter real CLKOUT0_PHASE = 0.000; + parameter CLKOUT0_USE_FINE_PS = "FALSE"; + parameter integer CLKOUT1_DIVIDE = 1; + parameter real CLKOUT1_DUTY_CYCLE = 0.500; + parameter real CLKOUT1_PHASE = 0.000; + parameter CLKOUT1_USE_FINE_PS = "FALSE"; + parameter integer CLKOUT2_DIVIDE = 1; + parameter real CLKOUT2_DUTY_CYCLE = 0.500; + parameter real CLKOUT2_PHASE = 0.000; + parameter CLKOUT2_USE_FINE_PS = "FALSE"; + parameter integer CLKOUT3_DIVIDE = 1; + parameter real CLKOUT3_DUTY_CYCLE = 0.500; + parameter real CLKOUT3_PHASE = 0.000; + parameter CLKOUT3_USE_FINE_PS = "FALSE"; + parameter CLKOUT4_CASCADE = "FALSE"; + parameter integer CLKOUT4_DIVIDE = 1; + parameter real CLKOUT4_DUTY_CYCLE = 0.500; + parameter real CLKOUT4_PHASE = 0.000; + parameter CLKOUT4_USE_FINE_PS = "FALSE"; + parameter integer CLKOUT5_DIVIDE = 1; + parameter real CLKOUT5_DUTY_CYCLE = 0.500; + parameter real CLKOUT5_PHASE = 0.000; + parameter CLKOUT5_USE_FINE_PS = "FALSE"; + parameter integer CLKOUT6_DIVIDE = 1; + parameter real CLKOUT6_DUTY_CYCLE = 0.500; + parameter real CLKOUT6_PHASE = 0.000; + parameter CLKOUT6_USE_FINE_PS = "FALSE"; + parameter real CLKPFD_FREQ_MAX = 550.000; + parameter real CLKPFD_FREQ_MIN = 10.000; + parameter COMPENSATION = "ZHOLD"; + parameter integer DIVCLK_DIVIDE = 1; + parameter [0:0] IS_CLKINSEL_INVERTED = 1'b0; + parameter [0:0] IS_PSEN_INVERTED = 1'b0; + parameter [0:0] IS_PSINCDEC_INVERTED = 1'b0; + parameter [0:0] IS_PWRDWN_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter real REF_JITTER1 = 0.010; + parameter real REF_JITTER2 = 0.010; + parameter SS_EN = "FALSE"; + parameter SS_MODE = "CENTER_HIGH"; + parameter integer SS_MOD_PERIOD = 10000; + parameter STARTUP_WAIT = "FALSE"; + parameter real VCOCLK_FREQ_MAX = 1600.000; + parameter real VCOCLK_FREQ_MIN = 600.000; + parameter STARTUP_WAIT = "FALSE"; + output CLKFBOUT; + output CLKFBOUTB; + output CLKFBSTOPPED; + output CLKINSTOPPED; + output CLKOUT0; + output CLKOUT0B; + output CLKOUT1; + output CLKOUT1B; + output CLKOUT2; + output CLKOUT2B; + output CLKOUT3; + output CLKOUT3B; + output CLKOUT4; + output CLKOUT5; + output CLKOUT6; + output [15:0] DO; + output DRDY; + output LOCKED; + output PSDONE; + input CLKFBIN; + input CLKIN1; + input CLKIN2; + (* invertible_pin = "IS_CLKINSEL_INVERTED" *) + input CLKINSEL; + input [6:0] DADDR; + input DCLK; + input DEN; + input [15:0] DI; + input DWE; + input PSCLK; + (* invertible_pin = "IS_PSEN_INVERTED" *) + input PSEN; + (* invertible_pin = "IS_PSINCDEC_INVERTED" *) + input PSINCDEC; + (* invertible_pin = "IS_PWRDWN_INVERTED" *) + input PWRDWN; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; +endmodule + +module MMCME2_BASE (...); + parameter BANDWIDTH = "OPTIMIZED"; + parameter real CLKFBOUT_MULT_F = 5.000; + parameter real CLKFBOUT_PHASE = 0.000; + parameter real CLKIN1_PERIOD = 0.000; + parameter real CLKOUT0_DIVIDE_F = 1.000; + parameter real CLKOUT0_DUTY_CYCLE = 0.500; + parameter real CLKOUT0_PHASE = 0.000; + parameter integer CLKOUT1_DIVIDE = 1; + parameter real CLKOUT1_DUTY_CYCLE = 0.500; + parameter real CLKOUT1_PHASE = 0.000; + parameter integer CLKOUT2_DIVIDE = 1; + parameter real CLKOUT2_DUTY_CYCLE = 0.500; + parameter real CLKOUT2_PHASE = 0.000; + parameter integer CLKOUT3_DIVIDE = 1; + parameter real CLKOUT3_DUTY_CYCLE = 0.500; + parameter real CLKOUT3_PHASE = 0.000; + parameter CLKOUT4_CASCADE = "FALSE"; + parameter integer CLKOUT4_DIVIDE = 1; + parameter real CLKOUT4_DUTY_CYCLE = 0.500; + parameter real CLKOUT4_PHASE = 0.000; + parameter integer CLKOUT5_DIVIDE = 1; + parameter real CLKOUT5_DUTY_CYCLE = 0.500; + parameter real CLKOUT5_PHASE = 0.000; + parameter integer CLKOUT6_DIVIDE = 1; + parameter real CLKOUT6_DUTY_CYCLE = 0.500; + parameter real CLKOUT6_PHASE = 0.000; + parameter integer DIVCLK_DIVIDE = 1; + parameter real REF_JITTER1 = 0.010; + parameter STARTUP_WAIT = "FALSE"; + output CLKFBOUT; + output CLKFBOUTB; + output CLKOUT0; + output CLKOUT0B; + output CLKOUT1; + output CLKOUT1B; + output CLKOUT2; + output CLKOUT2B; + output CLKOUT3; + output CLKOUT3B; + output CLKOUT4; + output CLKOUT5; + output CLKOUT6; + output LOCKED; + input CLKFBIN; + input CLKIN1; + input PWRDWN; + input RST; +endmodule + +module PLLE2_ADV (...); + parameter BANDWIDTH = "OPTIMIZED"; + parameter COMPENSATION = "ZHOLD"; + parameter STARTUP_WAIT = "FALSE"; + parameter integer CLKOUT0_DIVIDE = 1; + parameter integer CLKOUT1_DIVIDE = 1; + parameter integer CLKOUT2_DIVIDE = 1; + parameter integer CLKOUT3_DIVIDE = 1; + parameter integer CLKOUT4_DIVIDE = 1; + parameter integer CLKOUT5_DIVIDE = 1; + parameter integer DIVCLK_DIVIDE = 1; + parameter integer CLKFBOUT_MULT = 5; + parameter real CLKFBOUT_PHASE = 0.000; + parameter real CLKIN1_PERIOD = 0.000; + parameter real CLKIN2_PERIOD = 0.000; + parameter real CLKOUT0_DUTY_CYCLE = 0.500; + parameter real CLKOUT0_PHASE = 0.000; + parameter real CLKOUT1_DUTY_CYCLE = 0.500; + parameter real CLKOUT1_PHASE = 0.000; + parameter real CLKOUT2_DUTY_CYCLE = 0.500; + parameter real CLKOUT2_PHASE = 0.000; + parameter real CLKOUT3_DUTY_CYCLE = 0.500; + parameter real CLKOUT3_PHASE = 0.000; + parameter real CLKOUT4_DUTY_CYCLE = 0.500; + parameter real CLKOUT4_PHASE = 0.000; + parameter real CLKOUT5_DUTY_CYCLE = 0.500; + parameter real CLKOUT5_PHASE = 0.000; + parameter [0:0] IS_CLKINSEL_INVERTED = 1'b0; + parameter [0:0] IS_PWRDWN_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter real REF_JITTER1 = 0.010; + parameter real REF_JITTER2 = 0.010; + parameter real VCOCLK_FREQ_MAX = 2133.000; + parameter real VCOCLK_FREQ_MIN = 800.000; + parameter real CLKIN_FREQ_MAX = 1066.000; + parameter real CLKIN_FREQ_MIN = 19.000; + parameter real CLKPFD_FREQ_MAX = 550.0; + parameter real CLKPFD_FREQ_MIN = 19.0; + output CLKFBOUT; + output CLKOUT0; + output CLKOUT1; + output CLKOUT2; + output CLKOUT3; + output CLKOUT4; + output CLKOUT5; + output DRDY; + output LOCKED; + output [15:0] DO; + input CLKFBIN; + input CLKIN1; + input CLKIN2; + (* invertible_pin = "IS_CLKINSEL_INVERTED" *) + input CLKINSEL; + input DCLK; + input DEN; + input DWE; + (* invertible_pin = "IS_PWRDWN_INVERTED" *) + input PWRDWN; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; + input [15:0] DI; + input [6:0] DADDR; +endmodule + +module PLLE2_BASE (...); + parameter BANDWIDTH = "OPTIMIZED"; + parameter integer CLKFBOUT_MULT = 5; + parameter real CLKFBOUT_PHASE = 0.000; + parameter real CLKIN1_PERIOD = 0.000; + parameter integer CLKOUT0_DIVIDE = 1; + parameter real CLKOUT0_DUTY_CYCLE = 0.500; + parameter real CLKOUT0_PHASE = 0.000; + parameter integer CLKOUT1_DIVIDE = 1; + parameter real CLKOUT1_DUTY_CYCLE = 0.500; + parameter real CLKOUT1_PHASE = 0.000; + parameter integer CLKOUT2_DIVIDE = 1; + parameter real CLKOUT2_DUTY_CYCLE = 0.500; + parameter real CLKOUT2_PHASE = 0.000; + parameter integer CLKOUT3_DIVIDE = 1; + parameter real CLKOUT3_DUTY_CYCLE = 0.500; + parameter real CLKOUT3_PHASE = 0.000; + parameter integer CLKOUT4_DIVIDE = 1; + parameter real CLKOUT4_DUTY_CYCLE = 0.500; + parameter real CLKOUT4_PHASE = 0.000; + parameter integer CLKOUT5_DIVIDE = 1; + parameter real CLKOUT5_DUTY_CYCLE = 0.500; + parameter real CLKOUT5_PHASE = 0.000; + parameter integer DIVCLK_DIVIDE = 1; + parameter real REF_JITTER1 = 0.010; + parameter STARTUP_WAIT = "FALSE"; + output CLKFBOUT; + output CLKOUT0; + output CLKOUT1; + output CLKOUT2; + output CLKOUT3; + output CLKOUT4; + output CLKOUT5; + output LOCKED; + input CLKFBIN; + input CLKIN1; + input PWRDWN; + input RST; +endmodule + +(* keep *) +module BSCANE2 (...); + parameter DISABLE_JTAG = "FALSE"; + parameter integer JTAG_CHAIN = 1; + output CAPTURE; + output DRCK; + output RESET; + output RUNTEST; + output SEL; + output SHIFT; + output TCK; + output TDI; + output TMS; + output UPDATE; + input TDO; +endmodule + +(* keep *) +module CAPTUREE2 (...); + parameter ONESHOT = "TRUE"; + input CAP; + input CLK; +endmodule + +module DNA_PORT (...); + parameter [56:0] SIM_DNA_VALUE = 57'h0; + output DOUT; + input CLK; + input DIN; + input READ; + input SHIFT; +endmodule + +module EFUSE_USR (...); + parameter [31:0] SIM_EFUSE_VALUE = 32'h00000000; + output [31:0] EFUSEUSR; +endmodule + +module FRAME_ECCE2 (...); + parameter FARSRC = "EFAR"; + parameter FRAME_RBT_IN_FILENAME = "NONE"; + output CRCERROR; + output ECCERROR; + output ECCERRORSINGLE; + output SYNDROMEVALID; + output [12:0] SYNDROME; + output [25:0] FAR; + output [4:0] SYNBIT; + output [6:0] SYNWORD; +endmodule + +(* keep *) +module ICAPE2 (...); + parameter [31:0] DEVICE_ID = 32'h04244093; + parameter ICAP_WIDTH = "X32"; + parameter SIM_CFG_FILE_NAME = "NONE"; + output [31:0] O; + input CLK; + input CSIB; + input RDWRB; + input [31:0] I; +endmodule + +(* keep *) +module STARTUPE2 (...); + parameter PROG_USR = "FALSE"; + parameter real SIM_CCLK_FREQ = 0.0; + output CFGCLK; + output CFGMCLK; + output EOS; + output PREQ; + input CLK; + input GSR; + input GTS; + input KEYCLEARB; + input PACK; + input USRCCLKO; + input USRCCLKTS; + input USRDONEO; + input USRDONETS; +endmodule + +module USR_ACCESSE2 (...); + output CFGCLK; + output DATAVALID; + output [31:0] DATA; +endmodule + +(* keep *) +module DCIRESET (...); + output LOCKED; + input RST; +endmodule + module IBUF_IBUFDISABLE (...); parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SIM_DEVICE = "7SERIES"; parameter USE_IBUFDISABLE = "TRUE"; output O; + (* iopad_external_pin *) input I; input IBUFDISABLE; endmodule @@ -2009,6 +3909,7 @@ module IBUF_INTERMDISABLE (...); parameter SIM_DEVICE = "7SERIES"; parameter USE_IBUFDISABLE = "TRUE"; output O; + (* iopad_external_pin *) input I; input IBUFDISABLE; input INTERMDISABLE; @@ -2023,7 +3924,10 @@ module IBUFDS (...); parameter IFD_DELAY_VALUE = "AUTO"; parameter IOSTANDARD = "DEFAULT"; output O; - input I, IB; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; endmodule module IBUFDS_DIFF_OUT (...); @@ -2031,8 +3935,12 @@ module IBUFDS_DIFF_OUT (...); parameter DQS_BIAS = "FALSE"; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; - output O, OB; - input I, IB; + output O; + output OB; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; endmodule module IBUFDS_DIFF_OUT_IBUFDISABLE (...); @@ -2044,7 +3952,9 @@ module IBUFDS_DIFF_OUT_IBUFDISABLE (...); parameter USE_IBUFDISABLE = "TRUE"; output O; output OB; + (* iopad_external_pin *) input I; + (* iopad_external_pin *) input IB; input IBUFDISABLE; endmodule @@ -2058,7 +3968,9 @@ module IBUFDS_DIFF_OUT_INTERMDISABLE (...); parameter USE_IBUFDISABLE = "TRUE"; output O; output OB; + (* iopad_external_pin *) input I; + (* iopad_external_pin *) input IB; input IBUFDISABLE; input INTERMDISABLE; @@ -2071,7 +3983,9 @@ module IBUFDS_GTE2 (...); output O; output ODIV2; input CEB; + (* iopad_external_pin *) input I; + (* iopad_external_pin *) input IB; endmodule @@ -2083,7 +3997,9 @@ module IBUFDS_IBUFDISABLE (...); parameter SIM_DEVICE = "7SERIES"; parameter USE_IBUFDISABLE = "TRUE"; output O; + (* iopad_external_pin *) input I; + (* iopad_external_pin *) input IB; input IBUFDISABLE; endmodule @@ -2096,62 +4012,55 @@ module IBUFDS_INTERMDISABLE (...); parameter SIM_DEVICE = "7SERIES"; parameter USE_IBUFDISABLE = "TRUE"; output O; + (* iopad_external_pin *) input I; + (* iopad_external_pin *) input IB; input IBUFDISABLE; input INTERMDISABLE; endmodule -module ICAPE2 (...); - parameter [31:0] DEVICE_ID = 32'h04244093; - parameter ICAP_WIDTH = "X32"; - parameter SIM_CFG_FILE_NAME = "NONE"; - output [31:0] O; - input CLK; - input CSIB; - input RDWRB; - input [31:0] I; +module IBUFG (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter IBUF_DELAY_VALUE = "0"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + output O; + (* iopad_external_pin *) + input I; endmodule -module IDDR (...); - parameter DDR_CLK_EDGE = "OPPOSITE_EDGE"; - parameter INIT_Q1 = 1'b0; - parameter INIT_Q2 = 1'b0; - parameter [0:0] IS_C_INVERTED = 1'b0; - parameter [0:0] IS_D_INVERTED = 1'b0; - parameter SRTYPE = "SYNC"; - parameter MSGON = "TRUE"; - parameter XON = "TRUE"; - output Q1; - output Q2; - input C; - input CE; - input D; - input R; - input S; +module IBUFGDS (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter DIFF_TERM = "FALSE"; + parameter IBUF_DELAY_VALUE = "0"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + output O; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; endmodule -module IDDR_2CLK (...); - parameter DDR_CLK_EDGE = "OPPOSITE_EDGE"; - parameter INIT_Q1 = 1'b0; - parameter INIT_Q2 = 1'b0; - parameter [0:0] IS_CB_INVERTED = 1'b0; - parameter [0:0] IS_C_INVERTED = 1'b0; - parameter [0:0] IS_D_INVERTED = 1'b0; - parameter SRTYPE = "SYNC"; - output Q1; - output Q2; - input C; - input CB; - input CE; - input D; - input R; - input S; +module IBUFGDS_DIFF_OUT (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + output O; + output OB; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; endmodule +(* keep *) module IDELAYCTRL (...); parameter SIM_DEVICE = "7SERIES"; output RDY; + (* clkbuf_sink *) input REFCLK; input RST; endmodule @@ -2171,11 +4080,15 @@ module IDELAYE2 (...); parameter integer SIM_DELAY_D = 0; output [4:0] CNTVALUEOUT; output DATAOUT; + (* clkbuf_sink *) + (* invertible_pin = "IS_C_INVERTED" *) input C; input CE; input CINVCTRL; input [4:0] CNTVALUEIN; + (* invertible_pin = "IS_DATAIN_INVERTED" *) input DATAIN; + (* invertible_pin = "IS_IDATAIN_INVERTED" *) input IDATAIN; input INC; input LD; @@ -2202,9 +4115,11 @@ module IN_FIFO (...); output [7:0] Q7; output [7:0] Q8; output [7:0] Q9; + (* clkbuf_sink *) input RDCLK; input RDEN; input RESET; + (* clkbuf_sink *) input WRCLK; input WREN; input [3:0] D0; @@ -2225,7 +4140,10 @@ module IOBUF (...); parameter IOSTANDARD = "DEFAULT"; parameter SLEW = "SLOW"; output O; - input I, T; + (* iopad_external_pin *) + inout IO; + input I; + input T; endmodule module IOBUF_DCIEN (...); @@ -2236,6 +4154,8 @@ module IOBUF_DCIEN (...); parameter SLEW = "SLOW"; parameter USE_IBUFDISABLE = "TRUE"; output O; + (* iopad_external_pin *) + inout IO; input DCITERMDISABLE; input I; input IBUFDISABLE; @@ -2250,6 +4170,8 @@ module IOBUF_INTERMDISABLE (...); parameter SLEW = "SLOW"; parameter USE_IBUFDISABLE = "TRUE"; output O; + (* iopad_external_pin *) + inout IO; input I; input IBUFDISABLE; input INTERMDISABLE; @@ -2263,7 +4185,11 @@ module IOBUFDS (...); parameter IOSTANDARD = "DEFAULT"; parameter SLEW = "SLOW"; output O; - input I, T; + (* iopad_external_pin *) + inout IO; + inout IOB; + input I; + input T; endmodule module IOBUFDS_DCIEN (...); @@ -2275,6 +4201,10 @@ module IOBUFDS_DCIEN (...); parameter SLEW = "SLOW"; parameter USE_IBUFDISABLE = "TRUE"; output O; + (* iopad_external_pin *) + inout IO; + (* iopad_external_pin *) + inout IOB; input DCITERMDISABLE; input I; input IBUFDISABLE; @@ -2288,6 +4218,10 @@ module IOBUFDS_DIFF_OUT (...); parameter IOSTANDARD = "DEFAULT"; output O; output OB; + (* iopad_external_pin *) + inout IO; + (* iopad_external_pin *) + inout IOB; input I; input TM; input TS; @@ -2302,6 +4236,10 @@ module IOBUFDS_DIFF_OUT_DCIEN (...); parameter USE_IBUFDISABLE = "TRUE"; output O; output OB; + (* iopad_external_pin *) + inout IO; + (* iopad_external_pin *) + inout IOB; input DCITERMDISABLE; input I; input IBUFDISABLE; @@ -2318,6 +4256,10 @@ module IOBUFDS_DIFF_OUT_INTERMDISABLE (...); parameter USE_IBUFDISABLE = "TRUE"; output O; output OB; + (* iopad_external_pin *) + inout IO; + (* iopad_external_pin *) + inout IOB; input I; input IBUFDISABLE; input INTERMDISABLE; @@ -2325,6 +4267,25 @@ module IOBUFDS_DIFF_OUT_INTERMDISABLE (...); input TS; endmodule +module IOBUFDS_INTERMDISABLE (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SIM_DEVICE = "7SERIES"; + parameter SLEW = "SLOW"; + parameter USE_IBUFDISABLE = "TRUE"; + output O; + (* iopad_external_pin *) + inout IO; + (* iopad_external_pin *) + inout IOB; + input I; + input IBUFDISABLE; + input INTERMDISABLE; + input T; +endmodule + module ISERDESE2 (...); parameter DATA_RATE = "DDR"; parameter integer DATA_WIDTH = 4; @@ -2364,15 +4325,28 @@ module ISERDESE2 (...); input BITSLIP; input CE1; input CE2; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) input CLK; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLKB_INVERTED" *) input CLKB; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLKDIV_INVERTED" *) input CLKDIV; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLKDIVP_INVERTED" *) input CLKDIVP; + (* invertible_pin = "IS_D_INVERTED" *) input D; input DDLY; input DYNCLKDIVSEL; input DYNCLKSEL; + (* clkbuf_sink *) + (* invertible_pin = "IS_OCLK_INVERTED" *) input OCLK; + (* clkbuf_sink *) + (* invertible_pin = "IS_OCLKB_INVERTED" *) input OCLKB; input OFB; input RST; @@ -2381,180 +4355,17 @@ module ISERDESE2 (...); endmodule module KEEPER (...); -endmodule - -module LDCE (...); - parameter [0:0] INIT = 1'b0; - parameter [0:0] IS_CLR_INVERTED = 1'b0; - parameter [0:0] IS_G_INVERTED = 1'b0; - parameter MSGON = "TRUE"; - parameter XON = "TRUE"; - output Q; - input CLR, D, G, GE; -endmodule - -module LDPE (...); - parameter [0:0] INIT = 1'b1; - parameter [0:0] IS_G_INVERTED = 1'b0; - parameter [0:0] IS_PRE_INVERTED = 1'b0; - parameter MSGON = "TRUE"; - parameter XON = "TRUE"; - output Q; - input D, G, GE, PRE; -endmodule - -module LUT6_2 (...); - parameter [63:0] INIT = 64'h0000000000000000; - input I0, I1, I2, I3, I4, I5; - output O5, O6; -endmodule - -module MMCME2_ADV (...); - parameter BANDWIDTH = "OPTIMIZED"; - parameter real CLKFBOUT_MULT_F = 5.000; - parameter real CLKFBOUT_PHASE = 0.000; - parameter CLKFBOUT_USE_FINE_PS = "FALSE"; - parameter real CLKIN1_PERIOD = 0.000; - parameter real CLKIN2_PERIOD = 0.000; - parameter real CLKIN_FREQ_MAX = 1066.000; - parameter real CLKIN_FREQ_MIN = 10.000; - parameter real CLKOUT0_DIVIDE_F = 1.000; - parameter real CLKOUT0_DUTY_CYCLE = 0.500; - parameter real CLKOUT0_PHASE = 0.000; - parameter CLKOUT0_USE_FINE_PS = "FALSE"; - parameter integer CLKOUT1_DIVIDE = 1; - parameter real CLKOUT1_DUTY_CYCLE = 0.500; - parameter real CLKOUT1_PHASE = 0.000; - parameter CLKOUT1_USE_FINE_PS = "FALSE"; - parameter integer CLKOUT2_DIVIDE = 1; - parameter real CLKOUT2_DUTY_CYCLE = 0.500; - parameter real CLKOUT2_PHASE = 0.000; - parameter CLKOUT2_USE_FINE_PS = "FALSE"; - parameter integer CLKOUT3_DIVIDE = 1; - parameter real CLKOUT3_DUTY_CYCLE = 0.500; - parameter real CLKOUT3_PHASE = 0.000; - parameter CLKOUT3_USE_FINE_PS = "FALSE"; - parameter CLKOUT4_CASCADE = "FALSE"; - parameter integer CLKOUT4_DIVIDE = 1; - parameter real CLKOUT4_DUTY_CYCLE = 0.500; - parameter real CLKOUT4_PHASE = 0.000; - parameter CLKOUT4_USE_FINE_PS = "FALSE"; - parameter integer CLKOUT5_DIVIDE = 1; - parameter real CLKOUT5_DUTY_CYCLE = 0.500; - parameter real CLKOUT5_PHASE = 0.000; - parameter CLKOUT5_USE_FINE_PS = "FALSE"; - parameter integer CLKOUT6_DIVIDE = 1; - parameter real CLKOUT6_DUTY_CYCLE = 0.500; - parameter real CLKOUT6_PHASE = 0.000; - parameter CLKOUT6_USE_FINE_PS = "FALSE"; - parameter real CLKPFD_FREQ_MAX = 550.000; - parameter real CLKPFD_FREQ_MIN = 10.000; - parameter COMPENSATION = "ZHOLD"; - parameter integer DIVCLK_DIVIDE = 1; - parameter [0:0] IS_CLKINSEL_INVERTED = 1'b0; - parameter [0:0] IS_PSEN_INVERTED = 1'b0; - parameter [0:0] IS_PSINCDEC_INVERTED = 1'b0; - parameter [0:0] IS_PWRDWN_INVERTED = 1'b0; - parameter [0:0] IS_RST_INVERTED = 1'b0; - parameter real REF_JITTER1 = 0.010; - parameter real REF_JITTER2 = 0.010; - parameter SS_EN = "FALSE"; - parameter SS_MODE = "CENTER_HIGH"; - parameter integer SS_MOD_PERIOD = 10000; - parameter STARTUP_WAIT = "FALSE"; - parameter real VCOCLK_FREQ_MAX = 1600.000; - parameter real VCOCLK_FREQ_MIN = 600.000; - parameter STARTUP_WAIT = "FALSE"; - output CLKFBOUT; - output CLKFBOUTB; - output CLKFBSTOPPED; - output CLKINSTOPPED; - output CLKOUT0; - output CLKOUT0B; - output CLKOUT1; - output CLKOUT1B; - output CLKOUT2; - output CLKOUT2B; - output CLKOUT3; - output CLKOUT3B; - output CLKOUT4; - output CLKOUT5; - output CLKOUT6; - output [15:0] DO; - output DRDY; - output LOCKED; - output PSDONE; - input CLKFBIN; - input CLKIN1; - input CLKIN2; - input CLKINSEL; - input [6:0] DADDR; - input DCLK; - input DEN; - input [15:0] DI; - input DWE; - input PSCLK; - input PSEN; - input PSINCDEC; - input PWRDWN; - input RST; -endmodule - -module MMCME2_BASE (...); - parameter BANDWIDTH = "OPTIMIZED"; - parameter real CLKFBOUT_MULT_F = 5.000; - parameter real CLKFBOUT_PHASE = 0.000; - parameter real CLKIN1_PERIOD = 0.000; - parameter real CLKOUT0_DIVIDE_F = 1.000; - parameter real CLKOUT0_DUTY_CYCLE = 0.500; - parameter real CLKOUT0_PHASE = 0.000; - parameter integer CLKOUT1_DIVIDE = 1; - parameter real CLKOUT1_DUTY_CYCLE = 0.500; - parameter real CLKOUT1_PHASE = 0.000; - parameter integer CLKOUT2_DIVIDE = 1; - parameter real CLKOUT2_DUTY_CYCLE = 0.500; - parameter real CLKOUT2_PHASE = 0.000; - parameter integer CLKOUT3_DIVIDE = 1; - parameter real CLKOUT3_DUTY_CYCLE = 0.500; - parameter real CLKOUT3_PHASE = 0.000; - parameter CLKOUT4_CASCADE = "FALSE"; - parameter integer CLKOUT4_DIVIDE = 1; - parameter real CLKOUT4_DUTY_CYCLE = 0.500; - parameter real CLKOUT4_PHASE = 0.000; - parameter integer CLKOUT5_DIVIDE = 1; - parameter real CLKOUT5_DUTY_CYCLE = 0.500; - parameter real CLKOUT5_PHASE = 0.000; - parameter integer CLKOUT6_DIVIDE = 1; - parameter real CLKOUT6_DUTY_CYCLE = 0.500; - parameter real CLKOUT6_PHASE = 0.000; - parameter integer DIVCLK_DIVIDE = 1; - parameter real REF_JITTER1 = 0.010; - parameter STARTUP_WAIT = "FALSE"; - output CLKFBOUT; - output CLKFBOUTB; - output CLKOUT0; - output CLKOUT0B; - output CLKOUT1; - output CLKOUT1B; - output CLKOUT2; - output CLKOUT2B; - output CLKOUT3; - output CLKOUT3B; - output CLKOUT4; - output CLKOUT5; - output CLKOUT6; - output LOCKED; - input CLKFBIN; - input CLKIN1; - input PWRDWN; - input RST; + inout O; endmodule module OBUFDS (...); parameter CAPACITANCE = "DONT_CARE"; parameter IOSTANDARD = "DEFAULT"; parameter SLEW = "SLOW"; - output O, OB; + (* iopad_external_pin *) + output O; + (* iopad_external_pin *) + output OB; input I; endmodule @@ -2563,34 +4374,22 @@ module OBUFT (...); parameter integer DRIVE = 12; parameter IOSTANDARD = "DEFAULT"; parameter SLEW = "SLOW"; + (* iopad_external_pin *) output O; - input I, T; + input I; + input T; endmodule module OBUFTDS (...); parameter CAPACITANCE = "DONT_CARE"; parameter IOSTANDARD = "DEFAULT"; parameter SLEW = "SLOW"; - output O, OB; - input I, T; -endmodule - -module ODDR (...); - output Q; - input C; - input CE; - input D1; - input D2; - input R; - input S; - parameter DDR_CLK_EDGE = "OPPOSITE_EDGE"; - parameter INIT = 1'b0; - parameter [0:0] IS_C_INVERTED = 1'b0; - parameter [0:0] IS_D1_INVERTED = 1'b0; - parameter [0:0] IS_D2_INVERTED = 1'b0; - parameter SRTYPE = "SYNC"; - parameter MSGON = "TRUE"; - parameter XON = "TRUE"; + (* iopad_external_pin *) + output O; + (* iopad_external_pin *) + output OB; + input I; + input T; endmodule module ODELAYE2 (...); @@ -2607,6 +4406,8 @@ module ODELAYE2 (...); parameter integer SIM_DELAY_D = 0; output [4:0] CNTVALUEOUT; output DATAOUT; + (* clkbuf_sink *) + (* invertible_pin = "IS_C_INVERTED" *) input C; input CE; input CINVCTRL; @@ -2615,6 +4416,7 @@ module ODELAYE2 (...); input INC; input LD; input LDPIPEEN; + (* invertible_pin = "IS_ODATAIN_INVERTED" *) input ODATAIN; input REGRST; endmodule @@ -2652,23 +4454,39 @@ module OSERDESE2 (...); output TBYTEOUT; output TFB; output TQ; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) input CLK; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLKDIV_INVERTED" *) input CLKDIV; + (* invertible_pin = "IS_D1_INVERTED" *) input D1; + (* invertible_pin = "IS_D2_INVERTED" *) input D2; + (* invertible_pin = "IS_D3_INVERTED" *) input D3; + (* invertible_pin = "IS_D4_INVERTED" *) input D4; + (* invertible_pin = "IS_D5_INVERTED" *) input D5; + (* invertible_pin = "IS_D6_INVERTED" *) input D6; + (* invertible_pin = "IS_D7_INVERTED" *) input D7; + (* invertible_pin = "IS_D8_INVERTED" *) input D8; input OCE; input RST; input SHIFTIN1; input SHIFTIN2; + (* invertible_pin = "IS_T1_INVERTED" *) input T1; + (* invertible_pin = "IS_T2_INVERTED" *) input T2; + (* invertible_pin = "IS_T3_INVERTED" *) input T3; + (* invertible_pin = "IS_T4_INVERTED" *) input T4; input TBYTEIN; input TCE; @@ -2694,9 +4512,11 @@ module OUT_FIFO (...); output [3:0] Q9; output [7:0] Q5; output [7:0] Q6; + (* clkbuf_sink *) input RDCLK; input RDEN; input RESET; + (* clkbuf_sink *) input WRCLK; input WREN; input [7:0] D0; @@ -2739,6 +4559,7 @@ module PHASER_IN (...); input FREQREFCLK; input MEMREFCLK; input PHASEREFCLK; + (* invertible_pin = "IS_RST_INVERTED" *) input RST; input SYNCIN; input SYSCLK; @@ -2780,6 +4601,7 @@ module PHASER_IN_PHY (...); input FREQREFCLK; input MEMREFCLK; input PHASEREFCLK; + (* invertible_pin = "IS_RST_INVERTED" *) input RST; input RSTDQSFIND; input SYNCIN; @@ -2822,6 +4644,7 @@ module PHASER_OUT (...); input FREQREFCLK; input MEMREFCLK; input PHASEREFCLK; + (* invertible_pin = "IS_RST_INVERTED" *) input RST; input SELFINEOCLKDELAY; input SYNCIN; @@ -2866,6 +4689,7 @@ module PHASER_OUT_PHY (...); input FREQREFCLK; input MEMREFCLK; input PHASEREFCLK; + (* invertible_pin = "IS_RST_INVERTED" *) input RST; input SELFINEOCLKDELAY; input SYNCIN; @@ -2879,7 +4703,9 @@ module PHASER_REF (...); parameter [0:0] IS_PWRDWN_INVERTED = 1'b0; output LOCKED; input CLKIN; + (* invertible_pin = "IS_PWRDWN_INVERTED" *) input PWRDWN; + (* invertible_pin = "IS_RST_INVERTED" *) input RST; endmodule @@ -2943,107 +4769,6 @@ module PHY_CONTROL (...); input [31:0] PHYCTLWD; endmodule -module PLLE2_ADV (...); - parameter BANDWIDTH = "OPTIMIZED"; - parameter COMPENSATION = "ZHOLD"; - parameter STARTUP_WAIT = "FALSE"; - parameter integer CLKOUT0_DIVIDE = 1; - parameter integer CLKOUT1_DIVIDE = 1; - parameter integer CLKOUT2_DIVIDE = 1; - parameter integer CLKOUT3_DIVIDE = 1; - parameter integer CLKOUT4_DIVIDE = 1; - parameter integer CLKOUT5_DIVIDE = 1; - parameter integer DIVCLK_DIVIDE = 1; - parameter integer CLKFBOUT_MULT = 5; - parameter real CLKFBOUT_PHASE = 0.000; - parameter real CLKIN1_PERIOD = 0.000; - parameter real CLKIN2_PERIOD = 0.000; - parameter real CLKOUT0_DUTY_CYCLE = 0.500; - parameter real CLKOUT0_PHASE = 0.000; - parameter real CLKOUT1_DUTY_CYCLE = 0.500; - parameter real CLKOUT1_PHASE = 0.000; - parameter real CLKOUT2_DUTY_CYCLE = 0.500; - parameter real CLKOUT2_PHASE = 0.000; - parameter real CLKOUT3_DUTY_CYCLE = 0.500; - parameter real CLKOUT3_PHASE = 0.000; - parameter real CLKOUT4_DUTY_CYCLE = 0.500; - parameter real CLKOUT4_PHASE = 0.000; - parameter real CLKOUT5_DUTY_CYCLE = 0.500; - parameter real CLKOUT5_PHASE = 0.000; - parameter [0:0] IS_CLKINSEL_INVERTED = 1'b0; - parameter [0:0] IS_PWRDWN_INVERTED = 1'b0; - parameter [0:0] IS_RST_INVERTED = 1'b0; - parameter real REF_JITTER1 = 0.010; - parameter real REF_JITTER2 = 0.010; - parameter real VCOCLK_FREQ_MAX = 2133.000; - parameter real VCOCLK_FREQ_MIN = 800.000; - parameter real CLKIN_FREQ_MAX = 1066.000; - parameter real CLKIN_FREQ_MIN = 19.000; - parameter real CLKPFD_FREQ_MAX = 550.0; - parameter real CLKPFD_FREQ_MIN = 19.0; - output CLKFBOUT; - output CLKOUT0; - output CLKOUT1; - output CLKOUT2; - output CLKOUT3; - output CLKOUT4; - output CLKOUT5; - output DRDY; - output LOCKED; - output [15:0] DO; - input CLKFBIN; - input CLKIN1; - input CLKIN2; - input CLKINSEL; - input DCLK; - input DEN; - input DWE; - input PWRDWN; - input RST; - input [15:0] DI; - input [6:0] DADDR; -endmodule - -module PLLE2_BASE (...); - parameter BANDWIDTH = "OPTIMIZED"; - parameter integer CLKFBOUT_MULT = 5; - parameter real CLKFBOUT_PHASE = 0.000; - parameter real CLKIN1_PERIOD = 0.000; - parameter integer CLKOUT0_DIVIDE = 1; - parameter real CLKOUT0_DUTY_CYCLE = 0.500; - parameter real CLKOUT0_PHASE = 0.000; - parameter integer CLKOUT1_DIVIDE = 1; - parameter real CLKOUT1_DUTY_CYCLE = 0.500; - parameter real CLKOUT1_PHASE = 0.000; - parameter integer CLKOUT2_DIVIDE = 1; - parameter real CLKOUT2_DUTY_CYCLE = 0.500; - parameter real CLKOUT2_PHASE = 0.000; - parameter integer CLKOUT3_DIVIDE = 1; - parameter real CLKOUT3_DUTY_CYCLE = 0.500; - parameter real CLKOUT3_PHASE = 0.000; - parameter integer CLKOUT4_DIVIDE = 1; - parameter real CLKOUT4_DUTY_CYCLE = 0.500; - parameter real CLKOUT4_PHASE = 0.000; - parameter integer CLKOUT5_DIVIDE = 1; - parameter real CLKOUT5_DUTY_CYCLE = 0.500; - parameter real CLKOUT5_PHASE = 0.000; - parameter integer DIVCLK_DIVIDE = 1; - parameter real REF_JITTER1 = 0.010; - parameter STARTUP_WAIT = "FALSE"; - output CLKFBOUT; - output CLKOUT0; - output CLKOUT1; - output CLKOUT2; - output CLKOUT3; - output CLKOUT4; - output CLKOUT5; - output LOCKED; - input CLKFBIN; - input CLKIN1; - input PWRDWN; - input RST; -endmodule - module PULLDOWN (...); output O; endmodule @@ -3052,11 +4777,121 @@ module PULLUP (...); output O; endmodule +module FIFO18E1 (...); + parameter ALMOST_EMPTY_OFFSET = 13'h0080; + parameter ALMOST_FULL_OFFSET = 13'h0080; + parameter integer DATA_WIDTH = 4; + parameter integer DO_REG = 1; + parameter EN_SYN = "FALSE"; + parameter FIFO_MODE = "FIFO18"; + parameter FIRST_WORD_FALL_THROUGH = "FALSE"; + parameter INIT = 36'h0; + parameter SIM_DEVICE = "VIRTEX6"; + parameter SRVAL = 36'h0; + parameter IS_RDCLK_INVERTED = 1'b0; + parameter IS_RDEN_INVERTED = 1'b0; + parameter IS_RSTREG_INVERTED = 1'b0; + parameter IS_RST_INVERTED = 1'b0; + parameter IS_WRCLK_INVERTED = 1'b0; + parameter IS_WREN_INVERTED = 1'b0; + output ALMOSTEMPTY; + output ALMOSTFULL; + output [31:0] DO; + output [3:0] DOP; + output EMPTY; + output FULL; + output [11:0] RDCOUNT; + output RDERR; + output [11:0] WRCOUNT; + output WRERR; + input [31:0] DI; + input [3:0] DIP; + (* clkbuf_sink *) + (* invertible_pin = "IS_RDCLK_INVERTED" *) + input RDCLK; + (* invertible_pin = "IS_RDEN_INVERTED" *) + input RDEN; + input REGCE; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; + (* invertible_pin = "IS_RSTREG_INVERTED" *) + input RSTREG; + (* clkbuf_sink *) + (* invertible_pin = "IS_WRCLK_INVERTED" *) + input WRCLK; + (* invertible_pin = "IS_WREN_INVERTED" *) + input WREN; +endmodule + +module FIFO36E1 (...); + parameter ALMOST_EMPTY_OFFSET = 13'h0080; + parameter ALMOST_FULL_OFFSET = 13'h0080; + parameter integer DATA_WIDTH = 4; + parameter integer DO_REG = 1; + parameter EN_ECC_READ = "FALSE"; + parameter EN_ECC_WRITE = "FALSE"; + parameter EN_SYN = "FALSE"; + parameter FIFO_MODE = "FIFO36"; + parameter FIRST_WORD_FALL_THROUGH = "FALSE"; + parameter INIT = 72'h0; + parameter SIM_DEVICE = "VIRTEX6"; + parameter SRVAL = 72'h0; + parameter IS_RDCLK_INVERTED = 1'b0; + parameter IS_RDEN_INVERTED = 1'b0; + parameter IS_RSTREG_INVERTED = 1'b0; + parameter IS_RST_INVERTED = 1'b0; + parameter IS_WRCLK_INVERTED = 1'b0; + parameter IS_WREN_INVERTED = 1'b0; + output ALMOSTEMPTY; + output ALMOSTFULL; + output DBITERR; + output [63:0] DO; + output [7:0] DOP; + output [7:0] ECCPARITY; + output EMPTY; + output FULL; + output [12:0] RDCOUNT; + output RDERR; + output SBITERR; + output [12:0] WRCOUNT; + output WRERR; + input [63:0] DI; + input [7:0] DIP; + input INJECTDBITERR; + input INJECTSBITERR; + (* clkbuf_sink *) + (* invertible_pin = "IS_RDCLK_INVERTED" *) + input RDCLK; + (* invertible_pin = "IS_RDEN_INVERTED" *) + input RDEN; + input REGCE; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; + (* invertible_pin = "IS_RSTREG_INVERTED" *) + input RSTREG; + (* clkbuf_sink *) + (* invertible_pin = "IS_WRCLK_INVERTED" *) + input WRCLK; + (* invertible_pin = "IS_WREN_INVERTED" *) + input WREN; +endmodule + module RAM128X1S (...); parameter [127:0] INIT = 128'h00000000000000000000000000000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O; - input A0, A1, A2, A3, A4, A5, A6, D, WCLK, WE; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input A6; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; endmodule module RAM256X1S (...); @@ -3065,6 +4900,8 @@ module RAM256X1S (...); output O; input [7:0] A; input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) input WCLK; input WE; endmodule @@ -3087,37 +4924,61 @@ module RAM32M (...); input [1:0] DIB; input [1:0] DIC; input [1:0] DID; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) input WCLK; input WE; endmodule -module RAM32X1D (...); - parameter [31:0] INIT = 32'h00000000; - parameter [0:0] IS_WCLK_INVERTED = 1'b0; - output DPO, SPO; - input A0, A1, A2, A3, A4, D, DPRA0, DPRA1, DPRA2, DPRA3, DPRA4, WCLK, WE; -endmodule - module RAM32X1S (...); parameter [31:0] INIT = 32'h00000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O; - input A0, A1, A2, A3, A4, D, WCLK, WE; + input A0; + input A1; + input A2; + input A3; + input A4; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; endmodule module RAM32X1S_1 (...); parameter [31:0] INIT = 32'h00000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O; - input A0, A1, A2, A3, A4, D, WCLK, WE; + input A0; + input A1; + input A2; + input A3; + input A4; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; endmodule module RAM32X2S (...); parameter [31:0] INIT_00 = 32'h00000000; parameter [31:0] INIT_01 = 32'h00000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; - output O0, O1; - input A0, A1, A2, A3, A4, D0, D1, WCLK, WE; + output O0; + output O1; + input A0; + input A1; + input A2; + input A3; + input A4; + input D0; + input D1; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; endmodule module RAM64M (...); @@ -3138,6 +4999,8 @@ module RAM64M (...); input DIB; input DIC; input DID; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) input WCLK; input WE; endmodule @@ -3146,148 +5009,837 @@ module RAM64X1S (...); parameter [63:0] INIT = 64'h0000000000000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O; - input A0, A1, A2, A3, A4, A5, D, WCLK, WE; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; endmodule module RAM64X1S_1 (...); parameter [63:0] INIT = 64'h0000000000000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O; - input A0, A1, A2, A3, A4, A5, D, WCLK, WE; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; endmodule module RAM64X2S (...); parameter [63:0] INIT_00 = 64'h0000000000000000; parameter [63:0] INIT_01 = 64'h0000000000000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; - output O0, O1; - input A0, A1, A2, A3, A4, A5, D0, D1, WCLK, WE; + output O0; + output O1; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input D0; + input D1; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; endmodule module ROM128X1 (...); parameter [127:0] INIT = 128'h00000000000000000000000000000000; output O; - input A0, A1, A2, A3, A4, A5, A6; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input A6; endmodule module ROM256X1 (...); parameter [255:0] INIT = 256'h0000000000000000000000000000000000000000000000000000000000000000; output O; - input A0, A1, A2, A3, A4, A5, A6, A7; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input A6; + input A7; endmodule module ROM32X1 (...); parameter [31:0] INIT = 32'h00000000; output O; - input A0, A1, A2, A3, A4; + input A0; + input A1; + input A2; + input A3; + input A4; endmodule module ROM64X1 (...); parameter [63:0] INIT = 64'h0000000000000000; output O; - input A0, A1, A2, A3, A4, A5; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; endmodule -module SRL16E (...); - parameter [15:0] INIT = 16'h0000; - parameter [0:0] IS_CLK_INVERTED = 1'b0; +module IDDR (...); + parameter DDR_CLK_EDGE = "OPPOSITE_EDGE"; + parameter INIT_Q1 = 1'b0; + parameter INIT_Q2 = 1'b0; + parameter [0:0] IS_C_INVERTED = 1'b0; + parameter [0:0] IS_D_INVERTED = 1'b0; + parameter SRTYPE = "SYNC"; + parameter MSGON = "TRUE"; + parameter XON = "TRUE"; + output Q1; + output Q2; + (* clkbuf_sink *) + (* invertible_pin = "IS_C_INVERTED" *) + input C; + input CE; + (* invertible_pin = "IS_D_INVERTED" *) + input D; + input R; + input S; +endmodule + +module IDDR_2CLK (...); + parameter DDR_CLK_EDGE = "OPPOSITE_EDGE"; + parameter INIT_Q1 = 1'b0; + parameter INIT_Q2 = 1'b0; + parameter [0:0] IS_CB_INVERTED = 1'b0; + parameter [0:0] IS_C_INVERTED = 1'b0; + parameter [0:0] IS_D_INVERTED = 1'b0; + parameter SRTYPE = "SYNC"; + output Q1; + output Q2; + (* clkbuf_sink *) + (* invertible_pin = "IS_C_INVERTED" *) + input C; + (* clkbuf_sink *) + (* invertible_pin = "IS_CB_INVERTED" *) + input CB; + input CE; + (* invertible_pin = "IS_D_INVERTED" *) + input D; + input R; + input S; +endmodule + +module LDCE (...); + parameter [0:0] INIT = 1'b0; + parameter [0:0] IS_CLR_INVERTED = 1'b0; + parameter [0:0] IS_G_INVERTED = 1'b0; + parameter MSGON = "TRUE"; + parameter XON = "TRUE"; output Q; - input A0, A1, A2, A3, CE, CLK, D; + (* invertible_pin = "IS_CLR_INVERTED" *) + input CLR; + input D; + (* invertible_pin = "IS_G_INVERTED" *) + input G; + input GE; endmodule -module SRLC32E (...); - parameter [31:0] INIT = 32'h00000000; - parameter [0:0] IS_CLK_INVERTED = 1'b0; +module LDPE (...); + parameter [0:0] INIT = 1'b1; + parameter [0:0] IS_G_INVERTED = 1'b0; + parameter [0:0] IS_PRE_INVERTED = 1'b0; + parameter MSGON = "TRUE"; + parameter XON = "TRUE"; output Q; - output Q31; - input [4:0] A; - input CE, CLK, D; + input D; + (* invertible_pin = "IS_G_INVERTED" *) + input G; + input GE; + (* invertible_pin = "IS_PRE_INVERTED" *) + input PRE; endmodule -module STARTUPE2 (...); - parameter PROG_USR = "FALSE"; - parameter real SIM_CCLK_FREQ = 0.0; - output CFGCLK; - output CFGMCLK; - output EOS; - output PREQ; - input CLK; - input GSR; - input GTS; - input KEYCLEARB; - input PACK; - input USRCCLKO; - input USRCCLKTS; - input USRDONEO; - input USRDONETS; +module ODDR (...); + parameter DDR_CLK_EDGE = "OPPOSITE_EDGE"; + parameter INIT = 1'b0; + parameter [0:0] IS_C_INVERTED = 1'b0; + parameter [0:0] IS_D1_INVERTED = 1'b0; + parameter [0:0] IS_D2_INVERTED = 1'b0; + parameter SRTYPE = "SYNC"; + parameter MSGON = "TRUE"; + parameter XON = "TRUE"; + output Q; + (* clkbuf_sink *) + (* invertible_pin = "IS_C_INVERTED" *) + input C; + input CE; + (* invertible_pin = "IS_D1_INVERTED" *) + input D1; + (* invertible_pin = "IS_D2_INVERTED" *) + input D2; + input R; + input S; endmodule -module USR_ACCESSE2 (...); - output CFGCLK; - output DATAVALID; - output [31:0] DATA; +module CFGLUT5 (...); + parameter [31:0] INIT = 32'h00000000; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + output CDO; + output O5; + output O6; + input I4; + input I3; + input I2; + input I1; + input I0; + input CDI; + input CE; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK; endmodule -module XADC (...); - output BUSY; - output DRDY; - output EOC; - output EOS; - output JTAGBUSY; - output JTAGLOCKED; - output JTAGMODIFIED; - output OT; - output [15:0] DO; - output [7:0] ALM; - output [4:0] CHANNEL; - output [4:0] MUXADDR; - input CONVST; - input CONVSTCLK; - input DCLK; - input DEN; - input DWE; - input RESET; - input VN; - input VP; - input [15:0] DI; - input [15:0] VAUXN; - input [15:0] VAUXP; - input [6:0] DADDR; - parameter [15:0] INIT_40 = 16'h0; - parameter [15:0] INIT_41 = 16'h0; - parameter [15:0] INIT_42 = 16'h0800; - parameter [15:0] INIT_43 = 16'h0; - parameter [15:0] INIT_44 = 16'h0; - parameter [15:0] INIT_45 = 16'h0; - parameter [15:0] INIT_46 = 16'h0; - parameter [15:0] INIT_47 = 16'h0; - parameter [15:0] INIT_48 = 16'h0; - parameter [15:0] INIT_49 = 16'h0; - parameter [15:0] INIT_4A = 16'h0; - parameter [15:0] INIT_4B = 16'h0; - parameter [15:0] INIT_4C = 16'h0; - parameter [15:0] INIT_4D = 16'h0; - parameter [15:0] INIT_4E = 16'h0; - parameter [15:0] INIT_4F = 16'h0; - parameter [15:0] INIT_50 = 16'h0; - parameter [15:0] INIT_51 = 16'h0; - parameter [15:0] INIT_52 = 16'h0; - parameter [15:0] INIT_53 = 16'h0; - parameter [15:0] INIT_54 = 16'h0; - parameter [15:0] INIT_55 = 16'h0; - parameter [15:0] INIT_56 = 16'h0; - parameter [15:0] INIT_57 = 16'h0; - parameter [15:0] INIT_58 = 16'h0; - parameter [15:0] INIT_59 = 16'h0; - parameter [15:0] INIT_5A = 16'h0; - parameter [15:0] INIT_5B = 16'h0; - parameter [15:0] INIT_5C = 16'h0; - parameter [15:0] INIT_5D = 16'h0; - parameter [15:0] INIT_5E = 16'h0; - parameter [15:0] INIT_5F = 16'h0; - parameter IS_CONVSTCLK_INVERTED = 1'b0; - parameter IS_DCLK_INVERTED = 1'b0; - parameter SIM_DEVICE = "7SERIES"; - parameter SIM_MONITOR_FILE = "design.txt"; +(* keep *) +module PS7 (...); + output DMA0DAVALID; + output DMA0DRREADY; + output DMA0RSTN; + output DMA1DAVALID; + output DMA1DRREADY; + output DMA1RSTN; + output DMA2DAVALID; + output DMA2DRREADY; + output DMA2RSTN; + output DMA3DAVALID; + output DMA3DRREADY; + output DMA3RSTN; + output EMIOCAN0PHYTX; + output EMIOCAN1PHYTX; + output EMIOENET0GMIITXEN; + output EMIOENET0GMIITXER; + output EMIOENET0MDIOMDC; + output EMIOENET0MDIOO; + output EMIOENET0MDIOTN; + output EMIOENET0PTPDELAYREQRX; + output EMIOENET0PTPDELAYREQTX; + output EMIOENET0PTPPDELAYREQRX; + output EMIOENET0PTPPDELAYREQTX; + output EMIOENET0PTPPDELAYRESPRX; + output EMIOENET0PTPPDELAYRESPTX; + output EMIOENET0PTPSYNCFRAMERX; + output EMIOENET0PTPSYNCFRAMETX; + output EMIOENET0SOFRX; + output EMIOENET0SOFTX; + output EMIOENET1GMIITXEN; + output EMIOENET1GMIITXER; + output EMIOENET1MDIOMDC; + output EMIOENET1MDIOO; + output EMIOENET1MDIOTN; + output EMIOENET1PTPDELAYREQRX; + output EMIOENET1PTPDELAYREQTX; + output EMIOENET1PTPPDELAYREQRX; + output EMIOENET1PTPPDELAYREQTX; + output EMIOENET1PTPPDELAYRESPRX; + output EMIOENET1PTPPDELAYRESPTX; + output EMIOENET1PTPSYNCFRAMERX; + output EMIOENET1PTPSYNCFRAMETX; + output EMIOENET1SOFRX; + output EMIOENET1SOFTX; + output EMIOI2C0SCLO; + output EMIOI2C0SCLTN; + output EMIOI2C0SDAO; + output EMIOI2C0SDATN; + output EMIOI2C1SCLO; + output EMIOI2C1SCLTN; + output EMIOI2C1SDAO; + output EMIOI2C1SDATN; + output EMIOPJTAGTDO; + output EMIOPJTAGTDTN; + output EMIOSDIO0BUSPOW; + output EMIOSDIO0CLK; + output EMIOSDIO0CMDO; + output EMIOSDIO0CMDTN; + output EMIOSDIO0LED; + output EMIOSDIO1BUSPOW; + output EMIOSDIO1CLK; + output EMIOSDIO1CMDO; + output EMIOSDIO1CMDTN; + output EMIOSDIO1LED; + output EMIOSPI0MO; + output EMIOSPI0MOTN; + output EMIOSPI0SCLKO; + output EMIOSPI0SCLKTN; + output EMIOSPI0SO; + output EMIOSPI0SSNTN; + output EMIOSPI0STN; + output EMIOSPI1MO; + output EMIOSPI1MOTN; + output EMIOSPI1SCLKO; + output EMIOSPI1SCLKTN; + output EMIOSPI1SO; + output EMIOSPI1SSNTN; + output EMIOSPI1STN; + output EMIOTRACECTL; + output EMIOUART0DTRN; + output EMIOUART0RTSN; + output EMIOUART0TX; + output EMIOUART1DTRN; + output EMIOUART1RTSN; + output EMIOUART1TX; + output EMIOUSB0VBUSPWRSELECT; + output EMIOUSB1VBUSPWRSELECT; + output EMIOWDTRSTO; + output EVENTEVENTO; + output MAXIGP0ARESETN; + output MAXIGP0ARVALID; + output MAXIGP0AWVALID; + output MAXIGP0BREADY; + output MAXIGP0RREADY; + output MAXIGP0WLAST; + output MAXIGP0WVALID; + output MAXIGP1ARESETN; + output MAXIGP1ARVALID; + output MAXIGP1AWVALID; + output MAXIGP1BREADY; + output MAXIGP1RREADY; + output MAXIGP1WLAST; + output MAXIGP1WVALID; + output SAXIACPARESETN; + output SAXIACPARREADY; + output SAXIACPAWREADY; + output SAXIACPBVALID; + output SAXIACPRLAST; + output SAXIACPRVALID; + output SAXIACPWREADY; + output SAXIGP0ARESETN; + output SAXIGP0ARREADY; + output SAXIGP0AWREADY; + output SAXIGP0BVALID; + output SAXIGP0RLAST; + output SAXIGP0RVALID; + output SAXIGP0WREADY; + output SAXIGP1ARESETN; + output SAXIGP1ARREADY; + output SAXIGP1AWREADY; + output SAXIGP1BVALID; + output SAXIGP1RLAST; + output SAXIGP1RVALID; + output SAXIGP1WREADY; + output SAXIHP0ARESETN; + output SAXIHP0ARREADY; + output SAXIHP0AWREADY; + output SAXIHP0BVALID; + output SAXIHP0RLAST; + output SAXIHP0RVALID; + output SAXIHP0WREADY; + output SAXIHP1ARESETN; + output SAXIHP1ARREADY; + output SAXIHP1AWREADY; + output SAXIHP1BVALID; + output SAXIHP1RLAST; + output SAXIHP1RVALID; + output SAXIHP1WREADY; + output SAXIHP2ARESETN; + output SAXIHP2ARREADY; + output SAXIHP2AWREADY; + output SAXIHP2BVALID; + output SAXIHP2RLAST; + output SAXIHP2RVALID; + output SAXIHP2WREADY; + output SAXIHP3ARESETN; + output SAXIHP3ARREADY; + output SAXIHP3AWREADY; + output SAXIHP3BVALID; + output SAXIHP3RLAST; + output SAXIHP3RVALID; + output SAXIHP3WREADY; + output [11:0] MAXIGP0ARID; + output [11:0] MAXIGP0AWID; + output [11:0] MAXIGP0WID; + output [11:0] MAXIGP1ARID; + output [11:0] MAXIGP1AWID; + output [11:0] MAXIGP1WID; + output [1:0] DMA0DATYPE; + output [1:0] DMA1DATYPE; + output [1:0] DMA2DATYPE; + output [1:0] DMA3DATYPE; + output [1:0] EMIOUSB0PORTINDCTL; + output [1:0] EMIOUSB1PORTINDCTL; + output [1:0] EVENTSTANDBYWFE; + output [1:0] EVENTSTANDBYWFI; + output [1:0] MAXIGP0ARBURST; + output [1:0] MAXIGP0ARLOCK; + output [1:0] MAXIGP0ARSIZE; + output [1:0] MAXIGP0AWBURST; + output [1:0] MAXIGP0AWLOCK; + output [1:0] MAXIGP0AWSIZE; + output [1:0] MAXIGP1ARBURST; + output [1:0] MAXIGP1ARLOCK; + output [1:0] MAXIGP1ARSIZE; + output [1:0] MAXIGP1AWBURST; + output [1:0] MAXIGP1AWLOCK; + output [1:0] MAXIGP1AWSIZE; + output [1:0] SAXIACPBRESP; + output [1:0] SAXIACPRRESP; + output [1:0] SAXIGP0BRESP; + output [1:0] SAXIGP0RRESP; + output [1:0] SAXIGP1BRESP; + output [1:0] SAXIGP1RRESP; + output [1:0] SAXIHP0BRESP; + output [1:0] SAXIHP0RRESP; + output [1:0] SAXIHP1BRESP; + output [1:0] SAXIHP1RRESP; + output [1:0] SAXIHP2BRESP; + output [1:0] SAXIHP2RRESP; + output [1:0] SAXIHP3BRESP; + output [1:0] SAXIHP3RRESP; + output [28:0] IRQP2F; + output [2:0] EMIOSDIO0BUSVOLT; + output [2:0] EMIOSDIO1BUSVOLT; + output [2:0] EMIOSPI0SSON; + output [2:0] EMIOSPI1SSON; + output [2:0] EMIOTTC0WAVEO; + output [2:0] EMIOTTC1WAVEO; + output [2:0] MAXIGP0ARPROT; + output [2:0] MAXIGP0AWPROT; + output [2:0] MAXIGP1ARPROT; + output [2:0] MAXIGP1AWPROT; + output [2:0] SAXIACPBID; + output [2:0] SAXIACPRID; + output [2:0] SAXIHP0RACOUNT; + output [2:0] SAXIHP1RACOUNT; + output [2:0] SAXIHP2RACOUNT; + output [2:0] SAXIHP3RACOUNT; + output [31:0] EMIOTRACEDATA; + output [31:0] FTMTP2FDEBUG; + output [31:0] MAXIGP0ARADDR; + output [31:0] MAXIGP0AWADDR; + output [31:0] MAXIGP0WDATA; + output [31:0] MAXIGP1ARADDR; + output [31:0] MAXIGP1AWADDR; + output [31:0] MAXIGP1WDATA; + output [31:0] SAXIGP0RDATA; + output [31:0] SAXIGP1RDATA; + output [3:0] EMIOSDIO0DATAO; + output [3:0] EMIOSDIO0DATATN; + output [3:0] EMIOSDIO1DATAO; + output [3:0] EMIOSDIO1DATATN; + output [3:0] FCLKCLK; + output [3:0] FCLKRESETN; + output [3:0] FTMTF2PTRIGACK; + output [3:0] FTMTP2FTRIG; + output [3:0] MAXIGP0ARCACHE; + output [3:0] MAXIGP0ARLEN; + output [3:0] MAXIGP0ARQOS; + output [3:0] MAXIGP0AWCACHE; + output [3:0] MAXIGP0AWLEN; + output [3:0] MAXIGP0AWQOS; + output [3:0] MAXIGP0WSTRB; + output [3:0] MAXIGP1ARCACHE; + output [3:0] MAXIGP1ARLEN; + output [3:0] MAXIGP1ARQOS; + output [3:0] MAXIGP1AWCACHE; + output [3:0] MAXIGP1AWLEN; + output [3:0] MAXIGP1AWQOS; + output [3:0] MAXIGP1WSTRB; + output [5:0] SAXIGP0BID; + output [5:0] SAXIGP0RID; + output [5:0] SAXIGP1BID; + output [5:0] SAXIGP1RID; + output [5:0] SAXIHP0BID; + output [5:0] SAXIHP0RID; + output [5:0] SAXIHP0WACOUNT; + output [5:0] SAXIHP1BID; + output [5:0] SAXIHP1RID; + output [5:0] SAXIHP1WACOUNT; + output [5:0] SAXIHP2BID; + output [5:0] SAXIHP2RID; + output [5:0] SAXIHP2WACOUNT; + output [5:0] SAXIHP3BID; + output [5:0] SAXIHP3RID; + output [5:0] SAXIHP3WACOUNT; + output [63:0] EMIOGPIOO; + output [63:0] EMIOGPIOTN; + output [63:0] SAXIACPRDATA; + output [63:0] SAXIHP0RDATA; + output [63:0] SAXIHP1RDATA; + output [63:0] SAXIHP2RDATA; + output [63:0] SAXIHP3RDATA; + output [7:0] EMIOENET0GMIITXD; + output [7:0] EMIOENET1GMIITXD; + output [7:0] SAXIHP0RCOUNT; + output [7:0] SAXIHP0WCOUNT; + output [7:0] SAXIHP1RCOUNT; + output [7:0] SAXIHP1WCOUNT; + output [7:0] SAXIHP2RCOUNT; + output [7:0] SAXIHP2WCOUNT; + output [7:0] SAXIHP3RCOUNT; + output [7:0] SAXIHP3WCOUNT; + inout DDRCASB; + inout DDRCKE; + inout DDRCKN; + inout DDRCKP; + inout DDRCSB; + inout DDRDRSTB; + inout DDRODT; + inout DDRRASB; + inout DDRVRN; + inout DDRVRP; + inout DDRWEB; + inout PSCLK; + inout PSPORB; + inout PSSRSTB; + inout [14:0] DDRA; + inout [2:0] DDRBA; + inout [31:0] DDRDQ; + inout [3:0] DDRDM; + inout [3:0] DDRDQSN; + inout [3:0] DDRDQSP; + inout [53:0] MIO; + input DMA0ACLK; + input DMA0DAREADY; + input DMA0DRLAST; + input DMA0DRVALID; + input DMA1ACLK; + input DMA1DAREADY; + input DMA1DRLAST; + input DMA1DRVALID; + input DMA2ACLK; + input DMA2DAREADY; + input DMA2DRLAST; + input DMA2DRVALID; + input DMA3ACLK; + input DMA3DAREADY; + input DMA3DRLAST; + input DMA3DRVALID; + input EMIOCAN0PHYRX; + input EMIOCAN1PHYRX; + input EMIOENET0EXTINTIN; + input EMIOENET0GMIICOL; + input EMIOENET0GMIICRS; + input EMIOENET0GMIIRXCLK; + input EMIOENET0GMIIRXDV; + input EMIOENET0GMIIRXER; + input EMIOENET0GMIITXCLK; + input EMIOENET0MDIOI; + input EMIOENET1EXTINTIN; + input EMIOENET1GMIICOL; + input EMIOENET1GMIICRS; + input EMIOENET1GMIIRXCLK; + input EMIOENET1GMIIRXDV; + input EMIOENET1GMIIRXER; + input EMIOENET1GMIITXCLK; + input EMIOENET1MDIOI; + input EMIOI2C0SCLI; + input EMIOI2C0SDAI; + input EMIOI2C1SCLI; + input EMIOI2C1SDAI; + input EMIOPJTAGTCK; + input EMIOPJTAGTDI; + input EMIOPJTAGTMS; + input EMIOSDIO0CDN; + input EMIOSDIO0CLKFB; + input EMIOSDIO0CMDI; + input EMIOSDIO0WP; + input EMIOSDIO1CDN; + input EMIOSDIO1CLKFB; + input EMIOSDIO1CMDI; + input EMIOSDIO1WP; + input EMIOSPI0MI; + input EMIOSPI0SCLKI; + input EMIOSPI0SI; + input EMIOSPI0SSIN; + input EMIOSPI1MI; + input EMIOSPI1SCLKI; + input EMIOSPI1SI; + input EMIOSPI1SSIN; + input EMIOSRAMINTIN; + input EMIOTRACECLK; + input EMIOUART0CTSN; + input EMIOUART0DCDN; + input EMIOUART0DSRN; + input EMIOUART0RIN; + input EMIOUART0RX; + input EMIOUART1CTSN; + input EMIOUART1DCDN; + input EMIOUART1DSRN; + input EMIOUART1RIN; + input EMIOUART1RX; + input EMIOUSB0VBUSPWRFAULT; + input EMIOUSB1VBUSPWRFAULT; + input EMIOWDTCLKI; + input EVENTEVENTI; + input FPGAIDLEN; + input FTMDTRACEINCLOCK; + input FTMDTRACEINVALID; + input MAXIGP0ACLK; + input MAXIGP0ARREADY; + input MAXIGP0AWREADY; + input MAXIGP0BVALID; + input MAXIGP0RLAST; + input MAXIGP0RVALID; + input MAXIGP0WREADY; + input MAXIGP1ACLK; + input MAXIGP1ARREADY; + input MAXIGP1AWREADY; + input MAXIGP1BVALID; + input MAXIGP1RLAST; + input MAXIGP1RVALID; + input MAXIGP1WREADY; + input SAXIACPACLK; + input SAXIACPARVALID; + input SAXIACPAWVALID; + input SAXIACPBREADY; + input SAXIACPRREADY; + input SAXIACPWLAST; + input SAXIACPWVALID; + input SAXIGP0ACLK; + input SAXIGP0ARVALID; + input SAXIGP0AWVALID; + input SAXIGP0BREADY; + input SAXIGP0RREADY; + input SAXIGP0WLAST; + input SAXIGP0WVALID; + input SAXIGP1ACLK; + input SAXIGP1ARVALID; + input SAXIGP1AWVALID; + input SAXIGP1BREADY; + input SAXIGP1RREADY; + input SAXIGP1WLAST; + input SAXIGP1WVALID; + input SAXIHP0ACLK; + input SAXIHP0ARVALID; + input SAXIHP0AWVALID; + input SAXIHP0BREADY; + input SAXIHP0RDISSUECAP1EN; + input SAXIHP0RREADY; + input SAXIHP0WLAST; + input SAXIHP0WRISSUECAP1EN; + input SAXIHP0WVALID; + input SAXIHP1ACLK; + input SAXIHP1ARVALID; + input SAXIHP1AWVALID; + input SAXIHP1BREADY; + input SAXIHP1RDISSUECAP1EN; + input SAXIHP1RREADY; + input SAXIHP1WLAST; + input SAXIHP1WRISSUECAP1EN; + input SAXIHP1WVALID; + input SAXIHP2ACLK; + input SAXIHP2ARVALID; + input SAXIHP2AWVALID; + input SAXIHP2BREADY; + input SAXIHP2RDISSUECAP1EN; + input SAXIHP2RREADY; + input SAXIHP2WLAST; + input SAXIHP2WRISSUECAP1EN; + input SAXIHP2WVALID; + input SAXIHP3ACLK; + input SAXIHP3ARVALID; + input SAXIHP3AWVALID; + input SAXIHP3BREADY; + input SAXIHP3RDISSUECAP1EN; + input SAXIHP3RREADY; + input SAXIHP3WLAST; + input SAXIHP3WRISSUECAP1EN; + input SAXIHP3WVALID; + input [11:0] MAXIGP0BID; + input [11:0] MAXIGP0RID; + input [11:0] MAXIGP1BID; + input [11:0] MAXIGP1RID; + input [19:0] IRQF2P; + input [1:0] DMA0DRTYPE; + input [1:0] DMA1DRTYPE; + input [1:0] DMA2DRTYPE; + input [1:0] DMA3DRTYPE; + input [1:0] MAXIGP0BRESP; + input [1:0] MAXIGP0RRESP; + input [1:0] MAXIGP1BRESP; + input [1:0] MAXIGP1RRESP; + input [1:0] SAXIACPARBURST; + input [1:0] SAXIACPARLOCK; + input [1:0] SAXIACPARSIZE; + input [1:0] SAXIACPAWBURST; + input [1:0] SAXIACPAWLOCK; + input [1:0] SAXIACPAWSIZE; + input [1:0] SAXIGP0ARBURST; + input [1:0] SAXIGP0ARLOCK; + input [1:0] SAXIGP0ARSIZE; + input [1:0] SAXIGP0AWBURST; + input [1:0] SAXIGP0AWLOCK; + input [1:0] SAXIGP0AWSIZE; + input [1:0] SAXIGP1ARBURST; + input [1:0] SAXIGP1ARLOCK; + input [1:0] SAXIGP1ARSIZE; + input [1:0] SAXIGP1AWBURST; + input [1:0] SAXIGP1AWLOCK; + input [1:0] SAXIGP1AWSIZE; + input [1:0] SAXIHP0ARBURST; + input [1:0] SAXIHP0ARLOCK; + input [1:0] SAXIHP0ARSIZE; + input [1:0] SAXIHP0AWBURST; + input [1:0] SAXIHP0AWLOCK; + input [1:0] SAXIHP0AWSIZE; + input [1:0] SAXIHP1ARBURST; + input [1:0] SAXIHP1ARLOCK; + input [1:0] SAXIHP1ARSIZE; + input [1:0] SAXIHP1AWBURST; + input [1:0] SAXIHP1AWLOCK; + input [1:0] SAXIHP1AWSIZE; + input [1:0] SAXIHP2ARBURST; + input [1:0] SAXIHP2ARLOCK; + input [1:0] SAXIHP2ARSIZE; + input [1:0] SAXIHP2AWBURST; + input [1:0] SAXIHP2AWLOCK; + input [1:0] SAXIHP2AWSIZE; + input [1:0] SAXIHP3ARBURST; + input [1:0] SAXIHP3ARLOCK; + input [1:0] SAXIHP3ARSIZE; + input [1:0] SAXIHP3AWBURST; + input [1:0] SAXIHP3AWLOCK; + input [1:0] SAXIHP3AWSIZE; + input [2:0] EMIOTTC0CLKI; + input [2:0] EMIOTTC1CLKI; + input [2:0] SAXIACPARID; + input [2:0] SAXIACPARPROT; + input [2:0] SAXIACPAWID; + input [2:0] SAXIACPAWPROT; + input [2:0] SAXIACPWID; + input [2:0] SAXIGP0ARPROT; + input [2:0] SAXIGP0AWPROT; + input [2:0] SAXIGP1ARPROT; + input [2:0] SAXIGP1AWPROT; + input [2:0] SAXIHP0ARPROT; + input [2:0] SAXIHP0AWPROT; + input [2:0] SAXIHP1ARPROT; + input [2:0] SAXIHP1AWPROT; + input [2:0] SAXIHP2ARPROT; + input [2:0] SAXIHP2AWPROT; + input [2:0] SAXIHP3ARPROT; + input [2:0] SAXIHP3AWPROT; + input [31:0] FTMDTRACEINDATA; + input [31:0] FTMTF2PDEBUG; + input [31:0] MAXIGP0RDATA; + input [31:0] MAXIGP1RDATA; + input [31:0] SAXIACPARADDR; + input [31:0] SAXIACPAWADDR; + input [31:0] SAXIGP0ARADDR; + input [31:0] SAXIGP0AWADDR; + input [31:0] SAXIGP0WDATA; + input [31:0] SAXIGP1ARADDR; + input [31:0] SAXIGP1AWADDR; + input [31:0] SAXIGP1WDATA; + input [31:0] SAXIHP0ARADDR; + input [31:0] SAXIHP0AWADDR; + input [31:0] SAXIHP1ARADDR; + input [31:0] SAXIHP1AWADDR; + input [31:0] SAXIHP2ARADDR; + input [31:0] SAXIHP2AWADDR; + input [31:0] SAXIHP3ARADDR; + input [31:0] SAXIHP3AWADDR; + input [3:0] DDRARB; + input [3:0] EMIOSDIO0DATAI; + input [3:0] EMIOSDIO1DATAI; + input [3:0] FCLKCLKTRIGN; + input [3:0] FTMDTRACEINATID; + input [3:0] FTMTF2PTRIG; + input [3:0] FTMTP2FTRIGACK; + input [3:0] SAXIACPARCACHE; + input [3:0] SAXIACPARLEN; + input [3:0] SAXIACPARQOS; + input [3:0] SAXIACPAWCACHE; + input [3:0] SAXIACPAWLEN; + input [3:0] SAXIACPAWQOS; + input [3:0] SAXIGP0ARCACHE; + input [3:0] SAXIGP0ARLEN; + input [3:0] SAXIGP0ARQOS; + input [3:0] SAXIGP0AWCACHE; + input [3:0] SAXIGP0AWLEN; + input [3:0] SAXIGP0AWQOS; + input [3:0] SAXIGP0WSTRB; + input [3:0] SAXIGP1ARCACHE; + input [3:0] SAXIGP1ARLEN; + input [3:0] SAXIGP1ARQOS; + input [3:0] SAXIGP1AWCACHE; + input [3:0] SAXIGP1AWLEN; + input [3:0] SAXIGP1AWQOS; + input [3:0] SAXIGP1WSTRB; + input [3:0] SAXIHP0ARCACHE; + input [3:0] SAXIHP0ARLEN; + input [3:0] SAXIHP0ARQOS; + input [3:0] SAXIHP0AWCACHE; + input [3:0] SAXIHP0AWLEN; + input [3:0] SAXIHP0AWQOS; + input [3:0] SAXIHP1ARCACHE; + input [3:0] SAXIHP1ARLEN; + input [3:0] SAXIHP1ARQOS; + input [3:0] SAXIHP1AWCACHE; + input [3:0] SAXIHP1AWLEN; + input [3:0] SAXIHP1AWQOS; + input [3:0] SAXIHP2ARCACHE; + input [3:0] SAXIHP2ARLEN; + input [3:0] SAXIHP2ARQOS; + input [3:0] SAXIHP2AWCACHE; + input [3:0] SAXIHP2AWLEN; + input [3:0] SAXIHP2AWQOS; + input [3:0] SAXIHP3ARCACHE; + input [3:0] SAXIHP3ARLEN; + input [3:0] SAXIHP3ARQOS; + input [3:0] SAXIHP3AWCACHE; + input [3:0] SAXIHP3AWLEN; + input [3:0] SAXIHP3AWQOS; + input [4:0] SAXIACPARUSER; + input [4:0] SAXIACPAWUSER; + input [5:0] SAXIGP0ARID; + input [5:0] SAXIGP0AWID; + input [5:0] SAXIGP0WID; + input [5:0] SAXIGP1ARID; + input [5:0] SAXIGP1AWID; + input [5:0] SAXIGP1WID; + input [5:0] SAXIHP0ARID; + input [5:0] SAXIHP0AWID; + input [5:0] SAXIHP0WID; + input [5:0] SAXIHP1ARID; + input [5:0] SAXIHP1AWID; + input [5:0] SAXIHP1WID; + input [5:0] SAXIHP2ARID; + input [5:0] SAXIHP2AWID; + input [5:0] SAXIHP2WID; + input [5:0] SAXIHP3ARID; + input [5:0] SAXIHP3AWID; + input [5:0] SAXIHP3WID; + input [63:0] EMIOGPIOI; + input [63:0] SAXIACPWDATA; + input [63:0] SAXIHP0WDATA; + input [63:0] SAXIHP1WDATA; + input [63:0] SAXIHP2WDATA; + input [63:0] SAXIHP3WDATA; + input [7:0] EMIOENET0GMIIRXD; + input [7:0] EMIOENET1GMIIRXD; + input [7:0] SAXIACPWSTRB; + input [7:0] SAXIHP0WSTRB; + input [7:0] SAXIHP1WSTRB; + input [7:0] SAXIHP2WSTRB; + input [7:0] SAXIHP3WSTRB; endmodule diff --git a/techlibs/xilinx/xc7_ff_map.v b/techlibs/xilinx/xc7_ff_map.v new file mode 100644 index 000000000..f6197b78b --- /dev/null +++ b/techlibs/xilinx/xc7_ff_map.v @@ -0,0 +1,78 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * + * Permission to use, copy, modify, and/or distribute this software for any + * purpose with or without fee is hereby granted, provided that the above + * copyright notice and this permission notice appear in all copies. + * + * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES + * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR + * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES + * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN + * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF + * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + */ + +// ============================================================================ +// FF mapping + +`ifndef _NO_FFS + +module \$_DFF_N_ (input D, C, output Q); + parameter _TECHMAP_WIREINIT_Q_ = 1'bx; + FDRE_1 #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .R(1'b0)); +endmodule +module \$_DFF_P_ (input D, C, output Q); + parameter _TECHMAP_WIREINIT_Q_ = 1'bx; + FDRE #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .R(1'b0)); +endmodule + +module \$_DFFE_NP_ (input D, C, E, output Q); + parameter _TECHMAP_WIREINIT_Q_ = 1'bx; + FDRE_1 #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(E), .R(1'b0)); +endmodule +module \$_DFFE_PP_ (input D, C, E, output Q); + parameter _TECHMAP_WIREINIT_Q_ = 1'bx; + FDRE #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(E), .R(1'b0)); +endmodule + +module \$_DFF_NN0_ (input D, C, R, output Q); + parameter _TECHMAP_WIREINIT_Q_ = 1'bx; + FDCE_1 #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .CLR(!R)); +endmodule +module \$_DFF_NP0_ (input D, C, R, output Q); + parameter _TECHMAP_WIREINIT_Q_ = 1'bx; + FDCE_1 #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .CLR( R)); +endmodule +module \$_DFF_PN0_ (input D, C, R, output Q); + parameter _TECHMAP_WIREINIT_Q_ = 1'bx; + FDCE #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .CLR(!R)); +endmodule +module \$_DFF_PP0_ (input D, C, R, output Q); + parameter _TECHMAP_WIREINIT_Q_ = 1'bx; + FDCE #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .CLR( R)); +endmodule + +module \$_DFF_NN1_ (input D, C, R, output Q); + parameter _TECHMAP_WIREINIT_Q_ = 1'bx; + FDPE_1 #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .PRE(!R)); +endmodule +module \$_DFF_NP1_ (input D, C, R, output Q); + parameter _TECHMAP_WIREINIT_Q_ = 1'bx; + FDPE_1 #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .PRE( R)); +endmodule +module \$_DFF_PN1_ (input D, C, R, output Q); + parameter _TECHMAP_WIREINIT_Q_ = 1'bx; + FDPE #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .PRE(!R)); +endmodule +module \$_DFF_PP1_ (input D, C, R, output Q); + parameter _TECHMAP_WIREINIT_Q_ = 1'bx; + FDPE #(.INIT(_TECHMAP_WIREINIT_Q_)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(1'b1), .PRE( R)); +endmodule + +`endif + diff --git a/techlibs/xilinx/xcu_cells_xtra.v b/techlibs/xilinx/xcu_cells_xtra.v new file mode 100644 index 000000000..2d331a221 --- /dev/null +++ b/techlibs/xilinx/xcu_cells_xtra.v @@ -0,0 +1,11798 @@ +// Created by cells_xtra.py from Xilinx models + +module CMAC (...); + parameter CTL_PTP_TRANSPCLK_MODE = "FALSE"; + parameter CTL_RX_CHECK_ACK = "TRUE"; + parameter CTL_RX_CHECK_PREAMBLE = "FALSE"; + parameter CTL_RX_CHECK_SFD = "FALSE"; + parameter CTL_RX_DELETE_FCS = "TRUE"; + parameter [15:0] CTL_RX_ETYPE_GCP = 16'h8808; + parameter [15:0] CTL_RX_ETYPE_GPP = 16'h8808; + parameter [15:0] CTL_RX_ETYPE_PCP = 16'h8808; + parameter [15:0] CTL_RX_ETYPE_PPP = 16'h8808; + parameter CTL_RX_FORWARD_CONTROL = "FALSE"; + parameter CTL_RX_IGNORE_FCS = "FALSE"; + parameter [14:0] CTL_RX_MAX_PACKET_LEN = 15'h2580; + parameter [7:0] CTL_RX_MIN_PACKET_LEN = 8'h40; + parameter [15:0] CTL_RX_OPCODE_GPP = 16'h0001; + parameter [15:0] CTL_RX_OPCODE_MAX_GCP = 16'hFFFF; + parameter [15:0] CTL_RX_OPCODE_MAX_PCP = 16'hFFFF; + parameter [15:0] CTL_RX_OPCODE_MIN_GCP = 16'h0000; + parameter [15:0] CTL_RX_OPCODE_MIN_PCP = 16'h0000; + parameter [15:0] CTL_RX_OPCODE_PPP = 16'h0001; + parameter [47:0] CTL_RX_PAUSE_DA_MCAST = 48'h0180C2000001; + parameter [47:0] CTL_RX_PAUSE_DA_UCAST = 48'h000000000000; + parameter [47:0] CTL_RX_PAUSE_SA = 48'h000000000000; + parameter CTL_RX_PROCESS_LFI = "FALSE"; + parameter [15:0] CTL_RX_VL_LENGTH_MINUS1 = 16'h3FFF; + parameter [63:0] CTL_RX_VL_MARKER_ID0 = 64'hC16821003E97DE00; + parameter [63:0] CTL_RX_VL_MARKER_ID1 = 64'h9D718E00628E7100; + parameter [63:0] CTL_RX_VL_MARKER_ID10 = 64'hFD6C990002936600; + parameter [63:0] CTL_RX_VL_MARKER_ID11 = 64'hB9915500466EAA00; + parameter [63:0] CTL_RX_VL_MARKER_ID12 = 64'h5CB9B200A3464D00; + parameter [63:0] CTL_RX_VL_MARKER_ID13 = 64'h1AF8BD00E5074200; + parameter [63:0] CTL_RX_VL_MARKER_ID14 = 64'h83C7CA007C383500; + parameter [63:0] CTL_RX_VL_MARKER_ID15 = 64'h3536CD00CAC93200; + parameter [63:0] CTL_RX_VL_MARKER_ID16 = 64'hC4314C003BCEB300; + parameter [63:0] CTL_RX_VL_MARKER_ID17 = 64'hADD6B70052294800; + parameter [63:0] CTL_RX_VL_MARKER_ID18 = 64'h5F662A00A099D500; + parameter [63:0] CTL_RX_VL_MARKER_ID19 = 64'hC0F0E5003F0F1A00; + parameter [63:0] CTL_RX_VL_MARKER_ID2 = 64'h594BE800A6B41700; + parameter [63:0] CTL_RX_VL_MARKER_ID3 = 64'h4D957B00B26A8400; + parameter [63:0] CTL_RX_VL_MARKER_ID4 = 64'hF50709000AF8F600; + parameter [63:0] CTL_RX_VL_MARKER_ID5 = 64'hDD14C20022EB3D00; + parameter [63:0] CTL_RX_VL_MARKER_ID6 = 64'h9A4A260065B5D900; + parameter [63:0] CTL_RX_VL_MARKER_ID7 = 64'h7B45660084BA9900; + parameter [63:0] CTL_RX_VL_MARKER_ID8 = 64'hA02476005FDB8900; + parameter [63:0] CTL_RX_VL_MARKER_ID9 = 64'h68C9FB0097360400; + parameter CTL_TEST_MODE_PIN_CHAR = "FALSE"; + parameter [47:0] CTL_TX_DA_GPP = 48'h0180C2000001; + parameter [47:0] CTL_TX_DA_PPP = 48'h0180C2000001; + parameter [15:0] CTL_TX_ETHERTYPE_GPP = 16'h8808; + parameter [15:0] CTL_TX_ETHERTYPE_PPP = 16'h8808; + parameter CTL_TX_FCS_INS_ENABLE = "TRUE"; + parameter CTL_TX_IGNORE_FCS = "FALSE"; + parameter [15:0] CTL_TX_OPCODE_GPP = 16'h0001; + parameter [15:0] CTL_TX_OPCODE_PPP = 16'h0001; + parameter CTL_TX_PTP_1STEP_ENABLE = "FALSE"; + parameter [10:0] CTL_TX_PTP_LATENCY_ADJUST = 11'h2C1; + parameter [47:0] CTL_TX_SA_GPP = 48'h000000000000; + parameter [47:0] CTL_TX_SA_PPP = 48'h000000000000; + parameter [15:0] CTL_TX_VL_LENGTH_MINUS1 = 16'h3FFF; + parameter [63:0] CTL_TX_VL_MARKER_ID0 = 64'hC16821003E97DE00; + parameter [63:0] CTL_TX_VL_MARKER_ID1 = 64'h9D718E00628E7100; + parameter [63:0] CTL_TX_VL_MARKER_ID10 = 64'hFD6C990002936600; + parameter [63:0] CTL_TX_VL_MARKER_ID11 = 64'hB9915500466EAA00; + parameter [63:0] CTL_TX_VL_MARKER_ID12 = 64'h5CB9B200A3464D00; + parameter [63:0] CTL_TX_VL_MARKER_ID13 = 64'h1AF8BD00E5074200; + parameter [63:0] CTL_TX_VL_MARKER_ID14 = 64'h83C7CA007C383500; + parameter [63:0] CTL_TX_VL_MARKER_ID15 = 64'h3536CD00CAC93200; + parameter [63:0] CTL_TX_VL_MARKER_ID16 = 64'hC4314C003BCEB300; + parameter [63:0] CTL_TX_VL_MARKER_ID17 = 64'hADD6B70052294800; + parameter [63:0] CTL_TX_VL_MARKER_ID18 = 64'h5F662A00A099D500; + parameter [63:0] CTL_TX_VL_MARKER_ID19 = 64'hC0F0E5003F0F1A00; + parameter [63:0] CTL_TX_VL_MARKER_ID2 = 64'h594BE800A6B41700; + parameter [63:0] CTL_TX_VL_MARKER_ID3 = 64'h4D957B00B26A8400; + parameter [63:0] CTL_TX_VL_MARKER_ID4 = 64'hF50709000AF8F600; + parameter [63:0] CTL_TX_VL_MARKER_ID5 = 64'hDD14C20022EB3D00; + parameter [63:0] CTL_TX_VL_MARKER_ID6 = 64'h9A4A260065B5D900; + parameter [63:0] CTL_TX_VL_MARKER_ID7 = 64'h7B45660084BA9900; + parameter [63:0] CTL_TX_VL_MARKER_ID8 = 64'hA02476005FDB8900; + parameter [63:0] CTL_TX_VL_MARKER_ID9 = 64'h68C9FB0097360400; + parameter SIM_VERSION = "2.0"; + parameter TEST_MODE_PIN_CHAR = "FALSE"; + output [15:0] DRP_DO; + output DRP_RDY; + output [127:0] RX_DATAOUT0; + output [127:0] RX_DATAOUT1; + output [127:0] RX_DATAOUT2; + output [127:0] RX_DATAOUT3; + output RX_ENAOUT0; + output RX_ENAOUT1; + output RX_ENAOUT2; + output RX_ENAOUT3; + output RX_EOPOUT0; + output RX_EOPOUT1; + output RX_EOPOUT2; + output RX_EOPOUT3; + output RX_ERROUT0; + output RX_ERROUT1; + output RX_ERROUT2; + output RX_ERROUT3; + output [6:0] RX_LANE_ALIGNER_FILL_0; + output [6:0] RX_LANE_ALIGNER_FILL_1; + output [6:0] RX_LANE_ALIGNER_FILL_10; + output [6:0] RX_LANE_ALIGNER_FILL_11; + output [6:0] RX_LANE_ALIGNER_FILL_12; + output [6:0] RX_LANE_ALIGNER_FILL_13; + output [6:0] RX_LANE_ALIGNER_FILL_14; + output [6:0] RX_LANE_ALIGNER_FILL_15; + output [6:0] RX_LANE_ALIGNER_FILL_16; + output [6:0] RX_LANE_ALIGNER_FILL_17; + output [6:0] RX_LANE_ALIGNER_FILL_18; + output [6:0] RX_LANE_ALIGNER_FILL_19; + output [6:0] RX_LANE_ALIGNER_FILL_2; + output [6:0] RX_LANE_ALIGNER_FILL_3; + output [6:0] RX_LANE_ALIGNER_FILL_4; + output [6:0] RX_LANE_ALIGNER_FILL_5; + output [6:0] RX_LANE_ALIGNER_FILL_6; + output [6:0] RX_LANE_ALIGNER_FILL_7; + output [6:0] RX_LANE_ALIGNER_FILL_8; + output [6:0] RX_LANE_ALIGNER_FILL_9; + output [3:0] RX_MTYOUT0; + output [3:0] RX_MTYOUT1; + output [3:0] RX_MTYOUT2; + output [3:0] RX_MTYOUT3; + output [4:0] RX_PTP_PCSLANE_OUT; + output [79:0] RX_PTP_TSTAMP_OUT; + output RX_SOPOUT0; + output RX_SOPOUT1; + output RX_SOPOUT2; + output RX_SOPOUT3; + output STAT_RX_ALIGNED; + output STAT_RX_ALIGNED_ERR; + output [6:0] STAT_RX_BAD_CODE; + output [3:0] STAT_RX_BAD_FCS; + output STAT_RX_BAD_PREAMBLE; + output STAT_RX_BAD_SFD; + output STAT_RX_BIP_ERR_0; + output STAT_RX_BIP_ERR_1; + output STAT_RX_BIP_ERR_10; + output STAT_RX_BIP_ERR_11; + output STAT_RX_BIP_ERR_12; + output STAT_RX_BIP_ERR_13; + output STAT_RX_BIP_ERR_14; + output STAT_RX_BIP_ERR_15; + output STAT_RX_BIP_ERR_16; + output STAT_RX_BIP_ERR_17; + output STAT_RX_BIP_ERR_18; + output STAT_RX_BIP_ERR_19; + output STAT_RX_BIP_ERR_2; + output STAT_RX_BIP_ERR_3; + output STAT_RX_BIP_ERR_4; + output STAT_RX_BIP_ERR_5; + output STAT_RX_BIP_ERR_6; + output STAT_RX_BIP_ERR_7; + output STAT_RX_BIP_ERR_8; + output STAT_RX_BIP_ERR_9; + output [19:0] STAT_RX_BLOCK_LOCK; + output STAT_RX_BROADCAST; + output [3:0] STAT_RX_FRAGMENT; + output [3:0] STAT_RX_FRAMING_ERR_0; + output [3:0] STAT_RX_FRAMING_ERR_1; + output [3:0] STAT_RX_FRAMING_ERR_10; + output [3:0] STAT_RX_FRAMING_ERR_11; + output [3:0] STAT_RX_FRAMING_ERR_12; + output [3:0] STAT_RX_FRAMING_ERR_13; + output [3:0] STAT_RX_FRAMING_ERR_14; + output [3:0] STAT_RX_FRAMING_ERR_15; + output [3:0] STAT_RX_FRAMING_ERR_16; + output [3:0] STAT_RX_FRAMING_ERR_17; + output [3:0] STAT_RX_FRAMING_ERR_18; + output [3:0] STAT_RX_FRAMING_ERR_19; + output [3:0] STAT_RX_FRAMING_ERR_2; + output [3:0] STAT_RX_FRAMING_ERR_3; + output [3:0] STAT_RX_FRAMING_ERR_4; + output [3:0] STAT_RX_FRAMING_ERR_5; + output [3:0] STAT_RX_FRAMING_ERR_6; + output [3:0] STAT_RX_FRAMING_ERR_7; + output [3:0] STAT_RX_FRAMING_ERR_8; + output [3:0] STAT_RX_FRAMING_ERR_9; + output STAT_RX_FRAMING_ERR_VALID_0; + output STAT_RX_FRAMING_ERR_VALID_1; + output STAT_RX_FRAMING_ERR_VALID_10; + output STAT_RX_FRAMING_ERR_VALID_11; + output STAT_RX_FRAMING_ERR_VALID_12; + output STAT_RX_FRAMING_ERR_VALID_13; + output STAT_RX_FRAMING_ERR_VALID_14; + output STAT_RX_FRAMING_ERR_VALID_15; + output STAT_RX_FRAMING_ERR_VALID_16; + output STAT_RX_FRAMING_ERR_VALID_17; + output STAT_RX_FRAMING_ERR_VALID_18; + output STAT_RX_FRAMING_ERR_VALID_19; + output STAT_RX_FRAMING_ERR_VALID_2; + output STAT_RX_FRAMING_ERR_VALID_3; + output STAT_RX_FRAMING_ERR_VALID_4; + output STAT_RX_FRAMING_ERR_VALID_5; + output STAT_RX_FRAMING_ERR_VALID_6; + output STAT_RX_FRAMING_ERR_VALID_7; + output STAT_RX_FRAMING_ERR_VALID_8; + output STAT_RX_FRAMING_ERR_VALID_9; + output STAT_RX_GOT_SIGNAL_OS; + output STAT_RX_HI_BER; + output STAT_RX_INRANGEERR; + output STAT_RX_INTERNAL_LOCAL_FAULT; + output STAT_RX_JABBER; + output [7:0] STAT_RX_LANE0_VLM_BIP7; + output STAT_RX_LANE0_VLM_BIP7_VALID; + output STAT_RX_LOCAL_FAULT; + output [19:0] STAT_RX_MF_ERR; + output [19:0] STAT_RX_MF_LEN_ERR; + output [19:0] STAT_RX_MF_REPEAT_ERR; + output STAT_RX_MISALIGNED; + output STAT_RX_MULTICAST; + output STAT_RX_OVERSIZE; + output STAT_RX_PACKET_1024_1518_BYTES; + output STAT_RX_PACKET_128_255_BYTES; + output STAT_RX_PACKET_1519_1522_BYTES; + output STAT_RX_PACKET_1523_1548_BYTES; + output STAT_RX_PACKET_1549_2047_BYTES; + output STAT_RX_PACKET_2048_4095_BYTES; + output STAT_RX_PACKET_256_511_BYTES; + output STAT_RX_PACKET_4096_8191_BYTES; + output STAT_RX_PACKET_512_1023_BYTES; + output STAT_RX_PACKET_64_BYTES; + output STAT_RX_PACKET_65_127_BYTES; + output STAT_RX_PACKET_8192_9215_BYTES; + output STAT_RX_PACKET_BAD_FCS; + output STAT_RX_PACKET_LARGE; + output [3:0] STAT_RX_PACKET_SMALL; + output STAT_RX_PAUSE; + output [15:0] STAT_RX_PAUSE_QUANTA0; + output [15:0] STAT_RX_PAUSE_QUANTA1; + output [15:0] STAT_RX_PAUSE_QUANTA2; + output [15:0] STAT_RX_PAUSE_QUANTA3; + output [15:0] STAT_RX_PAUSE_QUANTA4; + output [15:0] STAT_RX_PAUSE_QUANTA5; + output [15:0] STAT_RX_PAUSE_QUANTA6; + output [15:0] STAT_RX_PAUSE_QUANTA7; + output [15:0] STAT_RX_PAUSE_QUANTA8; + output [8:0] STAT_RX_PAUSE_REQ; + output [8:0] STAT_RX_PAUSE_VALID; + output STAT_RX_RECEIVED_LOCAL_FAULT; + output STAT_RX_REMOTE_FAULT; + output STAT_RX_STATUS; + output [3:0] STAT_RX_STOMPED_FCS; + output [19:0] STAT_RX_SYNCED; + output [19:0] STAT_RX_SYNCED_ERR; + output [2:0] STAT_RX_TEST_PATTERN_MISMATCH; + output STAT_RX_TOOLONG; + output [7:0] STAT_RX_TOTAL_BYTES; + output [13:0] STAT_RX_TOTAL_GOOD_BYTES; + output STAT_RX_TOTAL_GOOD_PACKETS; + output [3:0] STAT_RX_TOTAL_PACKETS; + output STAT_RX_TRUNCATED; + output [3:0] STAT_RX_UNDERSIZE; + output STAT_RX_UNICAST; + output STAT_RX_USER_PAUSE; + output STAT_RX_VLAN; + output [19:0] STAT_RX_VL_DEMUXED; + output [4:0] STAT_RX_VL_NUMBER_0; + output [4:0] STAT_RX_VL_NUMBER_1; + output [4:0] STAT_RX_VL_NUMBER_10; + output [4:0] STAT_RX_VL_NUMBER_11; + output [4:0] STAT_RX_VL_NUMBER_12; + output [4:0] STAT_RX_VL_NUMBER_13; + output [4:0] STAT_RX_VL_NUMBER_14; + output [4:0] STAT_RX_VL_NUMBER_15; + output [4:0] STAT_RX_VL_NUMBER_16; + output [4:0] STAT_RX_VL_NUMBER_17; + output [4:0] STAT_RX_VL_NUMBER_18; + output [4:0] STAT_RX_VL_NUMBER_19; + output [4:0] STAT_RX_VL_NUMBER_2; + output [4:0] STAT_RX_VL_NUMBER_3; + output [4:0] STAT_RX_VL_NUMBER_4; + output [4:0] STAT_RX_VL_NUMBER_5; + output [4:0] STAT_RX_VL_NUMBER_6; + output [4:0] STAT_RX_VL_NUMBER_7; + output [4:0] STAT_RX_VL_NUMBER_8; + output [4:0] STAT_RX_VL_NUMBER_9; + output STAT_TX_BAD_FCS; + output STAT_TX_BROADCAST; + output STAT_TX_FRAME_ERROR; + output STAT_TX_LOCAL_FAULT; + output STAT_TX_MULTICAST; + output STAT_TX_PACKET_1024_1518_BYTES; + output STAT_TX_PACKET_128_255_BYTES; + output STAT_TX_PACKET_1519_1522_BYTES; + output STAT_TX_PACKET_1523_1548_BYTES; + output STAT_TX_PACKET_1549_2047_BYTES; + output STAT_TX_PACKET_2048_4095_BYTES; + output STAT_TX_PACKET_256_511_BYTES; + output STAT_TX_PACKET_4096_8191_BYTES; + output STAT_TX_PACKET_512_1023_BYTES; + output STAT_TX_PACKET_64_BYTES; + output STAT_TX_PACKET_65_127_BYTES; + output STAT_TX_PACKET_8192_9215_BYTES; + output STAT_TX_PACKET_LARGE; + output STAT_TX_PACKET_SMALL; + output STAT_TX_PAUSE; + output [8:0] STAT_TX_PAUSE_VALID; + output STAT_TX_PTP_FIFO_READ_ERROR; + output STAT_TX_PTP_FIFO_WRITE_ERROR; + output [6:0] STAT_TX_TOTAL_BYTES; + output [13:0] STAT_TX_TOTAL_GOOD_BYTES; + output STAT_TX_TOTAL_GOOD_PACKETS; + output STAT_TX_TOTAL_PACKETS; + output STAT_TX_UNICAST; + output STAT_TX_USER_PAUSE; + output STAT_TX_VLAN; + output TX_OVFOUT; + output [4:0] TX_PTP_PCSLANE_OUT; + output [79:0] TX_PTP_TSTAMP_OUT; + output [15:0] TX_PTP_TSTAMP_TAG_OUT; + output TX_PTP_TSTAMP_VALID_OUT; + output TX_RDYOUT; + output [15:0] TX_SERDES_ALT_DATA0; + output [15:0] TX_SERDES_ALT_DATA1; + output [15:0] TX_SERDES_ALT_DATA2; + output [15:0] TX_SERDES_ALT_DATA3; + output [63:0] TX_SERDES_DATA0; + output [63:0] TX_SERDES_DATA1; + output [63:0] TX_SERDES_DATA2; + output [63:0] TX_SERDES_DATA3; + output [31:0] TX_SERDES_DATA4; + output [31:0] TX_SERDES_DATA5; + output [31:0] TX_SERDES_DATA6; + output [31:0] TX_SERDES_DATA7; + output [31:0] TX_SERDES_DATA8; + output [31:0] TX_SERDES_DATA9; + output TX_UNFOUT; + input CTL_CAUI4_MODE; + input CTL_RX_CHECK_ETYPE_GCP; + input CTL_RX_CHECK_ETYPE_GPP; + input CTL_RX_CHECK_ETYPE_PCP; + input CTL_RX_CHECK_ETYPE_PPP; + input CTL_RX_CHECK_MCAST_GCP; + input CTL_RX_CHECK_MCAST_GPP; + input CTL_RX_CHECK_MCAST_PCP; + input CTL_RX_CHECK_MCAST_PPP; + input CTL_RX_CHECK_OPCODE_GCP; + input CTL_RX_CHECK_OPCODE_GPP; + input CTL_RX_CHECK_OPCODE_PCP; + input CTL_RX_CHECK_OPCODE_PPP; + input CTL_RX_CHECK_SA_GCP; + input CTL_RX_CHECK_SA_GPP; + input CTL_RX_CHECK_SA_PCP; + input CTL_RX_CHECK_SA_PPP; + input CTL_RX_CHECK_UCAST_GCP; + input CTL_RX_CHECK_UCAST_GPP; + input CTL_RX_CHECK_UCAST_PCP; + input CTL_RX_CHECK_UCAST_PPP; + input CTL_RX_ENABLE; + input CTL_RX_ENABLE_GCP; + input CTL_RX_ENABLE_GPP; + input CTL_RX_ENABLE_PCP; + input CTL_RX_ENABLE_PPP; + input CTL_RX_FORCE_RESYNC; + input [8:0] CTL_RX_PAUSE_ACK; + input [8:0] CTL_RX_PAUSE_ENABLE; + input [79:0] CTL_RX_SYSTEMTIMERIN; + input CTL_RX_TEST_PATTERN; + input CTL_TX_ENABLE; + input CTL_TX_LANE0_VLM_BIP7_OVERRIDE; + input [7:0] CTL_TX_LANE0_VLM_BIP7_OVERRIDE_VALUE; + input [8:0] CTL_TX_PAUSE_ENABLE; + input [15:0] CTL_TX_PAUSE_QUANTA0; + input [15:0] CTL_TX_PAUSE_QUANTA1; + input [15:0] CTL_TX_PAUSE_QUANTA2; + input [15:0] CTL_TX_PAUSE_QUANTA3; + input [15:0] CTL_TX_PAUSE_QUANTA4; + input [15:0] CTL_TX_PAUSE_QUANTA5; + input [15:0] CTL_TX_PAUSE_QUANTA6; + input [15:0] CTL_TX_PAUSE_QUANTA7; + input [15:0] CTL_TX_PAUSE_QUANTA8; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER0; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER1; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER2; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER3; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER4; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER5; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER6; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER7; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER8; + input [8:0] CTL_TX_PAUSE_REQ; + input CTL_TX_PTP_VLANE_ADJUST_MODE; + input CTL_TX_RESEND_PAUSE; + input CTL_TX_SEND_IDLE; + input CTL_TX_SEND_RFI; + input [79:0] CTL_TX_SYSTEMTIMERIN; + input CTL_TX_TEST_PATTERN; + input [9:0] DRP_ADDR; + input DRP_CLK; + input [15:0] DRP_DI; + input DRP_EN; + input DRP_WE; + input RX_CLK; + input RX_RESET; + input [15:0] RX_SERDES_ALT_DATA0; + input [15:0] RX_SERDES_ALT_DATA1; + input [15:0] RX_SERDES_ALT_DATA2; + input [15:0] RX_SERDES_ALT_DATA3; + input [9:0] RX_SERDES_CLK; + input [63:0] RX_SERDES_DATA0; + input [63:0] RX_SERDES_DATA1; + input [63:0] RX_SERDES_DATA2; + input [63:0] RX_SERDES_DATA3; + input [31:0] RX_SERDES_DATA4; + input [31:0] RX_SERDES_DATA5; + input [31:0] RX_SERDES_DATA6; + input [31:0] RX_SERDES_DATA7; + input [31:0] RX_SERDES_DATA8; + input [31:0] RX_SERDES_DATA9; + input [9:0] RX_SERDES_RESET; + input TX_CLK; + input [127:0] TX_DATAIN0; + input [127:0] TX_DATAIN1; + input [127:0] TX_DATAIN2; + input [127:0] TX_DATAIN3; + input TX_ENAIN0; + input TX_ENAIN1; + input TX_ENAIN2; + input TX_ENAIN3; + input TX_EOPIN0; + input TX_EOPIN1; + input TX_EOPIN2; + input TX_EOPIN3; + input TX_ERRIN0; + input TX_ERRIN1; + input TX_ERRIN2; + input TX_ERRIN3; + input [3:0] TX_MTYIN0; + input [3:0] TX_MTYIN1; + input [3:0] TX_MTYIN2; + input [3:0] TX_MTYIN3; + input [1:0] TX_PTP_1588OP_IN; + input [15:0] TX_PTP_CHKSUM_OFFSET_IN; + input [63:0] TX_PTP_RXTSTAMP_IN; + input [15:0] TX_PTP_TAG_FIELD_IN; + input [15:0] TX_PTP_TSTAMP_OFFSET_IN; + input TX_PTP_UPD_CHKSUM_IN; + input TX_RESET; + input TX_SOPIN0; + input TX_SOPIN1; + input TX_SOPIN2; + input TX_SOPIN3; +endmodule + +module CMACE4 (...); + parameter CTL_PTP_TRANSPCLK_MODE = "FALSE"; + parameter CTL_RX_CHECK_ACK = "TRUE"; + parameter CTL_RX_CHECK_PREAMBLE = "FALSE"; + parameter CTL_RX_CHECK_SFD = "FALSE"; + parameter CTL_RX_DELETE_FCS = "TRUE"; + parameter [15:0] CTL_RX_ETYPE_GCP = 16'h8808; + parameter [15:0] CTL_RX_ETYPE_GPP = 16'h8808; + parameter [15:0] CTL_RX_ETYPE_PCP = 16'h8808; + parameter [15:0] CTL_RX_ETYPE_PPP = 16'h8808; + parameter CTL_RX_FORWARD_CONTROL = "FALSE"; + parameter CTL_RX_IGNORE_FCS = "FALSE"; + parameter [14:0] CTL_RX_MAX_PACKET_LEN = 15'h2580; + parameter [7:0] CTL_RX_MIN_PACKET_LEN = 8'h40; + parameter [15:0] CTL_RX_OPCODE_GPP = 16'h0001; + parameter [15:0] CTL_RX_OPCODE_MAX_GCP = 16'hFFFF; + parameter [15:0] CTL_RX_OPCODE_MAX_PCP = 16'hFFFF; + parameter [15:0] CTL_RX_OPCODE_MIN_GCP = 16'h0000; + parameter [15:0] CTL_RX_OPCODE_MIN_PCP = 16'h0000; + parameter [15:0] CTL_RX_OPCODE_PPP = 16'h0001; + parameter [47:0] CTL_RX_PAUSE_DA_MCAST = 48'h0180C2000001; + parameter [47:0] CTL_RX_PAUSE_DA_UCAST = 48'h000000000000; + parameter [47:0] CTL_RX_PAUSE_SA = 48'h000000000000; + parameter CTL_RX_PROCESS_LFI = "FALSE"; + parameter [8:0] CTL_RX_RSFEC_AM_THRESHOLD = 9'h046; + parameter [1:0] CTL_RX_RSFEC_FILL_ADJUST = 2'h0; + parameter [15:0] CTL_RX_VL_LENGTH_MINUS1 = 16'h3FFF; + parameter [63:0] CTL_RX_VL_MARKER_ID0 = 64'hC16821003E97DE00; + parameter [63:0] CTL_RX_VL_MARKER_ID1 = 64'h9D718E00628E7100; + parameter [63:0] CTL_RX_VL_MARKER_ID10 = 64'hFD6C990002936600; + parameter [63:0] CTL_RX_VL_MARKER_ID11 = 64'hB9915500466EAA00; + parameter [63:0] CTL_RX_VL_MARKER_ID12 = 64'h5CB9B200A3464D00; + parameter [63:0] CTL_RX_VL_MARKER_ID13 = 64'h1AF8BD00E5074200; + parameter [63:0] CTL_RX_VL_MARKER_ID14 = 64'h83C7CA007C383500; + parameter [63:0] CTL_RX_VL_MARKER_ID15 = 64'h3536CD00CAC93200; + parameter [63:0] CTL_RX_VL_MARKER_ID16 = 64'hC4314C003BCEB300; + parameter [63:0] CTL_RX_VL_MARKER_ID17 = 64'hADD6B70052294800; + parameter [63:0] CTL_RX_VL_MARKER_ID18 = 64'h5F662A00A099D500; + parameter [63:0] CTL_RX_VL_MARKER_ID19 = 64'hC0F0E5003F0F1A00; + parameter [63:0] CTL_RX_VL_MARKER_ID2 = 64'h594BE800A6B41700; + parameter [63:0] CTL_RX_VL_MARKER_ID3 = 64'h4D957B00B26A8400; + parameter [63:0] CTL_RX_VL_MARKER_ID4 = 64'hF50709000AF8F600; + parameter [63:0] CTL_RX_VL_MARKER_ID5 = 64'hDD14C20022EB3D00; + parameter [63:0] CTL_RX_VL_MARKER_ID6 = 64'h9A4A260065B5D900; + parameter [63:0] CTL_RX_VL_MARKER_ID7 = 64'h7B45660084BA9900; + parameter [63:0] CTL_RX_VL_MARKER_ID8 = 64'hA02476005FDB8900; + parameter [63:0] CTL_RX_VL_MARKER_ID9 = 64'h68C9FB0097360400; + parameter CTL_TEST_MODE_PIN_CHAR = "FALSE"; + parameter CTL_TX_CUSTOM_PREAMBLE_ENABLE = "FALSE"; + parameter [47:0] CTL_TX_DA_GPP = 48'h0180C2000001; + parameter [47:0] CTL_TX_DA_PPP = 48'h0180C2000001; + parameter [15:0] CTL_TX_ETHERTYPE_GPP = 16'h8808; + parameter [15:0] CTL_TX_ETHERTYPE_PPP = 16'h8808; + parameter CTL_TX_FCS_INS_ENABLE = "TRUE"; + parameter CTL_TX_IGNORE_FCS = "FALSE"; + parameter [3:0] CTL_TX_IPG_VALUE = 4'hC; + parameter [15:0] CTL_TX_OPCODE_GPP = 16'h0001; + parameter [15:0] CTL_TX_OPCODE_PPP = 16'h0001; + parameter CTL_TX_PTP_1STEP_ENABLE = "FALSE"; + parameter [10:0] CTL_TX_PTP_LATENCY_ADJUST = 11'h2C1; + parameter [47:0] CTL_TX_SA_GPP = 48'h000000000000; + parameter [47:0] CTL_TX_SA_PPP = 48'h000000000000; + parameter [15:0] CTL_TX_VL_LENGTH_MINUS1 = 16'h3FFF; + parameter [63:0] CTL_TX_VL_MARKER_ID0 = 64'hC16821003E97DE00; + parameter [63:0] CTL_TX_VL_MARKER_ID1 = 64'h9D718E00628E7100; + parameter [63:0] CTL_TX_VL_MARKER_ID10 = 64'hFD6C990002936600; + parameter [63:0] CTL_TX_VL_MARKER_ID11 = 64'hB9915500466EAA00; + parameter [63:0] CTL_TX_VL_MARKER_ID12 = 64'h5CB9B200A3464D00; + parameter [63:0] CTL_TX_VL_MARKER_ID13 = 64'h1AF8BD00E5074200; + parameter [63:0] CTL_TX_VL_MARKER_ID14 = 64'h83C7CA007C383500; + parameter [63:0] CTL_TX_VL_MARKER_ID15 = 64'h3536CD00CAC93200; + parameter [63:0] CTL_TX_VL_MARKER_ID16 = 64'hC4314C003BCEB300; + parameter [63:0] CTL_TX_VL_MARKER_ID17 = 64'hADD6B70052294800; + parameter [63:0] CTL_TX_VL_MARKER_ID18 = 64'h5F662A00A099D500; + parameter [63:0] CTL_TX_VL_MARKER_ID19 = 64'hC0F0E5003F0F1A00; + parameter [63:0] CTL_TX_VL_MARKER_ID2 = 64'h594BE800A6B41700; + parameter [63:0] CTL_TX_VL_MARKER_ID3 = 64'h4D957B00B26A8400; + parameter [63:0] CTL_TX_VL_MARKER_ID4 = 64'hF50709000AF8F600; + parameter [63:0] CTL_TX_VL_MARKER_ID5 = 64'hDD14C20022EB3D00; + parameter [63:0] CTL_TX_VL_MARKER_ID6 = 64'h9A4A260065B5D900; + parameter [63:0] CTL_TX_VL_MARKER_ID7 = 64'h7B45660084BA9900; + parameter [63:0] CTL_TX_VL_MARKER_ID8 = 64'hA02476005FDB8900; + parameter [63:0] CTL_TX_VL_MARKER_ID9 = 64'h68C9FB0097360400; + parameter SIM_DEVICE = "ULTRASCALE_PLUS"; + parameter TEST_MODE_PIN_CHAR = "FALSE"; + output [15:0] DRP_DO; + output DRP_RDY; + output [329:0] RSFEC_BYPASS_RX_DOUT; + output RSFEC_BYPASS_RX_DOUT_CW_START; + output RSFEC_BYPASS_RX_DOUT_VALID; + output [329:0] RSFEC_BYPASS_TX_DOUT; + output RSFEC_BYPASS_TX_DOUT_CW_START; + output RSFEC_BYPASS_TX_DOUT_VALID; + output [127:0] RX_DATAOUT0; + output [127:0] RX_DATAOUT1; + output [127:0] RX_DATAOUT2; + output [127:0] RX_DATAOUT3; + output RX_ENAOUT0; + output RX_ENAOUT1; + output RX_ENAOUT2; + output RX_ENAOUT3; + output RX_EOPOUT0; + output RX_EOPOUT1; + output RX_EOPOUT2; + output RX_EOPOUT3; + output RX_ERROUT0; + output RX_ERROUT1; + output RX_ERROUT2; + output RX_ERROUT3; + output [6:0] RX_LANE_ALIGNER_FILL_0; + output [6:0] RX_LANE_ALIGNER_FILL_1; + output [6:0] RX_LANE_ALIGNER_FILL_10; + output [6:0] RX_LANE_ALIGNER_FILL_11; + output [6:0] RX_LANE_ALIGNER_FILL_12; + output [6:0] RX_LANE_ALIGNER_FILL_13; + output [6:0] RX_LANE_ALIGNER_FILL_14; + output [6:0] RX_LANE_ALIGNER_FILL_15; + output [6:0] RX_LANE_ALIGNER_FILL_16; + output [6:0] RX_LANE_ALIGNER_FILL_17; + output [6:0] RX_LANE_ALIGNER_FILL_18; + output [6:0] RX_LANE_ALIGNER_FILL_19; + output [6:0] RX_LANE_ALIGNER_FILL_2; + output [6:0] RX_LANE_ALIGNER_FILL_3; + output [6:0] RX_LANE_ALIGNER_FILL_4; + output [6:0] RX_LANE_ALIGNER_FILL_5; + output [6:0] RX_LANE_ALIGNER_FILL_6; + output [6:0] RX_LANE_ALIGNER_FILL_7; + output [6:0] RX_LANE_ALIGNER_FILL_8; + output [6:0] RX_LANE_ALIGNER_FILL_9; + output [3:0] RX_MTYOUT0; + output [3:0] RX_MTYOUT1; + output [3:0] RX_MTYOUT2; + output [3:0] RX_MTYOUT3; + output [7:0] RX_OTN_BIP8_0; + output [7:0] RX_OTN_BIP8_1; + output [7:0] RX_OTN_BIP8_2; + output [7:0] RX_OTN_BIP8_3; + output [7:0] RX_OTN_BIP8_4; + output [65:0] RX_OTN_DATA_0; + output [65:0] RX_OTN_DATA_1; + output [65:0] RX_OTN_DATA_2; + output [65:0] RX_OTN_DATA_3; + output [65:0] RX_OTN_DATA_4; + output RX_OTN_ENA; + output RX_OTN_LANE0; + output RX_OTN_VLMARKER; + output [55:0] RX_PREOUT; + output [4:0] RX_PTP_PCSLANE_OUT; + output [79:0] RX_PTP_TSTAMP_OUT; + output RX_SOPOUT0; + output RX_SOPOUT1; + output RX_SOPOUT2; + output RX_SOPOUT3; + output STAT_RX_ALIGNED; + output STAT_RX_ALIGNED_ERR; + output [2:0] STAT_RX_BAD_CODE; + output [2:0] STAT_RX_BAD_FCS; + output STAT_RX_BAD_PREAMBLE; + output STAT_RX_BAD_SFD; + output STAT_RX_BIP_ERR_0; + output STAT_RX_BIP_ERR_1; + output STAT_RX_BIP_ERR_10; + output STAT_RX_BIP_ERR_11; + output STAT_RX_BIP_ERR_12; + output STAT_RX_BIP_ERR_13; + output STAT_RX_BIP_ERR_14; + output STAT_RX_BIP_ERR_15; + output STAT_RX_BIP_ERR_16; + output STAT_RX_BIP_ERR_17; + output STAT_RX_BIP_ERR_18; + output STAT_RX_BIP_ERR_19; + output STAT_RX_BIP_ERR_2; + output STAT_RX_BIP_ERR_3; + output STAT_RX_BIP_ERR_4; + output STAT_RX_BIP_ERR_5; + output STAT_RX_BIP_ERR_6; + output STAT_RX_BIP_ERR_7; + output STAT_RX_BIP_ERR_8; + output STAT_RX_BIP_ERR_9; + output [19:0] STAT_RX_BLOCK_LOCK; + output STAT_RX_BROADCAST; + output [2:0] STAT_RX_FRAGMENT; + output [1:0] STAT_RX_FRAMING_ERR_0; + output [1:0] STAT_RX_FRAMING_ERR_1; + output [1:0] STAT_RX_FRAMING_ERR_10; + output [1:0] STAT_RX_FRAMING_ERR_11; + output [1:0] STAT_RX_FRAMING_ERR_12; + output [1:0] STAT_RX_FRAMING_ERR_13; + output [1:0] STAT_RX_FRAMING_ERR_14; + output [1:0] STAT_RX_FRAMING_ERR_15; + output [1:0] STAT_RX_FRAMING_ERR_16; + output [1:0] STAT_RX_FRAMING_ERR_17; + output [1:0] STAT_RX_FRAMING_ERR_18; + output [1:0] STAT_RX_FRAMING_ERR_19; + output [1:0] STAT_RX_FRAMING_ERR_2; + output [1:0] STAT_RX_FRAMING_ERR_3; + output [1:0] STAT_RX_FRAMING_ERR_4; + output [1:0] STAT_RX_FRAMING_ERR_5; + output [1:0] STAT_RX_FRAMING_ERR_6; + output [1:0] STAT_RX_FRAMING_ERR_7; + output [1:0] STAT_RX_FRAMING_ERR_8; + output [1:0] STAT_RX_FRAMING_ERR_9; + output STAT_RX_FRAMING_ERR_VALID_0; + output STAT_RX_FRAMING_ERR_VALID_1; + output STAT_RX_FRAMING_ERR_VALID_10; + output STAT_RX_FRAMING_ERR_VALID_11; + output STAT_RX_FRAMING_ERR_VALID_12; + output STAT_RX_FRAMING_ERR_VALID_13; + output STAT_RX_FRAMING_ERR_VALID_14; + output STAT_RX_FRAMING_ERR_VALID_15; + output STAT_RX_FRAMING_ERR_VALID_16; + output STAT_RX_FRAMING_ERR_VALID_17; + output STAT_RX_FRAMING_ERR_VALID_18; + output STAT_RX_FRAMING_ERR_VALID_19; + output STAT_RX_FRAMING_ERR_VALID_2; + output STAT_RX_FRAMING_ERR_VALID_3; + output STAT_RX_FRAMING_ERR_VALID_4; + output STAT_RX_FRAMING_ERR_VALID_5; + output STAT_RX_FRAMING_ERR_VALID_6; + output STAT_RX_FRAMING_ERR_VALID_7; + output STAT_RX_FRAMING_ERR_VALID_8; + output STAT_RX_FRAMING_ERR_VALID_9; + output STAT_RX_GOT_SIGNAL_OS; + output STAT_RX_HI_BER; + output STAT_RX_INRANGEERR; + output STAT_RX_INTERNAL_LOCAL_FAULT; + output STAT_RX_JABBER; + output [7:0] STAT_RX_LANE0_VLM_BIP7; + output STAT_RX_LANE0_VLM_BIP7_VALID; + output STAT_RX_LOCAL_FAULT; + output [19:0] STAT_RX_MF_ERR; + output [19:0] STAT_RX_MF_LEN_ERR; + output [19:0] STAT_RX_MF_REPEAT_ERR; + output STAT_RX_MISALIGNED; + output STAT_RX_MULTICAST; + output STAT_RX_OVERSIZE; + output STAT_RX_PACKET_1024_1518_BYTES; + output STAT_RX_PACKET_128_255_BYTES; + output STAT_RX_PACKET_1519_1522_BYTES; + output STAT_RX_PACKET_1523_1548_BYTES; + output STAT_RX_PACKET_1549_2047_BYTES; + output STAT_RX_PACKET_2048_4095_BYTES; + output STAT_RX_PACKET_256_511_BYTES; + output STAT_RX_PACKET_4096_8191_BYTES; + output STAT_RX_PACKET_512_1023_BYTES; + output STAT_RX_PACKET_64_BYTES; + output STAT_RX_PACKET_65_127_BYTES; + output STAT_RX_PACKET_8192_9215_BYTES; + output STAT_RX_PACKET_BAD_FCS; + output STAT_RX_PACKET_LARGE; + output [2:0] STAT_RX_PACKET_SMALL; + output STAT_RX_PAUSE; + output [15:0] STAT_RX_PAUSE_QUANTA0; + output [15:0] STAT_RX_PAUSE_QUANTA1; + output [15:0] STAT_RX_PAUSE_QUANTA2; + output [15:0] STAT_RX_PAUSE_QUANTA3; + output [15:0] STAT_RX_PAUSE_QUANTA4; + output [15:0] STAT_RX_PAUSE_QUANTA5; + output [15:0] STAT_RX_PAUSE_QUANTA6; + output [15:0] STAT_RX_PAUSE_QUANTA7; + output [15:0] STAT_RX_PAUSE_QUANTA8; + output [8:0] STAT_RX_PAUSE_REQ; + output [8:0] STAT_RX_PAUSE_VALID; + output STAT_RX_RECEIVED_LOCAL_FAULT; + output STAT_RX_REMOTE_FAULT; + output STAT_RX_RSFEC_AM_LOCK0; + output STAT_RX_RSFEC_AM_LOCK1; + output STAT_RX_RSFEC_AM_LOCK2; + output STAT_RX_RSFEC_AM_LOCK3; + output STAT_RX_RSFEC_CORRECTED_CW_INC; + output STAT_RX_RSFEC_CW_INC; + output [2:0] STAT_RX_RSFEC_ERR_COUNT0_INC; + output [2:0] STAT_RX_RSFEC_ERR_COUNT1_INC; + output [2:0] STAT_RX_RSFEC_ERR_COUNT2_INC; + output [2:0] STAT_RX_RSFEC_ERR_COUNT3_INC; + output STAT_RX_RSFEC_HI_SER; + output STAT_RX_RSFEC_LANE_ALIGNMENT_STATUS; + output [13:0] STAT_RX_RSFEC_LANE_FILL_0; + output [13:0] STAT_RX_RSFEC_LANE_FILL_1; + output [13:0] STAT_RX_RSFEC_LANE_FILL_2; + output [13:0] STAT_RX_RSFEC_LANE_FILL_3; + output [7:0] STAT_RX_RSFEC_LANE_MAPPING; + output [31:0] STAT_RX_RSFEC_RSVD; + output STAT_RX_RSFEC_UNCORRECTED_CW_INC; + output STAT_RX_STATUS; + output [2:0] STAT_RX_STOMPED_FCS; + output [19:0] STAT_RX_SYNCED; + output [19:0] STAT_RX_SYNCED_ERR; + output [2:0] STAT_RX_TEST_PATTERN_MISMATCH; + output STAT_RX_TOOLONG; + output [6:0] STAT_RX_TOTAL_BYTES; + output [13:0] STAT_RX_TOTAL_GOOD_BYTES; + output STAT_RX_TOTAL_GOOD_PACKETS; + output [2:0] STAT_RX_TOTAL_PACKETS; + output STAT_RX_TRUNCATED; + output [2:0] STAT_RX_UNDERSIZE; + output STAT_RX_UNICAST; + output STAT_RX_USER_PAUSE; + output STAT_RX_VLAN; + output [19:0] STAT_RX_VL_DEMUXED; + output [4:0] STAT_RX_VL_NUMBER_0; + output [4:0] STAT_RX_VL_NUMBER_1; + output [4:0] STAT_RX_VL_NUMBER_10; + output [4:0] STAT_RX_VL_NUMBER_11; + output [4:0] STAT_RX_VL_NUMBER_12; + output [4:0] STAT_RX_VL_NUMBER_13; + output [4:0] STAT_RX_VL_NUMBER_14; + output [4:0] STAT_RX_VL_NUMBER_15; + output [4:0] STAT_RX_VL_NUMBER_16; + output [4:0] STAT_RX_VL_NUMBER_17; + output [4:0] STAT_RX_VL_NUMBER_18; + output [4:0] STAT_RX_VL_NUMBER_19; + output [4:0] STAT_RX_VL_NUMBER_2; + output [4:0] STAT_RX_VL_NUMBER_3; + output [4:0] STAT_RX_VL_NUMBER_4; + output [4:0] STAT_RX_VL_NUMBER_5; + output [4:0] STAT_RX_VL_NUMBER_6; + output [4:0] STAT_RX_VL_NUMBER_7; + output [4:0] STAT_RX_VL_NUMBER_8; + output [4:0] STAT_RX_VL_NUMBER_9; + output STAT_TX_BAD_FCS; + output STAT_TX_BROADCAST; + output STAT_TX_FRAME_ERROR; + output STAT_TX_LOCAL_FAULT; + output STAT_TX_MULTICAST; + output STAT_TX_PACKET_1024_1518_BYTES; + output STAT_TX_PACKET_128_255_BYTES; + output STAT_TX_PACKET_1519_1522_BYTES; + output STAT_TX_PACKET_1523_1548_BYTES; + output STAT_TX_PACKET_1549_2047_BYTES; + output STAT_TX_PACKET_2048_4095_BYTES; + output STAT_TX_PACKET_256_511_BYTES; + output STAT_TX_PACKET_4096_8191_BYTES; + output STAT_TX_PACKET_512_1023_BYTES; + output STAT_TX_PACKET_64_BYTES; + output STAT_TX_PACKET_65_127_BYTES; + output STAT_TX_PACKET_8192_9215_BYTES; + output STAT_TX_PACKET_LARGE; + output STAT_TX_PACKET_SMALL; + output STAT_TX_PAUSE; + output [8:0] STAT_TX_PAUSE_VALID; + output STAT_TX_PTP_FIFO_READ_ERROR; + output STAT_TX_PTP_FIFO_WRITE_ERROR; + output [5:0] STAT_TX_TOTAL_BYTES; + output [13:0] STAT_TX_TOTAL_GOOD_BYTES; + output STAT_TX_TOTAL_GOOD_PACKETS; + output STAT_TX_TOTAL_PACKETS; + output STAT_TX_UNICAST; + output STAT_TX_USER_PAUSE; + output STAT_TX_VLAN; + output TX_OVFOUT; + output [4:0] TX_PTP_PCSLANE_OUT; + output [79:0] TX_PTP_TSTAMP_OUT; + output [15:0] TX_PTP_TSTAMP_TAG_OUT; + output TX_PTP_TSTAMP_VALID_OUT; + output TX_RDYOUT; + output [15:0] TX_SERDES_ALT_DATA0; + output [15:0] TX_SERDES_ALT_DATA1; + output [15:0] TX_SERDES_ALT_DATA2; + output [15:0] TX_SERDES_ALT_DATA3; + output [63:0] TX_SERDES_DATA0; + output [63:0] TX_SERDES_DATA1; + output [63:0] TX_SERDES_DATA2; + output [63:0] TX_SERDES_DATA3; + output [31:0] TX_SERDES_DATA4; + output [31:0] TX_SERDES_DATA5; + output [31:0] TX_SERDES_DATA6; + output [31:0] TX_SERDES_DATA7; + output [31:0] TX_SERDES_DATA8; + output [31:0] TX_SERDES_DATA9; + output TX_UNFOUT; + input CTL_CAUI4_MODE; + input CTL_RSFEC_ENABLE_TRANSCODER_BYPASS_MODE; + input CTL_RSFEC_IEEE_ERROR_INDICATION_MODE; + input CTL_RX_CHECK_ETYPE_GCP; + input CTL_RX_CHECK_ETYPE_GPP; + input CTL_RX_CHECK_ETYPE_PCP; + input CTL_RX_CHECK_ETYPE_PPP; + input CTL_RX_CHECK_MCAST_GCP; + input CTL_RX_CHECK_MCAST_GPP; + input CTL_RX_CHECK_MCAST_PCP; + input CTL_RX_CHECK_MCAST_PPP; + input CTL_RX_CHECK_OPCODE_GCP; + input CTL_RX_CHECK_OPCODE_GPP; + input CTL_RX_CHECK_OPCODE_PCP; + input CTL_RX_CHECK_OPCODE_PPP; + input CTL_RX_CHECK_SA_GCP; + input CTL_RX_CHECK_SA_GPP; + input CTL_RX_CHECK_SA_PCP; + input CTL_RX_CHECK_SA_PPP; + input CTL_RX_CHECK_UCAST_GCP; + input CTL_RX_CHECK_UCAST_GPP; + input CTL_RX_CHECK_UCAST_PCP; + input CTL_RX_CHECK_UCAST_PPP; + input CTL_RX_ENABLE; + input CTL_RX_ENABLE_GCP; + input CTL_RX_ENABLE_GPP; + input CTL_RX_ENABLE_PCP; + input CTL_RX_ENABLE_PPP; + input CTL_RX_FORCE_RESYNC; + input [8:0] CTL_RX_PAUSE_ACK; + input [8:0] CTL_RX_PAUSE_ENABLE; + input CTL_RX_RSFEC_ENABLE; + input CTL_RX_RSFEC_ENABLE_CORRECTION; + input CTL_RX_RSFEC_ENABLE_INDICATION; + input [79:0] CTL_RX_SYSTEMTIMERIN; + input CTL_RX_TEST_PATTERN; + input CTL_TX_ENABLE; + input CTL_TX_LANE0_VLM_BIP7_OVERRIDE; + input [7:0] CTL_TX_LANE0_VLM_BIP7_OVERRIDE_VALUE; + input [8:0] CTL_TX_PAUSE_ENABLE; + input [15:0] CTL_TX_PAUSE_QUANTA0; + input [15:0] CTL_TX_PAUSE_QUANTA1; + input [15:0] CTL_TX_PAUSE_QUANTA2; + input [15:0] CTL_TX_PAUSE_QUANTA3; + input [15:0] CTL_TX_PAUSE_QUANTA4; + input [15:0] CTL_TX_PAUSE_QUANTA5; + input [15:0] CTL_TX_PAUSE_QUANTA6; + input [15:0] CTL_TX_PAUSE_QUANTA7; + input [15:0] CTL_TX_PAUSE_QUANTA8; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER0; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER1; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER2; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER3; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER4; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER5; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER6; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER7; + input [15:0] CTL_TX_PAUSE_REFRESH_TIMER8; + input [8:0] CTL_TX_PAUSE_REQ; + input CTL_TX_PTP_VLANE_ADJUST_MODE; + input CTL_TX_RESEND_PAUSE; + input CTL_TX_RSFEC_ENABLE; + input CTL_TX_SEND_IDLE; + input CTL_TX_SEND_LFI; + input CTL_TX_SEND_RFI; + input [79:0] CTL_TX_SYSTEMTIMERIN; + input CTL_TX_TEST_PATTERN; + input [9:0] DRP_ADDR; + input DRP_CLK; + input [15:0] DRP_DI; + input DRP_EN; + input DRP_WE; + input [329:0] RSFEC_BYPASS_RX_DIN; + input RSFEC_BYPASS_RX_DIN_CW_START; + input [329:0] RSFEC_BYPASS_TX_DIN; + input RSFEC_BYPASS_TX_DIN_CW_START; + input RX_CLK; + input RX_RESET; + input [15:0] RX_SERDES_ALT_DATA0; + input [15:0] RX_SERDES_ALT_DATA1; + input [15:0] RX_SERDES_ALT_DATA2; + input [15:0] RX_SERDES_ALT_DATA3; + input [9:0] RX_SERDES_CLK; + input [63:0] RX_SERDES_DATA0; + input [63:0] RX_SERDES_DATA1; + input [63:0] RX_SERDES_DATA2; + input [63:0] RX_SERDES_DATA3; + input [31:0] RX_SERDES_DATA4; + input [31:0] RX_SERDES_DATA5; + input [31:0] RX_SERDES_DATA6; + input [31:0] RX_SERDES_DATA7; + input [31:0] RX_SERDES_DATA8; + input [31:0] RX_SERDES_DATA9; + input [9:0] RX_SERDES_RESET; + input TX_CLK; + input [127:0] TX_DATAIN0; + input [127:0] TX_DATAIN1; + input [127:0] TX_DATAIN2; + input [127:0] TX_DATAIN3; + input TX_ENAIN0; + input TX_ENAIN1; + input TX_ENAIN2; + input TX_ENAIN3; + input TX_EOPIN0; + input TX_EOPIN1; + input TX_EOPIN2; + input TX_EOPIN3; + input TX_ERRIN0; + input TX_ERRIN1; + input TX_ERRIN2; + input TX_ERRIN3; + input [3:0] TX_MTYIN0; + input [3:0] TX_MTYIN1; + input [3:0] TX_MTYIN2; + input [3:0] TX_MTYIN3; + input [55:0] TX_PREIN; + input [1:0] TX_PTP_1588OP_IN; + input [15:0] TX_PTP_CHKSUM_OFFSET_IN; + input [63:0] TX_PTP_RXTSTAMP_IN; + input [15:0] TX_PTP_TAG_FIELD_IN; + input [15:0] TX_PTP_TSTAMP_OFFSET_IN; + input TX_PTP_UPD_CHKSUM_IN; + input TX_RESET; + input TX_SOPIN0; + input TX_SOPIN1; + input TX_SOPIN2; + input TX_SOPIN3; +endmodule + +module GTHE3_CHANNEL (...); + parameter [0:0] ACJTAG_DEBUG_MODE = 1'b0; + parameter [0:0] ACJTAG_MODE = 1'b0; + parameter [0:0] ACJTAG_RESET = 1'b0; + parameter [15:0] ADAPT_CFG0 = 16'hF800; + parameter [15:0] ADAPT_CFG1 = 16'h0000; + parameter ALIGN_COMMA_DOUBLE = "FALSE"; + parameter [9:0] ALIGN_COMMA_ENABLE = 10'b0001111111; + parameter integer ALIGN_COMMA_WORD = 1; + parameter ALIGN_MCOMMA_DET = "TRUE"; + parameter [9:0] ALIGN_MCOMMA_VALUE = 10'b1010000011; + parameter ALIGN_PCOMMA_DET = "TRUE"; + parameter [9:0] ALIGN_PCOMMA_VALUE = 10'b0101111100; + parameter [0:0] A_RXOSCALRESET = 1'b0; + parameter [0:0] A_RXPROGDIVRESET = 1'b0; + parameter [0:0] A_TXPROGDIVRESET = 1'b0; + parameter CBCC_DATA_SOURCE_SEL = "DECODED"; + parameter [0:0] CDR_SWAP_MODE_EN = 1'b0; + parameter CHAN_BOND_KEEP_ALIGN = "FALSE"; + parameter integer CHAN_BOND_MAX_SKEW = 7; + parameter [9:0] CHAN_BOND_SEQ_1_1 = 10'b0101111100; + parameter [9:0] CHAN_BOND_SEQ_1_2 = 10'b0000000000; + parameter [9:0] CHAN_BOND_SEQ_1_3 = 10'b0000000000; + parameter [9:0] CHAN_BOND_SEQ_1_4 = 10'b0000000000; + parameter [3:0] CHAN_BOND_SEQ_1_ENABLE = 4'b1111; + parameter [9:0] CHAN_BOND_SEQ_2_1 = 10'b0100000000; + parameter [9:0] CHAN_BOND_SEQ_2_2 = 10'b0100000000; + parameter [9:0] CHAN_BOND_SEQ_2_3 = 10'b0100000000; + parameter [9:0] CHAN_BOND_SEQ_2_4 = 10'b0100000000; + parameter [3:0] CHAN_BOND_SEQ_2_ENABLE = 4'b1111; + parameter CHAN_BOND_SEQ_2_USE = "FALSE"; + parameter integer CHAN_BOND_SEQ_LEN = 2; + parameter CLK_CORRECT_USE = "TRUE"; + parameter CLK_COR_KEEP_IDLE = "FALSE"; + parameter integer CLK_COR_MAX_LAT = 20; + parameter integer CLK_COR_MIN_LAT = 18; + parameter CLK_COR_PRECEDENCE = "TRUE"; + parameter integer CLK_COR_REPEAT_WAIT = 0; + parameter [9:0] CLK_COR_SEQ_1_1 = 10'b0100011100; + parameter [9:0] CLK_COR_SEQ_1_2 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_1_3 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_1_4 = 10'b0000000000; + parameter [3:0] CLK_COR_SEQ_1_ENABLE = 4'b1111; + parameter [9:0] CLK_COR_SEQ_2_1 = 10'b0100000000; + parameter [9:0] CLK_COR_SEQ_2_2 = 10'b0100000000; + parameter [9:0] CLK_COR_SEQ_2_3 = 10'b0100000000; + parameter [9:0] CLK_COR_SEQ_2_4 = 10'b0100000000; + parameter [3:0] CLK_COR_SEQ_2_ENABLE = 4'b1111; + parameter CLK_COR_SEQ_2_USE = "FALSE"; + parameter integer CLK_COR_SEQ_LEN = 2; + parameter [15:0] CPLL_CFG0 = 16'h20F8; + parameter [15:0] CPLL_CFG1 = 16'hA494; + parameter [15:0] CPLL_CFG2 = 16'hF001; + parameter [5:0] CPLL_CFG3 = 6'h00; + parameter integer CPLL_FBDIV = 4; + parameter integer CPLL_FBDIV_45 = 4; + parameter [15:0] CPLL_INIT_CFG0 = 16'h001E; + parameter [7:0] CPLL_INIT_CFG1 = 8'h00; + parameter [15:0] CPLL_LOCK_CFG = 16'h01E8; + parameter integer CPLL_REFCLK_DIV = 1; + parameter [1:0] DDI_CTRL = 2'b00; + parameter integer DDI_REALIGN_WAIT = 15; + parameter DEC_MCOMMA_DETECT = "TRUE"; + parameter DEC_PCOMMA_DETECT = "TRUE"; + parameter DEC_VALID_COMMA_ONLY = "TRUE"; + parameter [0:0] DFE_D_X_REL_POS = 1'b0; + parameter [0:0] DFE_VCM_COMP_EN = 1'b0; + parameter [9:0] DMONITOR_CFG0 = 10'h000; + parameter [7:0] DMONITOR_CFG1 = 8'h00; + parameter [0:0] ES_CLK_PHASE_SEL = 1'b0; + parameter [5:0] ES_CONTROL = 6'b000000; + parameter ES_ERRDET_EN = "FALSE"; + parameter ES_EYE_SCAN_EN = "FALSE"; + parameter [11:0] ES_HORZ_OFFSET = 12'h000; + parameter [9:0] ES_PMA_CFG = 10'b0000000000; + parameter [4:0] ES_PRESCALE = 5'b00000; + parameter [15:0] ES_QUALIFIER0 = 16'h0000; + parameter [15:0] ES_QUALIFIER1 = 16'h0000; + parameter [15:0] ES_QUALIFIER2 = 16'h0000; + parameter [15:0] ES_QUALIFIER3 = 16'h0000; + parameter [15:0] ES_QUALIFIER4 = 16'h0000; + parameter [15:0] ES_QUAL_MASK0 = 16'h0000; + parameter [15:0] ES_QUAL_MASK1 = 16'h0000; + parameter [15:0] ES_QUAL_MASK2 = 16'h0000; + parameter [15:0] ES_QUAL_MASK3 = 16'h0000; + parameter [15:0] ES_QUAL_MASK4 = 16'h0000; + parameter [15:0] ES_SDATA_MASK0 = 16'h0000; + parameter [15:0] ES_SDATA_MASK1 = 16'h0000; + parameter [15:0] ES_SDATA_MASK2 = 16'h0000; + parameter [15:0] ES_SDATA_MASK3 = 16'h0000; + parameter [15:0] ES_SDATA_MASK4 = 16'h0000; + parameter [10:0] EVODD_PHI_CFG = 11'b00000000000; + parameter [0:0] EYE_SCAN_SWAP_EN = 1'b0; + parameter [3:0] FTS_DESKEW_SEQ_ENABLE = 4'b1111; + parameter [3:0] FTS_LANE_DESKEW_CFG = 4'b1111; + parameter FTS_LANE_DESKEW_EN = "FALSE"; + parameter [4:0] GEARBOX_MODE = 5'b00000; + parameter [0:0] GM_BIAS_SELECT = 1'b0; + parameter [0:0] LOCAL_MASTER = 1'b0; + parameter [1:0] OOBDIVCTL = 2'b00; + parameter [0:0] OOB_PWRUP = 1'b0; + parameter PCI3_AUTO_REALIGN = "FRST_SMPL"; + parameter [0:0] PCI3_PIPE_RX_ELECIDLE = 1'b1; + parameter [1:0] PCI3_RX_ASYNC_EBUF_BYPASS = 2'b00; + parameter [0:0] PCI3_RX_ELECIDLE_EI2_ENABLE = 1'b0; + parameter [5:0] PCI3_RX_ELECIDLE_H2L_COUNT = 6'b000000; + parameter [2:0] PCI3_RX_ELECIDLE_H2L_DISABLE = 3'b000; + parameter [5:0] PCI3_RX_ELECIDLE_HI_COUNT = 6'b000000; + parameter [0:0] PCI3_RX_ELECIDLE_LP4_DISABLE = 1'b0; + parameter [0:0] PCI3_RX_FIFO_DISABLE = 1'b0; + parameter [15:0] PCIE_BUFG_DIV_CTRL = 16'h0000; + parameter [15:0] PCIE_RXPCS_CFG_GEN3 = 16'h0000; + parameter [15:0] PCIE_RXPMA_CFG = 16'h0000; + parameter [15:0] PCIE_TXPCS_CFG_GEN3 = 16'h0000; + parameter [15:0] PCIE_TXPMA_CFG = 16'h0000; + parameter PCS_PCIE_EN = "FALSE"; + parameter [15:0] PCS_RSVD0 = 16'b0000000000000000; + parameter [2:0] PCS_RSVD1 = 3'b000; + parameter [11:0] PD_TRANS_TIME_FROM_P2 = 12'h03C; + parameter [7:0] PD_TRANS_TIME_NONE_P2 = 8'h19; + parameter [7:0] PD_TRANS_TIME_TO_P2 = 8'h64; + parameter [1:0] PLL_SEL_MODE_GEN12 = 2'h0; + parameter [1:0] PLL_SEL_MODE_GEN3 = 2'h0; + parameter [15:0] PMA_RSV1 = 16'h0000; + parameter [2:0] PROCESS_PAR = 3'b010; + parameter [0:0] RATE_SW_USE_DRP = 1'b0; + parameter [0:0] RESET_POWERSAVE_DISABLE = 1'b0; + parameter [4:0] RXBUFRESET_TIME = 5'b00001; + parameter RXBUF_ADDR_MODE = "FULL"; + parameter [3:0] RXBUF_EIDLE_HI_CNT = 4'b1000; + parameter [3:0] RXBUF_EIDLE_LO_CNT = 4'b0000; + parameter RXBUF_EN = "TRUE"; + parameter RXBUF_RESET_ON_CB_CHANGE = "TRUE"; + parameter RXBUF_RESET_ON_COMMAALIGN = "FALSE"; + parameter RXBUF_RESET_ON_EIDLE = "FALSE"; + parameter RXBUF_RESET_ON_RATE_CHANGE = "TRUE"; + parameter integer RXBUF_THRESH_OVFLW = 0; + parameter RXBUF_THRESH_OVRD = "FALSE"; + parameter integer RXBUF_THRESH_UNDFLW = 4; + parameter [4:0] RXCDRFREQRESET_TIME = 5'b00001; + parameter [4:0] RXCDRPHRESET_TIME = 5'b00001; + parameter [15:0] RXCDR_CFG0 = 16'h0000; + parameter [15:0] RXCDR_CFG0_GEN3 = 16'h0000; + parameter [15:0] RXCDR_CFG1 = 16'h0080; + parameter [15:0] RXCDR_CFG1_GEN3 = 16'h0000; + parameter [15:0] RXCDR_CFG2 = 16'h07E6; + parameter [15:0] RXCDR_CFG2_GEN3 = 16'h0000; + parameter [15:0] RXCDR_CFG3 = 16'h0000; + parameter [15:0] RXCDR_CFG3_GEN3 = 16'h0000; + parameter [15:0] RXCDR_CFG4 = 16'h0000; + parameter [15:0] RXCDR_CFG4_GEN3 = 16'h0000; + parameter [15:0] RXCDR_CFG5 = 16'h0000; + parameter [15:0] RXCDR_CFG5_GEN3 = 16'h0000; + parameter [0:0] RXCDR_FR_RESET_ON_EIDLE = 1'b0; + parameter [0:0] RXCDR_HOLD_DURING_EIDLE = 1'b0; + parameter [15:0] RXCDR_LOCK_CFG0 = 16'h5080; + parameter [15:0] RXCDR_LOCK_CFG1 = 16'h07E0; + parameter [15:0] RXCDR_LOCK_CFG2 = 16'h7C42; + parameter [0:0] RXCDR_PH_RESET_ON_EIDLE = 1'b0; + parameter [15:0] RXCFOK_CFG0 = 16'h4000; + parameter [15:0] RXCFOK_CFG1 = 16'h0060; + parameter [15:0] RXCFOK_CFG2 = 16'h000E; + parameter [6:0] RXDFELPMRESET_TIME = 7'b0001111; + parameter [15:0] RXDFELPM_KL_CFG0 = 16'h0000; + parameter [15:0] RXDFELPM_KL_CFG1 = 16'h0032; + parameter [15:0] RXDFELPM_KL_CFG2 = 16'h0000; + parameter [15:0] RXDFE_CFG0 = 16'h0A00; + parameter [15:0] RXDFE_CFG1 = 16'h0000; + parameter [15:0] RXDFE_GC_CFG0 = 16'h0000; + parameter [15:0] RXDFE_GC_CFG1 = 16'h7840; + parameter [15:0] RXDFE_GC_CFG2 = 16'h0000; + parameter [15:0] RXDFE_H2_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H2_CFG1 = 16'h0000; + parameter [15:0] RXDFE_H3_CFG0 = 16'h4000; + parameter [15:0] RXDFE_H3_CFG1 = 16'h0000; + parameter [15:0] RXDFE_H4_CFG0 = 16'h2000; + parameter [15:0] RXDFE_H4_CFG1 = 16'h0003; + parameter [15:0] RXDFE_H5_CFG0 = 16'h2000; + parameter [15:0] RXDFE_H5_CFG1 = 16'h0003; + parameter [15:0] RXDFE_H6_CFG0 = 16'h2000; + parameter [15:0] RXDFE_H6_CFG1 = 16'h0000; + parameter [15:0] RXDFE_H7_CFG0 = 16'h2000; + parameter [15:0] RXDFE_H7_CFG1 = 16'h0000; + parameter [15:0] RXDFE_H8_CFG0 = 16'h2000; + parameter [15:0] RXDFE_H8_CFG1 = 16'h0000; + parameter [15:0] RXDFE_H9_CFG0 = 16'h2000; + parameter [15:0] RXDFE_H9_CFG1 = 16'h0000; + parameter [15:0] RXDFE_HA_CFG0 = 16'h2000; + parameter [15:0] RXDFE_HA_CFG1 = 16'h0000; + parameter [15:0] RXDFE_HB_CFG0 = 16'h2000; + parameter [15:0] RXDFE_HB_CFG1 = 16'h0000; + parameter [15:0] RXDFE_HC_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HC_CFG1 = 16'h0000; + parameter [15:0] RXDFE_HD_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HD_CFG1 = 16'h0000; + parameter [15:0] RXDFE_HE_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HE_CFG1 = 16'h0000; + parameter [15:0] RXDFE_HF_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HF_CFG1 = 16'h0000; + parameter [15:0] RXDFE_OS_CFG0 = 16'h8000; + parameter [15:0] RXDFE_OS_CFG1 = 16'h0000; + parameter [15:0] RXDFE_UT_CFG0 = 16'h8000; + parameter [15:0] RXDFE_UT_CFG1 = 16'h0003; + parameter [15:0] RXDFE_VP_CFG0 = 16'hAA00; + parameter [15:0] RXDFE_VP_CFG1 = 16'h0033; + parameter [15:0] RXDLY_CFG = 16'h001F; + parameter [15:0] RXDLY_LCFG = 16'h0030; + parameter RXELECIDLE_CFG = "Sigcfg_4"; + parameter integer RXGBOX_FIFO_INIT_RD_ADDR = 4; + parameter RXGEARBOX_EN = "FALSE"; + parameter [4:0] RXISCANRESET_TIME = 5'b00001; + parameter [15:0] RXLPM_CFG = 16'h0000; + parameter [15:0] RXLPM_GC_CFG = 16'h0000; + parameter [15:0] RXLPM_KH_CFG0 = 16'h0000; + parameter [15:0] RXLPM_KH_CFG1 = 16'h0002; + parameter [15:0] RXLPM_OS_CFG0 = 16'h8000; + parameter [15:0] RXLPM_OS_CFG1 = 16'h0002; + parameter [8:0] RXOOB_CFG = 9'b000000110; + parameter RXOOB_CLK_CFG = "PMA"; + parameter [4:0] RXOSCALRESET_TIME = 5'b00011; + parameter integer RXOUT_DIV = 4; + parameter [4:0] RXPCSRESET_TIME = 5'b00001; + parameter [15:0] RXPHBEACON_CFG = 16'h0000; + parameter [15:0] RXPHDLY_CFG = 16'h2020; + parameter [15:0] RXPHSAMP_CFG = 16'h2100; + parameter [15:0] RXPHSLIP_CFG = 16'h6622; + parameter [4:0] RXPH_MONITOR_SEL = 5'b00000; + parameter [1:0] RXPI_CFG0 = 2'b00; + parameter [1:0] RXPI_CFG1 = 2'b00; + parameter [1:0] RXPI_CFG2 = 2'b00; + parameter [1:0] RXPI_CFG3 = 2'b00; + parameter [0:0] RXPI_CFG4 = 1'b0; + parameter [0:0] RXPI_CFG5 = 1'b1; + parameter [2:0] RXPI_CFG6 = 3'b000; + parameter [0:0] RXPI_LPM = 1'b0; + parameter [0:0] RXPI_VREFSEL = 1'b0; + parameter RXPMACLK_SEL = "DATA"; + parameter [4:0] RXPMARESET_TIME = 5'b00001; + parameter [0:0] RXPRBS_ERR_LOOPBACK = 1'b0; + parameter integer RXPRBS_LINKACQ_CNT = 15; + parameter integer RXSLIDE_AUTO_WAIT = 7; + parameter RXSLIDE_MODE = "OFF"; + parameter [0:0] RXSYNC_MULTILANE = 1'b0; + parameter [0:0] RXSYNC_OVRD = 1'b0; + parameter [0:0] RXSYNC_SKIP_DA = 1'b0; + parameter [0:0] RX_AFE_CM_EN = 1'b0; + parameter [15:0] RX_BIAS_CFG0 = 16'h0AD4; + parameter [5:0] RX_BUFFER_CFG = 6'b000000; + parameter [0:0] RX_CAPFF_SARC_ENB = 1'b0; + parameter integer RX_CLK25_DIV = 8; + parameter [0:0] RX_CLKMUX_EN = 1'b1; + parameter [4:0] RX_CLK_SLIP_OVRD = 5'b00000; + parameter [3:0] RX_CM_BUF_CFG = 4'b1010; + parameter [0:0] RX_CM_BUF_PD = 1'b0; + parameter [1:0] RX_CM_SEL = 2'b11; + parameter [3:0] RX_CM_TRIM = 4'b0100; + parameter [7:0] RX_CTLE3_LPF = 8'b00000000; + parameter integer RX_DATA_WIDTH = 20; + parameter [5:0] RX_DDI_SEL = 6'b000000; + parameter RX_DEFER_RESET_BUF_EN = "TRUE"; + parameter [3:0] RX_DFELPM_CFG0 = 4'b0110; + parameter [0:0] RX_DFELPM_CFG1 = 1'b0; + parameter [0:0] RX_DFELPM_KLKH_AGC_STUP_EN = 1'b1; + parameter [1:0] RX_DFE_AGC_CFG0 = 2'b00; + parameter [2:0] RX_DFE_AGC_CFG1 = 3'b100; + parameter [1:0] RX_DFE_KL_LPM_KH_CFG0 = 2'b01; + parameter [2:0] RX_DFE_KL_LPM_KH_CFG1 = 3'b010; + parameter [1:0] RX_DFE_KL_LPM_KL_CFG0 = 2'b01; + parameter [2:0] RX_DFE_KL_LPM_KL_CFG1 = 3'b010; + parameter [0:0] RX_DFE_LPM_HOLD_DURING_EIDLE = 1'b0; + parameter RX_DISPERR_SEQ_MATCH = "TRUE"; + parameter [4:0] RX_DIVRESET_TIME = 5'b00001; + parameter [0:0] RX_EN_HI_LR = 1'b0; + parameter [6:0] RX_EYESCAN_VS_CODE = 7'b0000000; + parameter [0:0] RX_EYESCAN_VS_NEG_DIR = 1'b0; + parameter [1:0] RX_EYESCAN_VS_RANGE = 2'b00; + parameter [0:0] RX_EYESCAN_VS_UT_SIGN = 1'b0; + parameter [0:0] RX_FABINT_USRCLK_FLOP = 1'b0; + parameter integer RX_INT_DATAWIDTH = 1; + parameter [0:0] RX_PMA_POWER_SAVE = 1'b0; + parameter real RX_PROGDIV_CFG = 4.0; + parameter [2:0] RX_SAMPLE_PERIOD = 3'b101; + parameter integer RX_SIG_VALID_DLY = 11; + parameter [0:0] RX_SUM_DFETAPREP_EN = 1'b0; + parameter [3:0] RX_SUM_IREF_TUNE = 4'b0000; + parameter [1:0] RX_SUM_RES_CTRL = 2'b00; + parameter [3:0] RX_SUM_VCMTUNE = 4'b0000; + parameter [0:0] RX_SUM_VCM_OVWR = 1'b0; + parameter [2:0] RX_SUM_VREF_TUNE = 3'b000; + parameter [1:0] RX_TUNE_AFE_OS = 2'b00; + parameter [0:0] RX_WIDEMODE_CDR = 1'b0; + parameter RX_XCLK_SEL = "RXDES"; + parameter integer SAS_MAX_COM = 64; + parameter integer SAS_MIN_COM = 36; + parameter [3:0] SATA_BURST_SEQ_LEN = 4'b1111; + parameter [2:0] SATA_BURST_VAL = 3'b100; + parameter SATA_CPLL_CFG = "VCO_3000MHZ"; + parameter [2:0] SATA_EIDLE_VAL = 3'b100; + parameter integer SATA_MAX_BURST = 8; + parameter integer SATA_MAX_INIT = 21; + parameter integer SATA_MAX_WAKE = 7; + parameter integer SATA_MIN_BURST = 4; + parameter integer SATA_MIN_INIT = 12; + parameter integer SATA_MIN_WAKE = 4; + parameter SHOW_REALIGN_COMMA = "TRUE"; + parameter SIM_MODE = "FAST"; + parameter SIM_RECEIVER_DETECT_PASS = "TRUE"; + parameter SIM_RESET_SPEEDUP = "TRUE"; + parameter [0:0] SIM_TX_EIDLE_DRIVE_LEVEL = 1'b0; + parameter integer SIM_VERSION = 2; + parameter [1:0] TAPDLY_SET_TX = 2'h0; + parameter [3:0] TEMPERATUR_PAR = 4'b0010; + parameter [14:0] TERM_RCAL_CFG = 15'b100001000010000; + parameter [2:0] TERM_RCAL_OVRD = 3'b000; + parameter [7:0] TRANS_TIME_RATE = 8'h0E; + parameter [7:0] TST_RSV0 = 8'h00; + parameter [7:0] TST_RSV1 = 8'h00; + parameter TXBUF_EN = "TRUE"; + parameter TXBUF_RESET_ON_RATE_CHANGE = "FALSE"; + parameter [15:0] TXDLY_CFG = 16'h001F; + parameter [15:0] TXDLY_LCFG = 16'h0030; + parameter [3:0] TXDRVBIAS_N = 4'b1010; + parameter [3:0] TXDRVBIAS_P = 4'b1100; + parameter TXFIFO_ADDR_CFG = "LOW"; + parameter integer TXGBOX_FIFO_INIT_RD_ADDR = 4; + parameter TXGEARBOX_EN = "FALSE"; + parameter integer TXOUT_DIV = 4; + parameter [4:0] TXPCSRESET_TIME = 5'b00001; + parameter [15:0] TXPHDLY_CFG0 = 16'h2020; + parameter [15:0] TXPHDLY_CFG1 = 16'h0001; + parameter [15:0] TXPH_CFG = 16'h0980; + parameter [4:0] TXPH_MONITOR_SEL = 5'b00000; + parameter [1:0] TXPI_CFG0 = 2'b00; + parameter [1:0] TXPI_CFG1 = 2'b00; + parameter [1:0] TXPI_CFG2 = 2'b00; + parameter [0:0] TXPI_CFG3 = 1'b0; + parameter [0:0] TXPI_CFG4 = 1'b1; + parameter [2:0] TXPI_CFG5 = 3'b000; + parameter [0:0] TXPI_GRAY_SEL = 1'b0; + parameter [0:0] TXPI_INVSTROBE_SEL = 1'b0; + parameter [0:0] TXPI_LPM = 1'b0; + parameter TXPI_PPMCLK_SEL = "TXUSRCLK2"; + parameter [7:0] TXPI_PPM_CFG = 8'b00000000; + parameter [2:0] TXPI_SYNFREQ_PPM = 3'b000; + parameter [0:0] TXPI_VREFSEL = 1'b0; + parameter [4:0] TXPMARESET_TIME = 5'b00001; + parameter [0:0] TXSYNC_MULTILANE = 1'b0; + parameter [0:0] TXSYNC_OVRD = 1'b0; + parameter [0:0] TXSYNC_SKIP_DA = 1'b0; + parameter integer TX_CLK25_DIV = 8; + parameter [0:0] TX_CLKMUX_EN = 1'b1; + parameter integer TX_DATA_WIDTH = 20; + parameter [5:0] TX_DCD_CFG = 6'b000010; + parameter [0:0] TX_DCD_EN = 1'b0; + parameter [5:0] TX_DEEMPH0 = 6'b000000; + parameter [5:0] TX_DEEMPH1 = 6'b000000; + parameter [4:0] TX_DIVRESET_TIME = 5'b00001; + parameter TX_DRIVE_MODE = "DIRECT"; + parameter [2:0] TX_EIDLE_ASSERT_DELAY = 3'b110; + parameter [2:0] TX_EIDLE_DEASSERT_DELAY = 3'b100; + parameter [0:0] TX_EML_PHI_TUNE = 1'b0; + parameter [0:0] TX_FABINT_USRCLK_FLOP = 1'b0; + parameter [0:0] TX_IDLE_DATA_ZERO = 1'b0; + parameter integer TX_INT_DATAWIDTH = 1; + parameter TX_LOOPBACK_DRIVE_HIZ = "FALSE"; + parameter [0:0] TX_MAINCURSOR_SEL = 1'b0; + parameter [6:0] TX_MARGIN_FULL_0 = 7'b1001110; + parameter [6:0] TX_MARGIN_FULL_1 = 7'b1001001; + parameter [6:0] TX_MARGIN_FULL_2 = 7'b1000101; + parameter [6:0] TX_MARGIN_FULL_3 = 7'b1000010; + parameter [6:0] TX_MARGIN_FULL_4 = 7'b1000000; + parameter [6:0] TX_MARGIN_LOW_0 = 7'b1000110; + parameter [6:0] TX_MARGIN_LOW_1 = 7'b1000100; + parameter [6:0] TX_MARGIN_LOW_2 = 7'b1000010; + parameter [6:0] TX_MARGIN_LOW_3 = 7'b1000000; + parameter [6:0] TX_MARGIN_LOW_4 = 7'b1000000; + parameter [2:0] TX_MODE_SEL = 3'b000; + parameter [0:0] TX_PMADATA_OPT = 1'b0; + parameter [0:0] TX_PMA_POWER_SAVE = 1'b0; + parameter TX_PROGCLK_SEL = "POSTPI"; + parameter real TX_PROGDIV_CFG = 4.0; + parameter [0:0] TX_QPI_STATUS_EN = 1'b0; + parameter [13:0] TX_RXDETECT_CFG = 14'h0032; + parameter [2:0] TX_RXDETECT_REF = 3'b100; + parameter [2:0] TX_SAMPLE_PERIOD = 3'b101; + parameter [0:0] TX_SARC_LPBK_ENB = 1'b0; + parameter TX_XCLK_SEL = "TXOUT"; + parameter [0:0] USE_PCS_CLK_PHASE_SEL = 1'b0; + parameter [1:0] WB_MODE = 2'b00; + output [2:0] BUFGTCE; + output [2:0] BUFGTCEMASK; + output [8:0] BUFGTDIV; + output [2:0] BUFGTRESET; + output [2:0] BUFGTRSTMASK; + output CPLLFBCLKLOST; + output CPLLLOCK; + output CPLLREFCLKLOST; + output [16:0] DMONITOROUT; + output [15:0] DRPDO; + output DRPRDY; + output EYESCANDATAERROR; + output GTHTXN; + output GTHTXP; + output GTPOWERGOOD; + output GTREFCLKMONITOR; + output PCIERATEGEN3; + output PCIERATEIDLE; + output [1:0] PCIERATEQPLLPD; + output [1:0] PCIERATEQPLLRESET; + output PCIESYNCTXSYNCDONE; + output PCIEUSERGEN3RDY; + output PCIEUSERPHYSTATUSRST; + output PCIEUSERRATESTART; + output [11:0] PCSRSVDOUT; + output PHYSTATUS; + output [7:0] PINRSRVDAS; + output RESETEXCEPTION; + output [2:0] RXBUFSTATUS; + output RXBYTEISALIGNED; + output RXBYTEREALIGN; + output RXCDRLOCK; + output RXCDRPHDONE; + output RXCHANBONDSEQ; + output RXCHANISALIGNED; + output RXCHANREALIGN; + output [4:0] RXCHBONDO; + output [1:0] RXCLKCORCNT; + output RXCOMINITDET; + output RXCOMMADET; + output RXCOMSASDET; + output RXCOMWAKEDET; + output [15:0] RXCTRL0; + output [15:0] RXCTRL1; + output [7:0] RXCTRL2; + output [7:0] RXCTRL3; + output [127:0] RXDATA; + output [7:0] RXDATAEXTENDRSVD; + output [1:0] RXDATAVALID; + output RXDLYSRESETDONE; + output RXELECIDLE; + output [5:0] RXHEADER; + output [1:0] RXHEADERVALID; + output [6:0] RXMONITOROUT; + output RXOSINTDONE; + output RXOSINTSTARTED; + output RXOSINTSTROBEDONE; + output RXOSINTSTROBESTARTED; + output RXOUTCLK; + output RXOUTCLKFABRIC; + output RXOUTCLKPCS; + output RXPHALIGNDONE; + output RXPHALIGNERR; + output RXPMARESETDONE; + output RXPRBSERR; + output RXPRBSLOCKED; + output RXPRGDIVRESETDONE; + output RXQPISENN; + output RXQPISENP; + output RXRATEDONE; + output RXRECCLKOUT; + output RXRESETDONE; + output RXSLIDERDY; + output RXSLIPDONE; + output RXSLIPOUTCLKRDY; + output RXSLIPPMARDY; + output [1:0] RXSTARTOFSEQ; + output [2:0] RXSTATUS; + output RXSYNCDONE; + output RXSYNCOUT; + output RXVALID; + output [1:0] TXBUFSTATUS; + output TXCOMFINISH; + output TXDLYSRESETDONE; + output TXOUTCLK; + output TXOUTCLKFABRIC; + output TXOUTCLKPCS; + output TXPHALIGNDONE; + output TXPHINITDONE; + output TXPMARESETDONE; + output TXPRGDIVRESETDONE; + output TXQPISENN; + output TXQPISENP; + output TXRATEDONE; + output TXRESETDONE; + output TXSYNCDONE; + output TXSYNCOUT; + input CFGRESET; + input CLKRSVD0; + input CLKRSVD1; + input CPLLLOCKDETCLK; + input CPLLLOCKEN; + input CPLLPD; + input [2:0] CPLLREFCLKSEL; + input CPLLRESET; + input DMONFIFORESET; + input DMONITORCLK; + input [8:0] DRPADDR; + input DRPCLK; + input [15:0] DRPDI; + input DRPEN; + input DRPWE; + input EVODDPHICALDONE; + input EVODDPHICALSTART; + input EVODDPHIDRDEN; + input EVODDPHIDWREN; + input EVODDPHIXRDEN; + input EVODDPHIXWREN; + input EYESCANMODE; + input EYESCANRESET; + input EYESCANTRIGGER; + input GTGREFCLK; + input GTHRXN; + input GTHRXP; + input GTNORTHREFCLK0; + input GTNORTHREFCLK1; + input GTREFCLK0; + input GTREFCLK1; + input GTRESETSEL; + input [15:0] GTRSVD; + input GTRXRESET; + input GTSOUTHREFCLK0; + input GTSOUTHREFCLK1; + input GTTXRESET; + input [2:0] LOOPBACK; + input LPBKRXTXSEREN; + input LPBKTXRXSEREN; + input PCIEEQRXEQADAPTDONE; + input PCIERSTIDLE; + input PCIERSTTXSYNCSTART; + input PCIEUSERRATEDONE; + input [15:0] PCSRSVDIN; + input [4:0] PCSRSVDIN2; + input [4:0] PMARSVDIN; + input QPLL0CLK; + input QPLL0REFCLK; + input QPLL1CLK; + input QPLL1REFCLK; + input RESETOVRD; + input RSTCLKENTX; + input RX8B10BEN; + input RXBUFRESET; + input RXCDRFREQRESET; + input RXCDRHOLD; + input RXCDROVRDEN; + input RXCDRRESET; + input RXCDRRESETRSV; + input RXCHBONDEN; + input [4:0] RXCHBONDI; + input [2:0] RXCHBONDLEVEL; + input RXCHBONDMASTER; + input RXCHBONDSLAVE; + input RXCOMMADETEN; + input [1:0] RXDFEAGCCTRL; + input RXDFEAGCHOLD; + input RXDFEAGCOVRDEN; + input RXDFELFHOLD; + input RXDFELFOVRDEN; + input RXDFELPMRESET; + input RXDFETAP10HOLD; + input RXDFETAP10OVRDEN; + input RXDFETAP11HOLD; + input RXDFETAP11OVRDEN; + input RXDFETAP12HOLD; + input RXDFETAP12OVRDEN; + input RXDFETAP13HOLD; + input RXDFETAP13OVRDEN; + input RXDFETAP14HOLD; + input RXDFETAP14OVRDEN; + input RXDFETAP15HOLD; + input RXDFETAP15OVRDEN; + input RXDFETAP2HOLD; + input RXDFETAP2OVRDEN; + input RXDFETAP3HOLD; + input RXDFETAP3OVRDEN; + input RXDFETAP4HOLD; + input RXDFETAP4OVRDEN; + input RXDFETAP5HOLD; + input RXDFETAP5OVRDEN; + input RXDFETAP6HOLD; + input RXDFETAP6OVRDEN; + input RXDFETAP7HOLD; + input RXDFETAP7OVRDEN; + input RXDFETAP8HOLD; + input RXDFETAP8OVRDEN; + input RXDFETAP9HOLD; + input RXDFETAP9OVRDEN; + input RXDFEUTHOLD; + input RXDFEUTOVRDEN; + input RXDFEVPHOLD; + input RXDFEVPOVRDEN; + input RXDFEVSEN; + input RXDFEXYDEN; + input RXDLYBYPASS; + input RXDLYEN; + input RXDLYOVRDEN; + input RXDLYSRESET; + input [1:0] RXELECIDLEMODE; + input RXGEARBOXSLIP; + input RXLATCLK; + input RXLPMEN; + input RXLPMGCHOLD; + input RXLPMGCOVRDEN; + input RXLPMHFHOLD; + input RXLPMHFOVRDEN; + input RXLPMLFHOLD; + input RXLPMLFKLOVRDEN; + input RXLPMOSHOLD; + input RXLPMOSOVRDEN; + input RXMCOMMAALIGNEN; + input [1:0] RXMONITORSEL; + input RXOOBRESET; + input RXOSCALRESET; + input RXOSHOLD; + input [3:0] RXOSINTCFG; + input RXOSINTEN; + input RXOSINTHOLD; + input RXOSINTOVRDEN; + input RXOSINTSTROBE; + input RXOSINTTESTOVRDEN; + input RXOSOVRDEN; + input [2:0] RXOUTCLKSEL; + input RXPCOMMAALIGNEN; + input RXPCSRESET; + input [1:0] RXPD; + input RXPHALIGN; + input RXPHALIGNEN; + input RXPHDLYPD; + input RXPHDLYRESET; + input RXPHOVRDEN; + input [1:0] RXPLLCLKSEL; + input RXPMARESET; + input RXPOLARITY; + input RXPRBSCNTRESET; + input [3:0] RXPRBSSEL; + input RXPROGDIVRESET; + input RXQPIEN; + input [2:0] RXRATE; + input RXRATEMODE; + input RXSLIDE; + input RXSLIPOUTCLK; + input RXSLIPPMA; + input RXSYNCALLIN; + input RXSYNCIN; + input RXSYNCMODE; + input [1:0] RXSYSCLKSEL; + input RXUSERRDY; + input RXUSRCLK; + input RXUSRCLK2; + input SIGVALIDCLK; + input [19:0] TSTIN; + input [7:0] TX8B10BBYPASS; + input TX8B10BEN; + input [2:0] TXBUFDIFFCTRL; + input TXCOMINIT; + input TXCOMSAS; + input TXCOMWAKE; + input [15:0] TXCTRL0; + input [15:0] TXCTRL1; + input [7:0] TXCTRL2; + input [127:0] TXDATA; + input [7:0] TXDATAEXTENDRSVD; + input TXDEEMPH; + input TXDETECTRX; + input [3:0] TXDIFFCTRL; + input TXDIFFPD; + input TXDLYBYPASS; + input TXDLYEN; + input TXDLYHOLD; + input TXDLYOVRDEN; + input TXDLYSRESET; + input TXDLYUPDOWN; + input TXELECIDLE; + input [5:0] TXHEADER; + input TXINHIBIT; + input TXLATCLK; + input [6:0] TXMAINCURSOR; + input [2:0] TXMARGIN; + input [2:0] TXOUTCLKSEL; + input TXPCSRESET; + input [1:0] TXPD; + input TXPDELECIDLEMODE; + input TXPHALIGN; + input TXPHALIGNEN; + input TXPHDLYPD; + input TXPHDLYRESET; + input TXPHDLYTSTCLK; + input TXPHINIT; + input TXPHOVRDEN; + input TXPIPPMEN; + input TXPIPPMOVRDEN; + input TXPIPPMPD; + input TXPIPPMSEL; + input [4:0] TXPIPPMSTEPSIZE; + input TXPISOPD; + input [1:0] TXPLLCLKSEL; + input TXPMARESET; + input TXPOLARITY; + input [4:0] TXPOSTCURSOR; + input TXPOSTCURSORINV; + input TXPRBSFORCEERR; + input [3:0] TXPRBSSEL; + input [4:0] TXPRECURSOR; + input TXPRECURSORINV; + input TXPROGDIVRESET; + input TXQPIBIASEN; + input TXQPISTRONGPDOWN; + input TXQPIWEAKPUP; + input [2:0] TXRATE; + input TXRATEMODE; + input [6:0] TXSEQUENCE; + input TXSWING; + input TXSYNCALLIN; + input TXSYNCIN; + input TXSYNCMODE; + input [1:0] TXSYSCLKSEL; + input TXUSERRDY; + input TXUSRCLK; + input TXUSRCLK2; +endmodule + +module GTHE3_COMMON (...); + parameter [15:0] BIAS_CFG0 = 16'h0000; + parameter [15:0] BIAS_CFG1 = 16'h0000; + parameter [15:0] BIAS_CFG2 = 16'h0000; + parameter [15:0] BIAS_CFG3 = 16'h0000; + parameter [15:0] BIAS_CFG4 = 16'h0000; + parameter [9:0] BIAS_CFG_RSVD = 10'b0000000000; + parameter [15:0] COMMON_CFG0 = 16'h0000; + parameter [15:0] COMMON_CFG1 = 16'h0000; + parameter [15:0] POR_CFG = 16'h0004; + parameter [15:0] QPLL0_CFG0 = 16'h3018; + parameter [15:0] QPLL0_CFG1 = 16'h0000; + parameter [15:0] QPLL0_CFG1_G3 = 16'h0020; + parameter [15:0] QPLL0_CFG2 = 16'h0000; + parameter [15:0] QPLL0_CFG2_G3 = 16'h0000; + parameter [15:0] QPLL0_CFG3 = 16'h0120; + parameter [15:0] QPLL0_CFG4 = 16'h0009; + parameter [9:0] QPLL0_CP = 10'b0000011111; + parameter [9:0] QPLL0_CP_G3 = 10'b0000011111; + parameter integer QPLL0_FBDIV = 66; + parameter integer QPLL0_FBDIV_G3 = 80; + parameter [15:0] QPLL0_INIT_CFG0 = 16'h0000; + parameter [7:0] QPLL0_INIT_CFG1 = 8'h00; + parameter [15:0] QPLL0_LOCK_CFG = 16'h01E8; + parameter [15:0] QPLL0_LOCK_CFG_G3 = 16'h01E8; + parameter [9:0] QPLL0_LPF = 10'b1111111111; + parameter [9:0] QPLL0_LPF_G3 = 10'b1111111111; + parameter integer QPLL0_REFCLK_DIV = 2; + parameter [15:0] QPLL0_SDM_CFG0 = 16'b0000000000000000; + parameter [15:0] QPLL0_SDM_CFG1 = 16'b0000000000000000; + parameter [15:0] QPLL0_SDM_CFG2 = 16'b0000000000000000; + parameter [15:0] QPLL1_CFG0 = 16'h3018; + parameter [15:0] QPLL1_CFG1 = 16'h0000; + parameter [15:0] QPLL1_CFG1_G3 = 16'h0020; + parameter [15:0] QPLL1_CFG2 = 16'h0000; + parameter [15:0] QPLL1_CFG2_G3 = 16'h0000; + parameter [15:0] QPLL1_CFG3 = 16'h0120; + parameter [15:0] QPLL1_CFG4 = 16'h0009; + parameter [9:0] QPLL1_CP = 10'b0000011111; + parameter [9:0] QPLL1_CP_G3 = 10'b0000011111; + parameter integer QPLL1_FBDIV = 66; + parameter integer QPLL1_FBDIV_G3 = 80; + parameter [15:0] QPLL1_INIT_CFG0 = 16'h0000; + parameter [7:0] QPLL1_INIT_CFG1 = 8'h00; + parameter [15:0] QPLL1_LOCK_CFG = 16'h01E8; + parameter [15:0] QPLL1_LOCK_CFG_G3 = 16'h21E8; + parameter [9:0] QPLL1_LPF = 10'b1111111111; + parameter [9:0] QPLL1_LPF_G3 = 10'b1111111111; + parameter integer QPLL1_REFCLK_DIV = 2; + parameter [15:0] QPLL1_SDM_CFG0 = 16'b0000000000000000; + parameter [15:0] QPLL1_SDM_CFG1 = 16'b0000000000000000; + parameter [15:0] QPLL1_SDM_CFG2 = 16'b0000000000000000; + parameter [15:0] RSVD_ATTR0 = 16'h0000; + parameter [15:0] RSVD_ATTR1 = 16'h0000; + parameter [15:0] RSVD_ATTR2 = 16'h0000; + parameter [15:0] RSVD_ATTR3 = 16'h0000; + parameter [1:0] RXRECCLKOUT0_SEL = 2'b00; + parameter [1:0] RXRECCLKOUT1_SEL = 2'b00; + parameter [0:0] SARC_EN = 1'b1; + parameter [0:0] SARC_SEL = 1'b0; + parameter [15:0] SDM0DATA1_0 = 16'b0000000000000000; + parameter [8:0] SDM0DATA1_1 = 9'b000000000; + parameter [15:0] SDM0INITSEED0_0 = 16'b0000000000000000; + parameter [8:0] SDM0INITSEED0_1 = 9'b000000000; + parameter [0:0] SDM0_DATA_PIN_SEL = 1'b0; + parameter [0:0] SDM0_WIDTH_PIN_SEL = 1'b0; + parameter [15:0] SDM1DATA1_0 = 16'b0000000000000000; + parameter [8:0] SDM1DATA1_1 = 9'b000000000; + parameter [15:0] SDM1INITSEED0_0 = 16'b0000000000000000; + parameter [8:0] SDM1INITSEED0_1 = 9'b000000000; + parameter [0:0] SDM1_DATA_PIN_SEL = 1'b0; + parameter [0:0] SDM1_WIDTH_PIN_SEL = 1'b0; + parameter SIM_MODE = "FAST"; + parameter SIM_RESET_SPEEDUP = "TRUE"; + parameter integer SIM_VERSION = 2; + output [15:0] DRPDO; + output DRPRDY; + output [7:0] PMARSVDOUT0; + output [7:0] PMARSVDOUT1; + output QPLL0FBCLKLOST; + output QPLL0LOCK; + output QPLL0OUTCLK; + output QPLL0OUTREFCLK; + output QPLL0REFCLKLOST; + output QPLL1FBCLKLOST; + output QPLL1LOCK; + output QPLL1OUTCLK; + output QPLL1OUTREFCLK; + output QPLL1REFCLKLOST; + output [7:0] QPLLDMONITOR0; + output [7:0] QPLLDMONITOR1; + output REFCLKOUTMONITOR0; + output REFCLKOUTMONITOR1; + output [1:0] RXRECCLK0_SEL; + output [1:0] RXRECCLK1_SEL; + input BGBYPASSB; + input BGMONITORENB; + input BGPDB; + input [4:0] BGRCALOVRD; + input BGRCALOVRDENB; + input [8:0] DRPADDR; + input DRPCLK; + input [15:0] DRPDI; + input DRPEN; + input DRPWE; + input GTGREFCLK0; + input GTGREFCLK1; + input GTNORTHREFCLK00; + input GTNORTHREFCLK01; + input GTNORTHREFCLK10; + input GTNORTHREFCLK11; + input GTREFCLK00; + input GTREFCLK01; + input GTREFCLK10; + input GTREFCLK11; + input GTSOUTHREFCLK00; + input GTSOUTHREFCLK01; + input GTSOUTHREFCLK10; + input GTSOUTHREFCLK11; + input [7:0] PMARSVD0; + input [7:0] PMARSVD1; + input QPLL0CLKRSVD0; + input QPLL0CLKRSVD1; + input QPLL0LOCKDETCLK; + input QPLL0LOCKEN; + input QPLL0PD; + input [2:0] QPLL0REFCLKSEL; + input QPLL0RESET; + input QPLL1CLKRSVD0; + input QPLL1CLKRSVD1; + input QPLL1LOCKDETCLK; + input QPLL1LOCKEN; + input QPLL1PD; + input [2:0] QPLL1REFCLKSEL; + input QPLL1RESET; + input [7:0] QPLLRSVD1; + input [4:0] QPLLRSVD2; + input [4:0] QPLLRSVD3; + input [7:0] QPLLRSVD4; + input RCALENB; +endmodule + +module GTHE4_CHANNEL (...); + parameter [0:0] ACJTAG_DEBUG_MODE = 1'b0; + parameter [0:0] ACJTAG_MODE = 1'b0; + parameter [0:0] ACJTAG_RESET = 1'b0; + parameter [15:0] ADAPT_CFG0 = 16'h9200; + parameter [15:0] ADAPT_CFG1 = 16'h801C; + parameter [15:0] ADAPT_CFG2 = 16'h0000; + parameter ALIGN_COMMA_DOUBLE = "FALSE"; + parameter [9:0] ALIGN_COMMA_ENABLE = 10'b0001111111; + parameter integer ALIGN_COMMA_WORD = 1; + parameter ALIGN_MCOMMA_DET = "TRUE"; + parameter [9:0] ALIGN_MCOMMA_VALUE = 10'b1010000011; + parameter ALIGN_PCOMMA_DET = "TRUE"; + parameter [9:0] ALIGN_PCOMMA_VALUE = 10'b0101111100; + parameter [0:0] A_RXOSCALRESET = 1'b0; + parameter [0:0] A_RXPROGDIVRESET = 1'b0; + parameter [0:0] A_RXTERMINATION = 1'b1; + parameter [4:0] A_TXDIFFCTRL = 5'b01100; + parameter [0:0] A_TXPROGDIVRESET = 1'b0; + parameter [0:0] CAPBYPASS_FORCE = 1'b0; + parameter CBCC_DATA_SOURCE_SEL = "DECODED"; + parameter [0:0] CDR_SWAP_MODE_EN = 1'b0; + parameter [0:0] CFOK_PWRSVE_EN = 1'b1; + parameter CHAN_BOND_KEEP_ALIGN = "FALSE"; + parameter integer CHAN_BOND_MAX_SKEW = 7; + parameter [9:0] CHAN_BOND_SEQ_1_1 = 10'b0101111100; + parameter [9:0] CHAN_BOND_SEQ_1_2 = 10'b0000000000; + parameter [9:0] CHAN_BOND_SEQ_1_3 = 10'b0000000000; + parameter [9:0] CHAN_BOND_SEQ_1_4 = 10'b0000000000; + parameter [3:0] CHAN_BOND_SEQ_1_ENABLE = 4'b1111; + parameter [9:0] CHAN_BOND_SEQ_2_1 = 10'b0100000000; + parameter [9:0] CHAN_BOND_SEQ_2_2 = 10'b0100000000; + parameter [9:0] CHAN_BOND_SEQ_2_3 = 10'b0100000000; + parameter [9:0] CHAN_BOND_SEQ_2_4 = 10'b0100000000; + parameter [3:0] CHAN_BOND_SEQ_2_ENABLE = 4'b1111; + parameter CHAN_BOND_SEQ_2_USE = "FALSE"; + parameter integer CHAN_BOND_SEQ_LEN = 2; + parameter [15:0] CH_HSPMUX = 16'h2424; + parameter [15:0] CKCAL1_CFG_0 = 16'b0000000000000000; + parameter [15:0] CKCAL1_CFG_1 = 16'b0000000000000000; + parameter [15:0] CKCAL1_CFG_2 = 16'b0000000000000000; + parameter [15:0] CKCAL1_CFG_3 = 16'b0000000000000000; + parameter [15:0] CKCAL2_CFG_0 = 16'b0000000000000000; + parameter [15:0] CKCAL2_CFG_1 = 16'b0000000000000000; + parameter [15:0] CKCAL2_CFG_2 = 16'b0000000000000000; + parameter [15:0] CKCAL2_CFG_3 = 16'b0000000000000000; + parameter [15:0] CKCAL2_CFG_4 = 16'b0000000000000000; + parameter [15:0] CKCAL_RSVD0 = 16'h4000; + parameter [15:0] CKCAL_RSVD1 = 16'h0000; + parameter CLK_CORRECT_USE = "TRUE"; + parameter CLK_COR_KEEP_IDLE = "FALSE"; + parameter integer CLK_COR_MAX_LAT = 20; + parameter integer CLK_COR_MIN_LAT = 18; + parameter CLK_COR_PRECEDENCE = "TRUE"; + parameter integer CLK_COR_REPEAT_WAIT = 0; + parameter [9:0] CLK_COR_SEQ_1_1 = 10'b0100011100; + parameter [9:0] CLK_COR_SEQ_1_2 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_1_3 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_1_4 = 10'b0000000000; + parameter [3:0] CLK_COR_SEQ_1_ENABLE = 4'b1111; + parameter [9:0] CLK_COR_SEQ_2_1 = 10'b0100000000; + parameter [9:0] CLK_COR_SEQ_2_2 = 10'b0100000000; + parameter [9:0] CLK_COR_SEQ_2_3 = 10'b0100000000; + parameter [9:0] CLK_COR_SEQ_2_4 = 10'b0100000000; + parameter [3:0] CLK_COR_SEQ_2_ENABLE = 4'b1111; + parameter CLK_COR_SEQ_2_USE = "FALSE"; + parameter integer CLK_COR_SEQ_LEN = 2; + parameter [15:0] CPLL_CFG0 = 16'h01FA; + parameter [15:0] CPLL_CFG1 = 16'h24A9; + parameter [15:0] CPLL_CFG2 = 16'h6807; + parameter [15:0] CPLL_CFG3 = 16'h0000; + parameter integer CPLL_FBDIV = 4; + parameter integer CPLL_FBDIV_45 = 4; + parameter [15:0] CPLL_INIT_CFG0 = 16'h001E; + parameter [15:0] CPLL_LOCK_CFG = 16'h01E8; + parameter integer CPLL_REFCLK_DIV = 1; + parameter [2:0] CTLE3_OCAP_EXT_CTRL = 3'b000; + parameter [0:0] CTLE3_OCAP_EXT_EN = 1'b0; + parameter [1:0] DDI_CTRL = 2'b00; + parameter integer DDI_REALIGN_WAIT = 15; + parameter DEC_MCOMMA_DETECT = "TRUE"; + parameter DEC_PCOMMA_DETECT = "TRUE"; + parameter DEC_VALID_COMMA_ONLY = "TRUE"; + parameter [0:0] DELAY_ELEC = 1'b0; + parameter [9:0] DMONITOR_CFG0 = 10'h000; + parameter [7:0] DMONITOR_CFG1 = 8'h00; + parameter [0:0] ES_CLK_PHASE_SEL = 1'b0; + parameter [5:0] ES_CONTROL = 6'b000000; + parameter ES_ERRDET_EN = "FALSE"; + parameter ES_EYE_SCAN_EN = "FALSE"; + parameter [11:0] ES_HORZ_OFFSET = 12'h800; + parameter [4:0] ES_PRESCALE = 5'b00000; + parameter [15:0] ES_QUALIFIER0 = 16'h0000; + parameter [15:0] ES_QUALIFIER1 = 16'h0000; + parameter [15:0] ES_QUALIFIER2 = 16'h0000; + parameter [15:0] ES_QUALIFIER3 = 16'h0000; + parameter [15:0] ES_QUALIFIER4 = 16'h0000; + parameter [15:0] ES_QUALIFIER5 = 16'h0000; + parameter [15:0] ES_QUALIFIER6 = 16'h0000; + parameter [15:0] ES_QUALIFIER7 = 16'h0000; + parameter [15:0] ES_QUALIFIER8 = 16'h0000; + parameter [15:0] ES_QUALIFIER9 = 16'h0000; + parameter [15:0] ES_QUAL_MASK0 = 16'h0000; + parameter [15:0] ES_QUAL_MASK1 = 16'h0000; + parameter [15:0] ES_QUAL_MASK2 = 16'h0000; + parameter [15:0] ES_QUAL_MASK3 = 16'h0000; + parameter [15:0] ES_QUAL_MASK4 = 16'h0000; + parameter [15:0] ES_QUAL_MASK5 = 16'h0000; + parameter [15:0] ES_QUAL_MASK6 = 16'h0000; + parameter [15:0] ES_QUAL_MASK7 = 16'h0000; + parameter [15:0] ES_QUAL_MASK8 = 16'h0000; + parameter [15:0] ES_QUAL_MASK9 = 16'h0000; + parameter [15:0] ES_SDATA_MASK0 = 16'h0000; + parameter [15:0] ES_SDATA_MASK1 = 16'h0000; + parameter [15:0] ES_SDATA_MASK2 = 16'h0000; + parameter [15:0] ES_SDATA_MASK3 = 16'h0000; + parameter [15:0] ES_SDATA_MASK4 = 16'h0000; + parameter [15:0] ES_SDATA_MASK5 = 16'h0000; + parameter [15:0] ES_SDATA_MASK6 = 16'h0000; + parameter [15:0] ES_SDATA_MASK7 = 16'h0000; + parameter [15:0] ES_SDATA_MASK8 = 16'h0000; + parameter [15:0] ES_SDATA_MASK9 = 16'h0000; + parameter [0:0] EYE_SCAN_SWAP_EN = 1'b0; + parameter [3:0] FTS_DESKEW_SEQ_ENABLE = 4'b1111; + parameter [3:0] FTS_LANE_DESKEW_CFG = 4'b1111; + parameter FTS_LANE_DESKEW_EN = "FALSE"; + parameter [4:0] GEARBOX_MODE = 5'b00000; + parameter [0:0] ISCAN_CK_PH_SEL2 = 1'b0; + parameter [0:0] LOCAL_MASTER = 1'b0; + parameter [2:0] LPBK_BIAS_CTRL = 3'b000; + parameter [0:0] LPBK_EN_RCAL_B = 1'b0; + parameter [3:0] LPBK_EXT_RCAL = 4'b0000; + parameter [2:0] LPBK_IND_CTRL0 = 3'b000; + parameter [2:0] LPBK_IND_CTRL1 = 3'b000; + parameter [2:0] LPBK_IND_CTRL2 = 3'b000; + parameter [3:0] LPBK_RG_CTRL = 4'b0000; + parameter [1:0] OOBDIVCTL = 2'b00; + parameter [0:0] OOB_PWRUP = 1'b0; + parameter PCI3_AUTO_REALIGN = "FRST_SMPL"; + parameter [0:0] PCI3_PIPE_RX_ELECIDLE = 1'b1; + parameter [1:0] PCI3_RX_ASYNC_EBUF_BYPASS = 2'b00; + parameter [0:0] PCI3_RX_ELECIDLE_EI2_ENABLE = 1'b0; + parameter [5:0] PCI3_RX_ELECIDLE_H2L_COUNT = 6'b000000; + parameter [2:0] PCI3_RX_ELECIDLE_H2L_DISABLE = 3'b000; + parameter [5:0] PCI3_RX_ELECIDLE_HI_COUNT = 6'b000000; + parameter [0:0] PCI3_RX_ELECIDLE_LP4_DISABLE = 1'b0; + parameter [0:0] PCI3_RX_FIFO_DISABLE = 1'b0; + parameter [4:0] PCIE3_CLK_COR_EMPTY_THRSH = 5'b00000; + parameter [5:0] PCIE3_CLK_COR_FULL_THRSH = 6'b010000; + parameter [4:0] PCIE3_CLK_COR_MAX_LAT = 5'b01000; + parameter [4:0] PCIE3_CLK_COR_MIN_LAT = 5'b00100; + parameter [5:0] PCIE3_CLK_COR_THRSH_TIMER = 6'b001000; + parameter [15:0] PCIE_BUFG_DIV_CTRL = 16'h0000; + parameter [1:0] PCIE_PLL_SEL_MODE_GEN12 = 2'h0; + parameter [1:0] PCIE_PLL_SEL_MODE_GEN3 = 2'h0; + parameter [1:0] PCIE_PLL_SEL_MODE_GEN4 = 2'h0; + parameter [15:0] PCIE_RXPCS_CFG_GEN3 = 16'h0000; + parameter [15:0] PCIE_RXPMA_CFG = 16'h0000; + parameter [15:0] PCIE_TXPCS_CFG_GEN3 = 16'h0000; + parameter [15:0] PCIE_TXPMA_CFG = 16'h0000; + parameter PCS_PCIE_EN = "FALSE"; + parameter [15:0] PCS_RSVD0 = 16'b0000000000000000; + parameter [11:0] PD_TRANS_TIME_FROM_P2 = 12'h03C; + parameter [7:0] PD_TRANS_TIME_NONE_P2 = 8'h19; + parameter [7:0] PD_TRANS_TIME_TO_P2 = 8'h64; + parameter integer PREIQ_FREQ_BST = 0; + parameter [2:0] PROCESS_PAR = 3'b010; + parameter [0:0] RATE_SW_USE_DRP = 1'b0; + parameter [0:0] RCLK_SIPO_DLY_ENB = 1'b0; + parameter [0:0] RCLK_SIPO_INV_EN = 1'b0; + parameter [0:0] RESET_POWERSAVE_DISABLE = 1'b0; + parameter [2:0] RTX_BUF_CML_CTRL = 3'b010; + parameter [1:0] RTX_BUF_TERM_CTRL = 2'b00; + parameter [4:0] RXBUFRESET_TIME = 5'b00001; + parameter RXBUF_ADDR_MODE = "FULL"; + parameter [3:0] RXBUF_EIDLE_HI_CNT = 4'b1000; + parameter [3:0] RXBUF_EIDLE_LO_CNT = 4'b0000; + parameter RXBUF_EN = "TRUE"; + parameter RXBUF_RESET_ON_CB_CHANGE = "TRUE"; + parameter RXBUF_RESET_ON_COMMAALIGN = "FALSE"; + parameter RXBUF_RESET_ON_EIDLE = "FALSE"; + parameter RXBUF_RESET_ON_RATE_CHANGE = "TRUE"; + parameter integer RXBUF_THRESH_OVFLW = 0; + parameter RXBUF_THRESH_OVRD = "FALSE"; + parameter integer RXBUF_THRESH_UNDFLW = 4; + parameter [4:0] RXCDRFREQRESET_TIME = 5'b00001; + parameter [4:0] RXCDRPHRESET_TIME = 5'b00001; + parameter [15:0] RXCDR_CFG0 = 16'h0003; + parameter [15:0] RXCDR_CFG0_GEN3 = 16'h0003; + parameter [15:0] RXCDR_CFG1 = 16'h0000; + parameter [15:0] RXCDR_CFG1_GEN3 = 16'h0000; + parameter [15:0] RXCDR_CFG2 = 16'h0164; + parameter [9:0] RXCDR_CFG2_GEN2 = 10'h164; + parameter [15:0] RXCDR_CFG2_GEN3 = 16'h0034; + parameter [15:0] RXCDR_CFG2_GEN4 = 16'h0034; + parameter [15:0] RXCDR_CFG3 = 16'h0024; + parameter [5:0] RXCDR_CFG3_GEN2 = 6'h24; + parameter [15:0] RXCDR_CFG3_GEN3 = 16'h0024; + parameter [15:0] RXCDR_CFG3_GEN4 = 16'h0024; + parameter [15:0] RXCDR_CFG4 = 16'h5CF6; + parameter [15:0] RXCDR_CFG4_GEN3 = 16'h5CF6; + parameter [15:0] RXCDR_CFG5 = 16'hB46B; + parameter [15:0] RXCDR_CFG5_GEN3 = 16'h146B; + parameter [0:0] RXCDR_FR_RESET_ON_EIDLE = 1'b0; + parameter [0:0] RXCDR_HOLD_DURING_EIDLE = 1'b0; + parameter [15:0] RXCDR_LOCK_CFG0 = 16'h0040; + parameter [15:0] RXCDR_LOCK_CFG1 = 16'h8000; + parameter [15:0] RXCDR_LOCK_CFG2 = 16'h0000; + parameter [15:0] RXCDR_LOCK_CFG3 = 16'h0000; + parameter [15:0] RXCDR_LOCK_CFG4 = 16'h0000; + parameter [0:0] RXCDR_PH_RESET_ON_EIDLE = 1'b0; + parameter [15:0] RXCFOK_CFG0 = 16'h0000; + parameter [15:0] RXCFOK_CFG1 = 16'h0002; + parameter [15:0] RXCFOK_CFG2 = 16'h002D; + parameter [15:0] RXCKCAL1_IQ_LOOP_RST_CFG = 16'h0000; + parameter [15:0] RXCKCAL1_I_LOOP_RST_CFG = 16'h0000; + parameter [15:0] RXCKCAL1_Q_LOOP_RST_CFG = 16'h0000; + parameter [15:0] RXCKCAL2_DX_LOOP_RST_CFG = 16'h0000; + parameter [15:0] RXCKCAL2_D_LOOP_RST_CFG = 16'h0000; + parameter [15:0] RXCKCAL2_S_LOOP_RST_CFG = 16'h0000; + parameter [15:0] RXCKCAL2_X_LOOP_RST_CFG = 16'h0000; + parameter [6:0] RXDFELPMRESET_TIME = 7'b0001111; + parameter [15:0] RXDFELPM_KL_CFG0 = 16'h0000; + parameter [15:0] RXDFELPM_KL_CFG1 = 16'h0022; + parameter [15:0] RXDFELPM_KL_CFG2 = 16'h0100; + parameter [15:0] RXDFE_CFG0 = 16'h4000; + parameter [15:0] RXDFE_CFG1 = 16'h0000; + parameter [15:0] RXDFE_GC_CFG0 = 16'h0000; + parameter [15:0] RXDFE_GC_CFG1 = 16'h0000; + parameter [15:0] RXDFE_GC_CFG2 = 16'h0000; + parameter [15:0] RXDFE_H2_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H2_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H3_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H3_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H4_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H4_CFG1 = 16'h0003; + parameter [15:0] RXDFE_H5_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H5_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H6_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H6_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H7_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H7_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H8_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H8_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H9_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H9_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HA_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HA_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HB_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HB_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HC_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HC_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HD_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HD_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HE_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HE_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HF_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HF_CFG1 = 16'h0002; + parameter [15:0] RXDFE_KH_CFG0 = 16'h0000; + parameter [15:0] RXDFE_KH_CFG1 = 16'h0000; + parameter [15:0] RXDFE_KH_CFG2 = 16'h0000; + parameter [15:0] RXDFE_KH_CFG3 = 16'h0000; + parameter [15:0] RXDFE_OS_CFG0 = 16'h0000; + parameter [15:0] RXDFE_OS_CFG1 = 16'h0002; + parameter [0:0] RXDFE_PWR_SAVING = 1'b0; + parameter [15:0] RXDFE_UT_CFG0 = 16'h0000; + parameter [15:0] RXDFE_UT_CFG1 = 16'h0002; + parameter [15:0] RXDFE_UT_CFG2 = 16'h0000; + parameter [15:0] RXDFE_VP_CFG0 = 16'h0000; + parameter [15:0] RXDFE_VP_CFG1 = 16'h0022; + parameter [15:0] RXDLY_CFG = 16'h0010; + parameter [15:0] RXDLY_LCFG = 16'h0030; + parameter RXELECIDLE_CFG = "SIGCFG_4"; + parameter integer RXGBOX_FIFO_INIT_RD_ADDR = 4; + parameter RXGEARBOX_EN = "FALSE"; + parameter [4:0] RXISCANRESET_TIME = 5'b00001; + parameter [15:0] RXLPM_CFG = 16'h0000; + parameter [15:0] RXLPM_GC_CFG = 16'h1000; + parameter [15:0] RXLPM_KH_CFG0 = 16'h0000; + parameter [15:0] RXLPM_KH_CFG1 = 16'h0002; + parameter [15:0] RXLPM_OS_CFG0 = 16'h0000; + parameter [15:0] RXLPM_OS_CFG1 = 16'h0000; + parameter [8:0] RXOOB_CFG = 9'b000110000; + parameter RXOOB_CLK_CFG = "PMA"; + parameter [4:0] RXOSCALRESET_TIME = 5'b00011; + parameter integer RXOUT_DIV = 4; + parameter [4:0] RXPCSRESET_TIME = 5'b00001; + parameter [15:0] RXPHBEACON_CFG = 16'h0000; + parameter [15:0] RXPHDLY_CFG = 16'h2020; + parameter [15:0] RXPHSAMP_CFG = 16'h2100; + parameter [15:0] RXPHSLIP_CFG = 16'h9933; + parameter [4:0] RXPH_MONITOR_SEL = 5'b00000; + parameter [0:0] RXPI_AUTO_BW_SEL_BYPASS = 1'b0; + parameter [15:0] RXPI_CFG0 = 16'h0002; + parameter [15:0] RXPI_CFG1 = 16'b0000000000000000; + parameter [0:0] RXPI_LPM = 1'b0; + parameter [1:0] RXPI_SEL_LC = 2'b00; + parameter [1:0] RXPI_STARTCODE = 2'b00; + parameter [0:0] RXPI_VREFSEL = 1'b0; + parameter RXPMACLK_SEL = "DATA"; + parameter [4:0] RXPMARESET_TIME = 5'b00001; + parameter [0:0] RXPRBS_ERR_LOOPBACK = 1'b0; + parameter integer RXPRBS_LINKACQ_CNT = 15; + parameter [0:0] RXREFCLKDIV2_SEL = 1'b0; + parameter integer RXSLIDE_AUTO_WAIT = 7; + parameter RXSLIDE_MODE = "OFF"; + parameter [0:0] RXSYNC_MULTILANE = 1'b0; + parameter [0:0] RXSYNC_OVRD = 1'b0; + parameter [0:0] RXSYNC_SKIP_DA = 1'b0; + parameter [0:0] RX_AFE_CM_EN = 1'b0; + parameter [15:0] RX_BIAS_CFG0 = 16'h12B0; + parameter [5:0] RX_BUFFER_CFG = 6'b000000; + parameter [0:0] RX_CAPFF_SARC_ENB = 1'b0; + parameter integer RX_CLK25_DIV = 8; + parameter [0:0] RX_CLKMUX_EN = 1'b1; + parameter [4:0] RX_CLK_SLIP_OVRD = 5'b00000; + parameter [3:0] RX_CM_BUF_CFG = 4'b1010; + parameter [0:0] RX_CM_BUF_PD = 1'b0; + parameter integer RX_CM_SEL = 3; + parameter integer RX_CM_TRIM = 12; + parameter [7:0] RX_CTLE3_LPF = 8'b00000000; + parameter integer RX_DATA_WIDTH = 20; + parameter [5:0] RX_DDI_SEL = 6'b000000; + parameter RX_DEFER_RESET_BUF_EN = "TRUE"; + parameter [2:0] RX_DEGEN_CTRL = 3'b011; + parameter integer RX_DFELPM_CFG0 = 0; + parameter [0:0] RX_DFELPM_CFG1 = 1'b1; + parameter [0:0] RX_DFELPM_KLKH_AGC_STUP_EN = 1'b1; + parameter [1:0] RX_DFE_AGC_CFG0 = 2'b00; + parameter integer RX_DFE_AGC_CFG1 = 4; + parameter integer RX_DFE_KL_LPM_KH_CFG0 = 1; + parameter integer RX_DFE_KL_LPM_KH_CFG1 = 4; + parameter [1:0] RX_DFE_KL_LPM_KL_CFG0 = 2'b01; + parameter integer RX_DFE_KL_LPM_KL_CFG1 = 4; + parameter [0:0] RX_DFE_LPM_HOLD_DURING_EIDLE = 1'b0; + parameter RX_DISPERR_SEQ_MATCH = "TRUE"; + parameter [0:0] RX_DIV2_MODE_B = 1'b0; + parameter [4:0] RX_DIVRESET_TIME = 5'b00001; + parameter [0:0] RX_EN_CTLE_RCAL_B = 1'b0; + parameter [0:0] RX_EN_HI_LR = 1'b1; + parameter [8:0] RX_EXT_RL_CTRL = 9'b000000000; + parameter [6:0] RX_EYESCAN_VS_CODE = 7'b0000000; + parameter [0:0] RX_EYESCAN_VS_NEG_DIR = 1'b0; + parameter [1:0] RX_EYESCAN_VS_RANGE = 2'b00; + parameter [0:0] RX_EYESCAN_VS_UT_SIGN = 1'b0; + parameter [0:0] RX_FABINT_USRCLK_FLOP = 1'b0; + parameter integer RX_INT_DATAWIDTH = 1; + parameter [0:0] RX_PMA_POWER_SAVE = 1'b0; + parameter [15:0] RX_PMA_RSV0 = 16'h0000; + parameter real RX_PROGDIV_CFG = 0.0; + parameter [15:0] RX_PROGDIV_RATE = 16'h0001; + parameter [3:0] RX_RESLOAD_CTRL = 4'b0000; + parameter [0:0] RX_RESLOAD_OVRD = 1'b0; + parameter [2:0] RX_SAMPLE_PERIOD = 3'b101; + parameter integer RX_SIG_VALID_DLY = 11; + parameter [0:0] RX_SUM_DFETAPREP_EN = 1'b0; + parameter [3:0] RX_SUM_IREF_TUNE = 4'b1001; + parameter [3:0] RX_SUM_RESLOAD_CTRL = 4'b0000; + parameter [3:0] RX_SUM_VCMTUNE = 4'b1010; + parameter [0:0] RX_SUM_VCM_OVWR = 1'b0; + parameter [2:0] RX_SUM_VREF_TUNE = 3'b100; + parameter [1:0] RX_TUNE_AFE_OS = 2'b00; + parameter [2:0] RX_VREG_CTRL = 3'b101; + parameter [0:0] RX_VREG_PDB = 1'b1; + parameter [1:0] RX_WIDEMODE_CDR = 2'b01; + parameter [1:0] RX_WIDEMODE_CDR_GEN3 = 2'b01; + parameter [1:0] RX_WIDEMODE_CDR_GEN4 = 2'b01; + parameter RX_XCLK_SEL = "RXDES"; + parameter [0:0] RX_XMODE_SEL = 1'b0; + parameter [0:0] SAMPLE_CLK_PHASE = 1'b0; + parameter [0:0] SAS_12G_MODE = 1'b0; + parameter [3:0] SATA_BURST_SEQ_LEN = 4'b1111; + parameter [2:0] SATA_BURST_VAL = 3'b100; + parameter SATA_CPLL_CFG = "VCO_3000MHZ"; + parameter [2:0] SATA_EIDLE_VAL = 3'b100; + parameter SHOW_REALIGN_COMMA = "TRUE"; + parameter SIM_DEVICE = "ULTRASCALE_PLUS"; + parameter SIM_MODE = "FAST"; + parameter SIM_RECEIVER_DETECT_PASS = "TRUE"; + parameter SIM_RESET_SPEEDUP = "TRUE"; + parameter SIM_TX_EIDLE_DRIVE_LEVEL = "Z"; + parameter [0:0] SRSTMODE = 1'b0; + parameter [1:0] TAPDLY_SET_TX = 2'h0; + parameter [3:0] TEMPERATURE_PAR = 4'b0010; + parameter [14:0] TERM_RCAL_CFG = 15'b100001000010000; + parameter [2:0] TERM_RCAL_OVRD = 3'b000; + parameter [7:0] TRANS_TIME_RATE = 8'h0E; + parameter [7:0] TST_RSV0 = 8'h00; + parameter [7:0] TST_RSV1 = 8'h00; + parameter TXBUF_EN = "TRUE"; + parameter TXBUF_RESET_ON_RATE_CHANGE = "FALSE"; + parameter [15:0] TXDLY_CFG = 16'h0010; + parameter [15:0] TXDLY_LCFG = 16'h0030; + parameter [3:0] TXDRVBIAS_N = 4'b1010; + parameter TXFIFO_ADDR_CFG = "LOW"; + parameter integer TXGBOX_FIFO_INIT_RD_ADDR = 4; + parameter TXGEARBOX_EN = "FALSE"; + parameter integer TXOUT_DIV = 4; + parameter [4:0] TXPCSRESET_TIME = 5'b00001; + parameter [15:0] TXPHDLY_CFG0 = 16'h6020; + parameter [15:0] TXPHDLY_CFG1 = 16'h0002; + parameter [15:0] TXPH_CFG = 16'h0123; + parameter [15:0] TXPH_CFG2 = 16'h0000; + parameter [4:0] TXPH_MONITOR_SEL = 5'b00000; + parameter [15:0] TXPI_CFG = 16'h0000; + parameter [1:0] TXPI_CFG0 = 2'b00; + parameter [1:0] TXPI_CFG1 = 2'b00; + parameter [1:0] TXPI_CFG2 = 2'b00; + parameter [0:0] TXPI_CFG3 = 1'b0; + parameter [0:0] TXPI_CFG4 = 1'b1; + parameter [2:0] TXPI_CFG5 = 3'b000; + parameter [0:0] TXPI_GRAY_SEL = 1'b0; + parameter [0:0] TXPI_INVSTROBE_SEL = 1'b0; + parameter [0:0] TXPI_LPM = 1'b0; + parameter [0:0] TXPI_PPM = 1'b0; + parameter TXPI_PPMCLK_SEL = "TXUSRCLK2"; + parameter [7:0] TXPI_PPM_CFG = 8'b00000000; + parameter [2:0] TXPI_SYNFREQ_PPM = 3'b000; + parameter [0:0] TXPI_VREFSEL = 1'b0; + parameter [4:0] TXPMARESET_TIME = 5'b00001; + parameter [0:0] TXREFCLKDIV2_SEL = 1'b0; + parameter [0:0] TXSYNC_MULTILANE = 1'b0; + parameter [0:0] TXSYNC_OVRD = 1'b0; + parameter [0:0] TXSYNC_SKIP_DA = 1'b0; + parameter integer TX_CLK25_DIV = 8; + parameter [0:0] TX_CLKMUX_EN = 1'b1; + parameter integer TX_DATA_WIDTH = 20; + parameter [15:0] TX_DCC_LOOP_RST_CFG = 16'h0000; + parameter [5:0] TX_DEEMPH0 = 6'b000000; + parameter [5:0] TX_DEEMPH1 = 6'b000000; + parameter [5:0] TX_DEEMPH2 = 6'b000000; + parameter [5:0] TX_DEEMPH3 = 6'b000000; + parameter [4:0] TX_DIVRESET_TIME = 5'b00001; + parameter TX_DRIVE_MODE = "DIRECT"; + parameter integer TX_DRVMUX_CTRL = 2; + parameter [2:0] TX_EIDLE_ASSERT_DELAY = 3'b110; + parameter [2:0] TX_EIDLE_DEASSERT_DELAY = 3'b100; + parameter [0:0] TX_FABINT_USRCLK_FLOP = 1'b0; + parameter [0:0] TX_FIFO_BYP_EN = 1'b0; + parameter [0:0] TX_IDLE_DATA_ZERO = 1'b0; + parameter integer TX_INT_DATAWIDTH = 1; + parameter TX_LOOPBACK_DRIVE_HIZ = "FALSE"; + parameter [0:0] TX_MAINCURSOR_SEL = 1'b0; + parameter [6:0] TX_MARGIN_FULL_0 = 7'b1001110; + parameter [6:0] TX_MARGIN_FULL_1 = 7'b1001001; + parameter [6:0] TX_MARGIN_FULL_2 = 7'b1000101; + parameter [6:0] TX_MARGIN_FULL_3 = 7'b1000010; + parameter [6:0] TX_MARGIN_FULL_4 = 7'b1000000; + parameter [6:0] TX_MARGIN_LOW_0 = 7'b1000110; + parameter [6:0] TX_MARGIN_LOW_1 = 7'b1000100; + parameter [6:0] TX_MARGIN_LOW_2 = 7'b1000010; + parameter [6:0] TX_MARGIN_LOW_3 = 7'b1000000; + parameter [6:0] TX_MARGIN_LOW_4 = 7'b1000000; + parameter [15:0] TX_PHICAL_CFG0 = 16'h0000; + parameter [15:0] TX_PHICAL_CFG1 = 16'h003F; + parameter [15:0] TX_PHICAL_CFG2 = 16'h0000; + parameter integer TX_PI_BIASSET = 0; + parameter [1:0] TX_PI_IBIAS_MID = 2'b00; + parameter [0:0] TX_PMADATA_OPT = 1'b0; + parameter [0:0] TX_PMA_POWER_SAVE = 1'b0; + parameter [15:0] TX_PMA_RSV0 = 16'h0008; + parameter integer TX_PREDRV_CTRL = 2; + parameter TX_PROGCLK_SEL = "POSTPI"; + parameter real TX_PROGDIV_CFG = 0.0; + parameter [15:0] TX_PROGDIV_RATE = 16'h0001; + parameter [0:0] TX_QPI_STATUS_EN = 1'b0; + parameter [13:0] TX_RXDETECT_CFG = 14'h0032; + parameter integer TX_RXDETECT_REF = 3; + parameter [2:0] TX_SAMPLE_PERIOD = 3'b101; + parameter [0:0] TX_SARC_LPBK_ENB = 1'b0; + parameter [1:0] TX_SW_MEAS = 2'b00; + parameter [2:0] TX_VREG_CTRL = 3'b000; + parameter [0:0] TX_VREG_PDB = 1'b0; + parameter [1:0] TX_VREG_VREFSEL = 2'b00; + parameter TX_XCLK_SEL = "TXOUT"; + parameter [0:0] USB_BOTH_BURST_IDLE = 1'b0; + parameter [6:0] USB_BURSTMAX_U3WAKE = 7'b1111111; + parameter [6:0] USB_BURSTMIN_U3WAKE = 7'b1100011; + parameter [0:0] USB_CLK_COR_EQ_EN = 1'b0; + parameter [0:0] USB_EXT_CNTL = 1'b1; + parameter [9:0] USB_IDLEMAX_POLLING = 10'b1010111011; + parameter [9:0] USB_IDLEMIN_POLLING = 10'b0100101011; + parameter [8:0] USB_LFPSPING_BURST = 9'b000000101; + parameter [8:0] USB_LFPSPOLLING_BURST = 9'b000110001; + parameter [8:0] USB_LFPSPOLLING_IDLE_MS = 9'b000000100; + parameter [8:0] USB_LFPSU1EXIT_BURST = 9'b000011101; + parameter [8:0] USB_LFPSU2LPEXIT_BURST_MS = 9'b001100011; + parameter [8:0] USB_LFPSU3WAKE_BURST_MS = 9'b111110011; + parameter [3:0] USB_LFPS_TPERIOD = 4'b0011; + parameter [0:0] USB_LFPS_TPERIOD_ACCURATE = 1'b1; + parameter [0:0] USB_MODE = 1'b0; + parameter [0:0] USB_PCIE_ERR_REP_DIS = 1'b0; + parameter integer USB_PING_SATA_MAX_INIT = 21; + parameter integer USB_PING_SATA_MIN_INIT = 12; + parameter integer USB_POLL_SATA_MAX_BURST = 8; + parameter integer USB_POLL_SATA_MIN_BURST = 4; + parameter [0:0] USB_RAW_ELEC = 1'b0; + parameter [0:0] USB_RXIDLE_P0_CTRL = 1'b1; + parameter [0:0] USB_TXIDLE_TUNE_ENABLE = 1'b1; + parameter integer USB_U1_SATA_MAX_WAKE = 7; + parameter integer USB_U1_SATA_MIN_WAKE = 4; + parameter integer USB_U2_SAS_MAX_COM = 64; + parameter integer USB_U2_SAS_MIN_COM = 36; + parameter [0:0] USE_PCS_CLK_PHASE_SEL = 1'b0; + parameter [0:0] Y_ALL_MODE = 1'b0; + output BUFGTCE; + output [2:0] BUFGTCEMASK; + output [8:0] BUFGTDIV; + output BUFGTRESET; + output [2:0] BUFGTRSTMASK; + output CPLLFBCLKLOST; + output CPLLLOCK; + output CPLLREFCLKLOST; + output [15:0] DMONITOROUT; + output DMONITOROUTCLK; + output [15:0] DRPDO; + output DRPRDY; + output EYESCANDATAERROR; + output GTHTXN; + output GTHTXP; + output GTPOWERGOOD; + output GTREFCLKMONITOR; + output PCIERATEGEN3; + output PCIERATEIDLE; + output [1:0] PCIERATEQPLLPD; + output [1:0] PCIERATEQPLLRESET; + output PCIESYNCTXSYNCDONE; + output PCIEUSERGEN3RDY; + output PCIEUSERPHYSTATUSRST; + output PCIEUSERRATESTART; + output [15:0] PCSRSVDOUT; + output PHYSTATUS; + output [15:0] PINRSRVDAS; + output POWERPRESENT; + output RESETEXCEPTION; + output [2:0] RXBUFSTATUS; + output RXBYTEISALIGNED; + output RXBYTEREALIGN; + output RXCDRLOCK; + output RXCDRPHDONE; + output RXCHANBONDSEQ; + output RXCHANISALIGNED; + output RXCHANREALIGN; + output [4:0] RXCHBONDO; + output RXCKCALDONE; + output [1:0] RXCLKCORCNT; + output RXCOMINITDET; + output RXCOMMADET; + output RXCOMSASDET; + output RXCOMWAKEDET; + output [15:0] RXCTRL0; + output [15:0] RXCTRL1; + output [7:0] RXCTRL2; + output [7:0] RXCTRL3; + output [127:0] RXDATA; + output [7:0] RXDATAEXTENDRSVD; + output [1:0] RXDATAVALID; + output RXDLYSRESETDONE; + output RXELECIDLE; + output [5:0] RXHEADER; + output [1:0] RXHEADERVALID; + output RXLFPSTRESETDET; + output RXLFPSU2LPEXITDET; + output RXLFPSU3WAKEDET; + output [7:0] RXMONITOROUT; + output RXOSINTDONE; + output RXOSINTSTARTED; + output RXOSINTSTROBEDONE; + output RXOSINTSTROBESTARTED; + output RXOUTCLK; + output RXOUTCLKFABRIC; + output RXOUTCLKPCS; + output RXPHALIGNDONE; + output RXPHALIGNERR; + output RXPMARESETDONE; + output RXPRBSERR; + output RXPRBSLOCKED; + output RXPRGDIVRESETDONE; + output RXQPISENN; + output RXQPISENP; + output RXRATEDONE; + output RXRECCLKOUT; + output RXRESETDONE; + output RXSLIDERDY; + output RXSLIPDONE; + output RXSLIPOUTCLKRDY; + output RXSLIPPMARDY; + output [1:0] RXSTARTOFSEQ; + output [2:0] RXSTATUS; + output RXSYNCDONE; + output RXSYNCOUT; + output RXVALID; + output [1:0] TXBUFSTATUS; + output TXCOMFINISH; + output TXDCCDONE; + output TXDLYSRESETDONE; + output TXOUTCLK; + output TXOUTCLKFABRIC; + output TXOUTCLKPCS; + output TXPHALIGNDONE; + output TXPHINITDONE; + output TXPMARESETDONE; + output TXPRGDIVRESETDONE; + output TXQPISENN; + output TXQPISENP; + output TXRATEDONE; + output TXRESETDONE; + output TXSYNCDONE; + output TXSYNCOUT; + input CDRSTEPDIR; + input CDRSTEPSQ; + input CDRSTEPSX; + input CFGRESET; + input CLKRSVD0; + input CLKRSVD1; + input CPLLFREQLOCK; + input CPLLLOCKDETCLK; + input CPLLLOCKEN; + input CPLLPD; + input [2:0] CPLLREFCLKSEL; + input CPLLRESET; + input DMONFIFORESET; + input DMONITORCLK; + input [9:0] DRPADDR; + input DRPCLK; + input [15:0] DRPDI; + input DRPEN; + input DRPRST; + input DRPWE; + input EYESCANRESET; + input EYESCANTRIGGER; + input FREQOS; + input GTGREFCLK; + input GTHRXN; + input GTHRXP; + input GTNORTHREFCLK0; + input GTNORTHREFCLK1; + input GTREFCLK0; + input GTREFCLK1; + input [15:0] GTRSVD; + input GTRXRESET; + input GTRXRESETSEL; + input GTSOUTHREFCLK0; + input GTSOUTHREFCLK1; + input GTTXRESET; + input GTTXRESETSEL; + input INCPCTRL; + input [2:0] LOOPBACK; + input PCIEEQRXEQADAPTDONE; + input PCIERSTIDLE; + input PCIERSTTXSYNCSTART; + input PCIEUSERRATEDONE; + input [15:0] PCSRSVDIN; + input QPLL0CLK; + input QPLL0FREQLOCK; + input QPLL0REFCLK; + input QPLL1CLK; + input QPLL1FREQLOCK; + input QPLL1REFCLK; + input RESETOVRD; + input RX8B10BEN; + input RXAFECFOKEN; + input RXBUFRESET; + input RXCDRFREQRESET; + input RXCDRHOLD; + input RXCDROVRDEN; + input RXCDRRESET; + input RXCHBONDEN; + input [4:0] RXCHBONDI; + input [2:0] RXCHBONDLEVEL; + input RXCHBONDMASTER; + input RXCHBONDSLAVE; + input RXCKCALRESET; + input [6:0] RXCKCALSTART; + input RXCOMMADETEN; + input [1:0] RXDFEAGCCTRL; + input RXDFEAGCHOLD; + input RXDFEAGCOVRDEN; + input [3:0] RXDFECFOKFCNUM; + input RXDFECFOKFEN; + input RXDFECFOKFPULSE; + input RXDFECFOKHOLD; + input RXDFECFOKOVREN; + input RXDFEKHHOLD; + input RXDFEKHOVRDEN; + input RXDFELFHOLD; + input RXDFELFOVRDEN; + input RXDFELPMRESET; + input RXDFETAP10HOLD; + input RXDFETAP10OVRDEN; + input RXDFETAP11HOLD; + input RXDFETAP11OVRDEN; + input RXDFETAP12HOLD; + input RXDFETAP12OVRDEN; + input RXDFETAP13HOLD; + input RXDFETAP13OVRDEN; + input RXDFETAP14HOLD; + input RXDFETAP14OVRDEN; + input RXDFETAP15HOLD; + input RXDFETAP15OVRDEN; + input RXDFETAP2HOLD; + input RXDFETAP2OVRDEN; + input RXDFETAP3HOLD; + input RXDFETAP3OVRDEN; + input RXDFETAP4HOLD; + input RXDFETAP4OVRDEN; + input RXDFETAP5HOLD; + input RXDFETAP5OVRDEN; + input RXDFETAP6HOLD; + input RXDFETAP6OVRDEN; + input RXDFETAP7HOLD; + input RXDFETAP7OVRDEN; + input RXDFETAP8HOLD; + input RXDFETAP8OVRDEN; + input RXDFETAP9HOLD; + input RXDFETAP9OVRDEN; + input RXDFEUTHOLD; + input RXDFEUTOVRDEN; + input RXDFEVPHOLD; + input RXDFEVPOVRDEN; + input RXDFEXYDEN; + input RXDLYBYPASS; + input RXDLYEN; + input RXDLYOVRDEN; + input RXDLYSRESET; + input [1:0] RXELECIDLEMODE; + input RXEQTRAINING; + input RXGEARBOXSLIP; + input RXLATCLK; + input RXLPMEN; + input RXLPMGCHOLD; + input RXLPMGCOVRDEN; + input RXLPMHFHOLD; + input RXLPMHFOVRDEN; + input RXLPMLFHOLD; + input RXLPMLFKLOVRDEN; + input RXLPMOSHOLD; + input RXLPMOSOVRDEN; + input RXMCOMMAALIGNEN; + input [1:0] RXMONITORSEL; + input RXOOBRESET; + input RXOSCALRESET; + input RXOSHOLD; + input RXOSOVRDEN; + input [2:0] RXOUTCLKSEL; + input RXPCOMMAALIGNEN; + input RXPCSRESET; + input [1:0] RXPD; + input RXPHALIGN; + input RXPHALIGNEN; + input RXPHDLYPD; + input RXPHDLYRESET; + input RXPHOVRDEN; + input [1:0] RXPLLCLKSEL; + input RXPMARESET; + input RXPOLARITY; + input RXPRBSCNTRESET; + input [3:0] RXPRBSSEL; + input RXPROGDIVRESET; + input RXQPIEN; + input [2:0] RXRATE; + input RXRATEMODE; + input RXSLIDE; + input RXSLIPOUTCLK; + input RXSLIPPMA; + input RXSYNCALLIN; + input RXSYNCIN; + input RXSYNCMODE; + input [1:0] RXSYSCLKSEL; + input RXTERMINATION; + input RXUSERRDY; + input RXUSRCLK; + input RXUSRCLK2; + input SIGVALIDCLK; + input [19:0] TSTIN; + input [7:0] TX8B10BBYPASS; + input TX8B10BEN; + input TXCOMINIT; + input TXCOMSAS; + input TXCOMWAKE; + input [15:0] TXCTRL0; + input [15:0] TXCTRL1; + input [7:0] TXCTRL2; + input [127:0] TXDATA; + input [7:0] TXDATAEXTENDRSVD; + input TXDCCFORCESTART; + input TXDCCRESET; + input [1:0] TXDEEMPH; + input TXDETECTRX; + input [4:0] TXDIFFCTRL; + input TXDLYBYPASS; + input TXDLYEN; + input TXDLYHOLD; + input TXDLYOVRDEN; + input TXDLYSRESET; + input TXDLYUPDOWN; + input TXELECIDLE; + input [5:0] TXHEADER; + input TXINHIBIT; + input TXLATCLK; + input TXLFPSTRESET; + input TXLFPSU2LPEXIT; + input TXLFPSU3WAKE; + input [6:0] TXMAINCURSOR; + input [2:0] TXMARGIN; + input TXMUXDCDEXHOLD; + input TXMUXDCDORWREN; + input TXONESZEROS; + input [2:0] TXOUTCLKSEL; + input TXPCSRESET; + input [1:0] TXPD; + input TXPDELECIDLEMODE; + input TXPHALIGN; + input TXPHALIGNEN; + input TXPHDLYPD; + input TXPHDLYRESET; + input TXPHDLYTSTCLK; + input TXPHINIT; + input TXPHOVRDEN; + input TXPIPPMEN; + input TXPIPPMOVRDEN; + input TXPIPPMPD; + input TXPIPPMSEL; + input [4:0] TXPIPPMSTEPSIZE; + input TXPISOPD; + input [1:0] TXPLLCLKSEL; + input TXPMARESET; + input TXPOLARITY; + input [4:0] TXPOSTCURSOR; + input TXPRBSFORCEERR; + input [3:0] TXPRBSSEL; + input [4:0] TXPRECURSOR; + input TXPROGDIVRESET; + input TXQPIBIASEN; + input TXQPIWEAKPUP; + input [2:0] TXRATE; + input TXRATEMODE; + input [6:0] TXSEQUENCE; + input TXSWING; + input TXSYNCALLIN; + input TXSYNCIN; + input TXSYNCMODE; + input [1:0] TXSYSCLKSEL; + input TXUSERRDY; + input TXUSRCLK; + input TXUSRCLK2; +endmodule + +module GTHE4_COMMON (...); + parameter [0:0] AEN_QPLL0_FBDIV = 1'b1; + parameter [0:0] AEN_QPLL1_FBDIV = 1'b1; + parameter [0:0] AEN_SDM0TOGGLE = 1'b0; + parameter [0:0] AEN_SDM1TOGGLE = 1'b0; + parameter [0:0] A_SDM0TOGGLE = 1'b0; + parameter [8:0] A_SDM1DATA_HIGH = 9'b000000000; + parameter [15:0] A_SDM1DATA_LOW = 16'b0000000000000000; + parameter [0:0] A_SDM1TOGGLE = 1'b0; + parameter [15:0] BIAS_CFG0 = 16'h0000; + parameter [15:0] BIAS_CFG1 = 16'h0000; + parameter [15:0] BIAS_CFG2 = 16'h0000; + parameter [15:0] BIAS_CFG3 = 16'h0000; + parameter [15:0] BIAS_CFG4 = 16'h0000; + parameter [15:0] BIAS_CFG_RSVD = 16'h0000; + parameter [15:0] COMMON_CFG0 = 16'h0000; + parameter [15:0] COMMON_CFG1 = 16'h0000; + parameter [15:0] POR_CFG = 16'h0000; + parameter [15:0] PPF0_CFG = 16'h0F00; + parameter [15:0] PPF1_CFG = 16'h0F00; + parameter QPLL0CLKOUT_RATE = "FULL"; + parameter [15:0] QPLL0_CFG0 = 16'h391C; + parameter [15:0] QPLL0_CFG1 = 16'h0000; + parameter [15:0] QPLL0_CFG1_G3 = 16'h0020; + parameter [15:0] QPLL0_CFG2 = 16'h0F80; + parameter [15:0] QPLL0_CFG2_G3 = 16'h0F80; + parameter [15:0] QPLL0_CFG3 = 16'h0120; + parameter [15:0] QPLL0_CFG4 = 16'h0002; + parameter [9:0] QPLL0_CP = 10'b0000011111; + parameter [9:0] QPLL0_CP_G3 = 10'b0000011111; + parameter integer QPLL0_FBDIV = 66; + parameter integer QPLL0_FBDIV_G3 = 80; + parameter [15:0] QPLL0_INIT_CFG0 = 16'h0000; + parameter [7:0] QPLL0_INIT_CFG1 = 8'h00; + parameter [15:0] QPLL0_LOCK_CFG = 16'h01E8; + parameter [15:0] QPLL0_LOCK_CFG_G3 = 16'h21E8; + parameter [9:0] QPLL0_LPF = 10'b1011111111; + parameter [9:0] QPLL0_LPF_G3 = 10'b1111111111; + parameter [0:0] QPLL0_PCI_EN = 1'b0; + parameter [0:0] QPLL0_RATE_SW_USE_DRP = 1'b0; + parameter integer QPLL0_REFCLK_DIV = 1; + parameter [15:0] QPLL0_SDM_CFG0 = 16'h0040; + parameter [15:0] QPLL0_SDM_CFG1 = 16'h0000; + parameter [15:0] QPLL0_SDM_CFG2 = 16'h0000; + parameter QPLL1CLKOUT_RATE = "FULL"; + parameter [15:0] QPLL1_CFG0 = 16'h691C; + parameter [15:0] QPLL1_CFG1 = 16'h0020; + parameter [15:0] QPLL1_CFG1_G3 = 16'h0020; + parameter [15:0] QPLL1_CFG2 = 16'h0F80; + parameter [15:0] QPLL1_CFG2_G3 = 16'h0F80; + parameter [15:0] QPLL1_CFG3 = 16'h0120; + parameter [15:0] QPLL1_CFG4 = 16'h0002; + parameter [9:0] QPLL1_CP = 10'b0000011111; + parameter [9:0] QPLL1_CP_G3 = 10'b0000011111; + parameter integer QPLL1_FBDIV = 66; + parameter integer QPLL1_FBDIV_G3 = 80; + parameter [15:0] QPLL1_INIT_CFG0 = 16'h0000; + parameter [7:0] QPLL1_INIT_CFG1 = 8'h00; + parameter [15:0] QPLL1_LOCK_CFG = 16'h01E8; + parameter [15:0] QPLL1_LOCK_CFG_G3 = 16'h21E8; + parameter [9:0] QPLL1_LPF = 10'b1011111111; + parameter [9:0] QPLL1_LPF_G3 = 10'b1111111111; + parameter [0:0] QPLL1_PCI_EN = 1'b0; + parameter [0:0] QPLL1_RATE_SW_USE_DRP = 1'b0; + parameter integer QPLL1_REFCLK_DIV = 1; + parameter [15:0] QPLL1_SDM_CFG0 = 16'h0000; + parameter [15:0] QPLL1_SDM_CFG1 = 16'h0000; + parameter [15:0] QPLL1_SDM_CFG2 = 16'h0000; + parameter [15:0] RSVD_ATTR0 = 16'h0000; + parameter [15:0] RSVD_ATTR1 = 16'h0000; + parameter [15:0] RSVD_ATTR2 = 16'h0000; + parameter [15:0] RSVD_ATTR3 = 16'h0000; + parameter [1:0] RXRECCLKOUT0_SEL = 2'b00; + parameter [1:0] RXRECCLKOUT1_SEL = 2'b00; + parameter [0:0] SARC_ENB = 1'b0; + parameter [0:0] SARC_SEL = 1'b0; + parameter [15:0] SDM0INITSEED0_0 = 16'b0000000000000000; + parameter [8:0] SDM0INITSEED0_1 = 9'b000000000; + parameter [15:0] SDM1INITSEED0_0 = 16'b0000000000000000; + parameter [8:0] SDM1INITSEED0_1 = 9'b000000000; + parameter SIM_DEVICE = "ULTRASCALE_PLUS"; + parameter SIM_MODE = "FAST"; + parameter SIM_RESET_SPEEDUP = "TRUE"; + output [15:0] DRPDO; + output DRPRDY; + output [7:0] PMARSVDOUT0; + output [7:0] PMARSVDOUT1; + output QPLL0FBCLKLOST; + output QPLL0LOCK; + output QPLL0OUTCLK; + output QPLL0OUTREFCLK; + output QPLL0REFCLKLOST; + output QPLL1FBCLKLOST; + output QPLL1LOCK; + output QPLL1OUTCLK; + output QPLL1OUTREFCLK; + output QPLL1REFCLKLOST; + output [7:0] QPLLDMONITOR0; + output [7:0] QPLLDMONITOR1; + output REFCLKOUTMONITOR0; + output REFCLKOUTMONITOR1; + output [1:0] RXRECCLK0SEL; + output [1:0] RXRECCLK1SEL; + output [3:0] SDM0FINALOUT; + output [14:0] SDM0TESTDATA; + output [3:0] SDM1FINALOUT; + output [14:0] SDM1TESTDATA; + output [9:0] TCONGPO; + output TCONRSVDOUT0; + input BGBYPASSB; + input BGMONITORENB; + input BGPDB; + input [4:0] BGRCALOVRD; + input BGRCALOVRDENB; + input [15:0] DRPADDR; + input DRPCLK; + input [15:0] DRPDI; + input DRPEN; + input DRPWE; + input GTGREFCLK0; + input GTGREFCLK1; + input GTNORTHREFCLK00; + input GTNORTHREFCLK01; + input GTNORTHREFCLK10; + input GTNORTHREFCLK11; + input GTREFCLK00; + input GTREFCLK01; + input GTREFCLK10; + input GTREFCLK11; + input GTSOUTHREFCLK00; + input GTSOUTHREFCLK01; + input GTSOUTHREFCLK10; + input GTSOUTHREFCLK11; + input [2:0] PCIERATEQPLL0; + input [2:0] PCIERATEQPLL1; + input [7:0] PMARSVD0; + input [7:0] PMARSVD1; + input QPLL0CLKRSVD0; + input QPLL0CLKRSVD1; + input [7:0] QPLL0FBDIV; + input QPLL0LOCKDETCLK; + input QPLL0LOCKEN; + input QPLL0PD; + input [2:0] QPLL0REFCLKSEL; + input QPLL0RESET; + input QPLL1CLKRSVD0; + input QPLL1CLKRSVD1; + input [7:0] QPLL1FBDIV; + input QPLL1LOCKDETCLK; + input QPLL1LOCKEN; + input QPLL1PD; + input [2:0] QPLL1REFCLKSEL; + input QPLL1RESET; + input [7:0] QPLLRSVD1; + input [4:0] QPLLRSVD2; + input [4:0] QPLLRSVD3; + input [7:0] QPLLRSVD4; + input RCALENB; + input [24:0] SDM0DATA; + input SDM0RESET; + input SDM0TOGGLE; + input [1:0] SDM0WIDTH; + input [24:0] SDM1DATA; + input SDM1RESET; + input SDM1TOGGLE; + input [1:0] SDM1WIDTH; + input [9:0] TCONGPI; + input TCONPOWERUP; + input [1:0] TCONRESET; + input [1:0] TCONRSVDIN1; +endmodule + +module GTYE3_CHANNEL (...); + parameter [0:0] ACJTAG_DEBUG_MODE = 1'b0; + parameter [0:0] ACJTAG_MODE = 1'b0; + parameter [0:0] ACJTAG_RESET = 1'b0; + parameter [15:0] ADAPT_CFG0 = 16'h9200; + parameter [15:0] ADAPT_CFG1 = 16'h801C; + parameter [15:0] ADAPT_CFG2 = 16'b0000000000000000; + parameter ALIGN_COMMA_DOUBLE = "FALSE"; + parameter [9:0] ALIGN_COMMA_ENABLE = 10'b0001111111; + parameter integer ALIGN_COMMA_WORD = 1; + parameter ALIGN_MCOMMA_DET = "TRUE"; + parameter [9:0] ALIGN_MCOMMA_VALUE = 10'b1010000011; + parameter ALIGN_PCOMMA_DET = "TRUE"; + parameter [9:0] ALIGN_PCOMMA_VALUE = 10'b0101111100; + parameter [0:0] AUTO_BW_SEL_BYPASS = 1'b0; + parameter [0:0] A_RXOSCALRESET = 1'b0; + parameter [0:0] A_RXPROGDIVRESET = 1'b0; + parameter [4:0] A_TXDIFFCTRL = 5'b01100; + parameter [0:0] A_TXPROGDIVRESET = 1'b0; + parameter [0:0] CAPBYPASS_FORCE = 1'b0; + parameter CBCC_DATA_SOURCE_SEL = "DECODED"; + parameter [0:0] CDR_SWAP_MODE_EN = 1'b0; + parameter CHAN_BOND_KEEP_ALIGN = "FALSE"; + parameter integer CHAN_BOND_MAX_SKEW = 7; + parameter [9:0] CHAN_BOND_SEQ_1_1 = 10'b0101111100; + parameter [9:0] CHAN_BOND_SEQ_1_2 = 10'b0000000000; + parameter [9:0] CHAN_BOND_SEQ_1_3 = 10'b0000000000; + parameter [9:0] CHAN_BOND_SEQ_1_4 = 10'b0000000000; + parameter [3:0] CHAN_BOND_SEQ_1_ENABLE = 4'b1111; + parameter [9:0] CHAN_BOND_SEQ_2_1 = 10'b0100000000; + parameter [9:0] CHAN_BOND_SEQ_2_2 = 10'b0100000000; + parameter [9:0] CHAN_BOND_SEQ_2_3 = 10'b0100000000; + parameter [9:0] CHAN_BOND_SEQ_2_4 = 10'b0100000000; + parameter [3:0] CHAN_BOND_SEQ_2_ENABLE = 4'b1111; + parameter CHAN_BOND_SEQ_2_USE = "FALSE"; + parameter integer CHAN_BOND_SEQ_LEN = 2; + parameter [15:0] CH_HSPMUX = 16'h0000; + parameter [15:0] CKCAL1_CFG_0 = 16'b0000000000000000; + parameter [15:0] CKCAL1_CFG_1 = 16'b0000000000000000; + parameter [15:0] CKCAL1_CFG_2 = 16'b0000000000000000; + parameter [15:0] CKCAL1_CFG_3 = 16'b0000000000000000; + parameter [15:0] CKCAL2_CFG_0 = 16'b0000000000000000; + parameter [15:0] CKCAL2_CFG_1 = 16'b0000000000000000; + parameter [15:0] CKCAL2_CFG_2 = 16'b0000000000000000; + parameter [15:0] CKCAL2_CFG_3 = 16'b0000000000000000; + parameter [15:0] CKCAL2_CFG_4 = 16'b0000000000000000; + parameter [15:0] CKCAL_RSVD0 = 16'h0000; + parameter [15:0] CKCAL_RSVD1 = 16'h0000; + parameter CLK_CORRECT_USE = "TRUE"; + parameter CLK_COR_KEEP_IDLE = "FALSE"; + parameter integer CLK_COR_MAX_LAT = 20; + parameter integer CLK_COR_MIN_LAT = 18; + parameter CLK_COR_PRECEDENCE = "TRUE"; + parameter integer CLK_COR_REPEAT_WAIT = 0; + parameter [9:0] CLK_COR_SEQ_1_1 = 10'b0100011100; + parameter [9:0] CLK_COR_SEQ_1_2 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_1_3 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_1_4 = 10'b0000000000; + parameter [3:0] CLK_COR_SEQ_1_ENABLE = 4'b1111; + parameter [9:0] CLK_COR_SEQ_2_1 = 10'b0100000000; + parameter [9:0] CLK_COR_SEQ_2_2 = 10'b0100000000; + parameter [9:0] CLK_COR_SEQ_2_3 = 10'b0100000000; + parameter [9:0] CLK_COR_SEQ_2_4 = 10'b0100000000; + parameter [3:0] CLK_COR_SEQ_2_ENABLE = 4'b1111; + parameter CLK_COR_SEQ_2_USE = "FALSE"; + parameter integer CLK_COR_SEQ_LEN = 2; + parameter [15:0] CPLL_CFG0 = 16'h20F8; + parameter [15:0] CPLL_CFG1 = 16'hA494; + parameter [15:0] CPLL_CFG2 = 16'hF001; + parameter [5:0] CPLL_CFG3 = 6'h00; + parameter integer CPLL_FBDIV = 4; + parameter integer CPLL_FBDIV_45 = 4; + parameter [15:0] CPLL_INIT_CFG0 = 16'h001E; + parameter [7:0] CPLL_INIT_CFG1 = 8'h00; + parameter [15:0] CPLL_LOCK_CFG = 16'h01E8; + parameter integer CPLL_REFCLK_DIV = 1; + parameter [2:0] CTLE3_OCAP_EXT_CTRL = 3'b000; + parameter [0:0] CTLE3_OCAP_EXT_EN = 1'b0; + parameter [1:0] DDI_CTRL = 2'b00; + parameter integer DDI_REALIGN_WAIT = 15; + parameter DEC_MCOMMA_DETECT = "TRUE"; + parameter DEC_PCOMMA_DETECT = "TRUE"; + parameter DEC_VALID_COMMA_ONLY = "TRUE"; + parameter [0:0] DFE_D_X_REL_POS = 1'b0; + parameter [0:0] DFE_VCM_COMP_EN = 1'b0; + parameter [9:0] DMONITOR_CFG0 = 10'h000; + parameter [7:0] DMONITOR_CFG1 = 8'h00; + parameter [0:0] ES_CLK_PHASE_SEL = 1'b0; + parameter [5:0] ES_CONTROL = 6'b000000; + parameter ES_ERRDET_EN = "FALSE"; + parameter ES_EYE_SCAN_EN = "FALSE"; + parameter [11:0] ES_HORZ_OFFSET = 12'h000; + parameter [9:0] ES_PMA_CFG = 10'b0000000000; + parameter [4:0] ES_PRESCALE = 5'b00000; + parameter [15:0] ES_QUALIFIER0 = 16'h0000; + parameter [15:0] ES_QUALIFIER1 = 16'h0000; + parameter [15:0] ES_QUALIFIER2 = 16'h0000; + parameter [15:0] ES_QUALIFIER3 = 16'h0000; + parameter [15:0] ES_QUALIFIER4 = 16'h0000; + parameter [15:0] ES_QUALIFIER5 = 16'h0000; + parameter [15:0] ES_QUALIFIER6 = 16'h0000; + parameter [15:0] ES_QUALIFIER7 = 16'h0000; + parameter [15:0] ES_QUALIFIER8 = 16'h0000; + parameter [15:0] ES_QUALIFIER9 = 16'h0000; + parameter [15:0] ES_QUAL_MASK0 = 16'h0000; + parameter [15:0] ES_QUAL_MASK1 = 16'h0000; + parameter [15:0] ES_QUAL_MASK2 = 16'h0000; + parameter [15:0] ES_QUAL_MASK3 = 16'h0000; + parameter [15:0] ES_QUAL_MASK4 = 16'h0000; + parameter [15:0] ES_QUAL_MASK5 = 16'h0000; + parameter [15:0] ES_QUAL_MASK6 = 16'h0000; + parameter [15:0] ES_QUAL_MASK7 = 16'h0000; + parameter [15:0] ES_QUAL_MASK8 = 16'h0000; + parameter [15:0] ES_QUAL_MASK9 = 16'h0000; + parameter [15:0] ES_SDATA_MASK0 = 16'h0000; + parameter [15:0] ES_SDATA_MASK1 = 16'h0000; + parameter [15:0] ES_SDATA_MASK2 = 16'h0000; + parameter [15:0] ES_SDATA_MASK3 = 16'h0000; + parameter [15:0] ES_SDATA_MASK4 = 16'h0000; + parameter [15:0] ES_SDATA_MASK5 = 16'h0000; + parameter [15:0] ES_SDATA_MASK6 = 16'h0000; + parameter [15:0] ES_SDATA_MASK7 = 16'h0000; + parameter [15:0] ES_SDATA_MASK8 = 16'h0000; + parameter [15:0] ES_SDATA_MASK9 = 16'h0000; + parameter [10:0] EVODD_PHI_CFG = 11'b00000000000; + parameter [0:0] EYE_SCAN_SWAP_EN = 1'b0; + parameter [3:0] FTS_DESKEW_SEQ_ENABLE = 4'b1111; + parameter [3:0] FTS_LANE_DESKEW_CFG = 4'b1111; + parameter FTS_LANE_DESKEW_EN = "FALSE"; + parameter [4:0] GEARBOX_MODE = 5'b00000; + parameter [0:0] GM_BIAS_SELECT = 1'b0; + parameter [0:0] ISCAN_CK_PH_SEL2 = 1'b0; + parameter [0:0] LOCAL_MASTER = 1'b0; + parameter [15:0] LOOP0_CFG = 16'h0000; + parameter [15:0] LOOP10_CFG = 16'h0000; + parameter [15:0] LOOP11_CFG = 16'h0000; + parameter [15:0] LOOP12_CFG = 16'h0000; + parameter [15:0] LOOP13_CFG = 16'h0000; + parameter [15:0] LOOP1_CFG = 16'h0000; + parameter [15:0] LOOP2_CFG = 16'h0000; + parameter [15:0] LOOP3_CFG = 16'h0000; + parameter [15:0] LOOP4_CFG = 16'h0000; + parameter [15:0] LOOP5_CFG = 16'h0000; + parameter [15:0] LOOP6_CFG = 16'h0000; + parameter [15:0] LOOP7_CFG = 16'h0000; + parameter [15:0] LOOP8_CFG = 16'h0000; + parameter [15:0] LOOP9_CFG = 16'h0000; + parameter [2:0] LPBK_BIAS_CTRL = 3'b000; + parameter [0:0] LPBK_EN_RCAL_B = 1'b0; + parameter [3:0] LPBK_EXT_RCAL = 4'b0000; + parameter [3:0] LPBK_RG_CTRL = 4'b0000; + parameter [1:0] OOBDIVCTL = 2'b00; + parameter [0:0] OOB_PWRUP = 1'b0; + parameter PCI3_AUTO_REALIGN = "FRST_SMPL"; + parameter [0:0] PCI3_PIPE_RX_ELECIDLE = 1'b1; + parameter [1:0] PCI3_RX_ASYNC_EBUF_BYPASS = 2'b00; + parameter [0:0] PCI3_RX_ELECIDLE_EI2_ENABLE = 1'b0; + parameter [5:0] PCI3_RX_ELECIDLE_H2L_COUNT = 6'b000000; + parameter [2:0] PCI3_RX_ELECIDLE_H2L_DISABLE = 3'b000; + parameter [5:0] PCI3_RX_ELECIDLE_HI_COUNT = 6'b000000; + parameter [0:0] PCI3_RX_ELECIDLE_LP4_DISABLE = 1'b0; + parameter [0:0] PCI3_RX_FIFO_DISABLE = 1'b0; + parameter [15:0] PCIE_BUFG_DIV_CTRL = 16'h0000; + parameter [15:0] PCIE_RXPCS_CFG_GEN3 = 16'h0000; + parameter [15:0] PCIE_RXPMA_CFG = 16'h0000; + parameter [15:0] PCIE_TXPCS_CFG_GEN3 = 16'h0000; + parameter [15:0] PCIE_TXPMA_CFG = 16'h0000; + parameter PCS_PCIE_EN = "FALSE"; + parameter [15:0] PCS_RSVD0 = 16'b0000000000000000; + parameter [2:0] PCS_RSVD1 = 3'b000; + parameter [11:0] PD_TRANS_TIME_FROM_P2 = 12'h03C; + parameter [7:0] PD_TRANS_TIME_NONE_P2 = 8'h19; + parameter [7:0] PD_TRANS_TIME_TO_P2 = 8'h64; + parameter [1:0] PLL_SEL_MODE_GEN12 = 2'h0; + parameter [1:0] PLL_SEL_MODE_GEN3 = 2'h0; + parameter [15:0] PMA_RSV0 = 16'h0000; + parameter [15:0] PMA_RSV1 = 16'h0000; + parameter integer PREIQ_FREQ_BST = 0; + parameter [2:0] PROCESS_PAR = 3'b010; + parameter [0:0] RATE_SW_USE_DRP = 1'b0; + parameter [0:0] RESET_POWERSAVE_DISABLE = 1'b0; + parameter [4:0] RXBUFRESET_TIME = 5'b00001; + parameter RXBUF_ADDR_MODE = "FULL"; + parameter [3:0] RXBUF_EIDLE_HI_CNT = 4'b1000; + parameter [3:0] RXBUF_EIDLE_LO_CNT = 4'b0000; + parameter RXBUF_EN = "TRUE"; + parameter RXBUF_RESET_ON_CB_CHANGE = "TRUE"; + parameter RXBUF_RESET_ON_COMMAALIGN = "FALSE"; + parameter RXBUF_RESET_ON_EIDLE = "FALSE"; + parameter RXBUF_RESET_ON_RATE_CHANGE = "TRUE"; + parameter integer RXBUF_THRESH_OVFLW = 0; + parameter RXBUF_THRESH_OVRD = "FALSE"; + parameter integer RXBUF_THRESH_UNDFLW = 4; + parameter [4:0] RXCDRFREQRESET_TIME = 5'b00001; + parameter [4:0] RXCDRPHRESET_TIME = 5'b00001; + parameter [15:0] RXCDR_CFG0 = 16'h0000; + parameter [15:0] RXCDR_CFG0_GEN3 = 16'h0000; + parameter [15:0] RXCDR_CFG1 = 16'h0300; + parameter [15:0] RXCDR_CFG1_GEN3 = 16'h0300; + parameter [15:0] RXCDR_CFG2 = 16'h0060; + parameter [15:0] RXCDR_CFG2_GEN3 = 16'h0060; + parameter [15:0] RXCDR_CFG3 = 16'h0000; + parameter [15:0] RXCDR_CFG3_GEN3 = 16'h0000; + parameter [15:0] RXCDR_CFG4 = 16'h0002; + parameter [15:0] RXCDR_CFG4_GEN3 = 16'h0002; + parameter [15:0] RXCDR_CFG5 = 16'h0000; + parameter [15:0] RXCDR_CFG5_GEN3 = 16'h0000; + parameter [0:0] RXCDR_FR_RESET_ON_EIDLE = 1'b0; + parameter [0:0] RXCDR_HOLD_DURING_EIDLE = 1'b0; + parameter [15:0] RXCDR_LOCK_CFG0 = 16'h0001; + parameter [15:0] RXCDR_LOCK_CFG1 = 16'h0000; + parameter [15:0] RXCDR_LOCK_CFG2 = 16'h0000; + parameter [15:0] RXCDR_LOCK_CFG3 = 16'h0000; + parameter [0:0] RXCDR_PH_RESET_ON_EIDLE = 1'b0; + parameter [1:0] RXCFOKDONE_SRC = 2'b00; + parameter [15:0] RXCFOK_CFG0 = 16'h3E00; + parameter [15:0] RXCFOK_CFG1 = 16'h0042; + parameter [15:0] RXCFOK_CFG2 = 16'h002D; + parameter [6:0] RXDFELPMRESET_TIME = 7'b0001111; + parameter [15:0] RXDFELPM_KL_CFG0 = 16'h0000; + parameter [15:0] RXDFELPM_KL_CFG1 = 16'h0022; + parameter [15:0] RXDFELPM_KL_CFG2 = 16'h0100; + parameter [15:0] RXDFE_CFG0 = 16'h4C00; + parameter [15:0] RXDFE_CFG1 = 16'h0000; + parameter [15:0] RXDFE_GC_CFG0 = 16'h1E00; + parameter [15:0] RXDFE_GC_CFG1 = 16'h1900; + parameter [15:0] RXDFE_GC_CFG2 = 16'h0000; + parameter [15:0] RXDFE_H2_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H2_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H3_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H3_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H4_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H4_CFG1 = 16'h0003; + parameter [15:0] RXDFE_H5_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H5_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H6_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H6_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H7_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H7_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H8_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H8_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H9_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H9_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HA_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HA_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HB_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HB_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HC_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HC_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HD_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HD_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HE_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HE_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HF_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HF_CFG1 = 16'h0002; + parameter [15:0] RXDFE_OS_CFG0 = 16'h0000; + parameter [15:0] RXDFE_OS_CFG1 = 16'h0200; + parameter [0:0] RXDFE_PWR_SAVING = 1'b0; + parameter [15:0] RXDFE_UT_CFG0 = 16'h0000; + parameter [15:0] RXDFE_UT_CFG1 = 16'h0002; + parameter [15:0] RXDFE_VP_CFG0 = 16'h0000; + parameter [15:0] RXDFE_VP_CFG1 = 16'h0022; + parameter [15:0] RXDLY_CFG = 16'h001F; + parameter [15:0] RXDLY_LCFG = 16'h0030; + parameter RXELECIDLE_CFG = "SIGCFG_4"; + parameter integer RXGBOX_FIFO_INIT_RD_ADDR = 4; + parameter RXGEARBOX_EN = "FALSE"; + parameter [4:0] RXISCANRESET_TIME = 5'b00001; + parameter [15:0] RXLPM_CFG = 16'h0000; + parameter [15:0] RXLPM_GC_CFG = 16'h0200; + parameter [15:0] RXLPM_KH_CFG0 = 16'h0000; + parameter [15:0] RXLPM_KH_CFG1 = 16'h0002; + parameter [15:0] RXLPM_OS_CFG0 = 16'h0400; + parameter [15:0] RXLPM_OS_CFG1 = 16'h0000; + parameter [8:0] RXOOB_CFG = 9'b000000110; + parameter RXOOB_CLK_CFG = "PMA"; + parameter [4:0] RXOSCALRESET_TIME = 5'b00011; + parameter integer RXOUT_DIV = 4; + parameter [4:0] RXPCSRESET_TIME = 5'b00001; + parameter [15:0] RXPHBEACON_CFG = 16'h0000; + parameter [15:0] RXPHDLY_CFG = 16'h2020; + parameter [15:0] RXPHSAMP_CFG = 16'h2100; + parameter [15:0] RXPHSLIP_CFG = 16'h9933; + parameter [4:0] RXPH_MONITOR_SEL = 5'b00000; + parameter [0:0] RXPI_AUTO_BW_SEL_BYPASS = 1'b0; + parameter [15:0] RXPI_CFG = 16'h0100; + parameter [0:0] RXPI_LPM = 1'b0; + parameter [15:0] RXPI_RSV0 = 16'h0000; + parameter [1:0] RXPI_SEL_LC = 2'b00; + parameter [1:0] RXPI_STARTCODE = 2'b00; + parameter [0:0] RXPI_VREFSEL = 1'b0; + parameter RXPMACLK_SEL = "DATA"; + parameter [4:0] RXPMARESET_TIME = 5'b00001; + parameter [0:0] RXPRBS_ERR_LOOPBACK = 1'b0; + parameter integer RXPRBS_LINKACQ_CNT = 15; + parameter integer RXSLIDE_AUTO_WAIT = 7; + parameter RXSLIDE_MODE = "OFF"; + parameter [0:0] RXSYNC_MULTILANE = 1'b0; + parameter [0:0] RXSYNC_OVRD = 1'b0; + parameter [0:0] RXSYNC_SKIP_DA = 1'b0; + parameter [0:0] RX_AFE_CM_EN = 1'b0; + parameter [15:0] RX_BIAS_CFG0 = 16'h1534; + parameter [5:0] RX_BUFFER_CFG = 6'b000000; + parameter [0:0] RX_CAPFF_SARC_ENB = 1'b0; + parameter integer RX_CLK25_DIV = 8; + parameter [0:0] RX_CLKMUX_EN = 1'b1; + parameter [4:0] RX_CLK_SLIP_OVRD = 5'b00000; + parameter [3:0] RX_CM_BUF_CFG = 4'b1010; + parameter [0:0] RX_CM_BUF_PD = 1'b0; + parameter integer RX_CM_SEL = 3; + parameter integer RX_CM_TRIM = 10; + parameter [0:0] RX_CTLE1_KHKL = 1'b0; + parameter [0:0] RX_CTLE2_KHKL = 1'b0; + parameter [0:0] RX_CTLE3_AGC = 1'b0; + parameter integer RX_DATA_WIDTH = 20; + parameter [5:0] RX_DDI_SEL = 6'b000000; + parameter RX_DEFER_RESET_BUF_EN = "TRUE"; + parameter [2:0] RX_DEGEN_CTRL = 3'b010; + parameter integer RX_DFELPM_CFG0 = 6; + parameter [0:0] RX_DFELPM_CFG1 = 1'b0; + parameter [0:0] RX_DFELPM_KLKH_AGC_STUP_EN = 1'b1; + parameter [1:0] RX_DFE_AGC_CFG0 = 2'b00; + parameter integer RX_DFE_AGC_CFG1 = 4; + parameter integer RX_DFE_KL_LPM_KH_CFG0 = 1; + parameter integer RX_DFE_KL_LPM_KH_CFG1 = 2; + parameter [1:0] RX_DFE_KL_LPM_KL_CFG0 = 2'b01; + parameter [2:0] RX_DFE_KL_LPM_KL_CFG1 = 3'b010; + parameter [0:0] RX_DFE_LPM_HOLD_DURING_EIDLE = 1'b0; + parameter RX_DISPERR_SEQ_MATCH = "TRUE"; + parameter [0:0] RX_DIV2_MODE_B = 1'b0; + parameter [4:0] RX_DIVRESET_TIME = 5'b00001; + parameter [0:0] RX_EN_CTLE_RCAL_B = 1'b0; + parameter [0:0] RX_EN_HI_LR = 1'b0; + parameter [8:0] RX_EXT_RL_CTRL = 9'b000000000; + parameter [6:0] RX_EYESCAN_VS_CODE = 7'b0000000; + parameter [0:0] RX_EYESCAN_VS_NEG_DIR = 1'b0; + parameter [1:0] RX_EYESCAN_VS_RANGE = 2'b00; + parameter [0:0] RX_EYESCAN_VS_UT_SIGN = 1'b0; + parameter [0:0] RX_FABINT_USRCLK_FLOP = 1'b0; + parameter integer RX_INT_DATAWIDTH = 1; + parameter [0:0] RX_PMA_POWER_SAVE = 1'b0; + parameter real RX_PROGDIV_CFG = 0.0; + parameter [15:0] RX_PROGDIV_RATE = 16'h0001; + parameter [3:0] RX_RESLOAD_CTRL = 4'b0000; + parameter [0:0] RX_RESLOAD_OVRD = 1'b0; + parameter [2:0] RX_SAMPLE_PERIOD = 3'b101; + parameter integer RX_SIG_VALID_DLY = 11; + parameter [0:0] RX_SUM_DFETAPREP_EN = 1'b0; + parameter [3:0] RX_SUM_IREF_TUNE = 4'b0000; + parameter [3:0] RX_SUM_VCMTUNE = 4'b1000; + parameter [0:0] RX_SUM_VCM_OVWR = 1'b0; + parameter [2:0] RX_SUM_VREF_TUNE = 3'b100; + parameter [1:0] RX_TUNE_AFE_OS = 2'b00; + parameter [2:0] RX_VREG_CTRL = 3'b101; + parameter [0:0] RX_VREG_PDB = 1'b1; + parameter [1:0] RX_WIDEMODE_CDR = 2'b01; + parameter RX_XCLK_SEL = "RXDES"; + parameter [0:0] RX_XMODE_SEL = 1'b0; + parameter integer SAS_MAX_COM = 64; + parameter integer SAS_MIN_COM = 36; + parameter [3:0] SATA_BURST_SEQ_LEN = 4'b1111; + parameter [2:0] SATA_BURST_VAL = 3'b100; + parameter SATA_CPLL_CFG = "VCO_3000MHZ"; + parameter [2:0] SATA_EIDLE_VAL = 3'b100; + parameter integer SATA_MAX_BURST = 8; + parameter integer SATA_MAX_INIT = 21; + parameter integer SATA_MAX_WAKE = 7; + parameter integer SATA_MIN_BURST = 4; + parameter integer SATA_MIN_INIT = 12; + parameter integer SATA_MIN_WAKE = 4; + parameter SHOW_REALIGN_COMMA = "TRUE"; + parameter SIM_MODE = "FAST"; + parameter SIM_RECEIVER_DETECT_PASS = "TRUE"; + parameter SIM_RESET_SPEEDUP = "TRUE"; + parameter [0:0] SIM_TX_EIDLE_DRIVE_LEVEL = 1'b0; + parameter integer SIM_VERSION = 2; + parameter [1:0] TAPDLY_SET_TX = 2'h0; + parameter [3:0] TEMPERATURE_PAR = 4'b0010; + parameter [14:0] TERM_RCAL_CFG = 15'b100001000010000; + parameter [2:0] TERM_RCAL_OVRD = 3'b000; + parameter [7:0] TRANS_TIME_RATE = 8'h0E; + parameter [7:0] TST_RSV0 = 8'h00; + parameter [7:0] TST_RSV1 = 8'h00; + parameter TXBUF_EN = "TRUE"; + parameter TXBUF_RESET_ON_RATE_CHANGE = "FALSE"; + parameter [15:0] TXDLY_CFG = 16'h001F; + parameter [15:0] TXDLY_LCFG = 16'h0030; + parameter TXFIFO_ADDR_CFG = "LOW"; + parameter integer TXGBOX_FIFO_INIT_RD_ADDR = 4; + parameter TXGEARBOX_EN = "FALSE"; + parameter integer TXOUT_DIV = 4; + parameter [4:0] TXPCSRESET_TIME = 5'b00001; + parameter [15:0] TXPHDLY_CFG0 = 16'h2020; + parameter [15:0] TXPHDLY_CFG1 = 16'h0001; + parameter [15:0] TXPH_CFG = 16'h0123; + parameter [15:0] TXPH_CFG2 = 16'h0000; + parameter [4:0] TXPH_MONITOR_SEL = 5'b00000; + parameter [1:0] TXPI_CFG0 = 2'b00; + parameter [1:0] TXPI_CFG1 = 2'b00; + parameter [1:0] TXPI_CFG2 = 2'b00; + parameter [0:0] TXPI_CFG3 = 1'b0; + parameter [0:0] TXPI_CFG4 = 1'b1; + parameter [2:0] TXPI_CFG5 = 3'b000; + parameter [0:0] TXPI_GRAY_SEL = 1'b0; + parameter [0:0] TXPI_INVSTROBE_SEL = 1'b0; + parameter [0:0] TXPI_LPM = 1'b0; + parameter TXPI_PPMCLK_SEL = "TXUSRCLK2"; + parameter [7:0] TXPI_PPM_CFG = 8'b00000000; + parameter [15:0] TXPI_RSV0 = 16'h0000; + parameter [2:0] TXPI_SYNFREQ_PPM = 3'b000; + parameter [0:0] TXPI_VREFSEL = 1'b0; + parameter [4:0] TXPMARESET_TIME = 5'b00001; + parameter [0:0] TXSYNC_MULTILANE = 1'b0; + parameter [0:0] TXSYNC_OVRD = 1'b0; + parameter [0:0] TXSYNC_SKIP_DA = 1'b0; + parameter integer TX_CLK25_DIV = 8; + parameter [0:0] TX_CLKMUX_EN = 1'b1; + parameter [0:0] TX_CLKREG_PDB = 1'b0; + parameter [2:0] TX_CLKREG_SET = 3'b000; + parameter integer TX_DATA_WIDTH = 20; + parameter [5:0] TX_DCD_CFG = 6'b000010; + parameter [0:0] TX_DCD_EN = 1'b0; + parameter [5:0] TX_DEEMPH0 = 6'b000000; + parameter [5:0] TX_DEEMPH1 = 6'b000000; + parameter [4:0] TX_DIVRESET_TIME = 5'b00001; + parameter TX_DRIVE_MODE = "DIRECT"; + parameter integer TX_DRVMUX_CTRL = 2; + parameter [2:0] TX_EIDLE_ASSERT_DELAY = 3'b110; + parameter [2:0] TX_EIDLE_DEASSERT_DELAY = 3'b100; + parameter [0:0] TX_EML_PHI_TUNE = 1'b0; + parameter [0:0] TX_FABINT_USRCLK_FLOP = 1'b0; + parameter [0:0] TX_FIFO_BYP_EN = 1'b0; + parameter [0:0] TX_IDLE_DATA_ZERO = 1'b0; + parameter integer TX_INT_DATAWIDTH = 1; + parameter TX_LOOPBACK_DRIVE_HIZ = "FALSE"; + parameter [0:0] TX_MAINCURSOR_SEL = 1'b0; + parameter [6:0] TX_MARGIN_FULL_0 = 7'b1001110; + parameter [6:0] TX_MARGIN_FULL_1 = 7'b1001001; + parameter [6:0] TX_MARGIN_FULL_2 = 7'b1000101; + parameter [6:0] TX_MARGIN_FULL_3 = 7'b1000010; + parameter [6:0] TX_MARGIN_FULL_4 = 7'b1000000; + parameter [6:0] TX_MARGIN_LOW_0 = 7'b1000110; + parameter [6:0] TX_MARGIN_LOW_1 = 7'b1000100; + parameter [6:0] TX_MARGIN_LOW_2 = 7'b1000010; + parameter [6:0] TX_MARGIN_LOW_3 = 7'b1000000; + parameter [6:0] TX_MARGIN_LOW_4 = 7'b1000000; + parameter [2:0] TX_MODE_SEL = 3'b000; + parameter [15:0] TX_PHICAL_CFG0 = 16'h0000; + parameter [15:0] TX_PHICAL_CFG1 = 16'h7E00; + parameter [15:0] TX_PHICAL_CFG2 = 16'h0000; + parameter integer TX_PI_BIASSET = 0; + parameter [15:0] TX_PI_CFG0 = 16'h0000; + parameter [15:0] TX_PI_CFG1 = 16'h0000; + parameter [0:0] TX_PI_DIV2_MODE_B = 1'b0; + parameter [0:0] TX_PI_SEL_QPLL0 = 1'b0; + parameter [0:0] TX_PI_SEL_QPLL1 = 1'b0; + parameter [0:0] TX_PMADATA_OPT = 1'b0; + parameter [0:0] TX_PMA_POWER_SAVE = 1'b0; + parameter integer TX_PREDRV_CTRL = 2; + parameter TX_PROGCLK_SEL = "POSTPI"; + parameter real TX_PROGDIV_CFG = 0.0; + parameter [15:0] TX_PROGDIV_RATE = 16'h0001; + parameter [13:0] TX_RXDETECT_CFG = 14'h0032; + parameter integer TX_RXDETECT_REF = 4; + parameter [2:0] TX_SAMPLE_PERIOD = 3'b101; + parameter [0:0] TX_SARC_LPBK_ENB = 1'b0; + parameter TX_XCLK_SEL = "TXOUT"; + parameter [0:0] USE_PCS_CLK_PHASE_SEL = 1'b0; + output [2:0] BUFGTCE; + output [2:0] BUFGTCEMASK; + output [8:0] BUFGTDIV; + output [2:0] BUFGTRESET; + output [2:0] BUFGTRSTMASK; + output CPLLFBCLKLOST; + output CPLLLOCK; + output CPLLREFCLKLOST; + output [16:0] DMONITOROUT; + output [15:0] DRPDO; + output DRPRDY; + output EYESCANDATAERROR; + output GTPOWERGOOD; + output GTREFCLKMONITOR; + output GTYTXN; + output GTYTXP; + output PCIERATEGEN3; + output PCIERATEIDLE; + output [1:0] PCIERATEQPLLPD; + output [1:0] PCIERATEQPLLRESET; + output PCIESYNCTXSYNCDONE; + output PCIEUSERGEN3RDY; + output PCIEUSERPHYSTATUSRST; + output PCIEUSERRATESTART; + output [15:0] PCSRSVDOUT; + output PHYSTATUS; + output [7:0] PINRSRVDAS; + output RESETEXCEPTION; + output [2:0] RXBUFSTATUS; + output RXBYTEISALIGNED; + output RXBYTEREALIGN; + output RXCDRLOCK; + output RXCDRPHDONE; + output RXCHANBONDSEQ; + output RXCHANISALIGNED; + output RXCHANREALIGN; + output [4:0] RXCHBONDO; + output RXCKCALDONE; + output [1:0] RXCLKCORCNT; + output RXCOMINITDET; + output RXCOMMADET; + output RXCOMSASDET; + output RXCOMWAKEDET; + output [15:0] RXCTRL0; + output [15:0] RXCTRL1; + output [7:0] RXCTRL2; + output [7:0] RXCTRL3; + output [127:0] RXDATA; + output [7:0] RXDATAEXTENDRSVD; + output [1:0] RXDATAVALID; + output RXDLYSRESETDONE; + output RXELECIDLE; + output [5:0] RXHEADER; + output [1:0] RXHEADERVALID; + output [6:0] RXMONITOROUT; + output RXOSINTDONE; + output RXOSINTSTARTED; + output RXOSINTSTROBEDONE; + output RXOSINTSTROBESTARTED; + output RXOUTCLK; + output RXOUTCLKFABRIC; + output RXOUTCLKPCS; + output RXPHALIGNDONE; + output RXPHALIGNERR; + output RXPMARESETDONE; + output RXPRBSERR; + output RXPRBSLOCKED; + output RXPRGDIVRESETDONE; + output RXRATEDONE; + output RXRECCLKOUT; + output RXRESETDONE; + output RXSLIDERDY; + output RXSLIPDONE; + output RXSLIPOUTCLKRDY; + output RXSLIPPMARDY; + output [1:0] RXSTARTOFSEQ; + output [2:0] RXSTATUS; + output RXSYNCDONE; + output RXSYNCOUT; + output RXVALID; + output [1:0] TXBUFSTATUS; + output TXCOMFINISH; + output TXDCCDONE; + output TXDLYSRESETDONE; + output TXOUTCLK; + output TXOUTCLKFABRIC; + output TXOUTCLKPCS; + output TXPHALIGNDONE; + output TXPHINITDONE; + output TXPMARESETDONE; + output TXPRGDIVRESETDONE; + output TXRATEDONE; + output TXRESETDONE; + output TXSYNCDONE; + output TXSYNCOUT; + input CDRSTEPDIR; + input CDRSTEPSQ; + input CDRSTEPSX; + input CFGRESET; + input CLKRSVD0; + input CLKRSVD1; + input CPLLLOCKDETCLK; + input CPLLLOCKEN; + input CPLLPD; + input [2:0] CPLLREFCLKSEL; + input CPLLRESET; + input DMONFIFORESET; + input DMONITORCLK; + input [9:0] DRPADDR; + input DRPCLK; + input [15:0] DRPDI; + input DRPEN; + input DRPWE; + input ELPCALDVORWREN; + input ELPCALPAORWREN; + input EVODDPHICALDONE; + input EVODDPHICALSTART; + input EVODDPHIDRDEN; + input EVODDPHIDWREN; + input EVODDPHIXRDEN; + input EVODDPHIXWREN; + input EYESCANMODE; + input EYESCANRESET; + input EYESCANTRIGGER; + input GTGREFCLK; + input GTNORTHREFCLK0; + input GTNORTHREFCLK1; + input GTREFCLK0; + input GTREFCLK1; + input GTRESETSEL; + input [15:0] GTRSVD; + input GTRXRESET; + input GTSOUTHREFCLK0; + input GTSOUTHREFCLK1; + input GTTXRESET; + input GTYRXN; + input GTYRXP; + input [2:0] LOOPBACK; + input [15:0] LOOPRSVD; + input LPBKRXTXSEREN; + input LPBKTXRXSEREN; + input PCIEEQRXEQADAPTDONE; + input PCIERSTIDLE; + input PCIERSTTXSYNCSTART; + input PCIEUSERRATEDONE; + input [15:0] PCSRSVDIN; + input [4:0] PCSRSVDIN2; + input [4:0] PMARSVDIN; + input QPLL0CLK; + input QPLL0REFCLK; + input QPLL1CLK; + input QPLL1REFCLK; + input RESETOVRD; + input RSTCLKENTX; + input RX8B10BEN; + input RXBUFRESET; + input RXCDRFREQRESET; + input RXCDRHOLD; + input RXCDROVRDEN; + input RXCDRRESET; + input RXCDRRESETRSV; + input RXCHBONDEN; + input [4:0] RXCHBONDI; + input [2:0] RXCHBONDLEVEL; + input RXCHBONDMASTER; + input RXCHBONDSLAVE; + input RXCKCALRESET; + input RXCOMMADETEN; + input RXDCCFORCESTART; + input RXDFEAGCHOLD; + input RXDFEAGCOVRDEN; + input RXDFELFHOLD; + input RXDFELFOVRDEN; + input RXDFELPMRESET; + input RXDFETAP10HOLD; + input RXDFETAP10OVRDEN; + input RXDFETAP11HOLD; + input RXDFETAP11OVRDEN; + input RXDFETAP12HOLD; + input RXDFETAP12OVRDEN; + input RXDFETAP13HOLD; + input RXDFETAP13OVRDEN; + input RXDFETAP14HOLD; + input RXDFETAP14OVRDEN; + input RXDFETAP15HOLD; + input RXDFETAP15OVRDEN; + input RXDFETAP2HOLD; + input RXDFETAP2OVRDEN; + input RXDFETAP3HOLD; + input RXDFETAP3OVRDEN; + input RXDFETAP4HOLD; + input RXDFETAP4OVRDEN; + input RXDFETAP5HOLD; + input RXDFETAP5OVRDEN; + input RXDFETAP6HOLD; + input RXDFETAP6OVRDEN; + input RXDFETAP7HOLD; + input RXDFETAP7OVRDEN; + input RXDFETAP8HOLD; + input RXDFETAP8OVRDEN; + input RXDFETAP9HOLD; + input RXDFETAP9OVRDEN; + input RXDFEUTHOLD; + input RXDFEUTOVRDEN; + input RXDFEVPHOLD; + input RXDFEVPOVRDEN; + input RXDFEVSEN; + input RXDFEXYDEN; + input RXDLYBYPASS; + input RXDLYEN; + input RXDLYOVRDEN; + input RXDLYSRESET; + input [1:0] RXELECIDLEMODE; + input RXGEARBOXSLIP; + input RXLATCLK; + input RXLPMEN; + input RXLPMGCHOLD; + input RXLPMGCOVRDEN; + input RXLPMHFHOLD; + input RXLPMHFOVRDEN; + input RXLPMLFHOLD; + input RXLPMLFKLOVRDEN; + input RXLPMOSHOLD; + input RXLPMOSOVRDEN; + input RXMCOMMAALIGNEN; + input [1:0] RXMONITORSEL; + input RXOOBRESET; + input RXOSCALRESET; + input RXOSHOLD; + input [3:0] RXOSINTCFG; + input RXOSINTEN; + input RXOSINTHOLD; + input RXOSINTOVRDEN; + input RXOSINTSTROBE; + input RXOSINTTESTOVRDEN; + input RXOSOVRDEN; + input [2:0] RXOUTCLKSEL; + input RXPCOMMAALIGNEN; + input RXPCSRESET; + input [1:0] RXPD; + input RXPHALIGN; + input RXPHALIGNEN; + input RXPHDLYPD; + input RXPHDLYRESET; + input RXPHOVRDEN; + input [1:0] RXPLLCLKSEL; + input RXPMARESET; + input RXPOLARITY; + input RXPRBSCNTRESET; + input [3:0] RXPRBSSEL; + input RXPROGDIVRESET; + input [2:0] RXRATE; + input RXRATEMODE; + input RXSLIDE; + input RXSLIPOUTCLK; + input RXSLIPPMA; + input RXSYNCALLIN; + input RXSYNCIN; + input RXSYNCMODE; + input [1:0] RXSYSCLKSEL; + input RXUSERRDY; + input RXUSRCLK; + input RXUSRCLK2; + input SIGVALIDCLK; + input [19:0] TSTIN; + input [7:0] TX8B10BBYPASS; + input TX8B10BEN; + input [2:0] TXBUFDIFFCTRL; + input TXCOMINIT; + input TXCOMSAS; + input TXCOMWAKE; + input [15:0] TXCTRL0; + input [15:0] TXCTRL1; + input [7:0] TXCTRL2; + input [127:0] TXDATA; + input [7:0] TXDATAEXTENDRSVD; + input TXDCCFORCESTART; + input TXDCCRESET; + input TXDEEMPH; + input TXDETECTRX; + input [4:0] TXDIFFCTRL; + input TXDIFFPD; + input TXDLYBYPASS; + input TXDLYEN; + input TXDLYHOLD; + input TXDLYOVRDEN; + input TXDLYSRESET; + input TXDLYUPDOWN; + input TXELECIDLE; + input TXELFORCESTART; + input [5:0] TXHEADER; + input TXINHIBIT; + input TXLATCLK; + input [6:0] TXMAINCURSOR; + input [2:0] TXMARGIN; + input [2:0] TXOUTCLKSEL; + input TXPCSRESET; + input [1:0] TXPD; + input TXPDELECIDLEMODE; + input TXPHALIGN; + input TXPHALIGNEN; + input TXPHDLYPD; + input TXPHDLYRESET; + input TXPHDLYTSTCLK; + input TXPHINIT; + input TXPHOVRDEN; + input TXPIPPMEN; + input TXPIPPMOVRDEN; + input TXPIPPMPD; + input TXPIPPMSEL; + input [4:0] TXPIPPMSTEPSIZE; + input TXPISOPD; + input [1:0] TXPLLCLKSEL; + input TXPMARESET; + input TXPOLARITY; + input [4:0] TXPOSTCURSOR; + input TXPRBSFORCEERR; + input [3:0] TXPRBSSEL; + input [4:0] TXPRECURSOR; + input TXPROGDIVRESET; + input [2:0] TXRATE; + input TXRATEMODE; + input [6:0] TXSEQUENCE; + input TXSWING; + input TXSYNCALLIN; + input TXSYNCIN; + input TXSYNCMODE; + input [1:0] TXSYSCLKSEL; + input TXUSERRDY; + input TXUSRCLK; + input TXUSRCLK2; +endmodule + +module GTYE3_COMMON (...); + parameter [15:0] A_SDM1DATA1_0 = 16'b0000000000000000; + parameter [8:0] A_SDM1DATA1_1 = 9'b000000000; + parameter [15:0] BIAS_CFG0 = 16'h0000; + parameter [15:0] BIAS_CFG1 = 16'h0000; + parameter [15:0] BIAS_CFG2 = 16'h0000; + parameter [15:0] BIAS_CFG3 = 16'h0000; + parameter [15:0] BIAS_CFG4 = 16'h0000; + parameter [9:0] BIAS_CFG_RSVD = 10'b0000000000; + parameter [15:0] COMMON_CFG0 = 16'h0000; + parameter [15:0] COMMON_CFG1 = 16'h0000; + parameter [15:0] POR_CFG = 16'h0004; + parameter [15:0] PPF0_CFG = 16'h0FFF; + parameter [15:0] PPF1_CFG = 16'h0FFF; + parameter QPLL0CLKOUT_RATE = "FULL"; + parameter [15:0] QPLL0_CFG0 = 16'h301C; + parameter [15:0] QPLL0_CFG1 = 16'h0000; + parameter [15:0] QPLL0_CFG1_G3 = 16'h0020; + parameter [15:0] QPLL0_CFG2 = 16'h0780; + parameter [15:0] QPLL0_CFG2_G3 = 16'h0780; + parameter [15:0] QPLL0_CFG3 = 16'h0120; + parameter [15:0] QPLL0_CFG4 = 16'h0021; + parameter [9:0] QPLL0_CP = 10'b0000011111; + parameter [9:0] QPLL0_CP_G3 = 10'b0000011111; + parameter integer QPLL0_FBDIV = 66; + parameter integer QPLL0_FBDIV_G3 = 80; + parameter [15:0] QPLL0_INIT_CFG0 = 16'h0000; + parameter [7:0] QPLL0_INIT_CFG1 = 8'h00; + parameter [15:0] QPLL0_LOCK_CFG = 16'h01E8; + parameter [15:0] QPLL0_LOCK_CFG_G3 = 16'h21E8; + parameter [9:0] QPLL0_LPF = 10'b1111111111; + parameter [9:0] QPLL0_LPF_G3 = 10'b1111111111; + parameter integer QPLL0_REFCLK_DIV = 2; + parameter [15:0] QPLL0_SDM_CFG0 = 16'h0040; + parameter [15:0] QPLL0_SDM_CFG1 = 16'h0000; + parameter [15:0] QPLL0_SDM_CFG2 = 16'h0000; + parameter QPLL1CLKOUT_RATE = "FULL"; + parameter [15:0] QPLL1_CFG0 = 16'h301C; + parameter [15:0] QPLL1_CFG1 = 16'h0000; + parameter [15:0] QPLL1_CFG1_G3 = 16'h0020; + parameter [15:0] QPLL1_CFG2 = 16'h0780; + parameter [15:0] QPLL1_CFG2_G3 = 16'h0780; + parameter [15:0] QPLL1_CFG3 = 16'h0120; + parameter [15:0] QPLL1_CFG4 = 16'h0021; + parameter [9:0] QPLL1_CP = 10'b0000011111; + parameter [9:0] QPLL1_CP_G3 = 10'b0000011111; + parameter integer QPLL1_FBDIV = 66; + parameter integer QPLL1_FBDIV_G3 = 80; + parameter [15:0] QPLL1_INIT_CFG0 = 16'h0000; + parameter [7:0] QPLL1_INIT_CFG1 = 8'h00; + parameter [15:0] QPLL1_LOCK_CFG = 16'h01E8; + parameter [15:0] QPLL1_LOCK_CFG_G3 = 16'h21E8; + parameter [9:0] QPLL1_LPF = 10'b1111111111; + parameter [9:0] QPLL1_LPF_G3 = 10'b1111111111; + parameter integer QPLL1_REFCLK_DIV = 2; + parameter [15:0] QPLL1_SDM_CFG0 = 16'h0040; + parameter [15:0] QPLL1_SDM_CFG1 = 16'h0000; + parameter [15:0] QPLL1_SDM_CFG2 = 16'h0000; + parameter [15:0] RSVD_ATTR0 = 16'h0000; + parameter [15:0] RSVD_ATTR1 = 16'h0000; + parameter [15:0] RSVD_ATTR2 = 16'h0000; + parameter [15:0] RSVD_ATTR3 = 16'h0000; + parameter [1:0] RXRECCLKOUT0_SEL = 2'b00; + parameter [1:0] RXRECCLKOUT1_SEL = 2'b00; + parameter [0:0] SARC_EN = 1'b1; + parameter [0:0] SARC_SEL = 1'b0; + parameter [15:0] SDM0INITSEED0_0 = 16'b0000000000000000; + parameter [8:0] SDM0INITSEED0_1 = 9'b000000000; + parameter [15:0] SDM1INITSEED0_0 = 16'b0000000000000000; + parameter [8:0] SDM1INITSEED0_1 = 9'b000000000; + parameter SIM_MODE = "FAST"; + parameter SIM_RESET_SPEEDUP = "TRUE"; + parameter integer SIM_VERSION = 2; + output [15:0] DRPDO; + output DRPRDY; + output [7:0] PMARSVDOUT0; + output [7:0] PMARSVDOUT1; + output QPLL0FBCLKLOST; + output QPLL0LOCK; + output QPLL0OUTCLK; + output QPLL0OUTREFCLK; + output QPLL0REFCLKLOST; + output QPLL1FBCLKLOST; + output QPLL1LOCK; + output QPLL1OUTCLK; + output QPLL1OUTREFCLK; + output QPLL1REFCLKLOST; + output [7:0] QPLLDMONITOR0; + output [7:0] QPLLDMONITOR1; + output REFCLKOUTMONITOR0; + output REFCLKOUTMONITOR1; + output [1:0] RXRECCLK0_SEL; + output [1:0] RXRECCLK1_SEL; + output [3:0] SDM0FINALOUT; + output [14:0] SDM0TESTDATA; + output [3:0] SDM1FINALOUT; + output [14:0] SDM1TESTDATA; + input BGBYPASSB; + input BGMONITORENB; + input BGPDB; + input [4:0] BGRCALOVRD; + input BGRCALOVRDENB; + input [9:0] DRPADDR; + input DRPCLK; + input [15:0] DRPDI; + input DRPEN; + input DRPWE; + input GTGREFCLK0; + input GTGREFCLK1; + input GTNORTHREFCLK00; + input GTNORTHREFCLK01; + input GTNORTHREFCLK10; + input GTNORTHREFCLK11; + input GTREFCLK00; + input GTREFCLK01; + input GTREFCLK10; + input GTREFCLK11; + input GTSOUTHREFCLK00; + input GTSOUTHREFCLK01; + input GTSOUTHREFCLK10; + input GTSOUTHREFCLK11; + input [7:0] PMARSVD0; + input [7:0] PMARSVD1; + input QPLL0CLKRSVD0; + input QPLL0LOCKDETCLK; + input QPLL0LOCKEN; + input QPLL0PD; + input [2:0] QPLL0REFCLKSEL; + input QPLL0RESET; + input QPLL1CLKRSVD0; + input QPLL1LOCKDETCLK; + input QPLL1LOCKEN; + input QPLL1PD; + input [2:0] QPLL1REFCLKSEL; + input QPLL1RESET; + input [7:0] QPLLRSVD1; + input [4:0] QPLLRSVD2; + input [4:0] QPLLRSVD3; + input [7:0] QPLLRSVD4; + input RCALENB; + input [24:0] SDM0DATA; + input SDM0RESET; + input [1:0] SDM0WIDTH; + input [24:0] SDM1DATA; + input SDM1RESET; + input [1:0] SDM1WIDTH; +endmodule + +module GTYE4_CHANNEL (...); + parameter [0:0] ACJTAG_DEBUG_MODE = 1'b0; + parameter [0:0] ACJTAG_MODE = 1'b0; + parameter [0:0] ACJTAG_RESET = 1'b0; + parameter [15:0] ADAPT_CFG0 = 16'h9200; + parameter [15:0] ADAPT_CFG1 = 16'h801C; + parameter [15:0] ADAPT_CFG2 = 16'h0000; + parameter ALIGN_COMMA_DOUBLE = "FALSE"; + parameter [9:0] ALIGN_COMMA_ENABLE = 10'b0001111111; + parameter integer ALIGN_COMMA_WORD = 1; + parameter ALIGN_MCOMMA_DET = "TRUE"; + parameter [9:0] ALIGN_MCOMMA_VALUE = 10'b1010000011; + parameter ALIGN_PCOMMA_DET = "TRUE"; + parameter [9:0] ALIGN_PCOMMA_VALUE = 10'b0101111100; + parameter [0:0] A_RXOSCALRESET = 1'b0; + parameter [0:0] A_RXPROGDIVRESET = 1'b0; + parameter [0:0] A_RXTERMINATION = 1'b1; + parameter [4:0] A_TXDIFFCTRL = 5'b01100; + parameter [0:0] A_TXPROGDIVRESET = 1'b0; + parameter CBCC_DATA_SOURCE_SEL = "DECODED"; + parameter [0:0] CDR_SWAP_MODE_EN = 1'b0; + parameter [0:0] CFOK_PWRSVE_EN = 1'b1; + parameter CHAN_BOND_KEEP_ALIGN = "FALSE"; + parameter integer CHAN_BOND_MAX_SKEW = 7; + parameter [9:0] CHAN_BOND_SEQ_1_1 = 10'b0101111100; + parameter [9:0] CHAN_BOND_SEQ_1_2 = 10'b0000000000; + parameter [9:0] CHAN_BOND_SEQ_1_3 = 10'b0000000000; + parameter [9:0] CHAN_BOND_SEQ_1_4 = 10'b0000000000; + parameter [3:0] CHAN_BOND_SEQ_1_ENABLE = 4'b1111; + parameter [9:0] CHAN_BOND_SEQ_2_1 = 10'b0100000000; + parameter [9:0] CHAN_BOND_SEQ_2_2 = 10'b0100000000; + parameter [9:0] CHAN_BOND_SEQ_2_3 = 10'b0100000000; + parameter [9:0] CHAN_BOND_SEQ_2_4 = 10'b0100000000; + parameter [3:0] CHAN_BOND_SEQ_2_ENABLE = 4'b1111; + parameter CHAN_BOND_SEQ_2_USE = "FALSE"; + parameter integer CHAN_BOND_SEQ_LEN = 2; + parameter [15:0] CH_HSPMUX = 16'h2424; + parameter [15:0] CKCAL1_CFG_0 = 16'b1100000011000000; + parameter [15:0] CKCAL1_CFG_1 = 16'b0101000011000000; + parameter [15:0] CKCAL1_CFG_2 = 16'b0000000000000000; + parameter [15:0] CKCAL1_CFG_3 = 16'b0000000000000000; + parameter [15:0] CKCAL2_CFG_0 = 16'b1100000011000000; + parameter [15:0] CKCAL2_CFG_1 = 16'b1000000011000000; + parameter [15:0] CKCAL2_CFG_2 = 16'b0000000000000000; + parameter [15:0] CKCAL2_CFG_3 = 16'b0000000000000000; + parameter [15:0] CKCAL2_CFG_4 = 16'b0000000000000000; + parameter CLK_CORRECT_USE = "TRUE"; + parameter CLK_COR_KEEP_IDLE = "FALSE"; + parameter integer CLK_COR_MAX_LAT = 20; + parameter integer CLK_COR_MIN_LAT = 18; + parameter CLK_COR_PRECEDENCE = "TRUE"; + parameter integer CLK_COR_REPEAT_WAIT = 0; + parameter [9:0] CLK_COR_SEQ_1_1 = 10'b0100011100; + parameter [9:0] CLK_COR_SEQ_1_2 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_1_3 = 10'b0000000000; + parameter [9:0] CLK_COR_SEQ_1_4 = 10'b0000000000; + parameter [3:0] CLK_COR_SEQ_1_ENABLE = 4'b1111; + parameter [9:0] CLK_COR_SEQ_2_1 = 10'b0100000000; + parameter [9:0] CLK_COR_SEQ_2_2 = 10'b0100000000; + parameter [9:0] CLK_COR_SEQ_2_3 = 10'b0100000000; + parameter [9:0] CLK_COR_SEQ_2_4 = 10'b0100000000; + parameter [3:0] CLK_COR_SEQ_2_ENABLE = 4'b1111; + parameter CLK_COR_SEQ_2_USE = "FALSE"; + parameter integer CLK_COR_SEQ_LEN = 2; + parameter [15:0] CPLL_CFG0 = 16'h01FA; + parameter [15:0] CPLL_CFG1 = 16'h24A9; + parameter [15:0] CPLL_CFG2 = 16'h6807; + parameter [15:0] CPLL_CFG3 = 16'h0000; + parameter integer CPLL_FBDIV = 4; + parameter integer CPLL_FBDIV_45 = 4; + parameter [15:0] CPLL_INIT_CFG0 = 16'h001E; + parameter [15:0] CPLL_LOCK_CFG = 16'h01E8; + parameter integer CPLL_REFCLK_DIV = 1; + parameter [2:0] CTLE3_OCAP_EXT_CTRL = 3'b000; + parameter [0:0] CTLE3_OCAP_EXT_EN = 1'b0; + parameter [1:0] DDI_CTRL = 2'b00; + parameter integer DDI_REALIGN_WAIT = 15; + parameter DEC_MCOMMA_DETECT = "TRUE"; + parameter DEC_PCOMMA_DETECT = "TRUE"; + parameter DEC_VALID_COMMA_ONLY = "TRUE"; + parameter [0:0] DELAY_ELEC = 1'b0; + parameter [9:0] DMONITOR_CFG0 = 10'h000; + parameter [7:0] DMONITOR_CFG1 = 8'h00; + parameter [0:0] ES_CLK_PHASE_SEL = 1'b0; + parameter [5:0] ES_CONTROL = 6'b000000; + parameter ES_ERRDET_EN = "FALSE"; + parameter ES_EYE_SCAN_EN = "FALSE"; + parameter [11:0] ES_HORZ_OFFSET = 12'h800; + parameter [4:0] ES_PRESCALE = 5'b00000; + parameter [15:0] ES_QUALIFIER0 = 16'h0000; + parameter [15:0] ES_QUALIFIER1 = 16'h0000; + parameter [15:0] ES_QUALIFIER2 = 16'h0000; + parameter [15:0] ES_QUALIFIER3 = 16'h0000; + parameter [15:0] ES_QUALIFIER4 = 16'h0000; + parameter [15:0] ES_QUALIFIER5 = 16'h0000; + parameter [15:0] ES_QUALIFIER6 = 16'h0000; + parameter [15:0] ES_QUALIFIER7 = 16'h0000; + parameter [15:0] ES_QUALIFIER8 = 16'h0000; + parameter [15:0] ES_QUALIFIER9 = 16'h0000; + parameter [15:0] ES_QUAL_MASK0 = 16'h0000; + parameter [15:0] ES_QUAL_MASK1 = 16'h0000; + parameter [15:0] ES_QUAL_MASK2 = 16'h0000; + parameter [15:0] ES_QUAL_MASK3 = 16'h0000; + parameter [15:0] ES_QUAL_MASK4 = 16'h0000; + parameter [15:0] ES_QUAL_MASK5 = 16'h0000; + parameter [15:0] ES_QUAL_MASK6 = 16'h0000; + parameter [15:0] ES_QUAL_MASK7 = 16'h0000; + parameter [15:0] ES_QUAL_MASK8 = 16'h0000; + parameter [15:0] ES_QUAL_MASK9 = 16'h0000; + parameter [15:0] ES_SDATA_MASK0 = 16'h0000; + parameter [15:0] ES_SDATA_MASK1 = 16'h0000; + parameter [15:0] ES_SDATA_MASK2 = 16'h0000; + parameter [15:0] ES_SDATA_MASK3 = 16'h0000; + parameter [15:0] ES_SDATA_MASK4 = 16'h0000; + parameter [15:0] ES_SDATA_MASK5 = 16'h0000; + parameter [15:0] ES_SDATA_MASK6 = 16'h0000; + parameter [15:0] ES_SDATA_MASK7 = 16'h0000; + parameter [15:0] ES_SDATA_MASK8 = 16'h0000; + parameter [15:0] ES_SDATA_MASK9 = 16'h0000; + parameter integer EYESCAN_VP_RANGE = 0; + parameter [0:0] EYE_SCAN_SWAP_EN = 1'b0; + parameter [3:0] FTS_DESKEW_SEQ_ENABLE = 4'b1111; + parameter [3:0] FTS_LANE_DESKEW_CFG = 4'b1111; + parameter FTS_LANE_DESKEW_EN = "FALSE"; + parameter [4:0] GEARBOX_MODE = 5'b00000; + parameter [0:0] ISCAN_CK_PH_SEL2 = 1'b0; + parameter [0:0] LOCAL_MASTER = 1'b0; + parameter integer LPBK_BIAS_CTRL = 4; + parameter [0:0] LPBK_EN_RCAL_B = 1'b0; + parameter [3:0] LPBK_EXT_RCAL = 4'b0000; + parameter integer LPBK_IND_CTRL0 = 5; + parameter integer LPBK_IND_CTRL1 = 5; + parameter integer LPBK_IND_CTRL2 = 5; + parameter integer LPBK_RG_CTRL = 2; + parameter [1:0] OOBDIVCTL = 2'b00; + parameter [0:0] OOB_PWRUP = 1'b0; + parameter PCI3_AUTO_REALIGN = "FRST_SMPL"; + parameter [0:0] PCI3_PIPE_RX_ELECIDLE = 1'b1; + parameter [1:0] PCI3_RX_ASYNC_EBUF_BYPASS = 2'b00; + parameter [0:0] PCI3_RX_ELECIDLE_EI2_ENABLE = 1'b0; + parameter [5:0] PCI3_RX_ELECIDLE_H2L_COUNT = 6'b000000; + parameter [2:0] PCI3_RX_ELECIDLE_H2L_DISABLE = 3'b000; + parameter [5:0] PCI3_RX_ELECIDLE_HI_COUNT = 6'b000000; + parameter [0:0] PCI3_RX_ELECIDLE_LP4_DISABLE = 1'b0; + parameter [0:0] PCI3_RX_FIFO_DISABLE = 1'b0; + parameter [4:0] PCIE3_CLK_COR_EMPTY_THRSH = 5'b00000; + parameter [5:0] PCIE3_CLK_COR_FULL_THRSH = 6'b010000; + parameter [4:0] PCIE3_CLK_COR_MAX_LAT = 5'b01000; + parameter [4:0] PCIE3_CLK_COR_MIN_LAT = 5'b00100; + parameter [5:0] PCIE3_CLK_COR_THRSH_TIMER = 6'b001000; + parameter PCIE_64B_DYN_CLKSW_DIS = "FALSE"; + parameter [15:0] PCIE_BUFG_DIV_CTRL = 16'h0000; + parameter PCIE_GEN4_64BIT_INT_EN = "FALSE"; + parameter [1:0] PCIE_PLL_SEL_MODE_GEN12 = 2'h0; + parameter [1:0] PCIE_PLL_SEL_MODE_GEN3 = 2'h0; + parameter [1:0] PCIE_PLL_SEL_MODE_GEN4 = 2'h0; + parameter [15:0] PCIE_RXPCS_CFG_GEN3 = 16'h0000; + parameter [15:0] PCIE_RXPMA_CFG = 16'h0000; + parameter [15:0] PCIE_TXPCS_CFG_GEN3 = 16'h0000; + parameter [15:0] PCIE_TXPMA_CFG = 16'h0000; + parameter PCS_PCIE_EN = "FALSE"; + parameter [15:0] PCS_RSVD0 = 16'h0000; + parameter [11:0] PD_TRANS_TIME_FROM_P2 = 12'h03C; + parameter [7:0] PD_TRANS_TIME_NONE_P2 = 8'h19; + parameter [7:0] PD_TRANS_TIME_TO_P2 = 8'h64; + parameter integer PREIQ_FREQ_BST = 0; + parameter [0:0] RATE_SW_USE_DRP = 1'b0; + parameter [0:0] RCLK_SIPO_DLY_ENB = 1'b0; + parameter [0:0] RCLK_SIPO_INV_EN = 1'b0; + parameter [2:0] RTX_BUF_CML_CTRL = 3'b010; + parameter [1:0] RTX_BUF_TERM_CTRL = 2'b00; + parameter [4:0] RXBUFRESET_TIME = 5'b00001; + parameter RXBUF_ADDR_MODE = "FULL"; + parameter [3:0] RXBUF_EIDLE_HI_CNT = 4'b1000; + parameter [3:0] RXBUF_EIDLE_LO_CNT = 4'b0000; + parameter RXBUF_EN = "TRUE"; + parameter RXBUF_RESET_ON_CB_CHANGE = "TRUE"; + parameter RXBUF_RESET_ON_COMMAALIGN = "FALSE"; + parameter RXBUF_RESET_ON_EIDLE = "FALSE"; + parameter RXBUF_RESET_ON_RATE_CHANGE = "TRUE"; + parameter integer RXBUF_THRESH_OVFLW = 0; + parameter RXBUF_THRESH_OVRD = "FALSE"; + parameter integer RXBUF_THRESH_UNDFLW = 4; + parameter [4:0] RXCDRFREQRESET_TIME = 5'b10000; + parameter [4:0] RXCDRPHRESET_TIME = 5'b00001; + parameter [15:0] RXCDR_CFG0 = 16'h0003; + parameter [15:0] RXCDR_CFG0_GEN3 = 16'h0003; + parameter [15:0] RXCDR_CFG1 = 16'h0000; + parameter [15:0] RXCDR_CFG1_GEN3 = 16'h0000; + parameter [15:0] RXCDR_CFG2 = 16'h0164; + parameter [9:0] RXCDR_CFG2_GEN2 = 10'h164; + parameter [15:0] RXCDR_CFG2_GEN3 = 16'h0034; + parameter [15:0] RXCDR_CFG2_GEN4 = 16'h0034; + parameter [15:0] RXCDR_CFG3 = 16'h0024; + parameter [5:0] RXCDR_CFG3_GEN2 = 6'h24; + parameter [15:0] RXCDR_CFG3_GEN3 = 16'h0024; + parameter [15:0] RXCDR_CFG3_GEN4 = 16'h0024; + parameter [15:0] RXCDR_CFG4 = 16'h5CF6; + parameter [15:0] RXCDR_CFG4_GEN3 = 16'h5CF6; + parameter [15:0] RXCDR_CFG5 = 16'hB46B; + parameter [15:0] RXCDR_CFG5_GEN3 = 16'h146B; + parameter [0:0] RXCDR_FR_RESET_ON_EIDLE = 1'b0; + parameter [0:0] RXCDR_HOLD_DURING_EIDLE = 1'b0; + parameter [15:0] RXCDR_LOCK_CFG0 = 16'h0040; + parameter [15:0] RXCDR_LOCK_CFG1 = 16'h8000; + parameter [15:0] RXCDR_LOCK_CFG2 = 16'h0000; + parameter [15:0] RXCDR_LOCK_CFG3 = 16'h0000; + parameter [15:0] RXCDR_LOCK_CFG4 = 16'h0000; + parameter [0:0] RXCDR_PH_RESET_ON_EIDLE = 1'b0; + parameter [15:0] RXCFOK_CFG0 = 16'h0000; + parameter [15:0] RXCFOK_CFG1 = 16'h0002; + parameter [15:0] RXCFOK_CFG2 = 16'h002D; + parameter [15:0] RXCKCAL1_IQ_LOOP_RST_CFG = 16'h0000; + parameter [15:0] RXCKCAL1_I_LOOP_RST_CFG = 16'h0000; + parameter [15:0] RXCKCAL1_Q_LOOP_RST_CFG = 16'h0000; + parameter [15:0] RXCKCAL2_DX_LOOP_RST_CFG = 16'h0000; + parameter [15:0] RXCKCAL2_D_LOOP_RST_CFG = 16'h0000; + parameter [15:0] RXCKCAL2_S_LOOP_RST_CFG = 16'h0000; + parameter [15:0] RXCKCAL2_X_LOOP_RST_CFG = 16'h0000; + parameter [6:0] RXDFELPMRESET_TIME = 7'b0001111; + parameter [15:0] RXDFELPM_KL_CFG0 = 16'h0000; + parameter [15:0] RXDFELPM_KL_CFG1 = 16'h0022; + parameter [15:0] RXDFELPM_KL_CFG2 = 16'h0100; + parameter [15:0] RXDFE_CFG0 = 16'h4000; + parameter [15:0] RXDFE_CFG1 = 16'h0000; + parameter [15:0] RXDFE_GC_CFG0 = 16'h0000; + parameter [15:0] RXDFE_GC_CFG1 = 16'h0000; + parameter [15:0] RXDFE_GC_CFG2 = 16'h0000; + parameter [15:0] RXDFE_H2_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H2_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H3_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H3_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H4_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H4_CFG1 = 16'h0003; + parameter [15:0] RXDFE_H5_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H5_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H6_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H6_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H7_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H7_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H8_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H8_CFG1 = 16'h0002; + parameter [15:0] RXDFE_H9_CFG0 = 16'h0000; + parameter [15:0] RXDFE_H9_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HA_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HA_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HB_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HB_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HC_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HC_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HD_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HD_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HE_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HE_CFG1 = 16'h0002; + parameter [15:0] RXDFE_HF_CFG0 = 16'h0000; + parameter [15:0] RXDFE_HF_CFG1 = 16'h0002; + parameter [15:0] RXDFE_KH_CFG0 = 16'h0000; + parameter [15:0] RXDFE_KH_CFG1 = 16'h0000; + parameter [15:0] RXDFE_KH_CFG2 = 16'h0000; + parameter [15:0] RXDFE_KH_CFG3 = 16'h0000; + parameter [15:0] RXDFE_OS_CFG0 = 16'h0000; + parameter [15:0] RXDFE_OS_CFG1 = 16'h0000; + parameter [15:0] RXDFE_UT_CFG0 = 16'h0000; + parameter [15:0] RXDFE_UT_CFG1 = 16'h0002; + parameter [15:0] RXDFE_UT_CFG2 = 16'h0000; + parameter [15:0] RXDFE_VP_CFG0 = 16'h0000; + parameter [15:0] RXDFE_VP_CFG1 = 16'h0022; + parameter [15:0] RXDLY_CFG = 16'h0010; + parameter [15:0] RXDLY_LCFG = 16'h0030; + parameter RXELECIDLE_CFG = "SIGCFG_4"; + parameter integer RXGBOX_FIFO_INIT_RD_ADDR = 4; + parameter RXGEARBOX_EN = "FALSE"; + parameter [4:0] RXISCANRESET_TIME = 5'b00001; + parameter [15:0] RXLPM_CFG = 16'h0000; + parameter [15:0] RXLPM_GC_CFG = 16'h1000; + parameter [15:0] RXLPM_KH_CFG0 = 16'h0000; + parameter [15:0] RXLPM_KH_CFG1 = 16'h0002; + parameter [15:0] RXLPM_OS_CFG0 = 16'h0000; + parameter [15:0] RXLPM_OS_CFG1 = 16'h0000; + parameter [8:0] RXOOB_CFG = 9'b000110000; + parameter RXOOB_CLK_CFG = "PMA"; + parameter [4:0] RXOSCALRESET_TIME = 5'b00011; + parameter integer RXOUT_DIV = 4; + parameter [4:0] RXPCSRESET_TIME = 5'b00001; + parameter [15:0] RXPHBEACON_CFG = 16'h0000; + parameter [15:0] RXPHDLY_CFG = 16'h2020; + parameter [15:0] RXPHSAMP_CFG = 16'h2100; + parameter [15:0] RXPHSLIP_CFG = 16'h9933; + parameter [4:0] RXPH_MONITOR_SEL = 5'b00000; + parameter [15:0] RXPI_CFG0 = 16'h0102; + parameter [15:0] RXPI_CFG1 = 16'b0000000001010100; + parameter RXPMACLK_SEL = "DATA"; + parameter [4:0] RXPMARESET_TIME = 5'b00001; + parameter [0:0] RXPRBS_ERR_LOOPBACK = 1'b0; + parameter integer RXPRBS_LINKACQ_CNT = 15; + parameter [0:0] RXREFCLKDIV2_SEL = 1'b0; + parameter integer RXSLIDE_AUTO_WAIT = 7; + parameter RXSLIDE_MODE = "OFF"; + parameter [0:0] RXSYNC_MULTILANE = 1'b0; + parameter [0:0] RXSYNC_OVRD = 1'b0; + parameter [0:0] RXSYNC_SKIP_DA = 1'b0; + parameter [0:0] RX_AFE_CM_EN = 1'b0; + parameter [15:0] RX_BIAS_CFG0 = 16'h12B0; + parameter [5:0] RX_BUFFER_CFG = 6'b000000; + parameter [0:0] RX_CAPFF_SARC_ENB = 1'b0; + parameter integer RX_CLK25_DIV = 8; + parameter [0:0] RX_CLKMUX_EN = 1'b1; + parameter [4:0] RX_CLK_SLIP_OVRD = 5'b00000; + parameter [3:0] RX_CM_BUF_CFG = 4'b1010; + parameter [0:0] RX_CM_BUF_PD = 1'b0; + parameter integer RX_CM_SEL = 3; + parameter integer RX_CM_TRIM = 12; + parameter [0:0] RX_CTLE_PWR_SAVING = 1'b0; + parameter [3:0] RX_CTLE_RES_CTRL = 4'b0000; + parameter integer RX_DATA_WIDTH = 20; + parameter [5:0] RX_DDI_SEL = 6'b000000; + parameter RX_DEFER_RESET_BUF_EN = "TRUE"; + parameter [2:0] RX_DEGEN_CTRL = 3'b100; + parameter integer RX_DFELPM_CFG0 = 0; + parameter [0:0] RX_DFELPM_CFG1 = 1'b1; + parameter [0:0] RX_DFELPM_KLKH_AGC_STUP_EN = 1'b1; + parameter integer RX_DFE_AGC_CFG1 = 4; + parameter integer RX_DFE_KL_LPM_KH_CFG0 = 1; + parameter integer RX_DFE_KL_LPM_KH_CFG1 = 4; + parameter [1:0] RX_DFE_KL_LPM_KL_CFG0 = 2'b01; + parameter integer RX_DFE_KL_LPM_KL_CFG1 = 4; + parameter [0:0] RX_DFE_LPM_HOLD_DURING_EIDLE = 1'b0; + parameter RX_DISPERR_SEQ_MATCH = "TRUE"; + parameter [4:0] RX_DIVRESET_TIME = 5'b00001; + parameter [0:0] RX_EN_CTLE_RCAL_B = 1'b0; + parameter integer RX_EN_SUM_RCAL_B = 0; + parameter [6:0] RX_EYESCAN_VS_CODE = 7'b0000000; + parameter [0:0] RX_EYESCAN_VS_NEG_DIR = 1'b0; + parameter [1:0] RX_EYESCAN_VS_RANGE = 2'b10; + parameter [0:0] RX_EYESCAN_VS_UT_SIGN = 1'b0; + parameter [0:0] RX_FABINT_USRCLK_FLOP = 1'b0; + parameter [0:0] RX_I2V_FILTER_EN = 1'b1; + parameter integer RX_INT_DATAWIDTH = 1; + parameter [0:0] RX_PMA_POWER_SAVE = 1'b0; + parameter [15:0] RX_PMA_RSV0 = 16'h000F; + parameter real RX_PROGDIV_CFG = 0.0; + parameter [15:0] RX_PROGDIV_RATE = 16'h0001; + parameter [3:0] RX_RESLOAD_CTRL = 4'b0000; + parameter [0:0] RX_RESLOAD_OVRD = 1'b0; + parameter [2:0] RX_SAMPLE_PERIOD = 3'b101; + parameter integer RX_SIG_VALID_DLY = 11; + parameter integer RX_SUM_DEGEN_AVTT_OVERITE = 0; + parameter [0:0] RX_SUM_DFETAPREP_EN = 1'b0; + parameter [3:0] RX_SUM_IREF_TUNE = 4'b0000; + parameter integer RX_SUM_PWR_SAVING = 0; + parameter [3:0] RX_SUM_RES_CTRL = 4'b0000; + parameter [3:0] RX_SUM_VCMTUNE = 4'b0011; + parameter [0:0] RX_SUM_VCM_BIAS_TUNE_EN = 1'b1; + parameter [0:0] RX_SUM_VCM_OVWR = 1'b0; + parameter [2:0] RX_SUM_VREF_TUNE = 3'b100; + parameter [1:0] RX_TUNE_AFE_OS = 2'b00; + parameter [2:0] RX_VREG_CTRL = 3'b010; + parameter [0:0] RX_VREG_PDB = 1'b1; + parameter [1:0] RX_WIDEMODE_CDR = 2'b01; + parameter [1:0] RX_WIDEMODE_CDR_GEN3 = 2'b01; + parameter [1:0] RX_WIDEMODE_CDR_GEN4 = 2'b01; + parameter RX_XCLK_SEL = "RXDES"; + parameter [0:0] RX_XMODE_SEL = 1'b0; + parameter [0:0] SAMPLE_CLK_PHASE = 1'b0; + parameter [0:0] SAS_12G_MODE = 1'b0; + parameter [3:0] SATA_BURST_SEQ_LEN = 4'b1111; + parameter [2:0] SATA_BURST_VAL = 3'b100; + parameter SATA_CPLL_CFG = "VCO_3000MHZ"; + parameter [2:0] SATA_EIDLE_VAL = 3'b100; + parameter SHOW_REALIGN_COMMA = "TRUE"; + parameter SIM_MODE = "FAST"; + parameter SIM_RECEIVER_DETECT_PASS = "TRUE"; + parameter SIM_RESET_SPEEDUP = "TRUE"; + parameter SIM_TX_EIDLE_DRIVE_LEVEL = "Z"; + parameter SIM_DEVICE = "ULTRASCALE_PLUS"; + parameter [0:0] SRSTMODE = 1'b0; + parameter [1:0] TAPDLY_SET_TX = 2'h0; + parameter [14:0] TERM_RCAL_CFG = 15'b100001000010000; + parameter [2:0] TERM_RCAL_OVRD = 3'b000; + parameter [7:0] TRANS_TIME_RATE = 8'h0E; + parameter [7:0] TST_RSV0 = 8'h00; + parameter [7:0] TST_RSV1 = 8'h00; + parameter TXBUF_EN = "TRUE"; + parameter TXBUF_RESET_ON_RATE_CHANGE = "FALSE"; + parameter [15:0] TXDLY_CFG = 16'h0010; + parameter [15:0] TXDLY_LCFG = 16'h0030; + parameter integer TXDRV_FREQBAND = 0; + parameter [15:0] TXFE_CFG0 = 16'b0000000000000000; + parameter [15:0] TXFE_CFG1 = 16'b0000000000000000; + parameter [15:0] TXFE_CFG2 = 16'b0000000000000000; + parameter [15:0] TXFE_CFG3 = 16'b0000000000000000; + parameter TXFIFO_ADDR_CFG = "LOW"; + parameter integer TXGBOX_FIFO_INIT_RD_ADDR = 4; + parameter TXGEARBOX_EN = "FALSE"; + parameter integer TXOUT_DIV = 4; + parameter [4:0] TXPCSRESET_TIME = 5'b00001; + parameter [15:0] TXPHDLY_CFG0 = 16'h6020; + parameter [15:0] TXPHDLY_CFG1 = 16'h0002; + parameter [15:0] TXPH_CFG = 16'h0123; + parameter [15:0] TXPH_CFG2 = 16'h0000; + parameter [4:0] TXPH_MONITOR_SEL = 5'b00000; + parameter [15:0] TXPI_CFG0 = 16'b0000000100000000; + parameter [15:0] TXPI_CFG1 = 16'b0000000000000000; + parameter [0:0] TXPI_GRAY_SEL = 1'b0; + parameter [0:0] TXPI_INVSTROBE_SEL = 1'b0; + parameter [0:0] TXPI_PPM = 1'b0; + parameter [7:0] TXPI_PPM_CFG = 8'b00000000; + parameter [2:0] TXPI_SYNFREQ_PPM = 3'b000; + parameter [4:0] TXPMARESET_TIME = 5'b00001; + parameter [0:0] TXREFCLKDIV2_SEL = 1'b0; + parameter integer TXSWBST_BST = 1; + parameter integer TXSWBST_EN = 0; + parameter integer TXSWBST_MAG = 6; + parameter [0:0] TXSYNC_MULTILANE = 1'b0; + parameter [0:0] TXSYNC_OVRD = 1'b0; + parameter [0:0] TXSYNC_SKIP_DA = 1'b0; + parameter integer TX_CLK25_DIV = 8; + parameter [0:0] TX_CLKMUX_EN = 1'b1; + parameter integer TX_DATA_WIDTH = 20; + parameter [15:0] TX_DCC_LOOP_RST_CFG = 16'h0000; + parameter [5:0] TX_DEEMPH0 = 6'b000000; + parameter [5:0] TX_DEEMPH1 = 6'b000000; + parameter [5:0] TX_DEEMPH2 = 6'b000000; + parameter [5:0] TX_DEEMPH3 = 6'b000000; + parameter [4:0] TX_DIVRESET_TIME = 5'b00001; + parameter TX_DRIVE_MODE = "DIRECT"; + parameter [2:0] TX_EIDLE_ASSERT_DELAY = 3'b110; + parameter [2:0] TX_EIDLE_DEASSERT_DELAY = 3'b100; + parameter [0:0] TX_FABINT_USRCLK_FLOP = 1'b0; + parameter [0:0] TX_FIFO_BYP_EN = 1'b0; + parameter [0:0] TX_IDLE_DATA_ZERO = 1'b0; + parameter integer TX_INT_DATAWIDTH = 1; + parameter TX_LOOPBACK_DRIVE_HIZ = "FALSE"; + parameter [0:0] TX_MAINCURSOR_SEL = 1'b0; + parameter [6:0] TX_MARGIN_FULL_0 = 7'b1001110; + parameter [6:0] TX_MARGIN_FULL_1 = 7'b1001001; + parameter [6:0] TX_MARGIN_FULL_2 = 7'b1000101; + parameter [6:0] TX_MARGIN_FULL_3 = 7'b1000010; + parameter [6:0] TX_MARGIN_FULL_4 = 7'b1000000; + parameter [6:0] TX_MARGIN_LOW_0 = 7'b1000110; + parameter [6:0] TX_MARGIN_LOW_1 = 7'b1000100; + parameter [6:0] TX_MARGIN_LOW_2 = 7'b1000010; + parameter [6:0] TX_MARGIN_LOW_3 = 7'b1000000; + parameter [6:0] TX_MARGIN_LOW_4 = 7'b1000000; + parameter [15:0] TX_PHICAL_CFG0 = 16'h0000; + parameter [15:0] TX_PHICAL_CFG1 = 16'h003F; + parameter integer TX_PI_BIASSET = 0; + parameter [0:0] TX_PMADATA_OPT = 1'b0; + parameter [0:0] TX_PMA_POWER_SAVE = 1'b0; + parameter [15:0] TX_PMA_RSV0 = 16'h0000; + parameter [15:0] TX_PMA_RSV1 = 16'h0000; + parameter TX_PROGCLK_SEL = "POSTPI"; + parameter real TX_PROGDIV_CFG = 0.0; + parameter [15:0] TX_PROGDIV_RATE = 16'h0001; + parameter [13:0] TX_RXDETECT_CFG = 14'h0032; + parameter integer TX_RXDETECT_REF = 3; + parameter [2:0] TX_SAMPLE_PERIOD = 3'b101; + parameter [1:0] TX_SW_MEAS = 2'b00; + parameter [2:0] TX_VREG_CTRL = 3'b000; + parameter [0:0] TX_VREG_PDB = 1'b0; + parameter [1:0] TX_VREG_VREFSEL = 2'b00; + parameter TX_XCLK_SEL = "TXOUT"; + parameter [0:0] USB_BOTH_BURST_IDLE = 1'b0; + parameter [6:0] USB_BURSTMAX_U3WAKE = 7'b1111111; + parameter [6:0] USB_BURSTMIN_U3WAKE = 7'b1100011; + parameter [0:0] USB_CLK_COR_EQ_EN = 1'b0; + parameter [0:0] USB_EXT_CNTL = 1'b1; + parameter [9:0] USB_IDLEMAX_POLLING = 10'b1010111011; + parameter [9:0] USB_IDLEMIN_POLLING = 10'b0100101011; + parameter [8:0] USB_LFPSPING_BURST = 9'b000000101; + parameter [8:0] USB_LFPSPOLLING_BURST = 9'b000110001; + parameter [8:0] USB_LFPSPOLLING_IDLE_MS = 9'b000000100; + parameter [8:0] USB_LFPSU1EXIT_BURST = 9'b000011101; + parameter [8:0] USB_LFPSU2LPEXIT_BURST_MS = 9'b001100011; + parameter [8:0] USB_LFPSU3WAKE_BURST_MS = 9'b111110011; + parameter [3:0] USB_LFPS_TPERIOD = 4'b0011; + parameter [0:0] USB_LFPS_TPERIOD_ACCURATE = 1'b1; + parameter [0:0] USB_MODE = 1'b0; + parameter [0:0] USB_PCIE_ERR_REP_DIS = 1'b0; + parameter integer USB_PING_SATA_MAX_INIT = 21; + parameter integer USB_PING_SATA_MIN_INIT = 12; + parameter integer USB_POLL_SATA_MAX_BURST = 8; + parameter integer USB_POLL_SATA_MIN_BURST = 4; + parameter [0:0] USB_RAW_ELEC = 1'b0; + parameter [0:0] USB_RXIDLE_P0_CTRL = 1'b1; + parameter [0:0] USB_TXIDLE_TUNE_ENABLE = 1'b1; + parameter integer USB_U1_SATA_MAX_WAKE = 7; + parameter integer USB_U1_SATA_MIN_WAKE = 4; + parameter integer USB_U2_SAS_MAX_COM = 64; + parameter integer USB_U2_SAS_MIN_COM = 36; + parameter [0:0] USE_PCS_CLK_PHASE_SEL = 1'b0; + parameter [0:0] Y_ALL_MODE = 1'b0; + output BUFGTCE; + output [2:0] BUFGTCEMASK; + output [8:0] BUFGTDIV; + output BUFGTRESET; + output [2:0] BUFGTRSTMASK; + output CPLLFBCLKLOST; + output CPLLLOCK; + output CPLLREFCLKLOST; + output [15:0] DMONITOROUT; + output DMONITOROUTCLK; + output [15:0] DRPDO; + output DRPRDY; + output EYESCANDATAERROR; + output GTPOWERGOOD; + output GTREFCLKMONITOR; + output GTYTXN; + output GTYTXP; + output PCIERATEGEN3; + output PCIERATEIDLE; + output [1:0] PCIERATEQPLLPD; + output [1:0] PCIERATEQPLLRESET; + output PCIESYNCTXSYNCDONE; + output PCIEUSERGEN3RDY; + output PCIEUSERPHYSTATUSRST; + output PCIEUSERRATESTART; + output [15:0] PCSRSVDOUT; + output PHYSTATUS; + output [15:0] PINRSRVDAS; + output POWERPRESENT; + output RESETEXCEPTION; + output [2:0] RXBUFSTATUS; + output RXBYTEISALIGNED; + output RXBYTEREALIGN; + output RXCDRLOCK; + output RXCDRPHDONE; + output RXCHANBONDSEQ; + output RXCHANISALIGNED; + output RXCHANREALIGN; + output [4:0] RXCHBONDO; + output RXCKCALDONE; + output [1:0] RXCLKCORCNT; + output RXCOMINITDET; + output RXCOMMADET; + output RXCOMSASDET; + output RXCOMWAKEDET; + output [15:0] RXCTRL0; + output [15:0] RXCTRL1; + output [7:0] RXCTRL2; + output [7:0] RXCTRL3; + output [127:0] RXDATA; + output [7:0] RXDATAEXTENDRSVD; + output [1:0] RXDATAVALID; + output RXDLYSRESETDONE; + output RXELECIDLE; + output [5:0] RXHEADER; + output [1:0] RXHEADERVALID; + output RXLFPSTRESETDET; + output RXLFPSU2LPEXITDET; + output RXLFPSU3WAKEDET; + output [7:0] RXMONITOROUT; + output RXOSINTDONE; + output RXOSINTSTARTED; + output RXOSINTSTROBEDONE; + output RXOSINTSTROBESTARTED; + output RXOUTCLK; + output RXOUTCLKFABRIC; + output RXOUTCLKPCS; + output RXPHALIGNDONE; + output RXPHALIGNERR; + output RXPMARESETDONE; + output RXPRBSERR; + output RXPRBSLOCKED; + output RXPRGDIVRESETDONE; + output RXRATEDONE; + output RXRECCLKOUT; + output RXRESETDONE; + output RXSLIDERDY; + output RXSLIPDONE; + output RXSLIPOUTCLKRDY; + output RXSLIPPMARDY; + output [1:0] RXSTARTOFSEQ; + output [2:0] RXSTATUS; + output RXSYNCDONE; + output RXSYNCOUT; + output RXVALID; + output [1:0] TXBUFSTATUS; + output TXCOMFINISH; + output TXDCCDONE; + output TXDLYSRESETDONE; + output TXOUTCLK; + output TXOUTCLKFABRIC; + output TXOUTCLKPCS; + output TXPHALIGNDONE; + output TXPHINITDONE; + output TXPMARESETDONE; + output TXPRGDIVRESETDONE; + output TXRATEDONE; + output TXRESETDONE; + output TXSYNCDONE; + output TXSYNCOUT; + input CDRSTEPDIR; + input CDRSTEPSQ; + input CDRSTEPSX; + input CFGRESET; + input CLKRSVD0; + input CLKRSVD1; + input CPLLFREQLOCK; + input CPLLLOCKDETCLK; + input CPLLLOCKEN; + input CPLLPD; + input [2:0] CPLLREFCLKSEL; + input CPLLRESET; + input DMONFIFORESET; + input DMONITORCLK; + input [9:0] DRPADDR; + input DRPCLK; + input [15:0] DRPDI; + input DRPEN; + input DRPRST; + input DRPWE; + input EYESCANRESET; + input EYESCANTRIGGER; + input FREQOS; + input GTGREFCLK; + input GTNORTHREFCLK0; + input GTNORTHREFCLK1; + input GTREFCLK0; + input GTREFCLK1; + input [15:0] GTRSVD; + input GTRXRESET; + input GTRXRESETSEL; + input GTSOUTHREFCLK0; + input GTSOUTHREFCLK1; + input GTTXRESET; + input GTTXRESETSEL; + input GTYRXN; + input GTYRXP; + input INCPCTRL; + input [2:0] LOOPBACK; + input PCIEEQRXEQADAPTDONE; + input PCIERSTIDLE; + input PCIERSTTXSYNCSTART; + input PCIEUSERRATEDONE; + input [15:0] PCSRSVDIN; + input QPLL0CLK; + input QPLL0FREQLOCK; + input QPLL0REFCLK; + input QPLL1CLK; + input QPLL1FREQLOCK; + input QPLL1REFCLK; + input RESETOVRD; + input RX8B10BEN; + input RXAFECFOKEN; + input RXBUFRESET; + input RXCDRFREQRESET; + input RXCDRHOLD; + input RXCDROVRDEN; + input RXCDRRESET; + input RXCHBONDEN; + input [4:0] RXCHBONDI; + input [2:0] RXCHBONDLEVEL; + input RXCHBONDMASTER; + input RXCHBONDSLAVE; + input RXCKCALRESET; + input [6:0] RXCKCALSTART; + input RXCOMMADETEN; + input RXDFEAGCHOLD; + input RXDFEAGCOVRDEN; + input [3:0] RXDFECFOKFCNUM; + input RXDFECFOKFEN; + input RXDFECFOKFPULSE; + input RXDFECFOKHOLD; + input RXDFECFOKOVREN; + input RXDFEKHHOLD; + input RXDFEKHOVRDEN; + input RXDFELFHOLD; + input RXDFELFOVRDEN; + input RXDFELPMRESET; + input RXDFETAP10HOLD; + input RXDFETAP10OVRDEN; + input RXDFETAP11HOLD; + input RXDFETAP11OVRDEN; + input RXDFETAP12HOLD; + input RXDFETAP12OVRDEN; + input RXDFETAP13HOLD; + input RXDFETAP13OVRDEN; + input RXDFETAP14HOLD; + input RXDFETAP14OVRDEN; + input RXDFETAP15HOLD; + input RXDFETAP15OVRDEN; + input RXDFETAP2HOLD; + input RXDFETAP2OVRDEN; + input RXDFETAP3HOLD; + input RXDFETAP3OVRDEN; + input RXDFETAP4HOLD; + input RXDFETAP4OVRDEN; + input RXDFETAP5HOLD; + input RXDFETAP5OVRDEN; + input RXDFETAP6HOLD; + input RXDFETAP6OVRDEN; + input RXDFETAP7HOLD; + input RXDFETAP7OVRDEN; + input RXDFETAP8HOLD; + input RXDFETAP8OVRDEN; + input RXDFETAP9HOLD; + input RXDFETAP9OVRDEN; + input RXDFEUTHOLD; + input RXDFEUTOVRDEN; + input RXDFEVPHOLD; + input RXDFEVPOVRDEN; + input RXDFEXYDEN; + input RXDLYBYPASS; + input RXDLYEN; + input RXDLYOVRDEN; + input RXDLYSRESET; + input [1:0] RXELECIDLEMODE; + input RXEQTRAINING; + input RXGEARBOXSLIP; + input RXLATCLK; + input RXLPMEN; + input RXLPMGCHOLD; + input RXLPMGCOVRDEN; + input RXLPMHFHOLD; + input RXLPMHFOVRDEN; + input RXLPMLFHOLD; + input RXLPMLFKLOVRDEN; + input RXLPMOSHOLD; + input RXLPMOSOVRDEN; + input RXMCOMMAALIGNEN; + input [1:0] RXMONITORSEL; + input RXOOBRESET; + input RXOSCALRESET; + input RXOSHOLD; + input RXOSOVRDEN; + input [2:0] RXOUTCLKSEL; + input RXPCOMMAALIGNEN; + input RXPCSRESET; + input [1:0] RXPD; + input RXPHALIGN; + input RXPHALIGNEN; + input RXPHDLYPD; + input RXPHDLYRESET; + input [1:0] RXPLLCLKSEL; + input RXPMARESET; + input RXPOLARITY; + input RXPRBSCNTRESET; + input [3:0] RXPRBSSEL; + input RXPROGDIVRESET; + input [2:0] RXRATE; + input RXRATEMODE; + input RXSLIDE; + input RXSLIPOUTCLK; + input RXSLIPPMA; + input RXSYNCALLIN; + input RXSYNCIN; + input RXSYNCMODE; + input [1:0] RXSYSCLKSEL; + input RXTERMINATION; + input RXUSERRDY; + input RXUSRCLK; + input RXUSRCLK2; + input SIGVALIDCLK; + input [19:0] TSTIN; + input [7:0] TX8B10BBYPASS; + input TX8B10BEN; + input TXCOMINIT; + input TXCOMSAS; + input TXCOMWAKE; + input [15:0] TXCTRL0; + input [15:0] TXCTRL1; + input [7:0] TXCTRL2; + input [127:0] TXDATA; + input [7:0] TXDATAEXTENDRSVD; + input TXDCCFORCESTART; + input TXDCCRESET; + input [1:0] TXDEEMPH; + input TXDETECTRX; + input [4:0] TXDIFFCTRL; + input TXDLYBYPASS; + input TXDLYEN; + input TXDLYHOLD; + input TXDLYOVRDEN; + input TXDLYSRESET; + input TXDLYUPDOWN; + input TXELECIDLE; + input [5:0] TXHEADER; + input TXINHIBIT; + input TXLATCLK; + input TXLFPSTRESET; + input TXLFPSU2LPEXIT; + input TXLFPSU3WAKE; + input [6:0] TXMAINCURSOR; + input [2:0] TXMARGIN; + input TXMUXDCDEXHOLD; + input TXMUXDCDORWREN; + input TXONESZEROS; + input [2:0] TXOUTCLKSEL; + input TXPCSRESET; + input [1:0] TXPD; + input TXPDELECIDLEMODE; + input TXPHALIGN; + input TXPHALIGNEN; + input TXPHDLYPD; + input TXPHDLYRESET; + input TXPHDLYTSTCLK; + input TXPHINIT; + input TXPHOVRDEN; + input TXPIPPMEN; + input TXPIPPMOVRDEN; + input TXPIPPMPD; + input TXPIPPMSEL; + input [4:0] TXPIPPMSTEPSIZE; + input TXPISOPD; + input [1:0] TXPLLCLKSEL; + input TXPMARESET; + input TXPOLARITY; + input [4:0] TXPOSTCURSOR; + input TXPRBSFORCEERR; + input [3:0] TXPRBSSEL; + input [4:0] TXPRECURSOR; + input TXPROGDIVRESET; + input [2:0] TXRATE; + input TXRATEMODE; + input [6:0] TXSEQUENCE; + input TXSWING; + input TXSYNCALLIN; + input TXSYNCIN; + input TXSYNCMODE; + input [1:0] TXSYSCLKSEL; + input TXUSERRDY; + input TXUSRCLK; + input TXUSRCLK2; +endmodule + +module GTYE4_COMMON (...); + parameter [0:0] AEN_QPLL0_FBDIV = 1'b1; + parameter [0:0] AEN_QPLL1_FBDIV = 1'b1; + parameter [0:0] AEN_SDM0TOGGLE = 1'b0; + parameter [0:0] AEN_SDM1TOGGLE = 1'b0; + parameter [0:0] A_SDM0TOGGLE = 1'b0; + parameter [8:0] A_SDM1DATA_HIGH = 9'b000000000; + parameter [15:0] A_SDM1DATA_LOW = 16'b0000000000000000; + parameter [0:0] A_SDM1TOGGLE = 1'b0; + parameter [15:0] BIAS_CFG0 = 16'h0000; + parameter [15:0] BIAS_CFG1 = 16'h0000; + parameter [15:0] BIAS_CFG2 = 16'h0000; + parameter [15:0] BIAS_CFG3 = 16'h0000; + parameter [15:0] BIAS_CFG4 = 16'h0000; + parameter [15:0] BIAS_CFG_RSVD = 16'h0000; + parameter [15:0] COMMON_CFG0 = 16'h0000; + parameter [15:0] COMMON_CFG1 = 16'h0000; + parameter [15:0] POR_CFG = 16'h0000; + parameter [15:0] PPF0_CFG = 16'h0F00; + parameter [15:0] PPF1_CFG = 16'h0F00; + parameter QPLL0CLKOUT_RATE = "FULL"; + parameter [15:0] QPLL0_CFG0 = 16'h391C; + parameter [15:0] QPLL0_CFG1 = 16'h0000; + parameter [15:0] QPLL0_CFG1_G3 = 16'h0020; + parameter [15:0] QPLL0_CFG2 = 16'h0F80; + parameter [15:0] QPLL0_CFG2_G3 = 16'h0F80; + parameter [15:0] QPLL0_CFG3 = 16'h0120; + parameter [15:0] QPLL0_CFG4 = 16'h0002; + parameter [9:0] QPLL0_CP = 10'b0000011111; + parameter [9:0] QPLL0_CP_G3 = 10'b0000011111; + parameter integer QPLL0_FBDIV = 66; + parameter integer QPLL0_FBDIV_G3 = 80; + parameter [15:0] QPLL0_INIT_CFG0 = 16'h0000; + parameter [7:0] QPLL0_INIT_CFG1 = 8'h00; + parameter [15:0] QPLL0_LOCK_CFG = 16'h01E8; + parameter [15:0] QPLL0_LOCK_CFG_G3 = 16'h21E8; + parameter [9:0] QPLL0_LPF = 10'b1011111111; + parameter [9:0] QPLL0_LPF_G3 = 10'b1111111111; + parameter [0:0] QPLL0_PCI_EN = 1'b0; + parameter [0:0] QPLL0_RATE_SW_USE_DRP = 1'b0; + parameter integer QPLL0_REFCLK_DIV = 1; + parameter [15:0] QPLL0_SDM_CFG0 = 16'h0040; + parameter [15:0] QPLL0_SDM_CFG1 = 16'h0000; + parameter [15:0] QPLL0_SDM_CFG2 = 16'h0000; + parameter QPLL1CLKOUT_RATE = "FULL"; + parameter [15:0] QPLL1_CFG0 = 16'h691C; + parameter [15:0] QPLL1_CFG1 = 16'h0020; + parameter [15:0] QPLL1_CFG1_G3 = 16'h0020; + parameter [15:0] QPLL1_CFG2 = 16'h0F80; + parameter [15:0] QPLL1_CFG2_G3 = 16'h0F80; + parameter [15:0] QPLL1_CFG3 = 16'h0120; + parameter [15:0] QPLL1_CFG4 = 16'h0002; + parameter [9:0] QPLL1_CP = 10'b0000011111; + parameter [9:0] QPLL1_CP_G3 = 10'b0000011111; + parameter integer QPLL1_FBDIV = 66; + parameter integer QPLL1_FBDIV_G3 = 80; + parameter [15:0] QPLL1_INIT_CFG0 = 16'h0000; + parameter [7:0] QPLL1_INIT_CFG1 = 8'h00; + parameter [15:0] QPLL1_LOCK_CFG = 16'h01E8; + parameter [15:0] QPLL1_LOCK_CFG_G3 = 16'h21E8; + parameter [9:0] QPLL1_LPF = 10'b1011111111; + parameter [9:0] QPLL1_LPF_G3 = 10'b1111111111; + parameter [0:0] QPLL1_PCI_EN = 1'b0; + parameter [0:0] QPLL1_RATE_SW_USE_DRP = 1'b0; + parameter integer QPLL1_REFCLK_DIV = 1; + parameter [15:0] QPLL1_SDM_CFG0 = 16'h0000; + parameter [15:0] QPLL1_SDM_CFG1 = 16'h0000; + parameter [15:0] QPLL1_SDM_CFG2 = 16'h0000; + parameter [15:0] RSVD_ATTR0 = 16'h0000; + parameter [15:0] RSVD_ATTR1 = 16'h0000; + parameter [15:0] RSVD_ATTR2 = 16'h0000; + parameter [15:0] RSVD_ATTR3 = 16'h0000; + parameter [1:0] RXRECCLKOUT0_SEL = 2'b00; + parameter [1:0] RXRECCLKOUT1_SEL = 2'b00; + parameter [0:0] SARC_ENB = 1'b0; + parameter [0:0] SARC_SEL = 1'b0; + parameter [15:0] SDM0INITSEED0_0 = 16'b0000000000000000; + parameter [8:0] SDM0INITSEED0_1 = 9'b000000000; + parameter [15:0] SDM1INITSEED0_0 = 16'b0000000000000000; + parameter [8:0] SDM1INITSEED0_1 = 9'b000000000; + parameter SIM_MODE = "FAST"; + parameter SIM_RESET_SPEEDUP = "TRUE"; + parameter SIM_DEVICE = "ULTRASCALE_PLUS"; + parameter [15:0] UB_CFG0 = 16'h0000; + parameter [15:0] UB_CFG1 = 16'h0000; + parameter [15:0] UB_CFG2 = 16'h0000; + parameter [15:0] UB_CFG3 = 16'h0000; + parameter [15:0] UB_CFG4 = 16'h0000; + parameter [15:0] UB_CFG5 = 16'h0400; + parameter [15:0] UB_CFG6 = 16'h0000; + output [15:0] DRPDO; + output DRPRDY; + output [7:0] PMARSVDOUT0; + output [7:0] PMARSVDOUT1; + output QPLL0FBCLKLOST; + output QPLL0LOCK; + output QPLL0OUTCLK; + output QPLL0OUTREFCLK; + output QPLL0REFCLKLOST; + output QPLL1FBCLKLOST; + output QPLL1LOCK; + output QPLL1OUTCLK; + output QPLL1OUTREFCLK; + output QPLL1REFCLKLOST; + output [7:0] QPLLDMONITOR0; + output [7:0] QPLLDMONITOR1; + output REFCLKOUTMONITOR0; + output REFCLKOUTMONITOR1; + output [1:0] RXRECCLK0SEL; + output [1:0] RXRECCLK1SEL; + output [3:0] SDM0FINALOUT; + output [14:0] SDM0TESTDATA; + output [3:0] SDM1FINALOUT; + output [14:0] SDM1TESTDATA; + output [15:0] UBDADDR; + output UBDEN; + output [15:0] UBDI; + output UBDWE; + output UBMDMTDO; + output UBRSVDOUT; + output UBTXUART; + input BGBYPASSB; + input BGMONITORENB; + input BGPDB; + input [4:0] BGRCALOVRD; + input BGRCALOVRDENB; + input [15:0] DRPADDR; + input DRPCLK; + input [15:0] DRPDI; + input DRPEN; + input DRPWE; + input GTGREFCLK0; + input GTGREFCLK1; + input GTNORTHREFCLK00; + input GTNORTHREFCLK01; + input GTNORTHREFCLK10; + input GTNORTHREFCLK11; + input GTREFCLK00; + input GTREFCLK01; + input GTREFCLK10; + input GTREFCLK11; + input GTSOUTHREFCLK00; + input GTSOUTHREFCLK01; + input GTSOUTHREFCLK10; + input GTSOUTHREFCLK11; + input [2:0] PCIERATEQPLL0; + input [2:0] PCIERATEQPLL1; + input [7:0] PMARSVD0; + input [7:0] PMARSVD1; + input QPLL0CLKRSVD0; + input QPLL0CLKRSVD1; + input [7:0] QPLL0FBDIV; + input QPLL0LOCKDETCLK; + input QPLL0LOCKEN; + input QPLL0PD; + input [2:0] QPLL0REFCLKSEL; + input QPLL0RESET; + input QPLL1CLKRSVD0; + input QPLL1CLKRSVD1; + input [7:0] QPLL1FBDIV; + input QPLL1LOCKDETCLK; + input QPLL1LOCKEN; + input QPLL1PD; + input [2:0] QPLL1REFCLKSEL; + input QPLL1RESET; + input [7:0] QPLLRSVD1; + input [4:0] QPLLRSVD2; + input [4:0] QPLLRSVD3; + input [7:0] QPLLRSVD4; + input RCALENB; + input [24:0] SDM0DATA; + input SDM0RESET; + input SDM0TOGGLE; + input [1:0] SDM0WIDTH; + input [24:0] SDM1DATA; + input SDM1RESET; + input SDM1TOGGLE; + input [1:0] SDM1WIDTH; + input UBCFGSTREAMEN; + input [15:0] UBDO; + input UBDRDY; + input UBENABLE; + input [1:0] UBGPI; + input [1:0] UBINTR; + input UBIOLMBRST; + input UBMBRST; + input UBMDMCAPTURE; + input UBMDMDBGRST; + input UBMDMDBGUPDATE; + input [3:0] UBMDMREGEN; + input UBMDMSHIFT; + input UBMDMSYSRST; + input UBMDMTCK; + input UBMDMTDI; +endmodule + +module IBUFDS_GTE3 (...); + parameter [0:0] REFCLK_EN_TX_PATH = 1'b0; + parameter [1:0] REFCLK_HROW_CK_SEL = 2'b00; + parameter [1:0] REFCLK_ICNTL_RX = 2'b00; + output O; + output ODIV2; + input CEB; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; +endmodule + +module IBUFDS_GTE4 (...); + parameter [0:0] REFCLK_EN_TX_PATH = 1'b0; + parameter [1:0] REFCLK_HROW_CK_SEL = 2'b00; + parameter [1:0] REFCLK_ICNTL_RX = 2'b00; + output O; + output ODIV2; + input CEB; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; +endmodule + +module ILKN (...); + parameter BYPASS = "FALSE"; + parameter [1:0] CTL_RX_BURSTMAX = 2'h3; + parameter [1:0] CTL_RX_CHAN_EXT = 2'h0; + parameter [3:0] CTL_RX_LAST_LANE = 4'hB; + parameter [15:0] CTL_RX_MFRAMELEN_MINUS1 = 16'h07FF; + parameter CTL_RX_PACKET_MODE = "TRUE"; + parameter [2:0] CTL_RX_RETRANS_MULT = 3'h0; + parameter [3:0] CTL_RX_RETRANS_RETRY = 4'h2; + parameter [15:0] CTL_RX_RETRANS_TIMER1 = 16'h0000; + parameter [15:0] CTL_RX_RETRANS_TIMER2 = 16'h0008; + parameter [11:0] CTL_RX_RETRANS_WDOG = 12'h000; + parameter [7:0] CTL_RX_RETRANS_WRAP_TIMER = 8'h00; + parameter CTL_TEST_MODE_PIN_CHAR = "FALSE"; + parameter [1:0] CTL_TX_BURSTMAX = 2'h3; + parameter [2:0] CTL_TX_BURSTSHORT = 3'h1; + parameter [1:0] CTL_TX_CHAN_EXT = 2'h0; + parameter CTL_TX_DISABLE_SKIPWORD = "TRUE"; + parameter [6:0] CTL_TX_FC_CALLEN = 7'h00; + parameter [3:0] CTL_TX_LAST_LANE = 4'hB; + parameter [15:0] CTL_TX_MFRAMELEN_MINUS1 = 16'h07FF; + parameter [13:0] CTL_TX_RETRANS_DEPTH = 14'h0800; + parameter [2:0] CTL_TX_RETRANS_MULT = 3'h0; + parameter [1:0] CTL_TX_RETRANS_RAM_BANKS = 2'h3; + parameter MODE = "TRUE"; + parameter SIM_VERSION = "2.0"; + parameter TEST_MODE_PIN_CHAR = "FALSE"; + output [15:0] DRP_DO; + output DRP_RDY; + output [65:0] RX_BYPASS_DATAOUT00; + output [65:0] RX_BYPASS_DATAOUT01; + output [65:0] RX_BYPASS_DATAOUT02; + output [65:0] RX_BYPASS_DATAOUT03; + output [65:0] RX_BYPASS_DATAOUT04; + output [65:0] RX_BYPASS_DATAOUT05; + output [65:0] RX_BYPASS_DATAOUT06; + output [65:0] RX_BYPASS_DATAOUT07; + output [65:0] RX_BYPASS_DATAOUT08; + output [65:0] RX_BYPASS_DATAOUT09; + output [65:0] RX_BYPASS_DATAOUT10; + output [65:0] RX_BYPASS_DATAOUT11; + output [11:0] RX_BYPASS_ENAOUT; + output [11:0] RX_BYPASS_IS_AVAILOUT; + output [11:0] RX_BYPASS_IS_BADLYFRAMEDOUT; + output [11:0] RX_BYPASS_IS_OVERFLOWOUT; + output [11:0] RX_BYPASS_IS_SYNCEDOUT; + output [11:0] RX_BYPASS_IS_SYNCWORDOUT; + output [10:0] RX_CHANOUT0; + output [10:0] RX_CHANOUT1; + output [10:0] RX_CHANOUT2; + output [10:0] RX_CHANOUT3; + output [127:0] RX_DATAOUT0; + output [127:0] RX_DATAOUT1; + output [127:0] RX_DATAOUT2; + output [127:0] RX_DATAOUT3; + output RX_ENAOUT0; + output RX_ENAOUT1; + output RX_ENAOUT2; + output RX_ENAOUT3; + output RX_EOPOUT0; + output RX_EOPOUT1; + output RX_EOPOUT2; + output RX_EOPOUT3; + output RX_ERROUT0; + output RX_ERROUT1; + output RX_ERROUT2; + output RX_ERROUT3; + output [3:0] RX_MTYOUT0; + output [3:0] RX_MTYOUT1; + output [3:0] RX_MTYOUT2; + output [3:0] RX_MTYOUT3; + output RX_OVFOUT; + output RX_SOPOUT0; + output RX_SOPOUT1; + output RX_SOPOUT2; + output RX_SOPOUT3; + output STAT_RX_ALIGNED; + output STAT_RX_ALIGNED_ERR; + output [11:0] STAT_RX_BAD_TYPE_ERR; + output STAT_RX_BURSTMAX_ERR; + output STAT_RX_BURST_ERR; + output STAT_RX_CRC24_ERR; + output [11:0] STAT_RX_CRC32_ERR; + output [11:0] STAT_RX_CRC32_VALID; + output [11:0] STAT_RX_DESCRAM_ERR; + output [11:0] STAT_RX_DIAGWORD_INTFSTAT; + output [11:0] STAT_RX_DIAGWORD_LANESTAT; + output [255:0] STAT_RX_FC_STAT; + output [11:0] STAT_RX_FRAMING_ERR; + output STAT_RX_MEOP_ERR; + output [11:0] STAT_RX_MF_ERR; + output [11:0] STAT_RX_MF_LEN_ERR; + output [11:0] STAT_RX_MF_REPEAT_ERR; + output STAT_RX_MISALIGNED; + output STAT_RX_MSOP_ERR; + output [7:0] STAT_RX_MUBITS; + output STAT_RX_MUBITS_UPDATED; + output STAT_RX_OVERFLOW_ERR; + output STAT_RX_RETRANS_CRC24_ERR; + output STAT_RX_RETRANS_DISC; + output [15:0] STAT_RX_RETRANS_LATENCY; + output STAT_RX_RETRANS_REQ; + output STAT_RX_RETRANS_RETRY_ERR; + output [7:0] STAT_RX_RETRANS_SEQ; + output STAT_RX_RETRANS_SEQ_UPDATED; + output [2:0] STAT_RX_RETRANS_STATE; + output [4:0] STAT_RX_RETRANS_SUBSEQ; + output STAT_RX_RETRANS_WDOG_ERR; + output STAT_RX_RETRANS_WRAP_ERR; + output [11:0] STAT_RX_SYNCED; + output [11:0] STAT_RX_SYNCED_ERR; + output [11:0] STAT_RX_WORD_SYNC; + output STAT_TX_BURST_ERR; + output STAT_TX_ERRINJ_BITERR_DONE; + output STAT_TX_OVERFLOW_ERR; + output STAT_TX_RETRANS_BURST_ERR; + output STAT_TX_RETRANS_BUSY; + output STAT_TX_RETRANS_RAM_PERROUT; + output [8:0] STAT_TX_RETRANS_RAM_RADDR; + output STAT_TX_RETRANS_RAM_RD_B0; + output STAT_TX_RETRANS_RAM_RD_B1; + output STAT_TX_RETRANS_RAM_RD_B2; + output STAT_TX_RETRANS_RAM_RD_B3; + output [1:0] STAT_TX_RETRANS_RAM_RSEL; + output [8:0] STAT_TX_RETRANS_RAM_WADDR; + output [643:0] STAT_TX_RETRANS_RAM_WDATA; + output STAT_TX_RETRANS_RAM_WE_B0; + output STAT_TX_RETRANS_RAM_WE_B1; + output STAT_TX_RETRANS_RAM_WE_B2; + output STAT_TX_RETRANS_RAM_WE_B3; + output STAT_TX_UNDERFLOW_ERR; + output TX_OVFOUT; + output TX_RDYOUT; + output [63:0] TX_SERDES_DATA00; + output [63:0] TX_SERDES_DATA01; + output [63:0] TX_SERDES_DATA02; + output [63:0] TX_SERDES_DATA03; + output [63:0] TX_SERDES_DATA04; + output [63:0] TX_SERDES_DATA05; + output [63:0] TX_SERDES_DATA06; + output [63:0] TX_SERDES_DATA07; + output [63:0] TX_SERDES_DATA08; + output [63:0] TX_SERDES_DATA09; + output [63:0] TX_SERDES_DATA10; + output [63:0] TX_SERDES_DATA11; + input CORE_CLK; + input CTL_RX_FORCE_RESYNC; + input CTL_RX_RETRANS_ACK; + input CTL_RX_RETRANS_ENABLE; + input CTL_RX_RETRANS_ERRIN; + input CTL_RX_RETRANS_FORCE_REQ; + input CTL_RX_RETRANS_RESET; + input CTL_RX_RETRANS_RESET_MODE; + input CTL_TX_DIAGWORD_INTFSTAT; + input [11:0] CTL_TX_DIAGWORD_LANESTAT; + input CTL_TX_ENABLE; + input CTL_TX_ERRINJ_BITERR_GO; + input [3:0] CTL_TX_ERRINJ_BITERR_LANE; + input [255:0] CTL_TX_FC_STAT; + input [7:0] CTL_TX_MUBITS; + input CTL_TX_RETRANS_ENABLE; + input CTL_TX_RETRANS_RAM_PERRIN; + input [643:0] CTL_TX_RETRANS_RAM_RDATA; + input CTL_TX_RETRANS_REQ; + input CTL_TX_RETRANS_REQ_VALID; + input [11:0] CTL_TX_RLIM_DELTA; + input CTL_TX_RLIM_ENABLE; + input [7:0] CTL_TX_RLIM_INTV; + input [11:0] CTL_TX_RLIM_MAX; + input [9:0] DRP_ADDR; + input DRP_CLK; + input [15:0] DRP_DI; + input DRP_EN; + input DRP_WE; + input LBUS_CLK; + input RX_BYPASS_FORCE_REALIGNIN; + input RX_BYPASS_RDIN; + input RX_RESET; + input [11:0] RX_SERDES_CLK; + input [63:0] RX_SERDES_DATA00; + input [63:0] RX_SERDES_DATA01; + input [63:0] RX_SERDES_DATA02; + input [63:0] RX_SERDES_DATA03; + input [63:0] RX_SERDES_DATA04; + input [63:0] RX_SERDES_DATA05; + input [63:0] RX_SERDES_DATA06; + input [63:0] RX_SERDES_DATA07; + input [63:0] RX_SERDES_DATA08; + input [63:0] RX_SERDES_DATA09; + input [63:0] RX_SERDES_DATA10; + input [63:0] RX_SERDES_DATA11; + input [11:0] RX_SERDES_RESET; + input TX_BCTLIN0; + input TX_BCTLIN1; + input TX_BCTLIN2; + input TX_BCTLIN3; + input [11:0] TX_BYPASS_CTRLIN; + input [63:0] TX_BYPASS_DATAIN00; + input [63:0] TX_BYPASS_DATAIN01; + input [63:0] TX_BYPASS_DATAIN02; + input [63:0] TX_BYPASS_DATAIN03; + input [63:0] TX_BYPASS_DATAIN04; + input [63:0] TX_BYPASS_DATAIN05; + input [63:0] TX_BYPASS_DATAIN06; + input [63:0] TX_BYPASS_DATAIN07; + input [63:0] TX_BYPASS_DATAIN08; + input [63:0] TX_BYPASS_DATAIN09; + input [63:0] TX_BYPASS_DATAIN10; + input [63:0] TX_BYPASS_DATAIN11; + input TX_BYPASS_ENAIN; + input [7:0] TX_BYPASS_GEARBOX_SEQIN; + input [3:0] TX_BYPASS_MFRAMER_STATEIN; + input [10:0] TX_CHANIN0; + input [10:0] TX_CHANIN1; + input [10:0] TX_CHANIN2; + input [10:0] TX_CHANIN3; + input [127:0] TX_DATAIN0; + input [127:0] TX_DATAIN1; + input [127:0] TX_DATAIN2; + input [127:0] TX_DATAIN3; + input TX_ENAIN0; + input TX_ENAIN1; + input TX_ENAIN2; + input TX_ENAIN3; + input TX_EOPIN0; + input TX_EOPIN1; + input TX_EOPIN2; + input TX_EOPIN3; + input TX_ERRIN0; + input TX_ERRIN1; + input TX_ERRIN2; + input TX_ERRIN3; + input [3:0] TX_MTYIN0; + input [3:0] TX_MTYIN1; + input [3:0] TX_MTYIN2; + input [3:0] TX_MTYIN3; + input TX_RESET; + input TX_SERDES_REFCLK; + input TX_SERDES_REFCLK_RESET; + input TX_SOPIN0; + input TX_SOPIN1; + input TX_SOPIN2; + input TX_SOPIN3; +endmodule + +module ILKNE4 (...); + parameter BYPASS = "FALSE"; + parameter [1:0] CTL_RX_BURSTMAX = 2'h3; + parameter [1:0] CTL_RX_CHAN_EXT = 2'h0; + parameter [3:0] CTL_RX_LAST_LANE = 4'hB; + parameter [15:0] CTL_RX_MFRAMELEN_MINUS1 = 16'h07FF; + parameter CTL_RX_PACKET_MODE = "FALSE"; + parameter [2:0] CTL_RX_RETRANS_MULT = 3'h0; + parameter [3:0] CTL_RX_RETRANS_RETRY = 4'h2; + parameter [15:0] CTL_RX_RETRANS_TIMER1 = 16'h0009; + parameter [15:0] CTL_RX_RETRANS_TIMER2 = 16'h0000; + parameter [11:0] CTL_RX_RETRANS_WDOG = 12'h000; + parameter [7:0] CTL_RX_RETRANS_WRAP_TIMER = 8'h00; + parameter CTL_TEST_MODE_PIN_CHAR = "FALSE"; + parameter [1:0] CTL_TX_BURSTMAX = 2'h3; + parameter [2:0] CTL_TX_BURSTSHORT = 3'h1; + parameter [1:0] CTL_TX_CHAN_EXT = 2'h0; + parameter CTL_TX_DISABLE_SKIPWORD = "FALSE"; + parameter [3:0] CTL_TX_FC_CALLEN = 4'hF; + parameter [3:0] CTL_TX_LAST_LANE = 4'hB; + parameter [15:0] CTL_TX_MFRAMELEN_MINUS1 = 16'h07FF; + parameter [13:0] CTL_TX_RETRANS_DEPTH = 14'h0800; + parameter [2:0] CTL_TX_RETRANS_MULT = 3'h0; + parameter [1:0] CTL_TX_RETRANS_RAM_BANKS = 2'h3; + parameter MODE = "TRUE"; + parameter SIM_DEVICE = "ULTRASCALE_PLUS"; + parameter TEST_MODE_PIN_CHAR = "FALSE"; + output [15:0] DRP_DO; + output DRP_RDY; + output [65:0] RX_BYPASS_DATAOUT00; + output [65:0] RX_BYPASS_DATAOUT01; + output [65:0] RX_BYPASS_DATAOUT02; + output [65:0] RX_BYPASS_DATAOUT03; + output [65:0] RX_BYPASS_DATAOUT04; + output [65:0] RX_BYPASS_DATAOUT05; + output [65:0] RX_BYPASS_DATAOUT06; + output [65:0] RX_BYPASS_DATAOUT07; + output [65:0] RX_BYPASS_DATAOUT08; + output [65:0] RX_BYPASS_DATAOUT09; + output [65:0] RX_BYPASS_DATAOUT10; + output [65:0] RX_BYPASS_DATAOUT11; + output [11:0] RX_BYPASS_ENAOUT; + output [11:0] RX_BYPASS_IS_AVAILOUT; + output [11:0] RX_BYPASS_IS_BADLYFRAMEDOUT; + output [11:0] RX_BYPASS_IS_OVERFLOWOUT; + output [11:0] RX_BYPASS_IS_SYNCEDOUT; + output [11:0] RX_BYPASS_IS_SYNCWORDOUT; + output [10:0] RX_CHANOUT0; + output [10:0] RX_CHANOUT1; + output [10:0] RX_CHANOUT2; + output [10:0] RX_CHANOUT3; + output [127:0] RX_DATAOUT0; + output [127:0] RX_DATAOUT1; + output [127:0] RX_DATAOUT2; + output [127:0] RX_DATAOUT3; + output RX_ENAOUT0; + output RX_ENAOUT1; + output RX_ENAOUT2; + output RX_ENAOUT3; + output RX_EOPOUT0; + output RX_EOPOUT1; + output RX_EOPOUT2; + output RX_EOPOUT3; + output RX_ERROUT0; + output RX_ERROUT1; + output RX_ERROUT2; + output RX_ERROUT3; + output [3:0] RX_MTYOUT0; + output [3:0] RX_MTYOUT1; + output [3:0] RX_MTYOUT2; + output [3:0] RX_MTYOUT3; + output RX_OVFOUT; + output RX_SOPOUT0; + output RX_SOPOUT1; + output RX_SOPOUT2; + output RX_SOPOUT3; + output STAT_RX_ALIGNED; + output STAT_RX_ALIGNED_ERR; + output [11:0] STAT_RX_BAD_TYPE_ERR; + output STAT_RX_BURSTMAX_ERR; + output STAT_RX_BURST_ERR; + output STAT_RX_CRC24_ERR; + output [11:0] STAT_RX_CRC32_ERR; + output [11:0] STAT_RX_CRC32_VALID; + output [11:0] STAT_RX_DESCRAM_ERR; + output [11:0] STAT_RX_DIAGWORD_INTFSTAT; + output [11:0] STAT_RX_DIAGWORD_LANESTAT; + output [255:0] STAT_RX_FC_STAT; + output [11:0] STAT_RX_FRAMING_ERR; + output STAT_RX_MEOP_ERR; + output [11:0] STAT_RX_MF_ERR; + output [11:0] STAT_RX_MF_LEN_ERR; + output [11:0] STAT_RX_MF_REPEAT_ERR; + output STAT_RX_MISALIGNED; + output STAT_RX_MSOP_ERR; + output [7:0] STAT_RX_MUBITS; + output STAT_RX_MUBITS_UPDATED; + output STAT_RX_OVERFLOW_ERR; + output STAT_RX_RETRANS_CRC24_ERR; + output STAT_RX_RETRANS_DISC; + output [15:0] STAT_RX_RETRANS_LATENCY; + output STAT_RX_RETRANS_REQ; + output STAT_RX_RETRANS_RETRY_ERR; + output [7:0] STAT_RX_RETRANS_SEQ; + output STAT_RX_RETRANS_SEQ_UPDATED; + output [2:0] STAT_RX_RETRANS_STATE; + output [4:0] STAT_RX_RETRANS_SUBSEQ; + output STAT_RX_RETRANS_WDOG_ERR; + output STAT_RX_RETRANS_WRAP_ERR; + output [11:0] STAT_RX_SYNCED; + output [11:0] STAT_RX_SYNCED_ERR; + output [11:0] STAT_RX_WORD_SYNC; + output STAT_TX_BURST_ERR; + output STAT_TX_ERRINJ_BITERR_DONE; + output STAT_TX_OVERFLOW_ERR; + output STAT_TX_RETRANS_BURST_ERR; + output STAT_TX_RETRANS_BUSY; + output STAT_TX_RETRANS_RAM_PERROUT; + output [8:0] STAT_TX_RETRANS_RAM_RADDR; + output STAT_TX_RETRANS_RAM_RD_B0; + output STAT_TX_RETRANS_RAM_RD_B1; + output STAT_TX_RETRANS_RAM_RD_B2; + output STAT_TX_RETRANS_RAM_RD_B3; + output [1:0] STAT_TX_RETRANS_RAM_RSEL; + output [8:0] STAT_TX_RETRANS_RAM_WADDR; + output [643:0] STAT_TX_RETRANS_RAM_WDATA; + output STAT_TX_RETRANS_RAM_WE_B0; + output STAT_TX_RETRANS_RAM_WE_B1; + output STAT_TX_RETRANS_RAM_WE_B2; + output STAT_TX_RETRANS_RAM_WE_B3; + output STAT_TX_UNDERFLOW_ERR; + output TX_OVFOUT; + output TX_RDYOUT; + output [63:0] TX_SERDES_DATA00; + output [63:0] TX_SERDES_DATA01; + output [63:0] TX_SERDES_DATA02; + output [63:0] TX_SERDES_DATA03; + output [63:0] TX_SERDES_DATA04; + output [63:0] TX_SERDES_DATA05; + output [63:0] TX_SERDES_DATA06; + output [63:0] TX_SERDES_DATA07; + output [63:0] TX_SERDES_DATA08; + output [63:0] TX_SERDES_DATA09; + output [63:0] TX_SERDES_DATA10; + output [63:0] TX_SERDES_DATA11; + input CORE_CLK; + input CTL_RX_FORCE_RESYNC; + input CTL_RX_RETRANS_ACK; + input CTL_RX_RETRANS_ENABLE; + input CTL_RX_RETRANS_ERRIN; + input CTL_RX_RETRANS_FORCE_REQ; + input CTL_RX_RETRANS_RESET; + input CTL_RX_RETRANS_RESET_MODE; + input CTL_TX_DIAGWORD_INTFSTAT; + input [11:0] CTL_TX_DIAGWORD_LANESTAT; + input CTL_TX_ENABLE; + input CTL_TX_ERRINJ_BITERR_GO; + input [3:0] CTL_TX_ERRINJ_BITERR_LANE; + input [255:0] CTL_TX_FC_STAT; + input [7:0] CTL_TX_MUBITS; + input CTL_TX_RETRANS_ENABLE; + input CTL_TX_RETRANS_RAM_PERRIN; + input [643:0] CTL_TX_RETRANS_RAM_RDATA; + input CTL_TX_RETRANS_REQ; + input CTL_TX_RETRANS_REQ_VALID; + input [11:0] CTL_TX_RLIM_DELTA; + input CTL_TX_RLIM_ENABLE; + input [7:0] CTL_TX_RLIM_INTV; + input [11:0] CTL_TX_RLIM_MAX; + input [9:0] DRP_ADDR; + input DRP_CLK; + input [15:0] DRP_DI; + input DRP_EN; + input DRP_WE; + input LBUS_CLK; + input RX_BYPASS_FORCE_REALIGNIN; + input RX_BYPASS_RDIN; + input RX_RESET; + input [11:0] RX_SERDES_CLK; + input [63:0] RX_SERDES_DATA00; + input [63:0] RX_SERDES_DATA01; + input [63:0] RX_SERDES_DATA02; + input [63:0] RX_SERDES_DATA03; + input [63:0] RX_SERDES_DATA04; + input [63:0] RX_SERDES_DATA05; + input [63:0] RX_SERDES_DATA06; + input [63:0] RX_SERDES_DATA07; + input [63:0] RX_SERDES_DATA08; + input [63:0] RX_SERDES_DATA09; + input [63:0] RX_SERDES_DATA10; + input [63:0] RX_SERDES_DATA11; + input [11:0] RX_SERDES_RESET; + input TX_BCTLIN0; + input TX_BCTLIN1; + input TX_BCTLIN2; + input TX_BCTLIN3; + input [11:0] TX_BYPASS_CTRLIN; + input [63:0] TX_BYPASS_DATAIN00; + input [63:0] TX_BYPASS_DATAIN01; + input [63:0] TX_BYPASS_DATAIN02; + input [63:0] TX_BYPASS_DATAIN03; + input [63:0] TX_BYPASS_DATAIN04; + input [63:0] TX_BYPASS_DATAIN05; + input [63:0] TX_BYPASS_DATAIN06; + input [63:0] TX_BYPASS_DATAIN07; + input [63:0] TX_BYPASS_DATAIN08; + input [63:0] TX_BYPASS_DATAIN09; + input [63:0] TX_BYPASS_DATAIN10; + input [63:0] TX_BYPASS_DATAIN11; + input TX_BYPASS_ENAIN; + input [7:0] TX_BYPASS_GEARBOX_SEQIN; + input [3:0] TX_BYPASS_MFRAMER_STATEIN; + input [10:0] TX_CHANIN0; + input [10:0] TX_CHANIN1; + input [10:0] TX_CHANIN2; + input [10:0] TX_CHANIN3; + input [127:0] TX_DATAIN0; + input [127:0] TX_DATAIN1; + input [127:0] TX_DATAIN2; + input [127:0] TX_DATAIN3; + input TX_ENAIN0; + input TX_ENAIN1; + input TX_ENAIN2; + input TX_ENAIN3; + input TX_EOPIN0; + input TX_EOPIN1; + input TX_EOPIN2; + input TX_EOPIN3; + input TX_ERRIN0; + input TX_ERRIN1; + input TX_ERRIN2; + input TX_ERRIN3; + input [3:0] TX_MTYIN0; + input [3:0] TX_MTYIN1; + input [3:0] TX_MTYIN2; + input [3:0] TX_MTYIN3; + input TX_RESET; + input TX_SERDES_REFCLK; + input TX_SERDES_REFCLK_RESET; + input TX_SOPIN0; + input TX_SOPIN1; + input TX_SOPIN2; + input TX_SOPIN3; +endmodule + +module OBUFDS_GTE3 (...); + parameter [0:0] REFCLK_EN_TX_PATH = 1'b0; + parameter [4:0] REFCLK_ICNTL_TX = 5'b00000; + (* iopad_external_pin *) + output O; + (* iopad_external_pin *) + output OB; + input CEB; + input I; +endmodule + +module OBUFDS_GTE3_ADV (...); + parameter [0:0] REFCLK_EN_TX_PATH = 1'b0; + parameter [4:0] REFCLK_ICNTL_TX = 5'b00000; + (* iopad_external_pin *) + output O; + (* iopad_external_pin *) + output OB; + input CEB; + input [3:0] I; + input [1:0] RXRECCLK_SEL; +endmodule + +module OBUFDS_GTE4 (...); + parameter [0:0] REFCLK_EN_TX_PATH = 1'b0; + parameter [4:0] REFCLK_ICNTL_TX = 5'b00000; + (* iopad_external_pin *) + output O; + (* iopad_external_pin *) + output OB; + input CEB; + input I; +endmodule + +module OBUFDS_GTE4_ADV (...); + parameter [0:0] REFCLK_EN_TX_PATH = 1'b0; + parameter [4:0] REFCLK_ICNTL_TX = 5'b00000; + (* iopad_external_pin *) + output O; + (* iopad_external_pin *) + output OB; + input CEB; + input [3:0] I; + input [1:0] RXRECCLK_SEL; +endmodule + +module PCIE40E4 (...); + parameter ARI_CAP_ENABLE = "FALSE"; + parameter AUTO_FLR_RESPONSE = "FALSE"; + parameter [1:0] AXISTEN_IF_CC_ALIGNMENT_MODE = 2'h0; + parameter [23:0] AXISTEN_IF_COMPL_TIMEOUT_REG0 = 24'hBEBC20; + parameter [27:0] AXISTEN_IF_COMPL_TIMEOUT_REG1 = 28'h2FAF080; + parameter [1:0] AXISTEN_IF_CQ_ALIGNMENT_MODE = 2'h0; + parameter AXISTEN_IF_CQ_EN_POISONED_MEM_WR = "FALSE"; + parameter AXISTEN_IF_ENABLE_256_TAGS = "FALSE"; + parameter AXISTEN_IF_ENABLE_CLIENT_TAG = "FALSE"; + parameter AXISTEN_IF_ENABLE_INTERNAL_MSIX_TABLE = "FALSE"; + parameter AXISTEN_IF_ENABLE_MESSAGE_RID_CHECK = "TRUE"; + parameter [17:0] AXISTEN_IF_ENABLE_MSG_ROUTE = 18'h00000; + parameter AXISTEN_IF_ENABLE_RX_MSG_INTFC = "FALSE"; + parameter AXISTEN_IF_EXT_512 = "FALSE"; + parameter AXISTEN_IF_EXT_512_CC_STRADDLE = "FALSE"; + parameter AXISTEN_IF_EXT_512_CQ_STRADDLE = "FALSE"; + parameter AXISTEN_IF_EXT_512_RC_STRADDLE = "FALSE"; + parameter AXISTEN_IF_EXT_512_RQ_STRADDLE = "FALSE"; + parameter AXISTEN_IF_LEGACY_MODE_ENABLE = "FALSE"; + parameter AXISTEN_IF_MSIX_FROM_RAM_PIPELINE = "FALSE"; + parameter AXISTEN_IF_MSIX_RX_PARITY_EN = "TRUE"; + parameter AXISTEN_IF_MSIX_TO_RAM_PIPELINE = "FALSE"; + parameter [1:0] AXISTEN_IF_RC_ALIGNMENT_MODE = 2'h0; + parameter AXISTEN_IF_RC_STRADDLE = "FALSE"; + parameter [1:0] AXISTEN_IF_RQ_ALIGNMENT_MODE = 2'h0; + parameter AXISTEN_IF_RX_PARITY_EN = "TRUE"; + parameter AXISTEN_IF_SIM_SHORT_CPL_TIMEOUT = "FALSE"; + parameter AXISTEN_IF_TX_PARITY_EN = "TRUE"; + parameter [1:0] AXISTEN_IF_WIDTH = 2'h2; + parameter CFG_BYPASS_MODE_ENABLE = "FALSE"; + parameter CRM_CORE_CLK_FREQ_500 = "TRUE"; + parameter [1:0] CRM_USER_CLK_FREQ = 2'h2; + parameter [15:0] DEBUG_AXI4ST_SPARE = 16'h0000; + parameter [7:0] DEBUG_AXIST_DISABLE_FEATURE_BIT = 8'h00; + parameter [3:0] DEBUG_CAR_SPARE = 4'h0; + parameter [15:0] DEBUG_CFG_SPARE = 16'h0000; + parameter [15:0] DEBUG_LL_SPARE = 16'h0000; + parameter DEBUG_PL_DISABLE_LES_UPDATE_ON_DEFRAMER_ERROR = "FALSE"; + parameter DEBUG_PL_DISABLE_LES_UPDATE_ON_SKP_ERROR = "FALSE"; + parameter DEBUG_PL_DISABLE_LES_UPDATE_ON_SKP_PARITY_ERROR = "FALSE"; + parameter DEBUG_PL_DISABLE_REC_ENTRY_ON_DYNAMIC_DSKEW_FAIL = "FALSE"; + parameter DEBUG_PL_DISABLE_REC_ENTRY_ON_RX_BUFFER_UNDER_OVER_FLOW = "FALSE"; + parameter DEBUG_PL_DISABLE_SCRAMBLING = "FALSE"; + parameter DEBUG_PL_SIM_RESET_LFSR = "FALSE"; + parameter [15:0] DEBUG_PL_SPARE = 16'h0000; + parameter DEBUG_TL_DISABLE_FC_TIMEOUT = "FALSE"; + parameter DEBUG_TL_DISABLE_RX_TLP_ORDER_CHECKS = "FALSE"; + parameter [15:0] DEBUG_TL_SPARE = 16'h0000; + parameter [7:0] DNSTREAM_LINK_NUM = 8'h00; + parameter DSN_CAP_ENABLE = "FALSE"; + parameter EXTENDED_CFG_EXTEND_INTERFACE_ENABLE = "FALSE"; + parameter HEADER_TYPE_OVERRIDE = "FALSE"; + parameter IS_SWITCH_PORT = "FALSE"; + parameter LEGACY_CFG_EXTEND_INTERFACE_ENABLE = "FALSE"; + parameter [8:0] LL_ACK_TIMEOUT = 9'h000; + parameter LL_ACK_TIMEOUT_EN = "FALSE"; + parameter integer LL_ACK_TIMEOUT_FUNC = 0; + parameter LL_DISABLE_SCHED_TX_NAK = "FALSE"; + parameter LL_REPLAY_FROM_RAM_PIPELINE = "FALSE"; + parameter [8:0] LL_REPLAY_TIMEOUT = 9'h000; + parameter LL_REPLAY_TIMEOUT_EN = "FALSE"; + parameter integer LL_REPLAY_TIMEOUT_FUNC = 0; + parameter LL_REPLAY_TO_RAM_PIPELINE = "FALSE"; + parameter LL_RX_TLP_PARITY_GEN = "TRUE"; + parameter LL_TX_TLP_PARITY_CHK = "TRUE"; + parameter [15:0] LL_USER_SPARE = 16'h0000; + parameter [9:0] LTR_TX_MESSAGE_MINIMUM_INTERVAL = 10'h250; + parameter LTR_TX_MESSAGE_ON_FUNC_POWER_STATE_CHANGE = "FALSE"; + parameter LTR_TX_MESSAGE_ON_LTR_ENABLE = "FALSE"; + parameter [11:0] MCAP_CAP_NEXTPTR = 12'h000; + parameter MCAP_CONFIGURE_OVERRIDE = "FALSE"; + parameter MCAP_ENABLE = "FALSE"; + parameter MCAP_EOS_DESIGN_SWITCH = "FALSE"; + parameter [31:0] MCAP_FPGA_BITSTREAM_VERSION = 32'h00000000; + parameter MCAP_GATE_IO_ENABLE_DESIGN_SWITCH = "FALSE"; + parameter MCAP_GATE_MEM_ENABLE_DESIGN_SWITCH = "FALSE"; + parameter MCAP_INPUT_GATE_DESIGN_SWITCH = "FALSE"; + parameter MCAP_INTERRUPT_ON_MCAP_EOS = "FALSE"; + parameter MCAP_INTERRUPT_ON_MCAP_ERROR = "FALSE"; + parameter [15:0] MCAP_VSEC_ID = 16'h0000; + parameter [11:0] MCAP_VSEC_LEN = 12'h02C; + parameter [3:0] MCAP_VSEC_REV = 4'h0; + parameter PF0_AER_CAP_ECRC_GEN_AND_CHECK_CAPABLE = "FALSE"; + parameter [11:0] PF0_AER_CAP_NEXTPTR = 12'h000; + parameter [11:0] PF0_ARI_CAP_NEXTPTR = 12'h000; + parameter [7:0] PF0_ARI_CAP_NEXT_FUNC = 8'h00; + parameter [3:0] PF0_ARI_CAP_VER = 4'h1; + parameter [5:0] PF0_BAR0_APERTURE_SIZE = 6'h03; + parameter [2:0] PF0_BAR0_CONTROL = 3'h4; + parameter [4:0] PF0_BAR1_APERTURE_SIZE = 5'h00; + parameter [2:0] PF0_BAR1_CONTROL = 3'h0; + parameter [5:0] PF0_BAR2_APERTURE_SIZE = 6'h03; + parameter [2:0] PF0_BAR2_CONTROL = 3'h4; + parameter [4:0] PF0_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_BAR3_CONTROL = 3'h0; + parameter [5:0] PF0_BAR4_APERTURE_SIZE = 6'h03; + parameter [2:0] PF0_BAR4_CONTROL = 3'h4; + parameter [4:0] PF0_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_BAR5_CONTROL = 3'h0; + parameter [7:0] PF0_CAPABILITY_POINTER = 8'h80; + parameter [23:0] PF0_CLASS_CODE = 24'h000000; + parameter PF0_DEV_CAP2_128B_CAS_ATOMIC_COMPLETER_SUPPORT = "TRUE"; + parameter PF0_DEV_CAP2_32B_ATOMIC_COMPLETER_SUPPORT = "TRUE"; + parameter PF0_DEV_CAP2_64B_ATOMIC_COMPLETER_SUPPORT = "TRUE"; + parameter PF0_DEV_CAP2_ARI_FORWARD_ENABLE = "FALSE"; + parameter PF0_DEV_CAP2_CPL_TIMEOUT_DISABLE = "TRUE"; + parameter PF0_DEV_CAP2_LTR_SUPPORT = "TRUE"; + parameter [1:0] PF0_DEV_CAP2_OBFF_SUPPORT = 2'h0; + parameter PF0_DEV_CAP2_TPH_COMPLETER_SUPPORT = "FALSE"; + parameter integer PF0_DEV_CAP_ENDPOINT_L0S_LATENCY = 0; + parameter integer PF0_DEV_CAP_ENDPOINT_L1_LATENCY = 0; + parameter PF0_DEV_CAP_EXT_TAG_SUPPORTED = "TRUE"; + parameter PF0_DEV_CAP_FUNCTION_LEVEL_RESET_CAPABLE = "TRUE"; + parameter [2:0] PF0_DEV_CAP_MAX_PAYLOAD_SIZE = 3'h3; + parameter [11:0] PF0_DSN_CAP_NEXTPTR = 12'h10C; + parameter [4:0] PF0_EXPANSION_ROM_APERTURE_SIZE = 5'h03; + parameter PF0_EXPANSION_ROM_ENABLE = "FALSE"; + parameter [2:0] PF0_INTERRUPT_PIN = 3'h1; + parameter integer PF0_LINK_CAP_ASPM_SUPPORT = 0; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN1 = 7; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN2 = 7; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN3 = 7; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN4 = 7; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_GEN1 = 7; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_GEN2 = 7; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_GEN3 = 7; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_GEN4 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN1 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN2 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN3 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN4 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_GEN1 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_GEN2 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_GEN3 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_GEN4 = 7; + parameter [0:0] PF0_LINK_CONTROL_RCB = 1'h0; + parameter PF0_LINK_STATUS_SLOT_CLOCK_CONFIG = "TRUE"; + parameter [9:0] PF0_LTR_CAP_MAX_NOSNOOP_LAT = 10'h000; + parameter [9:0] PF0_LTR_CAP_MAX_SNOOP_LAT = 10'h000; + parameter [11:0] PF0_LTR_CAP_NEXTPTR = 12'h000; + parameter [3:0] PF0_LTR_CAP_VER = 4'h1; + parameter [7:0] PF0_MSIX_CAP_NEXTPTR = 8'h00; + parameter integer PF0_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] PF0_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer PF0_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] PF0_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] PF0_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter [5:0] PF0_MSIX_VECTOR_COUNT = 6'h04; + parameter integer PF0_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] PF0_MSI_CAP_NEXTPTR = 8'h00; + parameter PF0_MSI_CAP_PERVECMASKCAP = "FALSE"; + parameter [7:0] PF0_PCIE_CAP_NEXTPTR = 8'h00; + parameter [7:0] PF0_PM_CAP_ID = 8'h01; + parameter [7:0] PF0_PM_CAP_NEXTPTR = 8'h00; + parameter PF0_PM_CAP_PMESUPPORT_D0 = "TRUE"; + parameter PF0_PM_CAP_PMESUPPORT_D1 = "TRUE"; + parameter PF0_PM_CAP_PMESUPPORT_D3HOT = "TRUE"; + parameter PF0_PM_CAP_SUPP_D1_STATE = "TRUE"; + parameter [2:0] PF0_PM_CAP_VER_ID = 3'h3; + parameter PF0_PM_CSR_NOSOFTRESET = "TRUE"; + parameter [11:0] PF0_SECONDARY_PCIE_CAP_NEXTPTR = 12'h000; + parameter PF0_SRIOV_ARI_CAPBL_HIER_PRESERVED = "FALSE"; + parameter [5:0] PF0_SRIOV_BAR0_APERTURE_SIZE = 6'h03; + parameter [2:0] PF0_SRIOV_BAR0_CONTROL = 3'h4; + parameter [4:0] PF0_SRIOV_BAR1_APERTURE_SIZE = 5'h00; + parameter [2:0] PF0_SRIOV_BAR1_CONTROL = 3'h0; + parameter [5:0] PF0_SRIOV_BAR2_APERTURE_SIZE = 6'h03; + parameter [2:0] PF0_SRIOV_BAR2_CONTROL = 3'h4; + parameter [4:0] PF0_SRIOV_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_SRIOV_BAR3_CONTROL = 3'h0; + parameter [5:0] PF0_SRIOV_BAR4_APERTURE_SIZE = 6'h03; + parameter [2:0] PF0_SRIOV_BAR4_CONTROL = 3'h4; + parameter [4:0] PF0_SRIOV_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_SRIOV_BAR5_CONTROL = 3'h0; + parameter [15:0] PF0_SRIOV_CAP_INITIAL_VF = 16'h0000; + parameter [11:0] PF0_SRIOV_CAP_NEXTPTR = 12'h000; + parameter [15:0] PF0_SRIOV_CAP_TOTAL_VF = 16'h0000; + parameter [3:0] PF0_SRIOV_CAP_VER = 4'h1; + parameter [15:0] PF0_SRIOV_FIRST_VF_OFFSET = 16'h0000; + parameter [15:0] PF0_SRIOV_FUNC_DEP_LINK = 16'h0000; + parameter [31:0] PF0_SRIOV_SUPPORTED_PAGE_SIZE = 32'h00000000; + parameter [15:0] PF0_SRIOV_VF_DEVICE_ID = 16'h0000; + parameter PF0_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter PF0_TPHR_CAP_ENABLE = "FALSE"; + parameter PF0_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] PF0_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] PF0_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] PF0_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] PF0_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] PF0_TPHR_CAP_VER = 4'h1; + parameter PF0_VC_CAP_ENABLE = "FALSE"; + parameter [11:0] PF0_VC_CAP_NEXTPTR = 12'h000; + parameter [3:0] PF0_VC_CAP_VER = 4'h1; + parameter [11:0] PF1_AER_CAP_NEXTPTR = 12'h000; + parameter [11:0] PF1_ARI_CAP_NEXTPTR = 12'h000; + parameter [7:0] PF1_ARI_CAP_NEXT_FUNC = 8'h00; + parameter [5:0] PF1_BAR0_APERTURE_SIZE = 6'h03; + parameter [2:0] PF1_BAR0_CONTROL = 3'h4; + parameter [4:0] PF1_BAR1_APERTURE_SIZE = 5'h00; + parameter [2:0] PF1_BAR1_CONTROL = 3'h0; + parameter [5:0] PF1_BAR2_APERTURE_SIZE = 6'h03; + parameter [2:0] PF1_BAR2_CONTROL = 3'h4; + parameter [4:0] PF1_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_BAR3_CONTROL = 3'h0; + parameter [5:0] PF1_BAR4_APERTURE_SIZE = 6'h03; + parameter [2:0] PF1_BAR4_CONTROL = 3'h4; + parameter [4:0] PF1_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_BAR5_CONTROL = 3'h0; + parameter [7:0] PF1_CAPABILITY_POINTER = 8'h80; + parameter [23:0] PF1_CLASS_CODE = 24'h000000; + parameter [2:0] PF1_DEV_CAP_MAX_PAYLOAD_SIZE = 3'h3; + parameter [11:0] PF1_DSN_CAP_NEXTPTR = 12'h10C; + parameter [4:0] PF1_EXPANSION_ROM_APERTURE_SIZE = 5'h03; + parameter PF1_EXPANSION_ROM_ENABLE = "FALSE"; + parameter [2:0] PF1_INTERRUPT_PIN = 3'h1; + parameter [7:0] PF1_MSIX_CAP_NEXTPTR = 8'h00; + parameter integer PF1_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] PF1_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer PF1_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] PF1_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] PF1_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer PF1_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] PF1_MSI_CAP_NEXTPTR = 8'h00; + parameter PF1_MSI_CAP_PERVECMASKCAP = "FALSE"; + parameter [7:0] PF1_PCIE_CAP_NEXTPTR = 8'h00; + parameter [7:0] PF1_PM_CAP_NEXTPTR = 8'h00; + parameter PF1_SRIOV_ARI_CAPBL_HIER_PRESERVED = "FALSE"; + parameter [5:0] PF1_SRIOV_BAR0_APERTURE_SIZE = 6'h03; + parameter [2:0] PF1_SRIOV_BAR0_CONTROL = 3'h4; + parameter [4:0] PF1_SRIOV_BAR1_APERTURE_SIZE = 5'h00; + parameter [2:0] PF1_SRIOV_BAR1_CONTROL = 3'h0; + parameter [5:0] PF1_SRIOV_BAR2_APERTURE_SIZE = 6'h03; + parameter [2:0] PF1_SRIOV_BAR2_CONTROL = 3'h4; + parameter [4:0] PF1_SRIOV_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_SRIOV_BAR3_CONTROL = 3'h0; + parameter [5:0] PF1_SRIOV_BAR4_APERTURE_SIZE = 6'h03; + parameter [2:0] PF1_SRIOV_BAR4_CONTROL = 3'h4; + parameter [4:0] PF1_SRIOV_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_SRIOV_BAR5_CONTROL = 3'h0; + parameter [15:0] PF1_SRIOV_CAP_INITIAL_VF = 16'h0000; + parameter [11:0] PF1_SRIOV_CAP_NEXTPTR = 12'h000; + parameter [15:0] PF1_SRIOV_CAP_TOTAL_VF = 16'h0000; + parameter [3:0] PF1_SRIOV_CAP_VER = 4'h1; + parameter [15:0] PF1_SRIOV_FIRST_VF_OFFSET = 16'h0000; + parameter [15:0] PF1_SRIOV_FUNC_DEP_LINK = 16'h0000; + parameter [31:0] PF1_SRIOV_SUPPORTED_PAGE_SIZE = 32'h00000000; + parameter [15:0] PF1_SRIOV_VF_DEVICE_ID = 16'h0000; + parameter [11:0] PF1_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] PF1_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [11:0] PF2_AER_CAP_NEXTPTR = 12'h000; + parameter [11:0] PF2_ARI_CAP_NEXTPTR = 12'h000; + parameter [7:0] PF2_ARI_CAP_NEXT_FUNC = 8'h00; + parameter [5:0] PF2_BAR0_APERTURE_SIZE = 6'h03; + parameter [2:0] PF2_BAR0_CONTROL = 3'h4; + parameter [4:0] PF2_BAR1_APERTURE_SIZE = 5'h00; + parameter [2:0] PF2_BAR1_CONTROL = 3'h0; + parameter [5:0] PF2_BAR2_APERTURE_SIZE = 6'h03; + parameter [2:0] PF2_BAR2_CONTROL = 3'h4; + parameter [4:0] PF2_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF2_BAR3_CONTROL = 3'h0; + parameter [5:0] PF2_BAR4_APERTURE_SIZE = 6'h03; + parameter [2:0] PF2_BAR4_CONTROL = 3'h4; + parameter [4:0] PF2_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF2_BAR5_CONTROL = 3'h0; + parameter [7:0] PF2_CAPABILITY_POINTER = 8'h80; + parameter [23:0] PF2_CLASS_CODE = 24'h000000; + parameter [2:0] PF2_DEV_CAP_MAX_PAYLOAD_SIZE = 3'h3; + parameter [11:0] PF2_DSN_CAP_NEXTPTR = 12'h10C; + parameter [4:0] PF2_EXPANSION_ROM_APERTURE_SIZE = 5'h03; + parameter PF2_EXPANSION_ROM_ENABLE = "FALSE"; + parameter [2:0] PF2_INTERRUPT_PIN = 3'h1; + parameter [7:0] PF2_MSIX_CAP_NEXTPTR = 8'h00; + parameter integer PF2_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] PF2_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer PF2_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] PF2_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] PF2_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer PF2_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] PF2_MSI_CAP_NEXTPTR = 8'h00; + parameter PF2_MSI_CAP_PERVECMASKCAP = "FALSE"; + parameter [7:0] PF2_PCIE_CAP_NEXTPTR = 8'h00; + parameter [7:0] PF2_PM_CAP_NEXTPTR = 8'h00; + parameter PF2_SRIOV_ARI_CAPBL_HIER_PRESERVED = "FALSE"; + parameter [5:0] PF2_SRIOV_BAR0_APERTURE_SIZE = 6'h03; + parameter [2:0] PF2_SRIOV_BAR0_CONTROL = 3'h4; + parameter [4:0] PF2_SRIOV_BAR1_APERTURE_SIZE = 5'h00; + parameter [2:0] PF2_SRIOV_BAR1_CONTROL = 3'h0; + parameter [5:0] PF2_SRIOV_BAR2_APERTURE_SIZE = 6'h03; + parameter [2:0] PF2_SRIOV_BAR2_CONTROL = 3'h4; + parameter [4:0] PF2_SRIOV_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF2_SRIOV_BAR3_CONTROL = 3'h0; + parameter [5:0] PF2_SRIOV_BAR4_APERTURE_SIZE = 6'h03; + parameter [2:0] PF2_SRIOV_BAR4_CONTROL = 3'h4; + parameter [4:0] PF2_SRIOV_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF2_SRIOV_BAR5_CONTROL = 3'h0; + parameter [15:0] PF2_SRIOV_CAP_INITIAL_VF = 16'h0000; + parameter [11:0] PF2_SRIOV_CAP_NEXTPTR = 12'h000; + parameter [15:0] PF2_SRIOV_CAP_TOTAL_VF = 16'h0000; + parameter [3:0] PF2_SRIOV_CAP_VER = 4'h1; + parameter [15:0] PF2_SRIOV_FIRST_VF_OFFSET = 16'h0000; + parameter [15:0] PF2_SRIOV_FUNC_DEP_LINK = 16'h0000; + parameter [31:0] PF2_SRIOV_SUPPORTED_PAGE_SIZE = 32'h00000000; + parameter [15:0] PF2_SRIOV_VF_DEVICE_ID = 16'h0000; + parameter [11:0] PF2_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] PF2_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [11:0] PF3_AER_CAP_NEXTPTR = 12'h000; + parameter [11:0] PF3_ARI_CAP_NEXTPTR = 12'h000; + parameter [7:0] PF3_ARI_CAP_NEXT_FUNC = 8'h00; + parameter [5:0] PF3_BAR0_APERTURE_SIZE = 6'h03; + parameter [2:0] PF3_BAR0_CONTROL = 3'h4; + parameter [4:0] PF3_BAR1_APERTURE_SIZE = 5'h00; + parameter [2:0] PF3_BAR1_CONTROL = 3'h0; + parameter [5:0] PF3_BAR2_APERTURE_SIZE = 6'h03; + parameter [2:0] PF3_BAR2_CONTROL = 3'h4; + parameter [4:0] PF3_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF3_BAR3_CONTROL = 3'h0; + parameter [5:0] PF3_BAR4_APERTURE_SIZE = 6'h03; + parameter [2:0] PF3_BAR4_CONTROL = 3'h4; + parameter [4:0] PF3_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF3_BAR5_CONTROL = 3'h0; + parameter [7:0] PF3_CAPABILITY_POINTER = 8'h80; + parameter [23:0] PF3_CLASS_CODE = 24'h000000; + parameter [2:0] PF3_DEV_CAP_MAX_PAYLOAD_SIZE = 3'h3; + parameter [11:0] PF3_DSN_CAP_NEXTPTR = 12'h10C; + parameter [4:0] PF3_EXPANSION_ROM_APERTURE_SIZE = 5'h03; + parameter PF3_EXPANSION_ROM_ENABLE = "FALSE"; + parameter [2:0] PF3_INTERRUPT_PIN = 3'h1; + parameter [7:0] PF3_MSIX_CAP_NEXTPTR = 8'h00; + parameter integer PF3_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] PF3_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer PF3_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] PF3_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] PF3_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer PF3_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] PF3_MSI_CAP_NEXTPTR = 8'h00; + parameter PF3_MSI_CAP_PERVECMASKCAP = "FALSE"; + parameter [7:0] PF3_PCIE_CAP_NEXTPTR = 8'h00; + parameter [7:0] PF3_PM_CAP_NEXTPTR = 8'h00; + parameter PF3_SRIOV_ARI_CAPBL_HIER_PRESERVED = "FALSE"; + parameter [5:0] PF3_SRIOV_BAR0_APERTURE_SIZE = 6'h03; + parameter [2:0] PF3_SRIOV_BAR0_CONTROL = 3'h4; + parameter [4:0] PF3_SRIOV_BAR1_APERTURE_SIZE = 5'h00; + parameter [2:0] PF3_SRIOV_BAR1_CONTROL = 3'h0; + parameter [5:0] PF3_SRIOV_BAR2_APERTURE_SIZE = 6'h03; + parameter [2:0] PF3_SRIOV_BAR2_CONTROL = 3'h4; + parameter [4:0] PF3_SRIOV_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF3_SRIOV_BAR3_CONTROL = 3'h0; + parameter [5:0] PF3_SRIOV_BAR4_APERTURE_SIZE = 6'h03; + parameter [2:0] PF3_SRIOV_BAR4_CONTROL = 3'h4; + parameter [4:0] PF3_SRIOV_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF3_SRIOV_BAR5_CONTROL = 3'h0; + parameter [15:0] PF3_SRIOV_CAP_INITIAL_VF = 16'h0000; + parameter [11:0] PF3_SRIOV_CAP_NEXTPTR = 12'h000; + parameter [15:0] PF3_SRIOV_CAP_TOTAL_VF = 16'h0000; + parameter [3:0] PF3_SRIOV_CAP_VER = 4'h1; + parameter [15:0] PF3_SRIOV_FIRST_VF_OFFSET = 16'h0000; + parameter [15:0] PF3_SRIOV_FUNC_DEP_LINK = 16'h0000; + parameter [31:0] PF3_SRIOV_SUPPORTED_PAGE_SIZE = 32'h00000000; + parameter [15:0] PF3_SRIOV_VF_DEVICE_ID = 16'h0000; + parameter [11:0] PF3_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] PF3_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter PL_CFG_STATE_ROBUSTNESS_ENABLE = "TRUE"; + parameter PL_DEEMPH_SOURCE_SELECT = "TRUE"; + parameter PL_DESKEW_ON_SKIP_IN_GEN12 = "FALSE"; + parameter PL_DISABLE_AUTO_EQ_SPEED_CHANGE_TO_GEN3 = "FALSE"; + parameter PL_DISABLE_AUTO_EQ_SPEED_CHANGE_TO_GEN4 = "FALSE"; + parameter PL_DISABLE_AUTO_SPEED_CHANGE_TO_GEN2 = "FALSE"; + parameter PL_DISABLE_DC_BALANCE = "FALSE"; + parameter PL_DISABLE_EI_INFER_IN_L0 = "FALSE"; + parameter PL_DISABLE_LANE_REVERSAL = "FALSE"; + parameter [1:0] PL_DISABLE_LFSR_UPDATE_ON_SKP = 2'h0; + parameter PL_DISABLE_RETRAIN_ON_EB_ERROR = "FALSE"; + parameter PL_DISABLE_RETRAIN_ON_FRAMING_ERROR = "FALSE"; + parameter [15:0] PL_DISABLE_RETRAIN_ON_SPECIFIC_FRAMING_ERROR = 16'h0000; + parameter PL_DISABLE_UPCONFIG_CAPABLE = "FALSE"; + parameter [1:0] PL_EQ_ADAPT_DISABLE_COEFF_CHECK = 2'h0; + parameter [1:0] PL_EQ_ADAPT_DISABLE_PRESET_CHECK = 2'h0; + parameter [4:0] PL_EQ_ADAPT_ITER_COUNT = 5'h02; + parameter [1:0] PL_EQ_ADAPT_REJECT_RETRY_COUNT = 2'h1; + parameter [1:0] PL_EQ_BYPASS_PHASE23 = 2'h0; + parameter [5:0] PL_EQ_DEFAULT_RX_PRESET_HINT = 6'h33; + parameter [7:0] PL_EQ_DEFAULT_TX_PRESET = 8'h44; + parameter PL_EQ_DISABLE_MISMATCH_CHECK = "TRUE"; + parameter [1:0] PL_EQ_RX_ADAPT_EQ_PHASE0 = 2'h0; + parameter [1:0] PL_EQ_RX_ADAPT_EQ_PHASE1 = 2'h0; + parameter PL_EQ_SHORT_ADAPT_PHASE = "FALSE"; + parameter PL_EQ_TX_8G_EQ_TS2_ENABLE = "FALSE"; + parameter PL_EXIT_LOOPBACK_ON_EI_ENTRY = "TRUE"; + parameter PL_INFER_EI_DISABLE_LPBK_ACTIVE = "TRUE"; + parameter PL_INFER_EI_DISABLE_REC_RC = "FALSE"; + parameter PL_INFER_EI_DISABLE_REC_SPD = "FALSE"; + parameter [31:0] PL_LANE0_EQ_CONTROL = 32'h00003F00; + parameter [31:0] PL_LANE10_EQ_CONTROL = 32'h00003F00; + parameter [31:0] PL_LANE11_EQ_CONTROL = 32'h00003F00; + parameter [31:0] PL_LANE12_EQ_CONTROL = 32'h00003F00; + parameter [31:0] PL_LANE13_EQ_CONTROL = 32'h00003F00; + parameter [31:0] PL_LANE14_EQ_CONTROL = 32'h00003F00; + parameter [31:0] PL_LANE15_EQ_CONTROL = 32'h00003F00; + parameter [31:0] PL_LANE1_EQ_CONTROL = 32'h00003F00; + parameter [31:0] PL_LANE2_EQ_CONTROL = 32'h00003F00; + parameter [31:0] PL_LANE3_EQ_CONTROL = 32'h00003F00; + parameter [31:0] PL_LANE4_EQ_CONTROL = 32'h00003F00; + parameter [31:0] PL_LANE5_EQ_CONTROL = 32'h00003F00; + parameter [31:0] PL_LANE6_EQ_CONTROL = 32'h00003F00; + parameter [31:0] PL_LANE7_EQ_CONTROL = 32'h00003F00; + parameter [31:0] PL_LANE8_EQ_CONTROL = 32'h00003F00; + parameter [31:0] PL_LANE9_EQ_CONTROL = 32'h00003F00; + parameter [3:0] PL_LINK_CAP_MAX_LINK_SPEED = 4'h4; + parameter [4:0] PL_LINK_CAP_MAX_LINK_WIDTH = 5'h08; + parameter integer PL_N_FTS = 255; + parameter PL_QUIESCE_GUARANTEE_DISABLE = "FALSE"; + parameter PL_REDO_EQ_SOURCE_SELECT = "TRUE"; + parameter [7:0] PL_REPORT_ALL_PHY_ERRORS = 8'h00; + parameter [1:0] PL_RX_ADAPT_TIMER_CLWS_CLOBBER_TX_TS = 2'h0; + parameter [3:0] PL_RX_ADAPT_TIMER_CLWS_GEN3 = 4'h0; + parameter [3:0] PL_RX_ADAPT_TIMER_CLWS_GEN4 = 4'h0; + parameter [1:0] PL_RX_ADAPT_TIMER_RRL_CLOBBER_TX_TS = 2'h0; + parameter [3:0] PL_RX_ADAPT_TIMER_RRL_GEN3 = 4'h0; + parameter [3:0] PL_RX_ADAPT_TIMER_RRL_GEN4 = 4'h0; + parameter [1:0] PL_RX_L0S_EXIT_TO_RECOVERY = 2'h0; + parameter [1:0] PL_SIM_FAST_LINK_TRAINING = 2'h0; + parameter PL_SRIS_ENABLE = "FALSE"; + parameter [6:0] PL_SRIS_SKPOS_GEN_SPD_VEC = 7'h00; + parameter [6:0] PL_SRIS_SKPOS_REC_SPD_VEC = 7'h00; + parameter PL_UPSTREAM_FACING = "TRUE"; + parameter [15:0] PL_USER_SPARE = 16'h0000; + parameter [15:0] PM_ASPML0S_TIMEOUT = 16'h1500; + parameter [19:0] PM_ASPML1_ENTRY_DELAY = 20'h003E8; + parameter PM_ENABLE_L23_ENTRY = "FALSE"; + parameter PM_ENABLE_SLOT_POWER_CAPTURE = "TRUE"; + parameter [31:0] PM_L1_REENTRY_DELAY = 32'h00000100; + parameter [19:0] PM_PME_SERVICE_TIMEOUT_DELAY = 20'h00000; + parameter [15:0] PM_PME_TURNOFF_ACK_DELAY = 16'h0100; + parameter SIM_DEVICE = "ULTRASCALE_PLUS"; + parameter [31:0] SIM_JTAG_IDCODE = 32'h00000000; + parameter SIM_VERSION = "1.0"; + parameter SPARE_BIT0 = "FALSE"; + parameter integer SPARE_BIT1 = 0; + parameter integer SPARE_BIT2 = 0; + parameter SPARE_BIT3 = "FALSE"; + parameter integer SPARE_BIT4 = 0; + parameter integer SPARE_BIT5 = 0; + parameter integer SPARE_BIT6 = 0; + parameter integer SPARE_BIT7 = 0; + parameter integer SPARE_BIT8 = 0; + parameter [7:0] SPARE_BYTE0 = 8'h00; + parameter [7:0] SPARE_BYTE1 = 8'h00; + parameter [7:0] SPARE_BYTE2 = 8'h00; + parameter [7:0] SPARE_BYTE3 = 8'h00; + parameter [31:0] SPARE_WORD0 = 32'h00000000; + parameter [31:0] SPARE_WORD1 = 32'h00000000; + parameter [31:0] SPARE_WORD2 = 32'h00000000; + parameter [31:0] SPARE_WORD3 = 32'h00000000; + parameter [3:0] SRIOV_CAP_ENABLE = 4'h0; + parameter TL2CFG_IF_PARITY_CHK = "TRUE"; + parameter [1:0] TL_COMPLETION_RAM_NUM_TLPS = 2'h0; + parameter [1:0] TL_COMPLETION_RAM_SIZE = 2'h1; + parameter [11:0] TL_CREDITS_CD = 12'h000; + parameter [7:0] TL_CREDITS_CH = 8'h00; + parameter [11:0] TL_CREDITS_NPD = 12'h004; + parameter [7:0] TL_CREDITS_NPH = 8'h20; + parameter [11:0] TL_CREDITS_PD = 12'h0E0; + parameter [7:0] TL_CREDITS_PH = 8'h20; + parameter [4:0] TL_FC_UPDATE_MIN_INTERVAL_TIME = 5'h02; + parameter [4:0] TL_FC_UPDATE_MIN_INTERVAL_TLP_COUNT = 5'h08; + parameter [1:0] TL_PF_ENABLE_REG = 2'h0; + parameter [0:0] TL_POSTED_RAM_SIZE = 1'h0; + parameter TL_RX_COMPLETION_FROM_RAM_READ_PIPELINE = "FALSE"; + parameter TL_RX_COMPLETION_TO_RAM_READ_PIPELINE = "FALSE"; + parameter TL_RX_COMPLETION_TO_RAM_WRITE_PIPELINE = "FALSE"; + parameter TL_RX_POSTED_FROM_RAM_READ_PIPELINE = "FALSE"; + parameter TL_RX_POSTED_TO_RAM_READ_PIPELINE = "FALSE"; + parameter TL_RX_POSTED_TO_RAM_WRITE_PIPELINE = "FALSE"; + parameter TL_TX_MUX_STRICT_PRIORITY = "TRUE"; + parameter TL_TX_TLP_STRADDLE_ENABLE = "FALSE"; + parameter TL_TX_TLP_TERMINATE_PARITY = "FALSE"; + parameter [15:0] TL_USER_SPARE = 16'h0000; + parameter TPH_FROM_RAM_PIPELINE = "FALSE"; + parameter TPH_TO_RAM_PIPELINE = "FALSE"; + parameter [7:0] VF0_CAPABILITY_POINTER = 8'h80; + parameter [11:0] VFG0_ARI_CAP_NEXTPTR = 12'h000; + parameter [7:0] VFG0_MSIX_CAP_NEXTPTR = 8'h00; + parameter integer VFG0_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VFG0_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VFG0_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VFG0_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VFG0_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter [7:0] VFG0_PCIE_CAP_NEXTPTR = 8'h00; + parameter [11:0] VFG0_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VFG0_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [11:0] VFG1_ARI_CAP_NEXTPTR = 12'h000; + parameter [7:0] VFG1_MSIX_CAP_NEXTPTR = 8'h00; + parameter integer VFG1_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VFG1_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VFG1_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VFG1_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VFG1_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter [7:0] VFG1_PCIE_CAP_NEXTPTR = 8'h00; + parameter [11:0] VFG1_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VFG1_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [11:0] VFG2_ARI_CAP_NEXTPTR = 12'h000; + parameter [7:0] VFG2_MSIX_CAP_NEXTPTR = 8'h00; + parameter integer VFG2_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VFG2_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VFG2_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VFG2_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VFG2_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter [7:0] VFG2_PCIE_CAP_NEXTPTR = 8'h00; + parameter [11:0] VFG2_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VFG2_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [11:0] VFG3_ARI_CAP_NEXTPTR = 12'h000; + parameter [7:0] VFG3_MSIX_CAP_NEXTPTR = 8'h00; + parameter integer VFG3_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VFG3_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VFG3_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VFG3_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VFG3_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter [7:0] VFG3_PCIE_CAP_NEXTPTR = 8'h00; + parameter [11:0] VFG3_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VFG3_TPHR_CAP_ST_MODE_SEL = 3'h0; + output [7:0] AXIUSEROUT; + output [7:0] CFGBUSNUMBER; + output [1:0] CFGCURRENTSPEED; + output CFGERRCOROUT; + output CFGERRFATALOUT; + output CFGERRNONFATALOUT; + output [7:0] CFGEXTFUNCTIONNUMBER; + output CFGEXTREADRECEIVED; + output [9:0] CFGEXTREGISTERNUMBER; + output [3:0] CFGEXTWRITEBYTEENABLE; + output [31:0] CFGEXTWRITEDATA; + output CFGEXTWRITERECEIVED; + output [11:0] CFGFCCPLD; + output [7:0] CFGFCCPLH; + output [11:0] CFGFCNPD; + output [7:0] CFGFCNPH; + output [11:0] CFGFCPD; + output [7:0] CFGFCPH; + output [3:0] CFGFLRINPROCESS; + output [11:0] CFGFUNCTIONPOWERSTATE; + output [15:0] CFGFUNCTIONSTATUS; + output CFGHOTRESETOUT; + output [31:0] CFGINTERRUPTMSIDATA; + output [3:0] CFGINTERRUPTMSIENABLE; + output CFGINTERRUPTMSIFAIL; + output CFGINTERRUPTMSIMASKUPDATE; + output [11:0] CFGINTERRUPTMSIMMENABLE; + output CFGINTERRUPTMSISENT; + output [3:0] CFGINTERRUPTMSIXENABLE; + output [3:0] CFGINTERRUPTMSIXMASK; + output CFGINTERRUPTMSIXVECPENDINGSTATUS; + output CFGINTERRUPTSENT; + output [1:0] CFGLINKPOWERSTATE; + output [4:0] CFGLOCALERROROUT; + output CFGLOCALERRORVALID; + output CFGLTRENABLE; + output [5:0] CFGLTSSMSTATE; + output [1:0] CFGMAXPAYLOAD; + output [2:0] CFGMAXREADREQ; + output [31:0] CFGMGMTREADDATA; + output CFGMGMTREADWRITEDONE; + output CFGMSGRECEIVED; + output [7:0] CFGMSGRECEIVEDDATA; + output [4:0] CFGMSGRECEIVEDTYPE; + output CFGMSGTRANSMITDONE; + output [12:0] CFGMSIXRAMADDRESS; + output CFGMSIXRAMREADENABLE; + output [3:0] CFGMSIXRAMWRITEBYTEENABLE; + output [35:0] CFGMSIXRAMWRITEDATA; + output [2:0] CFGNEGOTIATEDWIDTH; + output [1:0] CFGOBFFENABLE; + output CFGPHYLINKDOWN; + output [1:0] CFGPHYLINKSTATUS; + output CFGPLSTATUSCHANGE; + output CFGPOWERSTATECHANGEINTERRUPT; + output [3:0] CFGRCBSTATUS; + output [1:0] CFGRXPMSTATE; + output [11:0] CFGTPHRAMADDRESS; + output CFGTPHRAMREADENABLE; + output [3:0] CFGTPHRAMWRITEBYTEENABLE; + output [35:0] CFGTPHRAMWRITEDATA; + output [3:0] CFGTPHREQUESTERENABLE; + output [11:0] CFGTPHSTMODE; + output [1:0] CFGTXPMSTATE; + output CONFMCAPDESIGNSWITCH; + output CONFMCAPEOS; + output CONFMCAPINUSEBYPCIE; + output CONFREQREADY; + output [31:0] CONFRESPRDATA; + output CONFRESPVALID; + output [31:0] DBGCTRL0OUT; + output [31:0] DBGCTRL1OUT; + output [255:0] DBGDATA0OUT; + output [255:0] DBGDATA1OUT; + output [15:0] DRPDO; + output DRPRDY; + output [255:0] MAXISCQTDATA; + output [7:0] MAXISCQTKEEP; + output MAXISCQTLAST; + output [87:0] MAXISCQTUSER; + output MAXISCQTVALID; + output [255:0] MAXISRCTDATA; + output [7:0] MAXISRCTKEEP; + output MAXISRCTLAST; + output [74:0] MAXISRCTUSER; + output MAXISRCTVALID; + output [8:0] MIREPLAYRAMADDRESS0; + output [8:0] MIREPLAYRAMADDRESS1; + output MIREPLAYRAMREADENABLE0; + output MIREPLAYRAMREADENABLE1; + output [127:0] MIREPLAYRAMWRITEDATA0; + output [127:0] MIREPLAYRAMWRITEDATA1; + output MIREPLAYRAMWRITEENABLE0; + output MIREPLAYRAMWRITEENABLE1; + output [8:0] MIRXCOMPLETIONRAMREADADDRESS0; + output [8:0] MIRXCOMPLETIONRAMREADADDRESS1; + output [1:0] MIRXCOMPLETIONRAMREADENABLE0; + output [1:0] MIRXCOMPLETIONRAMREADENABLE1; + output [8:0] MIRXCOMPLETIONRAMWRITEADDRESS0; + output [8:0] MIRXCOMPLETIONRAMWRITEADDRESS1; + output [143:0] MIRXCOMPLETIONRAMWRITEDATA0; + output [143:0] MIRXCOMPLETIONRAMWRITEDATA1; + output [1:0] MIRXCOMPLETIONRAMWRITEENABLE0; + output [1:0] MIRXCOMPLETIONRAMWRITEENABLE1; + output [8:0] MIRXPOSTEDREQUESTRAMREADADDRESS0; + output [8:0] MIRXPOSTEDREQUESTRAMREADADDRESS1; + output MIRXPOSTEDREQUESTRAMREADENABLE0; + output MIRXPOSTEDREQUESTRAMREADENABLE1; + output [8:0] MIRXPOSTEDREQUESTRAMWRITEADDRESS0; + output [8:0] MIRXPOSTEDREQUESTRAMWRITEADDRESS1; + output [143:0] MIRXPOSTEDREQUESTRAMWRITEDATA0; + output [143:0] MIRXPOSTEDREQUESTRAMWRITEDATA1; + output MIRXPOSTEDREQUESTRAMWRITEENABLE0; + output MIRXPOSTEDREQUESTRAMWRITEENABLE1; + output [5:0] PCIECQNPREQCOUNT; + output PCIEPERST0B; + output PCIEPERST1B; + output [5:0] PCIERQSEQNUM0; + output [5:0] PCIERQSEQNUM1; + output PCIERQSEQNUMVLD0; + output PCIERQSEQNUMVLD1; + output [7:0] PCIERQTAG0; + output [7:0] PCIERQTAG1; + output [3:0] PCIERQTAGAV; + output PCIERQTAGVLD0; + output PCIERQTAGVLD1; + output [3:0] PCIETFCNPDAV; + output [3:0] PCIETFCNPHAV; + output [1:0] PIPERX00EQCONTROL; + output PIPERX00POLARITY; + output [1:0] PIPERX01EQCONTROL; + output PIPERX01POLARITY; + output [1:0] PIPERX02EQCONTROL; + output PIPERX02POLARITY; + output [1:0] PIPERX03EQCONTROL; + output PIPERX03POLARITY; + output [1:0] PIPERX04EQCONTROL; + output PIPERX04POLARITY; + output [1:0] PIPERX05EQCONTROL; + output PIPERX05POLARITY; + output [1:0] PIPERX06EQCONTROL; + output PIPERX06POLARITY; + output [1:0] PIPERX07EQCONTROL; + output PIPERX07POLARITY; + output [1:0] PIPERX08EQCONTROL; + output PIPERX08POLARITY; + output [1:0] PIPERX09EQCONTROL; + output PIPERX09POLARITY; + output [1:0] PIPERX10EQCONTROL; + output PIPERX10POLARITY; + output [1:0] PIPERX11EQCONTROL; + output PIPERX11POLARITY; + output [1:0] PIPERX12EQCONTROL; + output PIPERX12POLARITY; + output [1:0] PIPERX13EQCONTROL; + output PIPERX13POLARITY; + output [1:0] PIPERX14EQCONTROL; + output PIPERX14POLARITY; + output [1:0] PIPERX15EQCONTROL; + output PIPERX15POLARITY; + output [5:0] PIPERXEQLPLFFS; + output [3:0] PIPERXEQLPTXPRESET; + output [1:0] PIPETX00CHARISK; + output PIPETX00COMPLIANCE; + output [31:0] PIPETX00DATA; + output PIPETX00DATAVALID; + output PIPETX00ELECIDLE; + output [1:0] PIPETX00EQCONTROL; + output [5:0] PIPETX00EQDEEMPH; + output [1:0] PIPETX00POWERDOWN; + output PIPETX00STARTBLOCK; + output [1:0] PIPETX00SYNCHEADER; + output [1:0] PIPETX01CHARISK; + output PIPETX01COMPLIANCE; + output [31:0] PIPETX01DATA; + output PIPETX01DATAVALID; + output PIPETX01ELECIDLE; + output [1:0] PIPETX01EQCONTROL; + output [5:0] PIPETX01EQDEEMPH; + output [1:0] PIPETX01POWERDOWN; + output PIPETX01STARTBLOCK; + output [1:0] PIPETX01SYNCHEADER; + output [1:0] PIPETX02CHARISK; + output PIPETX02COMPLIANCE; + output [31:0] PIPETX02DATA; + output PIPETX02DATAVALID; + output PIPETX02ELECIDLE; + output [1:0] PIPETX02EQCONTROL; + output [5:0] PIPETX02EQDEEMPH; + output [1:0] PIPETX02POWERDOWN; + output PIPETX02STARTBLOCK; + output [1:0] PIPETX02SYNCHEADER; + output [1:0] PIPETX03CHARISK; + output PIPETX03COMPLIANCE; + output [31:0] PIPETX03DATA; + output PIPETX03DATAVALID; + output PIPETX03ELECIDLE; + output [1:0] PIPETX03EQCONTROL; + output [5:0] PIPETX03EQDEEMPH; + output [1:0] PIPETX03POWERDOWN; + output PIPETX03STARTBLOCK; + output [1:0] PIPETX03SYNCHEADER; + output [1:0] PIPETX04CHARISK; + output PIPETX04COMPLIANCE; + output [31:0] PIPETX04DATA; + output PIPETX04DATAVALID; + output PIPETX04ELECIDLE; + output [1:0] PIPETX04EQCONTROL; + output [5:0] PIPETX04EQDEEMPH; + output [1:0] PIPETX04POWERDOWN; + output PIPETX04STARTBLOCK; + output [1:0] PIPETX04SYNCHEADER; + output [1:0] PIPETX05CHARISK; + output PIPETX05COMPLIANCE; + output [31:0] PIPETX05DATA; + output PIPETX05DATAVALID; + output PIPETX05ELECIDLE; + output [1:0] PIPETX05EQCONTROL; + output [5:0] PIPETX05EQDEEMPH; + output [1:0] PIPETX05POWERDOWN; + output PIPETX05STARTBLOCK; + output [1:0] PIPETX05SYNCHEADER; + output [1:0] PIPETX06CHARISK; + output PIPETX06COMPLIANCE; + output [31:0] PIPETX06DATA; + output PIPETX06DATAVALID; + output PIPETX06ELECIDLE; + output [1:0] PIPETX06EQCONTROL; + output [5:0] PIPETX06EQDEEMPH; + output [1:0] PIPETX06POWERDOWN; + output PIPETX06STARTBLOCK; + output [1:0] PIPETX06SYNCHEADER; + output [1:0] PIPETX07CHARISK; + output PIPETX07COMPLIANCE; + output [31:0] PIPETX07DATA; + output PIPETX07DATAVALID; + output PIPETX07ELECIDLE; + output [1:0] PIPETX07EQCONTROL; + output [5:0] PIPETX07EQDEEMPH; + output [1:0] PIPETX07POWERDOWN; + output PIPETX07STARTBLOCK; + output [1:0] PIPETX07SYNCHEADER; + output [1:0] PIPETX08CHARISK; + output PIPETX08COMPLIANCE; + output [31:0] PIPETX08DATA; + output PIPETX08DATAVALID; + output PIPETX08ELECIDLE; + output [1:0] PIPETX08EQCONTROL; + output [5:0] PIPETX08EQDEEMPH; + output [1:0] PIPETX08POWERDOWN; + output PIPETX08STARTBLOCK; + output [1:0] PIPETX08SYNCHEADER; + output [1:0] PIPETX09CHARISK; + output PIPETX09COMPLIANCE; + output [31:0] PIPETX09DATA; + output PIPETX09DATAVALID; + output PIPETX09ELECIDLE; + output [1:0] PIPETX09EQCONTROL; + output [5:0] PIPETX09EQDEEMPH; + output [1:0] PIPETX09POWERDOWN; + output PIPETX09STARTBLOCK; + output [1:0] PIPETX09SYNCHEADER; + output [1:0] PIPETX10CHARISK; + output PIPETX10COMPLIANCE; + output [31:0] PIPETX10DATA; + output PIPETX10DATAVALID; + output PIPETX10ELECIDLE; + output [1:0] PIPETX10EQCONTROL; + output [5:0] PIPETX10EQDEEMPH; + output [1:0] PIPETX10POWERDOWN; + output PIPETX10STARTBLOCK; + output [1:0] PIPETX10SYNCHEADER; + output [1:0] PIPETX11CHARISK; + output PIPETX11COMPLIANCE; + output [31:0] PIPETX11DATA; + output PIPETX11DATAVALID; + output PIPETX11ELECIDLE; + output [1:0] PIPETX11EQCONTROL; + output [5:0] PIPETX11EQDEEMPH; + output [1:0] PIPETX11POWERDOWN; + output PIPETX11STARTBLOCK; + output [1:0] PIPETX11SYNCHEADER; + output [1:0] PIPETX12CHARISK; + output PIPETX12COMPLIANCE; + output [31:0] PIPETX12DATA; + output PIPETX12DATAVALID; + output PIPETX12ELECIDLE; + output [1:0] PIPETX12EQCONTROL; + output [5:0] PIPETX12EQDEEMPH; + output [1:0] PIPETX12POWERDOWN; + output PIPETX12STARTBLOCK; + output [1:0] PIPETX12SYNCHEADER; + output [1:0] PIPETX13CHARISK; + output PIPETX13COMPLIANCE; + output [31:0] PIPETX13DATA; + output PIPETX13DATAVALID; + output PIPETX13ELECIDLE; + output [1:0] PIPETX13EQCONTROL; + output [5:0] PIPETX13EQDEEMPH; + output [1:0] PIPETX13POWERDOWN; + output PIPETX13STARTBLOCK; + output [1:0] PIPETX13SYNCHEADER; + output [1:0] PIPETX14CHARISK; + output PIPETX14COMPLIANCE; + output [31:0] PIPETX14DATA; + output PIPETX14DATAVALID; + output PIPETX14ELECIDLE; + output [1:0] PIPETX14EQCONTROL; + output [5:0] PIPETX14EQDEEMPH; + output [1:0] PIPETX14POWERDOWN; + output PIPETX14STARTBLOCK; + output [1:0] PIPETX14SYNCHEADER; + output [1:0] PIPETX15CHARISK; + output PIPETX15COMPLIANCE; + output [31:0] PIPETX15DATA; + output PIPETX15DATAVALID; + output PIPETX15ELECIDLE; + output [1:0] PIPETX15EQCONTROL; + output [5:0] PIPETX15EQDEEMPH; + output [1:0] PIPETX15POWERDOWN; + output PIPETX15STARTBLOCK; + output [1:0] PIPETX15SYNCHEADER; + output PIPETXDEEMPH; + output [2:0] PIPETXMARGIN; + output [1:0] PIPETXRATE; + output PIPETXRCVRDET; + output PIPETXRESET; + output PIPETXSWING; + output PLEQINPROGRESS; + output [1:0] PLEQPHASE; + output PLGEN34EQMISMATCH; + output [3:0] SAXISCCTREADY; + output [3:0] SAXISRQTREADY; + output [31:0] USERSPAREOUT; + input [7:0] AXIUSERIN; + input CFGCONFIGSPACEENABLE; + input [15:0] CFGDEVIDPF0; + input [15:0] CFGDEVIDPF1; + input [15:0] CFGDEVIDPF2; + input [15:0] CFGDEVIDPF3; + input [7:0] CFGDSBUSNUMBER; + input [4:0] CFGDSDEVICENUMBER; + input [2:0] CFGDSFUNCTIONNUMBER; + input [63:0] CFGDSN; + input [7:0] CFGDSPORTNUMBER; + input CFGERRCORIN; + input CFGERRUNCORIN; + input [31:0] CFGEXTREADDATA; + input CFGEXTREADDATAVALID; + input [2:0] CFGFCSEL; + input [3:0] CFGFLRDONE; + input CFGHOTRESETIN; + input [3:0] CFGINTERRUPTINT; + input [2:0] CFGINTERRUPTMSIATTR; + input [7:0] CFGINTERRUPTMSIFUNCTIONNUMBER; + input [31:0] CFGINTERRUPTMSIINT; + input [31:0] CFGINTERRUPTMSIPENDINGSTATUS; + input CFGINTERRUPTMSIPENDINGSTATUSDATAENABLE; + input [1:0] CFGINTERRUPTMSIPENDINGSTATUSFUNCTIONNUM; + input [1:0] CFGINTERRUPTMSISELECT; + input CFGINTERRUPTMSITPHPRESENT; + input [7:0] CFGINTERRUPTMSITPHSTTAG; + input [1:0] CFGINTERRUPTMSITPHTYPE; + input [63:0] CFGINTERRUPTMSIXADDRESS; + input [31:0] CFGINTERRUPTMSIXDATA; + input CFGINTERRUPTMSIXINT; + input [1:0] CFGINTERRUPTMSIXVECPENDING; + input [3:0] CFGINTERRUPTPENDING; + input CFGLINKTRAININGENABLE; + input [9:0] CFGMGMTADDR; + input [3:0] CFGMGMTBYTEENABLE; + input CFGMGMTDEBUGACCESS; + input [7:0] CFGMGMTFUNCTIONNUMBER; + input CFGMGMTREAD; + input CFGMGMTWRITE; + input [31:0] CFGMGMTWRITEDATA; + input CFGMSGTRANSMIT; + input [31:0] CFGMSGTRANSMITDATA; + input [2:0] CFGMSGTRANSMITTYPE; + input [35:0] CFGMSIXRAMREADDATA; + input CFGPMASPML1ENTRYREJECT; + input CFGPMASPMTXL0SENTRYDISABLE; + input CFGPOWERSTATECHANGEACK; + input CFGREQPMTRANSITIONL23READY; + input [7:0] CFGREVIDPF0; + input [7:0] CFGREVIDPF1; + input [7:0] CFGREVIDPF2; + input [7:0] CFGREVIDPF3; + input [15:0] CFGSUBSYSIDPF0; + input [15:0] CFGSUBSYSIDPF1; + input [15:0] CFGSUBSYSIDPF2; + input [15:0] CFGSUBSYSIDPF3; + input [15:0] CFGSUBSYSVENDID; + input [35:0] CFGTPHRAMREADDATA; + input [15:0] CFGVENDID; + input CFGVFFLRDONE; + input [7:0] CFGVFFLRFUNCNUM; + input CONFMCAPREQUESTBYCONF; + input [31:0] CONFREQDATA; + input [3:0] CONFREQREGNUM; + input [1:0] CONFREQTYPE; + input CONFREQVALID; + input CORECLK; + input CORECLKMIREPLAYRAM0; + input CORECLKMIREPLAYRAM1; + input CORECLKMIRXCOMPLETIONRAM0; + input CORECLKMIRXCOMPLETIONRAM1; + input CORECLKMIRXPOSTEDREQUESTRAM0; + input CORECLKMIRXPOSTEDREQUESTRAM1; + input [5:0] DBGSEL0; + input [5:0] DBGSEL1; + input [9:0] DRPADDR; + input DRPCLK; + input [15:0] DRPDI; + input DRPEN; + input DRPWE; + input [21:0] MAXISCQTREADY; + input [21:0] MAXISRCTREADY; + input MCAPCLK; + input MCAPPERST0B; + input MCAPPERST1B; + input MGMTRESETN; + input MGMTSTICKYRESETN; + input [5:0] MIREPLAYRAMERRCOR; + input [5:0] MIREPLAYRAMERRUNCOR; + input [127:0] MIREPLAYRAMREADDATA0; + input [127:0] MIREPLAYRAMREADDATA1; + input [11:0] MIRXCOMPLETIONRAMERRCOR; + input [11:0] MIRXCOMPLETIONRAMERRUNCOR; + input [143:0] MIRXCOMPLETIONRAMREADDATA0; + input [143:0] MIRXCOMPLETIONRAMREADDATA1; + input [5:0] MIRXPOSTEDREQUESTRAMERRCOR; + input [5:0] MIRXPOSTEDREQUESTRAMERRUNCOR; + input [143:0] MIRXPOSTEDREQUESTRAMREADDATA0; + input [143:0] MIRXPOSTEDREQUESTRAMREADDATA1; + input [1:0] PCIECOMPLDELIVERED; + input [7:0] PCIECOMPLDELIVEREDTAG0; + input [7:0] PCIECOMPLDELIVEREDTAG1; + input [1:0] PCIECQNPREQ; + input PCIECQNPUSERCREDITRCVD; + input PCIECQPIPELINEEMPTY; + input PCIEPOSTEDREQDELIVERED; + input PIPECLK; + input PIPECLKEN; + input [5:0] PIPEEQFS; + input [5:0] PIPEEQLF; + input PIPERESETN; + input [1:0] PIPERX00CHARISK; + input [31:0] PIPERX00DATA; + input PIPERX00DATAVALID; + input PIPERX00ELECIDLE; + input PIPERX00EQDONE; + input PIPERX00EQLPADAPTDONE; + input PIPERX00EQLPLFFSSEL; + input [17:0] PIPERX00EQLPNEWTXCOEFFORPRESET; + input PIPERX00PHYSTATUS; + input [1:0] PIPERX00STARTBLOCK; + input [2:0] PIPERX00STATUS; + input [1:0] PIPERX00SYNCHEADER; + input PIPERX00VALID; + input [1:0] PIPERX01CHARISK; + input [31:0] PIPERX01DATA; + input PIPERX01DATAVALID; + input PIPERX01ELECIDLE; + input PIPERX01EQDONE; + input PIPERX01EQLPADAPTDONE; + input PIPERX01EQLPLFFSSEL; + input [17:0] PIPERX01EQLPNEWTXCOEFFORPRESET; + input PIPERX01PHYSTATUS; + input [1:0] PIPERX01STARTBLOCK; + input [2:0] PIPERX01STATUS; + input [1:0] PIPERX01SYNCHEADER; + input PIPERX01VALID; + input [1:0] PIPERX02CHARISK; + input [31:0] PIPERX02DATA; + input PIPERX02DATAVALID; + input PIPERX02ELECIDLE; + input PIPERX02EQDONE; + input PIPERX02EQLPADAPTDONE; + input PIPERX02EQLPLFFSSEL; + input [17:0] PIPERX02EQLPNEWTXCOEFFORPRESET; + input PIPERX02PHYSTATUS; + input [1:0] PIPERX02STARTBLOCK; + input [2:0] PIPERX02STATUS; + input [1:0] PIPERX02SYNCHEADER; + input PIPERX02VALID; + input [1:0] PIPERX03CHARISK; + input [31:0] PIPERX03DATA; + input PIPERX03DATAVALID; + input PIPERX03ELECIDLE; + input PIPERX03EQDONE; + input PIPERX03EQLPADAPTDONE; + input PIPERX03EQLPLFFSSEL; + input [17:0] PIPERX03EQLPNEWTXCOEFFORPRESET; + input PIPERX03PHYSTATUS; + input [1:0] PIPERX03STARTBLOCK; + input [2:0] PIPERX03STATUS; + input [1:0] PIPERX03SYNCHEADER; + input PIPERX03VALID; + input [1:0] PIPERX04CHARISK; + input [31:0] PIPERX04DATA; + input PIPERX04DATAVALID; + input PIPERX04ELECIDLE; + input PIPERX04EQDONE; + input PIPERX04EQLPADAPTDONE; + input PIPERX04EQLPLFFSSEL; + input [17:0] PIPERX04EQLPNEWTXCOEFFORPRESET; + input PIPERX04PHYSTATUS; + input [1:0] PIPERX04STARTBLOCK; + input [2:0] PIPERX04STATUS; + input [1:0] PIPERX04SYNCHEADER; + input PIPERX04VALID; + input [1:0] PIPERX05CHARISK; + input [31:0] PIPERX05DATA; + input PIPERX05DATAVALID; + input PIPERX05ELECIDLE; + input PIPERX05EQDONE; + input PIPERX05EQLPADAPTDONE; + input PIPERX05EQLPLFFSSEL; + input [17:0] PIPERX05EQLPNEWTXCOEFFORPRESET; + input PIPERX05PHYSTATUS; + input [1:0] PIPERX05STARTBLOCK; + input [2:0] PIPERX05STATUS; + input [1:0] PIPERX05SYNCHEADER; + input PIPERX05VALID; + input [1:0] PIPERX06CHARISK; + input [31:0] PIPERX06DATA; + input PIPERX06DATAVALID; + input PIPERX06ELECIDLE; + input PIPERX06EQDONE; + input PIPERX06EQLPADAPTDONE; + input PIPERX06EQLPLFFSSEL; + input [17:0] PIPERX06EQLPNEWTXCOEFFORPRESET; + input PIPERX06PHYSTATUS; + input [1:0] PIPERX06STARTBLOCK; + input [2:0] PIPERX06STATUS; + input [1:0] PIPERX06SYNCHEADER; + input PIPERX06VALID; + input [1:0] PIPERX07CHARISK; + input [31:0] PIPERX07DATA; + input PIPERX07DATAVALID; + input PIPERX07ELECIDLE; + input PIPERX07EQDONE; + input PIPERX07EQLPADAPTDONE; + input PIPERX07EQLPLFFSSEL; + input [17:0] PIPERX07EQLPNEWTXCOEFFORPRESET; + input PIPERX07PHYSTATUS; + input [1:0] PIPERX07STARTBLOCK; + input [2:0] PIPERX07STATUS; + input [1:0] PIPERX07SYNCHEADER; + input PIPERX07VALID; + input [1:0] PIPERX08CHARISK; + input [31:0] PIPERX08DATA; + input PIPERX08DATAVALID; + input PIPERX08ELECIDLE; + input PIPERX08EQDONE; + input PIPERX08EQLPADAPTDONE; + input PIPERX08EQLPLFFSSEL; + input [17:0] PIPERX08EQLPNEWTXCOEFFORPRESET; + input PIPERX08PHYSTATUS; + input [1:0] PIPERX08STARTBLOCK; + input [2:0] PIPERX08STATUS; + input [1:0] PIPERX08SYNCHEADER; + input PIPERX08VALID; + input [1:0] PIPERX09CHARISK; + input [31:0] PIPERX09DATA; + input PIPERX09DATAVALID; + input PIPERX09ELECIDLE; + input PIPERX09EQDONE; + input PIPERX09EQLPADAPTDONE; + input PIPERX09EQLPLFFSSEL; + input [17:0] PIPERX09EQLPNEWTXCOEFFORPRESET; + input PIPERX09PHYSTATUS; + input [1:0] PIPERX09STARTBLOCK; + input [2:0] PIPERX09STATUS; + input [1:0] PIPERX09SYNCHEADER; + input PIPERX09VALID; + input [1:0] PIPERX10CHARISK; + input [31:0] PIPERX10DATA; + input PIPERX10DATAVALID; + input PIPERX10ELECIDLE; + input PIPERX10EQDONE; + input PIPERX10EQLPADAPTDONE; + input PIPERX10EQLPLFFSSEL; + input [17:0] PIPERX10EQLPNEWTXCOEFFORPRESET; + input PIPERX10PHYSTATUS; + input [1:0] PIPERX10STARTBLOCK; + input [2:0] PIPERX10STATUS; + input [1:0] PIPERX10SYNCHEADER; + input PIPERX10VALID; + input [1:0] PIPERX11CHARISK; + input [31:0] PIPERX11DATA; + input PIPERX11DATAVALID; + input PIPERX11ELECIDLE; + input PIPERX11EQDONE; + input PIPERX11EQLPADAPTDONE; + input PIPERX11EQLPLFFSSEL; + input [17:0] PIPERX11EQLPNEWTXCOEFFORPRESET; + input PIPERX11PHYSTATUS; + input [1:0] PIPERX11STARTBLOCK; + input [2:0] PIPERX11STATUS; + input [1:0] PIPERX11SYNCHEADER; + input PIPERX11VALID; + input [1:0] PIPERX12CHARISK; + input [31:0] PIPERX12DATA; + input PIPERX12DATAVALID; + input PIPERX12ELECIDLE; + input PIPERX12EQDONE; + input PIPERX12EQLPADAPTDONE; + input PIPERX12EQLPLFFSSEL; + input [17:0] PIPERX12EQLPNEWTXCOEFFORPRESET; + input PIPERX12PHYSTATUS; + input [1:0] PIPERX12STARTBLOCK; + input [2:0] PIPERX12STATUS; + input [1:0] PIPERX12SYNCHEADER; + input PIPERX12VALID; + input [1:0] PIPERX13CHARISK; + input [31:0] PIPERX13DATA; + input PIPERX13DATAVALID; + input PIPERX13ELECIDLE; + input PIPERX13EQDONE; + input PIPERX13EQLPADAPTDONE; + input PIPERX13EQLPLFFSSEL; + input [17:0] PIPERX13EQLPNEWTXCOEFFORPRESET; + input PIPERX13PHYSTATUS; + input [1:0] PIPERX13STARTBLOCK; + input [2:0] PIPERX13STATUS; + input [1:0] PIPERX13SYNCHEADER; + input PIPERX13VALID; + input [1:0] PIPERX14CHARISK; + input [31:0] PIPERX14DATA; + input PIPERX14DATAVALID; + input PIPERX14ELECIDLE; + input PIPERX14EQDONE; + input PIPERX14EQLPADAPTDONE; + input PIPERX14EQLPLFFSSEL; + input [17:0] PIPERX14EQLPNEWTXCOEFFORPRESET; + input PIPERX14PHYSTATUS; + input [1:0] PIPERX14STARTBLOCK; + input [2:0] PIPERX14STATUS; + input [1:0] PIPERX14SYNCHEADER; + input PIPERX14VALID; + input [1:0] PIPERX15CHARISK; + input [31:0] PIPERX15DATA; + input PIPERX15DATAVALID; + input PIPERX15ELECIDLE; + input PIPERX15EQDONE; + input PIPERX15EQLPADAPTDONE; + input PIPERX15EQLPLFFSSEL; + input [17:0] PIPERX15EQLPNEWTXCOEFFORPRESET; + input PIPERX15PHYSTATUS; + input [1:0] PIPERX15STARTBLOCK; + input [2:0] PIPERX15STATUS; + input [1:0] PIPERX15SYNCHEADER; + input PIPERX15VALID; + input [17:0] PIPETX00EQCOEFF; + input PIPETX00EQDONE; + input [17:0] PIPETX01EQCOEFF; + input PIPETX01EQDONE; + input [17:0] PIPETX02EQCOEFF; + input PIPETX02EQDONE; + input [17:0] PIPETX03EQCOEFF; + input PIPETX03EQDONE; + input [17:0] PIPETX04EQCOEFF; + input PIPETX04EQDONE; + input [17:0] PIPETX05EQCOEFF; + input PIPETX05EQDONE; + input [17:0] PIPETX06EQCOEFF; + input PIPETX06EQDONE; + input [17:0] PIPETX07EQCOEFF; + input PIPETX07EQDONE; + input [17:0] PIPETX08EQCOEFF; + input PIPETX08EQDONE; + input [17:0] PIPETX09EQCOEFF; + input PIPETX09EQDONE; + input [17:0] PIPETX10EQCOEFF; + input PIPETX10EQDONE; + input [17:0] PIPETX11EQCOEFF; + input PIPETX11EQDONE; + input [17:0] PIPETX12EQCOEFF; + input PIPETX12EQDONE; + input [17:0] PIPETX13EQCOEFF; + input PIPETX13EQDONE; + input [17:0] PIPETX14EQCOEFF; + input PIPETX14EQDONE; + input [17:0] PIPETX15EQCOEFF; + input PIPETX15EQDONE; + input PLEQRESETEIEOSCOUNT; + input PLGEN2UPSTREAMPREFERDEEMPH; + input PLGEN34REDOEQSPEED; + input PLGEN34REDOEQUALIZATION; + input RESETN; + input [255:0] SAXISCCTDATA; + input [7:0] SAXISCCTKEEP; + input SAXISCCTLAST; + input [32:0] SAXISCCTUSER; + input SAXISCCTVALID; + input [255:0] SAXISRQTDATA; + input [7:0] SAXISRQTKEEP; + input SAXISRQTLAST; + input [61:0] SAXISRQTUSER; + input SAXISRQTVALID; + input USERCLK; + input USERCLK2; + input USERCLKEN; + input [31:0] USERSPAREIN; +endmodule + +module PCIE_3_1 (...); + parameter ARI_CAP_ENABLE = "FALSE"; + parameter AXISTEN_IF_CC_ALIGNMENT_MODE = "FALSE"; + parameter AXISTEN_IF_CC_PARITY_CHK = "TRUE"; + parameter AXISTEN_IF_CQ_ALIGNMENT_MODE = "FALSE"; + parameter AXISTEN_IF_ENABLE_CLIENT_TAG = "FALSE"; + parameter [17:0] AXISTEN_IF_ENABLE_MSG_ROUTE = 18'h00000; + parameter AXISTEN_IF_ENABLE_RX_MSG_INTFC = "FALSE"; + parameter AXISTEN_IF_RC_ALIGNMENT_MODE = "FALSE"; + parameter AXISTEN_IF_RC_STRADDLE = "FALSE"; + parameter AXISTEN_IF_RQ_ALIGNMENT_MODE = "FALSE"; + parameter AXISTEN_IF_RQ_PARITY_CHK = "TRUE"; + parameter [1:0] AXISTEN_IF_WIDTH = 2'h2; + parameter CRM_CORE_CLK_FREQ_500 = "TRUE"; + parameter [1:0] CRM_USER_CLK_FREQ = 2'h2; + parameter DEBUG_CFG_LOCAL_MGMT_REG_ACCESS_OVERRIDE = "FALSE"; + parameter DEBUG_PL_DISABLE_EI_INFER_IN_L0 = "FALSE"; + parameter DEBUG_TL_DISABLE_RX_TLP_ORDER_CHECKS = "FALSE"; + parameter [7:0] DNSTREAM_LINK_NUM = 8'h00; + parameter [8:0] LL_ACK_TIMEOUT = 9'h000; + parameter LL_ACK_TIMEOUT_EN = "FALSE"; + parameter integer LL_ACK_TIMEOUT_FUNC = 0; + parameter [15:0] LL_CPL_FC_UPDATE_TIMER = 16'h0000; + parameter LL_CPL_FC_UPDATE_TIMER_OVERRIDE = "FALSE"; + parameter [15:0] LL_FC_UPDATE_TIMER = 16'h0000; + parameter LL_FC_UPDATE_TIMER_OVERRIDE = "FALSE"; + parameter [15:0] LL_NP_FC_UPDATE_TIMER = 16'h0000; + parameter LL_NP_FC_UPDATE_TIMER_OVERRIDE = "FALSE"; + parameter [15:0] LL_P_FC_UPDATE_TIMER = 16'h0000; + parameter LL_P_FC_UPDATE_TIMER_OVERRIDE = "FALSE"; + parameter [8:0] LL_REPLAY_TIMEOUT = 9'h000; + parameter LL_REPLAY_TIMEOUT_EN = "FALSE"; + parameter integer LL_REPLAY_TIMEOUT_FUNC = 0; + parameter [9:0] LTR_TX_MESSAGE_MINIMUM_INTERVAL = 10'h0FA; + parameter LTR_TX_MESSAGE_ON_FUNC_POWER_STATE_CHANGE = "FALSE"; + parameter LTR_TX_MESSAGE_ON_LTR_ENABLE = "FALSE"; + parameter [11:0] MCAP_CAP_NEXTPTR = 12'h000; + parameter MCAP_CONFIGURE_OVERRIDE = "FALSE"; + parameter MCAP_ENABLE = "FALSE"; + parameter MCAP_EOS_DESIGN_SWITCH = "FALSE"; + parameter [31:0] MCAP_FPGA_BITSTREAM_VERSION = 32'h00000000; + parameter MCAP_GATE_IO_ENABLE_DESIGN_SWITCH = "FALSE"; + parameter MCAP_GATE_MEM_ENABLE_DESIGN_SWITCH = "FALSE"; + parameter MCAP_INPUT_GATE_DESIGN_SWITCH = "FALSE"; + parameter MCAP_INTERRUPT_ON_MCAP_EOS = "FALSE"; + parameter MCAP_INTERRUPT_ON_MCAP_ERROR = "FALSE"; + parameter [15:0] MCAP_VSEC_ID = 16'h0000; + parameter [11:0] MCAP_VSEC_LEN = 12'h02C; + parameter [3:0] MCAP_VSEC_REV = 4'h0; + parameter PF0_AER_CAP_ECRC_CHECK_CAPABLE = "FALSE"; + parameter PF0_AER_CAP_ECRC_GEN_CAPABLE = "FALSE"; + parameter [11:0] PF0_AER_CAP_NEXTPTR = 12'h000; + parameter [11:0] PF0_ARI_CAP_NEXTPTR = 12'h000; + parameter [7:0] PF0_ARI_CAP_NEXT_FUNC = 8'h00; + parameter [3:0] PF0_ARI_CAP_VER = 4'h1; + parameter [5:0] PF0_BAR0_APERTURE_SIZE = 6'h03; + parameter [2:0] PF0_BAR0_CONTROL = 3'h4; + parameter [5:0] PF0_BAR1_APERTURE_SIZE = 6'h00; + parameter [2:0] PF0_BAR1_CONTROL = 3'h0; + parameter [4:0] PF0_BAR2_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_BAR2_CONTROL = 3'h4; + parameter [4:0] PF0_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_BAR3_CONTROL = 3'h0; + parameter [4:0] PF0_BAR4_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_BAR4_CONTROL = 3'h4; + parameter [4:0] PF0_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_BAR5_CONTROL = 3'h0; + parameter [7:0] PF0_BIST_REGISTER = 8'h00; + parameter [7:0] PF0_CAPABILITY_POINTER = 8'h50; + parameter [23:0] PF0_CLASS_CODE = 24'h000000; + parameter [15:0] PF0_DEVICE_ID = 16'h0000; + parameter PF0_DEV_CAP2_128B_CAS_ATOMIC_COMPLETER_SUPPORT = "TRUE"; + parameter PF0_DEV_CAP2_32B_ATOMIC_COMPLETER_SUPPORT = "TRUE"; + parameter PF0_DEV_CAP2_64B_ATOMIC_COMPLETER_SUPPORT = "TRUE"; + parameter PF0_DEV_CAP2_ARI_FORWARD_ENABLE = "FALSE"; + parameter PF0_DEV_CAP2_CPL_TIMEOUT_DISABLE = "TRUE"; + parameter PF0_DEV_CAP2_LTR_SUPPORT = "TRUE"; + parameter [1:0] PF0_DEV_CAP2_OBFF_SUPPORT = 2'h0; + parameter PF0_DEV_CAP2_TPH_COMPLETER_SUPPORT = "FALSE"; + parameter integer PF0_DEV_CAP_ENDPOINT_L0S_LATENCY = 0; + parameter integer PF0_DEV_CAP_ENDPOINT_L1_LATENCY = 0; + parameter PF0_DEV_CAP_EXT_TAG_SUPPORTED = "TRUE"; + parameter PF0_DEV_CAP_FUNCTION_LEVEL_RESET_CAPABLE = "TRUE"; + parameter [2:0] PF0_DEV_CAP_MAX_PAYLOAD_SIZE = 3'h3; + parameter [11:0] PF0_DPA_CAP_NEXTPTR = 12'h000; + parameter [4:0] PF0_DPA_CAP_SUB_STATE_CONTROL = 5'h00; + parameter PF0_DPA_CAP_SUB_STATE_CONTROL_EN = "TRUE"; + parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION0 = 8'h00; + parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION1 = 8'h00; + parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION2 = 8'h00; + parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION3 = 8'h00; + parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION4 = 8'h00; + parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION5 = 8'h00; + parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION6 = 8'h00; + parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION7 = 8'h00; + parameter [3:0] PF0_DPA_CAP_VER = 4'h1; + parameter [11:0] PF0_DSN_CAP_NEXTPTR = 12'h10C; + parameter [4:0] PF0_EXPANSION_ROM_APERTURE_SIZE = 5'h03; + parameter PF0_EXPANSION_ROM_ENABLE = "FALSE"; + parameter [7:0] PF0_INTERRUPT_LINE = 8'h00; + parameter [2:0] PF0_INTERRUPT_PIN = 3'h1; + parameter integer PF0_LINK_CAP_ASPM_SUPPORT = 0; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN1 = 7; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN2 = 7; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN3 = 7; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_GEN1 = 7; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_GEN2 = 7; + parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_GEN3 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN1 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN2 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN3 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_GEN1 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_GEN2 = 7; + parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_GEN3 = 7; + parameter PF0_LINK_STATUS_SLOT_CLOCK_CONFIG = "TRUE"; + parameter [9:0] PF0_LTR_CAP_MAX_NOSNOOP_LAT = 10'h000; + parameter [9:0] PF0_LTR_CAP_MAX_SNOOP_LAT = 10'h000; + parameter [11:0] PF0_LTR_CAP_NEXTPTR = 12'h000; + parameter [3:0] PF0_LTR_CAP_VER = 4'h1; + parameter [7:0] PF0_MSIX_CAP_NEXTPTR = 8'h00; + parameter integer PF0_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] PF0_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer PF0_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] PF0_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] PF0_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer PF0_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] PF0_MSI_CAP_NEXTPTR = 8'h00; + parameter PF0_MSI_CAP_PERVECMASKCAP = "FALSE"; + parameter [31:0] PF0_PB_CAP_DATA_REG_D0 = 32'h00000000; + parameter [31:0] PF0_PB_CAP_DATA_REG_D0_SUSTAINED = 32'h00000000; + parameter [31:0] PF0_PB_CAP_DATA_REG_D1 = 32'h00000000; + parameter [31:0] PF0_PB_CAP_DATA_REG_D3HOT = 32'h00000000; + parameter [11:0] PF0_PB_CAP_NEXTPTR = 12'h000; + parameter PF0_PB_CAP_SYSTEM_ALLOCATED = "FALSE"; + parameter [3:0] PF0_PB_CAP_VER = 4'h1; + parameter [7:0] PF0_PM_CAP_ID = 8'h01; + parameter [7:0] PF0_PM_CAP_NEXTPTR = 8'h00; + parameter PF0_PM_CAP_PMESUPPORT_D0 = "TRUE"; + parameter PF0_PM_CAP_PMESUPPORT_D1 = "TRUE"; + parameter PF0_PM_CAP_PMESUPPORT_D3HOT = "TRUE"; + parameter PF0_PM_CAP_SUPP_D1_STATE = "TRUE"; + parameter [2:0] PF0_PM_CAP_VER_ID = 3'h3; + parameter PF0_PM_CSR_NOSOFTRESET = "TRUE"; + parameter PF0_RBAR_CAP_ENABLE = "FALSE"; + parameter [11:0] PF0_RBAR_CAP_NEXTPTR = 12'h000; + parameter [19:0] PF0_RBAR_CAP_SIZE0 = 20'h00000; + parameter [19:0] PF0_RBAR_CAP_SIZE1 = 20'h00000; + parameter [19:0] PF0_RBAR_CAP_SIZE2 = 20'h00000; + parameter [3:0] PF0_RBAR_CAP_VER = 4'h1; + parameter [2:0] PF0_RBAR_CONTROL_INDEX0 = 3'h0; + parameter [2:0] PF0_RBAR_CONTROL_INDEX1 = 3'h0; + parameter [2:0] PF0_RBAR_CONTROL_INDEX2 = 3'h0; + parameter [4:0] PF0_RBAR_CONTROL_SIZE0 = 5'h00; + parameter [4:0] PF0_RBAR_CONTROL_SIZE1 = 5'h00; + parameter [4:0] PF0_RBAR_CONTROL_SIZE2 = 5'h00; + parameter [2:0] PF0_RBAR_NUM = 3'h1; + parameter [7:0] PF0_REVISION_ID = 8'h00; + parameter [11:0] PF0_SECONDARY_PCIE_CAP_NEXTPTR = 12'h000; + parameter [4:0] PF0_SRIOV_BAR0_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_SRIOV_BAR0_CONTROL = 3'h4; + parameter [4:0] PF0_SRIOV_BAR1_APERTURE_SIZE = 5'h00; + parameter [2:0] PF0_SRIOV_BAR1_CONTROL = 3'h0; + parameter [4:0] PF0_SRIOV_BAR2_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_SRIOV_BAR2_CONTROL = 3'h4; + parameter [4:0] PF0_SRIOV_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_SRIOV_BAR3_CONTROL = 3'h0; + parameter [4:0] PF0_SRIOV_BAR4_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_SRIOV_BAR4_CONTROL = 3'h4; + parameter [4:0] PF0_SRIOV_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF0_SRIOV_BAR5_CONTROL = 3'h0; + parameter [15:0] PF0_SRIOV_CAP_INITIAL_VF = 16'h0000; + parameter [11:0] PF0_SRIOV_CAP_NEXTPTR = 12'h000; + parameter [15:0] PF0_SRIOV_CAP_TOTAL_VF = 16'h0000; + parameter [3:0] PF0_SRIOV_CAP_VER = 4'h1; + parameter [15:0] PF0_SRIOV_FIRST_VF_OFFSET = 16'h0000; + parameter [15:0] PF0_SRIOV_FUNC_DEP_LINK = 16'h0000; + parameter [31:0] PF0_SRIOV_SUPPORTED_PAGE_SIZE = 32'h00000000; + parameter [15:0] PF0_SRIOV_VF_DEVICE_ID = 16'h0000; + parameter [15:0] PF0_SUBSYSTEM_ID = 16'h0000; + parameter PF0_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter PF0_TPHR_CAP_ENABLE = "FALSE"; + parameter PF0_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] PF0_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] PF0_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] PF0_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] PF0_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] PF0_TPHR_CAP_VER = 4'h1; + parameter PF0_VC_CAP_ENABLE = "FALSE"; + parameter [11:0] PF0_VC_CAP_NEXTPTR = 12'h000; + parameter [3:0] PF0_VC_CAP_VER = 4'h1; + parameter PF1_AER_CAP_ECRC_CHECK_CAPABLE = "FALSE"; + parameter PF1_AER_CAP_ECRC_GEN_CAPABLE = "FALSE"; + parameter [11:0] PF1_AER_CAP_NEXTPTR = 12'h000; + parameter [11:0] PF1_ARI_CAP_NEXTPTR = 12'h000; + parameter [7:0] PF1_ARI_CAP_NEXT_FUNC = 8'h00; + parameter [5:0] PF1_BAR0_APERTURE_SIZE = 6'h03; + parameter [2:0] PF1_BAR0_CONTROL = 3'h4; + parameter [5:0] PF1_BAR1_APERTURE_SIZE = 6'h00; + parameter [2:0] PF1_BAR1_CONTROL = 3'h0; + parameter [4:0] PF1_BAR2_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_BAR2_CONTROL = 3'h4; + parameter [4:0] PF1_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_BAR3_CONTROL = 3'h0; + parameter [4:0] PF1_BAR4_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_BAR4_CONTROL = 3'h4; + parameter [4:0] PF1_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_BAR5_CONTROL = 3'h0; + parameter [7:0] PF1_BIST_REGISTER = 8'h00; + parameter [7:0] PF1_CAPABILITY_POINTER = 8'h50; + parameter [23:0] PF1_CLASS_CODE = 24'h000000; + parameter [15:0] PF1_DEVICE_ID = 16'h0000; + parameter [2:0] PF1_DEV_CAP_MAX_PAYLOAD_SIZE = 3'h3; + parameter [11:0] PF1_DPA_CAP_NEXTPTR = 12'h000; + parameter [4:0] PF1_DPA_CAP_SUB_STATE_CONTROL = 5'h00; + parameter PF1_DPA_CAP_SUB_STATE_CONTROL_EN = "TRUE"; + parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION0 = 8'h00; + parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION1 = 8'h00; + parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION2 = 8'h00; + parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION3 = 8'h00; + parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION4 = 8'h00; + parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION5 = 8'h00; + parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION6 = 8'h00; + parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION7 = 8'h00; + parameter [3:0] PF1_DPA_CAP_VER = 4'h1; + parameter [11:0] PF1_DSN_CAP_NEXTPTR = 12'h10C; + parameter [4:0] PF1_EXPANSION_ROM_APERTURE_SIZE = 5'h03; + parameter PF1_EXPANSION_ROM_ENABLE = "FALSE"; + parameter [7:0] PF1_INTERRUPT_LINE = 8'h00; + parameter [2:0] PF1_INTERRUPT_PIN = 3'h1; + parameter [7:0] PF1_MSIX_CAP_NEXTPTR = 8'h00; + parameter integer PF1_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] PF1_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer PF1_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] PF1_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] PF1_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer PF1_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] PF1_MSI_CAP_NEXTPTR = 8'h00; + parameter PF1_MSI_CAP_PERVECMASKCAP = "FALSE"; + parameter [31:0] PF1_PB_CAP_DATA_REG_D0 = 32'h00000000; + parameter [31:0] PF1_PB_CAP_DATA_REG_D0_SUSTAINED = 32'h00000000; + parameter [31:0] PF1_PB_CAP_DATA_REG_D1 = 32'h00000000; + parameter [31:0] PF1_PB_CAP_DATA_REG_D3HOT = 32'h00000000; + parameter [11:0] PF1_PB_CAP_NEXTPTR = 12'h000; + parameter PF1_PB_CAP_SYSTEM_ALLOCATED = "FALSE"; + parameter [3:0] PF1_PB_CAP_VER = 4'h1; + parameter [7:0] PF1_PM_CAP_ID = 8'h01; + parameter [7:0] PF1_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] PF1_PM_CAP_VER_ID = 3'h3; + parameter PF1_RBAR_CAP_ENABLE = "FALSE"; + parameter [11:0] PF1_RBAR_CAP_NEXTPTR = 12'h000; + parameter [19:0] PF1_RBAR_CAP_SIZE0 = 20'h00000; + parameter [19:0] PF1_RBAR_CAP_SIZE1 = 20'h00000; + parameter [19:0] PF1_RBAR_CAP_SIZE2 = 20'h00000; + parameter [3:0] PF1_RBAR_CAP_VER = 4'h1; + parameter [2:0] PF1_RBAR_CONTROL_INDEX0 = 3'h0; + parameter [2:0] PF1_RBAR_CONTROL_INDEX1 = 3'h0; + parameter [2:0] PF1_RBAR_CONTROL_INDEX2 = 3'h0; + parameter [4:0] PF1_RBAR_CONTROL_SIZE0 = 5'h00; + parameter [4:0] PF1_RBAR_CONTROL_SIZE1 = 5'h00; + parameter [4:0] PF1_RBAR_CONTROL_SIZE2 = 5'h00; + parameter [2:0] PF1_RBAR_NUM = 3'h1; + parameter [7:0] PF1_REVISION_ID = 8'h00; + parameter [4:0] PF1_SRIOV_BAR0_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_SRIOV_BAR0_CONTROL = 3'h4; + parameter [4:0] PF1_SRIOV_BAR1_APERTURE_SIZE = 5'h00; + parameter [2:0] PF1_SRIOV_BAR1_CONTROL = 3'h0; + parameter [4:0] PF1_SRIOV_BAR2_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_SRIOV_BAR2_CONTROL = 3'h4; + parameter [4:0] PF1_SRIOV_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_SRIOV_BAR3_CONTROL = 3'h0; + parameter [4:0] PF1_SRIOV_BAR4_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_SRIOV_BAR4_CONTROL = 3'h4; + parameter [4:0] PF1_SRIOV_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF1_SRIOV_BAR5_CONTROL = 3'h0; + parameter [15:0] PF1_SRIOV_CAP_INITIAL_VF = 16'h0000; + parameter [11:0] PF1_SRIOV_CAP_NEXTPTR = 12'h000; + parameter [15:0] PF1_SRIOV_CAP_TOTAL_VF = 16'h0000; + parameter [3:0] PF1_SRIOV_CAP_VER = 4'h1; + parameter [15:0] PF1_SRIOV_FIRST_VF_OFFSET = 16'h0000; + parameter [15:0] PF1_SRIOV_FUNC_DEP_LINK = 16'h0000; + parameter [31:0] PF1_SRIOV_SUPPORTED_PAGE_SIZE = 32'h00000000; + parameter [15:0] PF1_SRIOV_VF_DEVICE_ID = 16'h0000; + parameter [15:0] PF1_SUBSYSTEM_ID = 16'h0000; + parameter PF1_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter PF1_TPHR_CAP_ENABLE = "FALSE"; + parameter PF1_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] PF1_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] PF1_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] PF1_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] PF1_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] PF1_TPHR_CAP_VER = 4'h1; + parameter PF2_AER_CAP_ECRC_CHECK_CAPABLE = "FALSE"; + parameter PF2_AER_CAP_ECRC_GEN_CAPABLE = "FALSE"; + parameter [11:0] PF2_AER_CAP_NEXTPTR = 12'h000; + parameter [11:0] PF2_ARI_CAP_NEXTPTR = 12'h000; + parameter [7:0] PF2_ARI_CAP_NEXT_FUNC = 8'h00; + parameter [5:0] PF2_BAR0_APERTURE_SIZE = 6'h03; + parameter [2:0] PF2_BAR0_CONTROL = 3'h4; + parameter [5:0] PF2_BAR1_APERTURE_SIZE = 6'h00; + parameter [2:0] PF2_BAR1_CONTROL = 3'h0; + parameter [4:0] PF2_BAR2_APERTURE_SIZE = 5'h03; + parameter [2:0] PF2_BAR2_CONTROL = 3'h4; + parameter [4:0] PF2_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF2_BAR3_CONTROL = 3'h0; + parameter [4:0] PF2_BAR4_APERTURE_SIZE = 5'h03; + parameter [2:0] PF2_BAR4_CONTROL = 3'h4; + parameter [4:0] PF2_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF2_BAR5_CONTROL = 3'h0; + parameter [7:0] PF2_BIST_REGISTER = 8'h00; + parameter [7:0] PF2_CAPABILITY_POINTER = 8'h50; + parameter [23:0] PF2_CLASS_CODE = 24'h000000; + parameter [15:0] PF2_DEVICE_ID = 16'h0000; + parameter [2:0] PF2_DEV_CAP_MAX_PAYLOAD_SIZE = 3'h3; + parameter [11:0] PF2_DPA_CAP_NEXTPTR = 12'h000; + parameter [4:0] PF2_DPA_CAP_SUB_STATE_CONTROL = 5'h00; + parameter PF2_DPA_CAP_SUB_STATE_CONTROL_EN = "TRUE"; + parameter [7:0] PF2_DPA_CAP_SUB_STATE_POWER_ALLOCATION0 = 8'h00; + parameter [7:0] PF2_DPA_CAP_SUB_STATE_POWER_ALLOCATION1 = 8'h00; + parameter [7:0] PF2_DPA_CAP_SUB_STATE_POWER_ALLOCATION2 = 8'h00; + parameter [7:0] PF2_DPA_CAP_SUB_STATE_POWER_ALLOCATION3 = 8'h00; + parameter [7:0] PF2_DPA_CAP_SUB_STATE_POWER_ALLOCATION4 = 8'h00; + parameter [7:0] PF2_DPA_CAP_SUB_STATE_POWER_ALLOCATION5 = 8'h00; + parameter [7:0] PF2_DPA_CAP_SUB_STATE_POWER_ALLOCATION6 = 8'h00; + parameter [7:0] PF2_DPA_CAP_SUB_STATE_POWER_ALLOCATION7 = 8'h00; + parameter [3:0] PF2_DPA_CAP_VER = 4'h1; + parameter [11:0] PF2_DSN_CAP_NEXTPTR = 12'h10C; + parameter [4:0] PF2_EXPANSION_ROM_APERTURE_SIZE = 5'h03; + parameter PF2_EXPANSION_ROM_ENABLE = "FALSE"; + parameter [7:0] PF2_INTERRUPT_LINE = 8'h00; + parameter [2:0] PF2_INTERRUPT_PIN = 3'h1; + parameter [7:0] PF2_MSIX_CAP_NEXTPTR = 8'h00; + parameter integer PF2_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] PF2_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer PF2_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] PF2_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] PF2_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer PF2_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] PF2_MSI_CAP_NEXTPTR = 8'h00; + parameter PF2_MSI_CAP_PERVECMASKCAP = "FALSE"; + parameter [31:0] PF2_PB_CAP_DATA_REG_D0 = 32'h00000000; + parameter [31:0] PF2_PB_CAP_DATA_REG_D0_SUSTAINED = 32'h00000000; + parameter [31:0] PF2_PB_CAP_DATA_REG_D1 = 32'h00000000; + parameter [31:0] PF2_PB_CAP_DATA_REG_D3HOT = 32'h00000000; + parameter [11:0] PF2_PB_CAP_NEXTPTR = 12'h000; + parameter PF2_PB_CAP_SYSTEM_ALLOCATED = "FALSE"; + parameter [3:0] PF2_PB_CAP_VER = 4'h1; + parameter [7:0] PF2_PM_CAP_ID = 8'h01; + parameter [7:0] PF2_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] PF2_PM_CAP_VER_ID = 3'h3; + parameter PF2_RBAR_CAP_ENABLE = "FALSE"; + parameter [11:0] PF2_RBAR_CAP_NEXTPTR = 12'h000; + parameter [19:0] PF2_RBAR_CAP_SIZE0 = 20'h00000; + parameter [19:0] PF2_RBAR_CAP_SIZE1 = 20'h00000; + parameter [19:0] PF2_RBAR_CAP_SIZE2 = 20'h00000; + parameter [3:0] PF2_RBAR_CAP_VER = 4'h1; + parameter [2:0] PF2_RBAR_CONTROL_INDEX0 = 3'h0; + parameter [2:0] PF2_RBAR_CONTROL_INDEX1 = 3'h0; + parameter [2:0] PF2_RBAR_CONTROL_INDEX2 = 3'h0; + parameter [4:0] PF2_RBAR_CONTROL_SIZE0 = 5'h00; + parameter [4:0] PF2_RBAR_CONTROL_SIZE1 = 5'h00; + parameter [4:0] PF2_RBAR_CONTROL_SIZE2 = 5'h00; + parameter [2:0] PF2_RBAR_NUM = 3'h1; + parameter [7:0] PF2_REVISION_ID = 8'h00; + parameter [4:0] PF2_SRIOV_BAR0_APERTURE_SIZE = 5'h03; + parameter [2:0] PF2_SRIOV_BAR0_CONTROL = 3'h4; + parameter [4:0] PF2_SRIOV_BAR1_APERTURE_SIZE = 5'h00; + parameter [2:0] PF2_SRIOV_BAR1_CONTROL = 3'h0; + parameter [4:0] PF2_SRIOV_BAR2_APERTURE_SIZE = 5'h03; + parameter [2:0] PF2_SRIOV_BAR2_CONTROL = 3'h4; + parameter [4:0] PF2_SRIOV_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF2_SRIOV_BAR3_CONTROL = 3'h0; + parameter [4:0] PF2_SRIOV_BAR4_APERTURE_SIZE = 5'h03; + parameter [2:0] PF2_SRIOV_BAR4_CONTROL = 3'h4; + parameter [4:0] PF2_SRIOV_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF2_SRIOV_BAR5_CONTROL = 3'h0; + parameter [15:0] PF2_SRIOV_CAP_INITIAL_VF = 16'h0000; + parameter [11:0] PF2_SRIOV_CAP_NEXTPTR = 12'h000; + parameter [15:0] PF2_SRIOV_CAP_TOTAL_VF = 16'h0000; + parameter [3:0] PF2_SRIOV_CAP_VER = 4'h1; + parameter [15:0] PF2_SRIOV_FIRST_VF_OFFSET = 16'h0000; + parameter [15:0] PF2_SRIOV_FUNC_DEP_LINK = 16'h0000; + parameter [31:0] PF2_SRIOV_SUPPORTED_PAGE_SIZE = 32'h00000000; + parameter [15:0] PF2_SRIOV_VF_DEVICE_ID = 16'h0000; + parameter [15:0] PF2_SUBSYSTEM_ID = 16'h0000; + parameter PF2_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter PF2_TPHR_CAP_ENABLE = "FALSE"; + parameter PF2_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] PF2_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] PF2_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] PF2_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] PF2_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] PF2_TPHR_CAP_VER = 4'h1; + parameter PF3_AER_CAP_ECRC_CHECK_CAPABLE = "FALSE"; + parameter PF3_AER_CAP_ECRC_GEN_CAPABLE = "FALSE"; + parameter [11:0] PF3_AER_CAP_NEXTPTR = 12'h000; + parameter [11:0] PF3_ARI_CAP_NEXTPTR = 12'h000; + parameter [7:0] PF3_ARI_CAP_NEXT_FUNC = 8'h00; + parameter [5:0] PF3_BAR0_APERTURE_SIZE = 6'h03; + parameter [2:0] PF3_BAR0_CONTROL = 3'h4; + parameter [5:0] PF3_BAR1_APERTURE_SIZE = 6'h00; + parameter [2:0] PF3_BAR1_CONTROL = 3'h0; + parameter [4:0] PF3_BAR2_APERTURE_SIZE = 5'h03; + parameter [2:0] PF3_BAR2_CONTROL = 3'h4; + parameter [4:0] PF3_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF3_BAR3_CONTROL = 3'h0; + parameter [4:0] PF3_BAR4_APERTURE_SIZE = 5'h03; + parameter [2:0] PF3_BAR4_CONTROL = 3'h4; + parameter [4:0] PF3_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF3_BAR5_CONTROL = 3'h0; + parameter [7:0] PF3_BIST_REGISTER = 8'h00; + parameter [7:0] PF3_CAPABILITY_POINTER = 8'h50; + parameter [23:0] PF3_CLASS_CODE = 24'h000000; + parameter [15:0] PF3_DEVICE_ID = 16'h0000; + parameter [2:0] PF3_DEV_CAP_MAX_PAYLOAD_SIZE = 3'h3; + parameter [11:0] PF3_DPA_CAP_NEXTPTR = 12'h000; + parameter [4:0] PF3_DPA_CAP_SUB_STATE_CONTROL = 5'h00; + parameter PF3_DPA_CAP_SUB_STATE_CONTROL_EN = "TRUE"; + parameter [7:0] PF3_DPA_CAP_SUB_STATE_POWER_ALLOCATION0 = 8'h00; + parameter [7:0] PF3_DPA_CAP_SUB_STATE_POWER_ALLOCATION1 = 8'h00; + parameter [7:0] PF3_DPA_CAP_SUB_STATE_POWER_ALLOCATION2 = 8'h00; + parameter [7:0] PF3_DPA_CAP_SUB_STATE_POWER_ALLOCATION3 = 8'h00; + parameter [7:0] PF3_DPA_CAP_SUB_STATE_POWER_ALLOCATION4 = 8'h00; + parameter [7:0] PF3_DPA_CAP_SUB_STATE_POWER_ALLOCATION5 = 8'h00; + parameter [7:0] PF3_DPA_CAP_SUB_STATE_POWER_ALLOCATION6 = 8'h00; + parameter [7:0] PF3_DPA_CAP_SUB_STATE_POWER_ALLOCATION7 = 8'h00; + parameter [3:0] PF3_DPA_CAP_VER = 4'h1; + parameter [11:0] PF3_DSN_CAP_NEXTPTR = 12'h10C; + parameter [4:0] PF3_EXPANSION_ROM_APERTURE_SIZE = 5'h03; + parameter PF3_EXPANSION_ROM_ENABLE = "FALSE"; + parameter [7:0] PF3_INTERRUPT_LINE = 8'h00; + parameter [2:0] PF3_INTERRUPT_PIN = 3'h1; + parameter [7:0] PF3_MSIX_CAP_NEXTPTR = 8'h00; + parameter integer PF3_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] PF3_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer PF3_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] PF3_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] PF3_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer PF3_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] PF3_MSI_CAP_NEXTPTR = 8'h00; + parameter PF3_MSI_CAP_PERVECMASKCAP = "FALSE"; + parameter [31:0] PF3_PB_CAP_DATA_REG_D0 = 32'h00000000; + parameter [31:0] PF3_PB_CAP_DATA_REG_D0_SUSTAINED = 32'h00000000; + parameter [31:0] PF3_PB_CAP_DATA_REG_D1 = 32'h00000000; + parameter [31:0] PF3_PB_CAP_DATA_REG_D3HOT = 32'h00000000; + parameter [11:0] PF3_PB_CAP_NEXTPTR = 12'h000; + parameter PF3_PB_CAP_SYSTEM_ALLOCATED = "FALSE"; + parameter [3:0] PF3_PB_CAP_VER = 4'h1; + parameter [7:0] PF3_PM_CAP_ID = 8'h01; + parameter [7:0] PF3_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] PF3_PM_CAP_VER_ID = 3'h3; + parameter PF3_RBAR_CAP_ENABLE = "FALSE"; + parameter [11:0] PF3_RBAR_CAP_NEXTPTR = 12'h000; + parameter [19:0] PF3_RBAR_CAP_SIZE0 = 20'h00000; + parameter [19:0] PF3_RBAR_CAP_SIZE1 = 20'h00000; + parameter [19:0] PF3_RBAR_CAP_SIZE2 = 20'h00000; + parameter [3:0] PF3_RBAR_CAP_VER = 4'h1; + parameter [2:0] PF3_RBAR_CONTROL_INDEX0 = 3'h0; + parameter [2:0] PF3_RBAR_CONTROL_INDEX1 = 3'h0; + parameter [2:0] PF3_RBAR_CONTROL_INDEX2 = 3'h0; + parameter [4:0] PF3_RBAR_CONTROL_SIZE0 = 5'h00; + parameter [4:0] PF3_RBAR_CONTROL_SIZE1 = 5'h00; + parameter [4:0] PF3_RBAR_CONTROL_SIZE2 = 5'h00; + parameter [2:0] PF3_RBAR_NUM = 3'h1; + parameter [7:0] PF3_REVISION_ID = 8'h00; + parameter [4:0] PF3_SRIOV_BAR0_APERTURE_SIZE = 5'h03; + parameter [2:0] PF3_SRIOV_BAR0_CONTROL = 3'h4; + parameter [4:0] PF3_SRIOV_BAR1_APERTURE_SIZE = 5'h00; + parameter [2:0] PF3_SRIOV_BAR1_CONTROL = 3'h0; + parameter [4:0] PF3_SRIOV_BAR2_APERTURE_SIZE = 5'h03; + parameter [2:0] PF3_SRIOV_BAR2_CONTROL = 3'h4; + parameter [4:0] PF3_SRIOV_BAR3_APERTURE_SIZE = 5'h03; + parameter [2:0] PF3_SRIOV_BAR3_CONTROL = 3'h0; + parameter [4:0] PF3_SRIOV_BAR4_APERTURE_SIZE = 5'h03; + parameter [2:0] PF3_SRIOV_BAR4_CONTROL = 3'h4; + parameter [4:0] PF3_SRIOV_BAR5_APERTURE_SIZE = 5'h03; + parameter [2:0] PF3_SRIOV_BAR5_CONTROL = 3'h0; + parameter [15:0] PF3_SRIOV_CAP_INITIAL_VF = 16'h0000; + parameter [11:0] PF3_SRIOV_CAP_NEXTPTR = 12'h000; + parameter [15:0] PF3_SRIOV_CAP_TOTAL_VF = 16'h0000; + parameter [3:0] PF3_SRIOV_CAP_VER = 4'h1; + parameter [15:0] PF3_SRIOV_FIRST_VF_OFFSET = 16'h0000; + parameter [15:0] PF3_SRIOV_FUNC_DEP_LINK = 16'h0000; + parameter [31:0] PF3_SRIOV_SUPPORTED_PAGE_SIZE = 32'h00000000; + parameter [15:0] PF3_SRIOV_VF_DEVICE_ID = 16'h0000; + parameter [15:0] PF3_SUBSYSTEM_ID = 16'h0000; + parameter PF3_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter PF3_TPHR_CAP_ENABLE = "FALSE"; + parameter PF3_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] PF3_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] PF3_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] PF3_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] PF3_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] PF3_TPHR_CAP_VER = 4'h1; + parameter PL_DISABLE_AUTO_EQ_SPEED_CHANGE_TO_GEN3 = "FALSE"; + parameter PL_DISABLE_AUTO_SPEED_CHANGE_TO_GEN2 = "FALSE"; + parameter PL_DISABLE_EI_INFER_IN_L0 = "FALSE"; + parameter PL_DISABLE_GEN3_DC_BALANCE = "FALSE"; + parameter PL_DISABLE_GEN3_LFSR_UPDATE_ON_SKP = "TRUE"; + parameter PL_DISABLE_RETRAIN_ON_FRAMING_ERROR = "FALSE"; + parameter PL_DISABLE_SCRAMBLING = "FALSE"; + parameter PL_DISABLE_SYNC_HEADER_FRAMING_ERROR = "FALSE"; + parameter PL_DISABLE_UPCONFIG_CAPABLE = "FALSE"; + parameter PL_EQ_ADAPT_DISABLE_COEFF_CHECK = "FALSE"; + parameter PL_EQ_ADAPT_DISABLE_PRESET_CHECK = "FALSE"; + parameter [4:0] PL_EQ_ADAPT_ITER_COUNT = 5'h02; + parameter [1:0] PL_EQ_ADAPT_REJECT_RETRY_COUNT = 2'h1; + parameter PL_EQ_BYPASS_PHASE23 = "FALSE"; + parameter [2:0] PL_EQ_DEFAULT_GEN3_RX_PRESET_HINT = 3'h3; + parameter [3:0] PL_EQ_DEFAULT_GEN3_TX_PRESET = 4'h4; + parameter PL_EQ_PHASE01_RX_ADAPT = "FALSE"; + parameter PL_EQ_SHORT_ADAPT_PHASE = "FALSE"; + parameter [15:0] PL_LANE0_EQ_CONTROL = 16'h3F00; + parameter [15:0] PL_LANE1_EQ_CONTROL = 16'h3F00; + parameter [15:0] PL_LANE2_EQ_CONTROL = 16'h3F00; + parameter [15:0] PL_LANE3_EQ_CONTROL = 16'h3F00; + parameter [15:0] PL_LANE4_EQ_CONTROL = 16'h3F00; + parameter [15:0] PL_LANE5_EQ_CONTROL = 16'h3F00; + parameter [15:0] PL_LANE6_EQ_CONTROL = 16'h3F00; + parameter [15:0] PL_LANE7_EQ_CONTROL = 16'h3F00; + parameter [2:0] PL_LINK_CAP_MAX_LINK_SPEED = 3'h4; + parameter [3:0] PL_LINK_CAP_MAX_LINK_WIDTH = 4'h8; + parameter integer PL_N_FTS_COMCLK_GEN1 = 255; + parameter integer PL_N_FTS_COMCLK_GEN2 = 255; + parameter integer PL_N_FTS_COMCLK_GEN3 = 255; + parameter integer PL_N_FTS_GEN1 = 255; + parameter integer PL_N_FTS_GEN2 = 255; + parameter integer PL_N_FTS_GEN3 = 255; + parameter PL_REPORT_ALL_PHY_ERRORS = "TRUE"; + parameter PL_SIM_FAST_LINK_TRAINING = "FALSE"; + parameter PL_UPSTREAM_FACING = "TRUE"; + parameter [15:0] PM_ASPML0S_TIMEOUT = 16'h05DC; + parameter [19:0] PM_ASPML1_ENTRY_DELAY = 20'h00000; + parameter PM_ENABLE_L23_ENTRY = "FALSE"; + parameter PM_ENABLE_SLOT_POWER_CAPTURE = "TRUE"; + parameter [31:0] PM_L1_REENTRY_DELAY = 32'h00000000; + parameter [19:0] PM_PME_SERVICE_TIMEOUT_DELAY = 20'h186A0; + parameter [15:0] PM_PME_TURNOFF_ACK_DELAY = 16'h0064; + parameter [31:0] SIM_JTAG_IDCODE = 32'h00000000; + parameter SIM_VERSION = "1.0"; + parameter integer SPARE_BIT0 = 0; + parameter integer SPARE_BIT1 = 0; + parameter integer SPARE_BIT2 = 0; + parameter integer SPARE_BIT3 = 0; + parameter integer SPARE_BIT4 = 0; + parameter integer SPARE_BIT5 = 0; + parameter integer SPARE_BIT6 = 0; + parameter integer SPARE_BIT7 = 0; + parameter integer SPARE_BIT8 = 0; + parameter [7:0] SPARE_BYTE0 = 8'h00; + parameter [7:0] SPARE_BYTE1 = 8'h00; + parameter [7:0] SPARE_BYTE2 = 8'h00; + parameter [7:0] SPARE_BYTE3 = 8'h00; + parameter [31:0] SPARE_WORD0 = 32'h00000000; + parameter [31:0] SPARE_WORD1 = 32'h00000000; + parameter [31:0] SPARE_WORD2 = 32'h00000000; + parameter [31:0] SPARE_WORD3 = 32'h00000000; + parameter SRIOV_CAP_ENABLE = "FALSE"; + parameter TL_COMPLETION_RAM_SIZE_16K = "TRUE"; + parameter [23:0] TL_COMPL_TIMEOUT_REG0 = 24'hBEBC20; + parameter [27:0] TL_COMPL_TIMEOUT_REG1 = 28'h2FAF080; + parameter [11:0] TL_CREDITS_CD = 12'h3E0; + parameter [7:0] TL_CREDITS_CH = 8'h20; + parameter [11:0] TL_CREDITS_NPD = 12'h028; + parameter [7:0] TL_CREDITS_NPH = 8'h20; + parameter [11:0] TL_CREDITS_PD = 12'h198; + parameter [7:0] TL_CREDITS_PH = 8'h20; + parameter TL_ENABLE_MESSAGE_RID_CHECK_ENABLE = "TRUE"; + parameter TL_EXTENDED_CFG_EXTEND_INTERFACE_ENABLE = "FALSE"; + parameter TL_LEGACY_CFG_EXTEND_INTERFACE_ENABLE = "FALSE"; + parameter TL_LEGACY_MODE_ENABLE = "FALSE"; + parameter [1:0] TL_PF_ENABLE_REG = 2'h0; + parameter TL_TX_MUX_STRICT_PRIORITY = "TRUE"; + parameter TWO_LAYER_MODE_DLCMSM_ENABLE = "TRUE"; + parameter TWO_LAYER_MODE_ENABLE = "FALSE"; + parameter TWO_LAYER_MODE_WIDTH_256 = "TRUE"; + parameter [11:0] VF0_ARI_CAP_NEXTPTR = 12'h000; + parameter [7:0] VF0_CAPABILITY_POINTER = 8'h50; + parameter integer VF0_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VF0_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VF0_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VF0_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VF0_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer VF0_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] VF0_PM_CAP_ID = 8'h01; + parameter [7:0] VF0_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] VF0_PM_CAP_VER_ID = 3'h3; + parameter VF0_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter VF0_TPHR_CAP_ENABLE = "FALSE"; + parameter VF0_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] VF0_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VF0_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] VF0_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] VF0_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] VF0_TPHR_CAP_VER = 4'h1; + parameter [11:0] VF1_ARI_CAP_NEXTPTR = 12'h000; + parameter integer VF1_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VF1_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VF1_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VF1_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VF1_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer VF1_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] VF1_PM_CAP_ID = 8'h01; + parameter [7:0] VF1_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] VF1_PM_CAP_VER_ID = 3'h3; + parameter VF1_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter VF1_TPHR_CAP_ENABLE = "FALSE"; + parameter VF1_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] VF1_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VF1_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] VF1_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] VF1_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] VF1_TPHR_CAP_VER = 4'h1; + parameter [11:0] VF2_ARI_CAP_NEXTPTR = 12'h000; + parameter integer VF2_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VF2_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VF2_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VF2_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VF2_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer VF2_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] VF2_PM_CAP_ID = 8'h01; + parameter [7:0] VF2_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] VF2_PM_CAP_VER_ID = 3'h3; + parameter VF2_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter VF2_TPHR_CAP_ENABLE = "FALSE"; + parameter VF2_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] VF2_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VF2_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] VF2_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] VF2_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] VF2_TPHR_CAP_VER = 4'h1; + parameter [11:0] VF3_ARI_CAP_NEXTPTR = 12'h000; + parameter integer VF3_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VF3_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VF3_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VF3_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VF3_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer VF3_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] VF3_PM_CAP_ID = 8'h01; + parameter [7:0] VF3_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] VF3_PM_CAP_VER_ID = 3'h3; + parameter VF3_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter VF3_TPHR_CAP_ENABLE = "FALSE"; + parameter VF3_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] VF3_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VF3_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] VF3_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] VF3_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] VF3_TPHR_CAP_VER = 4'h1; + parameter [11:0] VF4_ARI_CAP_NEXTPTR = 12'h000; + parameter integer VF4_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VF4_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VF4_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VF4_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VF4_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer VF4_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] VF4_PM_CAP_ID = 8'h01; + parameter [7:0] VF4_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] VF4_PM_CAP_VER_ID = 3'h3; + parameter VF4_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter VF4_TPHR_CAP_ENABLE = "FALSE"; + parameter VF4_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] VF4_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VF4_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] VF4_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] VF4_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] VF4_TPHR_CAP_VER = 4'h1; + parameter [11:0] VF5_ARI_CAP_NEXTPTR = 12'h000; + parameter integer VF5_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VF5_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VF5_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VF5_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VF5_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer VF5_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] VF5_PM_CAP_ID = 8'h01; + parameter [7:0] VF5_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] VF5_PM_CAP_VER_ID = 3'h3; + parameter VF5_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter VF5_TPHR_CAP_ENABLE = "FALSE"; + parameter VF5_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] VF5_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VF5_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] VF5_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] VF5_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] VF5_TPHR_CAP_VER = 4'h1; + parameter [11:0] VF6_ARI_CAP_NEXTPTR = 12'h000; + parameter integer VF6_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VF6_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VF6_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VF6_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VF6_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer VF6_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] VF6_PM_CAP_ID = 8'h01; + parameter [7:0] VF6_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] VF6_PM_CAP_VER_ID = 3'h3; + parameter VF6_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter VF6_TPHR_CAP_ENABLE = "FALSE"; + parameter VF6_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] VF6_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VF6_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] VF6_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] VF6_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] VF6_TPHR_CAP_VER = 4'h1; + parameter [11:0] VF7_ARI_CAP_NEXTPTR = 12'h000; + parameter integer VF7_MSIX_CAP_PBA_BIR = 0; + parameter [28:0] VF7_MSIX_CAP_PBA_OFFSET = 29'h00000050; + parameter integer VF7_MSIX_CAP_TABLE_BIR = 0; + parameter [28:0] VF7_MSIX_CAP_TABLE_OFFSET = 29'h00000040; + parameter [10:0] VF7_MSIX_CAP_TABLE_SIZE = 11'h000; + parameter integer VF7_MSI_CAP_MULTIMSGCAP = 0; + parameter [7:0] VF7_PM_CAP_ID = 8'h01; + parameter [7:0] VF7_PM_CAP_NEXTPTR = 8'h00; + parameter [2:0] VF7_PM_CAP_VER_ID = 3'h3; + parameter VF7_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE"; + parameter VF7_TPHR_CAP_ENABLE = "FALSE"; + parameter VF7_TPHR_CAP_INT_VEC_MODE = "TRUE"; + parameter [11:0] VF7_TPHR_CAP_NEXTPTR = 12'h000; + parameter [2:0] VF7_TPHR_CAP_ST_MODE_SEL = 3'h0; + parameter [1:0] VF7_TPHR_CAP_ST_TABLE_LOC = 2'h0; + parameter [10:0] VF7_TPHR_CAP_ST_TABLE_SIZE = 11'h000; + parameter [3:0] VF7_TPHR_CAP_VER = 4'h1; + output [2:0] CFGCURRENTSPEED; + output [3:0] CFGDPASUBSTATECHANGE; + output CFGERRCOROUT; + output CFGERRFATALOUT; + output CFGERRNONFATALOUT; + output [7:0] CFGEXTFUNCTIONNUMBER; + output CFGEXTREADRECEIVED; + output [9:0] CFGEXTREGISTERNUMBER; + output [3:0] CFGEXTWRITEBYTEENABLE; + output [31:0] CFGEXTWRITEDATA; + output CFGEXTWRITERECEIVED; + output [11:0] CFGFCCPLD; + output [7:0] CFGFCCPLH; + output [11:0] CFGFCNPD; + output [7:0] CFGFCNPH; + output [11:0] CFGFCPD; + output [7:0] CFGFCPH; + output [3:0] CFGFLRINPROCESS; + output [11:0] CFGFUNCTIONPOWERSTATE; + output [15:0] CFGFUNCTIONSTATUS; + output CFGHOTRESETOUT; + output [31:0] CFGINTERRUPTMSIDATA; + output [3:0] CFGINTERRUPTMSIENABLE; + output CFGINTERRUPTMSIFAIL; + output CFGINTERRUPTMSIMASKUPDATE; + output [11:0] CFGINTERRUPTMSIMMENABLE; + output CFGINTERRUPTMSISENT; + output [7:0] CFGINTERRUPTMSIVFENABLE; + output [3:0] CFGINTERRUPTMSIXENABLE; + output CFGINTERRUPTMSIXFAIL; + output [3:0] CFGINTERRUPTMSIXMASK; + output CFGINTERRUPTMSIXSENT; + output [7:0] CFGINTERRUPTMSIXVFENABLE; + output [7:0] CFGINTERRUPTMSIXVFMASK; + output CFGINTERRUPTSENT; + output [1:0] CFGLINKPOWERSTATE; + output CFGLOCALERROR; + output CFGLTRENABLE; + output [5:0] CFGLTSSMSTATE; + output [2:0] CFGMAXPAYLOAD; + output [2:0] CFGMAXREADREQ; + output [31:0] CFGMGMTREADDATA; + output CFGMGMTREADWRITEDONE; + output CFGMSGRECEIVED; + output [7:0] CFGMSGRECEIVEDDATA; + output [4:0] CFGMSGRECEIVEDTYPE; + output CFGMSGTRANSMITDONE; + output [3:0] CFGNEGOTIATEDWIDTH; + output [1:0] CFGOBFFENABLE; + output [15:0] CFGPERFUNCSTATUSDATA; + output CFGPERFUNCTIONUPDATEDONE; + output CFGPHYLINKDOWN; + output [1:0] CFGPHYLINKSTATUS; + output CFGPLSTATUSCHANGE; + output CFGPOWERSTATECHANGEINTERRUPT; + output [3:0] CFGRCBSTATUS; + output [3:0] CFGTPHFUNCTIONNUM; + output [3:0] CFGTPHREQUESTERENABLE; + output [11:0] CFGTPHSTMODE; + output [4:0] CFGTPHSTTADDRESS; + output CFGTPHSTTREADENABLE; + output [3:0] CFGTPHSTTWRITEBYTEVALID; + output [31:0] CFGTPHSTTWRITEDATA; + output CFGTPHSTTWRITEENABLE; + output [7:0] CFGVFFLRINPROCESS; + output [23:0] CFGVFPOWERSTATE; + output [15:0] CFGVFSTATUS; + output [7:0] CFGVFTPHREQUESTERENABLE; + output [23:0] CFGVFTPHSTMODE; + output CONFMCAPDESIGNSWITCH; + output CONFMCAPEOS; + output CONFMCAPINUSEBYPCIE; + output CONFREQREADY; + output [31:0] CONFRESPRDATA; + output CONFRESPVALID; + output [15:0] DBGDATAOUT; + output DBGMCAPCSB; + output [31:0] DBGMCAPDATA; + output DBGMCAPEOS; + output DBGMCAPERROR; + output DBGMCAPMODE; + output DBGMCAPRDATAVALID; + output DBGMCAPRDWRB; + output DBGMCAPRESET; + output DBGPLDATABLOCKRECEIVEDAFTEREDS; + output DBGPLGEN3FRAMINGERRORDETECTED; + output DBGPLGEN3SYNCHEADERERRORDETECTED; + output [7:0] DBGPLINFERREDRXELECTRICALIDLE; + output [15:0] DRPDO; + output DRPRDY; + output LL2LMMASTERTLPSENT0; + output LL2LMMASTERTLPSENT1; + output [3:0] LL2LMMASTERTLPSENTTLPID0; + output [3:0] LL2LMMASTERTLPSENTTLPID1; + output [255:0] LL2LMMAXISRXTDATA; + output [17:0] LL2LMMAXISRXTUSER; + output [7:0] LL2LMMAXISRXTVALID; + output [7:0] LL2LMSAXISTXTREADY; + output [255:0] MAXISCQTDATA; + output [7:0] MAXISCQTKEEP; + output MAXISCQTLAST; + output [84:0] MAXISCQTUSER; + output MAXISCQTVALID; + output [255:0] MAXISRCTDATA; + output [7:0] MAXISRCTKEEP; + output MAXISRCTLAST; + output [74:0] MAXISRCTUSER; + output MAXISRCTVALID; + output [9:0] MICOMPLETIONRAMREADADDRESSAL; + output [9:0] MICOMPLETIONRAMREADADDRESSAU; + output [9:0] MICOMPLETIONRAMREADADDRESSBL; + output [9:0] MICOMPLETIONRAMREADADDRESSBU; + output [3:0] MICOMPLETIONRAMREADENABLEL; + output [3:0] MICOMPLETIONRAMREADENABLEU; + output [9:0] MICOMPLETIONRAMWRITEADDRESSAL; + output [9:0] MICOMPLETIONRAMWRITEADDRESSAU; + output [9:0] MICOMPLETIONRAMWRITEADDRESSBL; + output [9:0] MICOMPLETIONRAMWRITEADDRESSBU; + output [71:0] MICOMPLETIONRAMWRITEDATAL; + output [71:0] MICOMPLETIONRAMWRITEDATAU; + output [3:0] MICOMPLETIONRAMWRITEENABLEL; + output [3:0] MICOMPLETIONRAMWRITEENABLEU; + output [8:0] MIREPLAYRAMADDRESS; + output [1:0] MIREPLAYRAMREADENABLE; + output [143:0] MIREPLAYRAMWRITEDATA; + output [1:0] MIREPLAYRAMWRITEENABLE; + output [8:0] MIREQUESTRAMREADADDRESSA; + output [8:0] MIREQUESTRAMREADADDRESSB; + output [3:0] MIREQUESTRAMREADENABLE; + output [8:0] MIREQUESTRAMWRITEADDRESSA; + output [8:0] MIREQUESTRAMWRITEADDRESSB; + output [143:0] MIREQUESTRAMWRITEDATA; + output [3:0] MIREQUESTRAMWRITEENABLE; + output [5:0] PCIECQNPREQCOUNT; + output PCIEPERST0B; + output PCIEPERST1B; + output [3:0] PCIERQSEQNUM; + output PCIERQSEQNUMVLD; + output [5:0] PCIERQTAG; + output [1:0] PCIERQTAGAV; + output PCIERQTAGVLD; + output [1:0] PCIETFCNPDAV; + output [1:0] PCIETFCNPHAV; + output [1:0] PIPERX0EQCONTROL; + output [5:0] PIPERX0EQLPLFFS; + output [3:0] PIPERX0EQLPTXPRESET; + output [2:0] PIPERX0EQPRESET; + output PIPERX0POLARITY; + output [1:0] PIPERX1EQCONTROL; + output [5:0] PIPERX1EQLPLFFS; + output [3:0] PIPERX1EQLPTXPRESET; + output [2:0] PIPERX1EQPRESET; + output PIPERX1POLARITY; + output [1:0] PIPERX2EQCONTROL; + output [5:0] PIPERX2EQLPLFFS; + output [3:0] PIPERX2EQLPTXPRESET; + output [2:0] PIPERX2EQPRESET; + output PIPERX2POLARITY; + output [1:0] PIPERX3EQCONTROL; + output [5:0] PIPERX3EQLPLFFS; + output [3:0] PIPERX3EQLPTXPRESET; + output [2:0] PIPERX3EQPRESET; + output PIPERX3POLARITY; + output [1:0] PIPERX4EQCONTROL; + output [5:0] PIPERX4EQLPLFFS; + output [3:0] PIPERX4EQLPTXPRESET; + output [2:0] PIPERX4EQPRESET; + output PIPERX4POLARITY; + output [1:0] PIPERX5EQCONTROL; + output [5:0] PIPERX5EQLPLFFS; + output [3:0] PIPERX5EQLPTXPRESET; + output [2:0] PIPERX5EQPRESET; + output PIPERX5POLARITY; + output [1:0] PIPERX6EQCONTROL; + output [5:0] PIPERX6EQLPLFFS; + output [3:0] PIPERX6EQLPTXPRESET; + output [2:0] PIPERX6EQPRESET; + output PIPERX6POLARITY; + output [1:0] PIPERX7EQCONTROL; + output [5:0] PIPERX7EQLPLFFS; + output [3:0] PIPERX7EQLPTXPRESET; + output [2:0] PIPERX7EQPRESET; + output PIPERX7POLARITY; + output [1:0] PIPETX0CHARISK; + output PIPETX0COMPLIANCE; + output [31:0] PIPETX0DATA; + output PIPETX0DATAVALID; + output PIPETX0DEEMPH; + output PIPETX0ELECIDLE; + output [1:0] PIPETX0EQCONTROL; + output [5:0] PIPETX0EQDEEMPH; + output [3:0] PIPETX0EQPRESET; + output [2:0] PIPETX0MARGIN; + output [1:0] PIPETX0POWERDOWN; + output [1:0] PIPETX0RATE; + output PIPETX0RCVRDET; + output PIPETX0RESET; + output PIPETX0STARTBLOCK; + output PIPETX0SWING; + output [1:0] PIPETX0SYNCHEADER; + output [1:0] PIPETX1CHARISK; + output PIPETX1COMPLIANCE; + output [31:0] PIPETX1DATA; + output PIPETX1DATAVALID; + output PIPETX1DEEMPH; + output PIPETX1ELECIDLE; + output [1:0] PIPETX1EQCONTROL; + output [5:0] PIPETX1EQDEEMPH; + output [3:0] PIPETX1EQPRESET; + output [2:0] PIPETX1MARGIN; + output [1:0] PIPETX1POWERDOWN; + output [1:0] PIPETX1RATE; + output PIPETX1RCVRDET; + output PIPETX1RESET; + output PIPETX1STARTBLOCK; + output PIPETX1SWING; + output [1:0] PIPETX1SYNCHEADER; + output [1:0] PIPETX2CHARISK; + output PIPETX2COMPLIANCE; + output [31:0] PIPETX2DATA; + output PIPETX2DATAVALID; + output PIPETX2DEEMPH; + output PIPETX2ELECIDLE; + output [1:0] PIPETX2EQCONTROL; + output [5:0] PIPETX2EQDEEMPH; + output [3:0] PIPETX2EQPRESET; + output [2:0] PIPETX2MARGIN; + output [1:0] PIPETX2POWERDOWN; + output [1:0] PIPETX2RATE; + output PIPETX2RCVRDET; + output PIPETX2RESET; + output PIPETX2STARTBLOCK; + output PIPETX2SWING; + output [1:0] PIPETX2SYNCHEADER; + output [1:0] PIPETX3CHARISK; + output PIPETX3COMPLIANCE; + output [31:0] PIPETX3DATA; + output PIPETX3DATAVALID; + output PIPETX3DEEMPH; + output PIPETX3ELECIDLE; + output [1:0] PIPETX3EQCONTROL; + output [5:0] PIPETX3EQDEEMPH; + output [3:0] PIPETX3EQPRESET; + output [2:0] PIPETX3MARGIN; + output [1:0] PIPETX3POWERDOWN; + output [1:0] PIPETX3RATE; + output PIPETX3RCVRDET; + output PIPETX3RESET; + output PIPETX3STARTBLOCK; + output PIPETX3SWING; + output [1:0] PIPETX3SYNCHEADER; + output [1:0] PIPETX4CHARISK; + output PIPETX4COMPLIANCE; + output [31:0] PIPETX4DATA; + output PIPETX4DATAVALID; + output PIPETX4DEEMPH; + output PIPETX4ELECIDLE; + output [1:0] PIPETX4EQCONTROL; + output [5:0] PIPETX4EQDEEMPH; + output [3:0] PIPETX4EQPRESET; + output [2:0] PIPETX4MARGIN; + output [1:0] PIPETX4POWERDOWN; + output [1:0] PIPETX4RATE; + output PIPETX4RCVRDET; + output PIPETX4RESET; + output PIPETX4STARTBLOCK; + output PIPETX4SWING; + output [1:0] PIPETX4SYNCHEADER; + output [1:0] PIPETX5CHARISK; + output PIPETX5COMPLIANCE; + output [31:0] PIPETX5DATA; + output PIPETX5DATAVALID; + output PIPETX5DEEMPH; + output PIPETX5ELECIDLE; + output [1:0] PIPETX5EQCONTROL; + output [5:0] PIPETX5EQDEEMPH; + output [3:0] PIPETX5EQPRESET; + output [2:0] PIPETX5MARGIN; + output [1:0] PIPETX5POWERDOWN; + output [1:0] PIPETX5RATE; + output PIPETX5RCVRDET; + output PIPETX5RESET; + output PIPETX5STARTBLOCK; + output PIPETX5SWING; + output [1:0] PIPETX5SYNCHEADER; + output [1:0] PIPETX6CHARISK; + output PIPETX6COMPLIANCE; + output [31:0] PIPETX6DATA; + output PIPETX6DATAVALID; + output PIPETX6DEEMPH; + output PIPETX6ELECIDLE; + output [1:0] PIPETX6EQCONTROL; + output [5:0] PIPETX6EQDEEMPH; + output [3:0] PIPETX6EQPRESET; + output [2:0] PIPETX6MARGIN; + output [1:0] PIPETX6POWERDOWN; + output [1:0] PIPETX6RATE; + output PIPETX6RCVRDET; + output PIPETX6RESET; + output PIPETX6STARTBLOCK; + output PIPETX6SWING; + output [1:0] PIPETX6SYNCHEADER; + output [1:0] PIPETX7CHARISK; + output PIPETX7COMPLIANCE; + output [31:0] PIPETX7DATA; + output PIPETX7DATAVALID; + output PIPETX7DEEMPH; + output PIPETX7ELECIDLE; + output [1:0] PIPETX7EQCONTROL; + output [5:0] PIPETX7EQDEEMPH; + output [3:0] PIPETX7EQPRESET; + output [2:0] PIPETX7MARGIN; + output [1:0] PIPETX7POWERDOWN; + output [1:0] PIPETX7RATE; + output PIPETX7RCVRDET; + output PIPETX7RESET; + output PIPETX7STARTBLOCK; + output PIPETX7SWING; + output [1:0] PIPETX7SYNCHEADER; + output PLEQINPROGRESS; + output [1:0] PLEQPHASE; + output [3:0] SAXISCCTREADY; + output [3:0] SAXISRQTREADY; + output [31:0] SPAREOUT; + input CFGCONFIGSPACEENABLE; + input [15:0] CFGDEVID; + input [7:0] CFGDSBUSNUMBER; + input [4:0] CFGDSDEVICENUMBER; + input [2:0] CFGDSFUNCTIONNUMBER; + input [63:0] CFGDSN; + input [7:0] CFGDSPORTNUMBER; + input CFGERRCORIN; + input CFGERRUNCORIN; + input [31:0] CFGEXTREADDATA; + input CFGEXTREADDATAVALID; + input [2:0] CFGFCSEL; + input [3:0] CFGFLRDONE; + input CFGHOTRESETIN; + input [3:0] CFGINTERRUPTINT; + input [2:0] CFGINTERRUPTMSIATTR; + input [3:0] CFGINTERRUPTMSIFUNCTIONNUMBER; + input [31:0] CFGINTERRUPTMSIINT; + input [31:0] CFGINTERRUPTMSIPENDINGSTATUS; + input CFGINTERRUPTMSIPENDINGSTATUSDATAENABLE; + input [3:0] CFGINTERRUPTMSIPENDINGSTATUSFUNCTIONNUM; + input [3:0] CFGINTERRUPTMSISELECT; + input CFGINTERRUPTMSITPHPRESENT; + input [8:0] CFGINTERRUPTMSITPHSTTAG; + input [1:0] CFGINTERRUPTMSITPHTYPE; + input [63:0] CFGINTERRUPTMSIXADDRESS; + input [31:0] CFGINTERRUPTMSIXDATA; + input CFGINTERRUPTMSIXINT; + input [3:0] CFGINTERRUPTPENDING; + input CFGLINKTRAININGENABLE; + input [18:0] CFGMGMTADDR; + input [3:0] CFGMGMTBYTEENABLE; + input CFGMGMTREAD; + input CFGMGMTTYPE1CFGREGACCESS; + input CFGMGMTWRITE; + input [31:0] CFGMGMTWRITEDATA; + input CFGMSGTRANSMIT; + input [31:0] CFGMSGTRANSMITDATA; + input [2:0] CFGMSGTRANSMITTYPE; + input [2:0] CFGPERFUNCSTATUSCONTROL; + input [3:0] CFGPERFUNCTIONNUMBER; + input CFGPERFUNCTIONOUTPUTREQUEST; + input CFGPOWERSTATECHANGEACK; + input CFGREQPMTRANSITIONL23READY; + input [7:0] CFGREVID; + input [15:0] CFGSUBSYSID; + input [15:0] CFGSUBSYSVENDID; + input [31:0] CFGTPHSTTREADDATA; + input CFGTPHSTTREADDATAVALID; + input [15:0] CFGVENDID; + input [7:0] CFGVFFLRDONE; + input CONFMCAPREQUESTBYCONF; + input [31:0] CONFREQDATA; + input [3:0] CONFREQREGNUM; + input [1:0] CONFREQTYPE; + input CONFREQVALID; + input CORECLK; + input CORECLKMICOMPLETIONRAML; + input CORECLKMICOMPLETIONRAMU; + input CORECLKMIREPLAYRAM; + input CORECLKMIREQUESTRAM; + input DBGCFGLOCALMGMTREGOVERRIDE; + input [3:0] DBGDATASEL; + input [9:0] DRPADDR; + input DRPCLK; + input [15:0] DRPDI; + input DRPEN; + input DRPWE; + input [13:0] LL2LMSAXISTXTUSER; + input LL2LMSAXISTXTVALID; + input [3:0] LL2LMTXTLPID0; + input [3:0] LL2LMTXTLPID1; + input [21:0] MAXISCQTREADY; + input [21:0] MAXISRCTREADY; + input MCAPCLK; + input MCAPPERST0B; + input MCAPPERST1B; + input MGMTRESETN; + input MGMTSTICKYRESETN; + input [143:0] MICOMPLETIONRAMREADDATA; + input [143:0] MIREPLAYRAMREADDATA; + input [143:0] MIREQUESTRAMREADDATA; + input PCIECQNPREQ; + input PIPECLK; + input [5:0] PIPEEQFS; + input [5:0] PIPEEQLF; + input PIPERESETN; + input [1:0] PIPERX0CHARISK; + input [31:0] PIPERX0DATA; + input PIPERX0DATAVALID; + input PIPERX0ELECIDLE; + input PIPERX0EQDONE; + input PIPERX0EQLPADAPTDONE; + input PIPERX0EQLPLFFSSEL; + input [17:0] PIPERX0EQLPNEWTXCOEFFORPRESET; + input PIPERX0PHYSTATUS; + input PIPERX0STARTBLOCK; + input [2:0] PIPERX0STATUS; + input [1:0] PIPERX0SYNCHEADER; + input PIPERX0VALID; + input [1:0] PIPERX1CHARISK; + input [31:0] PIPERX1DATA; + input PIPERX1DATAVALID; + input PIPERX1ELECIDLE; + input PIPERX1EQDONE; + input PIPERX1EQLPADAPTDONE; + input PIPERX1EQLPLFFSSEL; + input [17:0] PIPERX1EQLPNEWTXCOEFFORPRESET; + input PIPERX1PHYSTATUS; + input PIPERX1STARTBLOCK; + input [2:0] PIPERX1STATUS; + input [1:0] PIPERX1SYNCHEADER; + input PIPERX1VALID; + input [1:0] PIPERX2CHARISK; + input [31:0] PIPERX2DATA; + input PIPERX2DATAVALID; + input PIPERX2ELECIDLE; + input PIPERX2EQDONE; + input PIPERX2EQLPADAPTDONE; + input PIPERX2EQLPLFFSSEL; + input [17:0] PIPERX2EQLPNEWTXCOEFFORPRESET; + input PIPERX2PHYSTATUS; + input PIPERX2STARTBLOCK; + input [2:0] PIPERX2STATUS; + input [1:0] PIPERX2SYNCHEADER; + input PIPERX2VALID; + input [1:0] PIPERX3CHARISK; + input [31:0] PIPERX3DATA; + input PIPERX3DATAVALID; + input PIPERX3ELECIDLE; + input PIPERX3EQDONE; + input PIPERX3EQLPADAPTDONE; + input PIPERX3EQLPLFFSSEL; + input [17:0] PIPERX3EQLPNEWTXCOEFFORPRESET; + input PIPERX3PHYSTATUS; + input PIPERX3STARTBLOCK; + input [2:0] PIPERX3STATUS; + input [1:0] PIPERX3SYNCHEADER; + input PIPERX3VALID; + input [1:0] PIPERX4CHARISK; + input [31:0] PIPERX4DATA; + input PIPERX4DATAVALID; + input PIPERX4ELECIDLE; + input PIPERX4EQDONE; + input PIPERX4EQLPADAPTDONE; + input PIPERX4EQLPLFFSSEL; + input [17:0] PIPERX4EQLPNEWTXCOEFFORPRESET; + input PIPERX4PHYSTATUS; + input PIPERX4STARTBLOCK; + input [2:0] PIPERX4STATUS; + input [1:0] PIPERX4SYNCHEADER; + input PIPERX4VALID; + input [1:0] PIPERX5CHARISK; + input [31:0] PIPERX5DATA; + input PIPERX5DATAVALID; + input PIPERX5ELECIDLE; + input PIPERX5EQDONE; + input PIPERX5EQLPADAPTDONE; + input PIPERX5EQLPLFFSSEL; + input [17:0] PIPERX5EQLPNEWTXCOEFFORPRESET; + input PIPERX5PHYSTATUS; + input PIPERX5STARTBLOCK; + input [2:0] PIPERX5STATUS; + input [1:0] PIPERX5SYNCHEADER; + input PIPERX5VALID; + input [1:0] PIPERX6CHARISK; + input [31:0] PIPERX6DATA; + input PIPERX6DATAVALID; + input PIPERX6ELECIDLE; + input PIPERX6EQDONE; + input PIPERX6EQLPADAPTDONE; + input PIPERX6EQLPLFFSSEL; + input [17:0] PIPERX6EQLPNEWTXCOEFFORPRESET; + input PIPERX6PHYSTATUS; + input PIPERX6STARTBLOCK; + input [2:0] PIPERX6STATUS; + input [1:0] PIPERX6SYNCHEADER; + input PIPERX6VALID; + input [1:0] PIPERX7CHARISK; + input [31:0] PIPERX7DATA; + input PIPERX7DATAVALID; + input PIPERX7ELECIDLE; + input PIPERX7EQDONE; + input PIPERX7EQLPADAPTDONE; + input PIPERX7EQLPLFFSSEL; + input [17:0] PIPERX7EQLPNEWTXCOEFFORPRESET; + input PIPERX7PHYSTATUS; + input PIPERX7STARTBLOCK; + input [2:0] PIPERX7STATUS; + input [1:0] PIPERX7SYNCHEADER; + input PIPERX7VALID; + input [17:0] PIPETX0EQCOEFF; + input PIPETX0EQDONE; + input [17:0] PIPETX1EQCOEFF; + input PIPETX1EQDONE; + input [17:0] PIPETX2EQCOEFF; + input PIPETX2EQDONE; + input [17:0] PIPETX3EQCOEFF; + input PIPETX3EQDONE; + input [17:0] PIPETX4EQCOEFF; + input PIPETX4EQDONE; + input [17:0] PIPETX5EQCOEFF; + input PIPETX5EQDONE; + input [17:0] PIPETX6EQCOEFF; + input PIPETX6EQDONE; + input [17:0] PIPETX7EQCOEFF; + input PIPETX7EQDONE; + input PLEQRESETEIEOSCOUNT; + input PLGEN2UPSTREAMPREFERDEEMPH; + input RESETN; + input [255:0] SAXISCCTDATA; + input [7:0] SAXISCCTKEEP; + input SAXISCCTLAST; + input [32:0] SAXISCCTUSER; + input SAXISCCTVALID; + input [255:0] SAXISRQTDATA; + input [7:0] SAXISRQTKEEP; + input SAXISRQTLAST; + input [59:0] SAXISRQTUSER; + input SAXISRQTVALID; + input [31:0] SPAREIN; + input USERCLK; +endmodule + +module SYSMONE1 (...); + parameter [15:0] INIT_40 = 16'h0; + parameter [15:0] INIT_41 = 16'h0; + parameter [15:0] INIT_42 = 16'h0; + parameter [15:0] INIT_43 = 16'h0; + parameter [15:0] INIT_44 = 16'h0; + parameter [15:0] INIT_45 = 16'h0; + parameter [15:0] INIT_46 = 16'h0; + parameter [15:0] INIT_47 = 16'h0; + parameter [15:0] INIT_48 = 16'h0; + parameter [15:0] INIT_49 = 16'h0; + parameter [15:0] INIT_4A = 16'h0; + parameter [15:0] INIT_4B = 16'h0; + parameter [15:0] INIT_4C = 16'h0; + parameter [15:0] INIT_4D = 16'h0; + parameter [15:0] INIT_4E = 16'h0; + parameter [15:0] INIT_4F = 16'h0; + parameter [15:0] INIT_50 = 16'h0; + parameter [15:0] INIT_51 = 16'h0; + parameter [15:0] INIT_52 = 16'h0; + parameter [15:0] INIT_53 = 16'h0; + parameter [15:0] INIT_54 = 16'h0; + parameter [15:0] INIT_55 = 16'h0; + parameter [15:0] INIT_56 = 16'h0; + parameter [15:0] INIT_57 = 16'h0; + parameter [15:0] INIT_58 = 16'h0; + parameter [15:0] INIT_59 = 16'h0; + parameter [15:0] INIT_5A = 16'h0; + parameter [15:0] INIT_5B = 16'h0; + parameter [15:0] INIT_5C = 16'h0; + parameter [15:0] INIT_5D = 16'h0; + parameter [15:0] INIT_5E = 16'h0; + parameter [15:0] INIT_5F = 16'h0; + parameter [15:0] INIT_60 = 16'h0; + parameter [15:0] INIT_61 = 16'h0; + parameter [15:0] INIT_62 = 16'h0; + parameter [15:0] INIT_63 = 16'h0; + parameter [15:0] INIT_64 = 16'h0; + parameter [15:0] INIT_65 = 16'h0; + parameter [15:0] INIT_66 = 16'h0; + parameter [15:0] INIT_67 = 16'h0; + parameter [15:0] INIT_68 = 16'h0; + parameter [15:0] INIT_69 = 16'h0; + parameter [15:0] INIT_6A = 16'h0; + parameter [15:0] INIT_6B = 16'h0; + parameter [15:0] INIT_6C = 16'h0; + parameter [15:0] INIT_6D = 16'h0; + parameter [15:0] INIT_6E = 16'h0; + parameter [15:0] INIT_6F = 16'h0; + parameter [15:0] INIT_70 = 16'h0; + parameter [15:0] INIT_71 = 16'h0; + parameter [15:0] INIT_72 = 16'h0; + parameter [15:0] INIT_73 = 16'h0; + parameter [15:0] INIT_74 = 16'h0; + parameter [15:0] INIT_75 = 16'h0; + parameter [15:0] INIT_76 = 16'h0; + parameter [15:0] INIT_77 = 16'h0; + parameter [15:0] INIT_78 = 16'h0; + parameter [15:0] INIT_79 = 16'h0; + parameter [15:0] INIT_7A = 16'h0; + parameter [15:0] INIT_7B = 16'h0; + parameter [15:0] INIT_7C = 16'h0; + parameter [15:0] INIT_7D = 16'h0; + parameter [15:0] INIT_7E = 16'h0; + parameter [15:0] INIT_7F = 16'h0; + parameter [0:0] IS_CONVSTCLK_INVERTED = 1'b0; + parameter [0:0] IS_DCLK_INVERTED = 1'b0; + parameter SIM_MONITOR_FILE = "design.txt"; + parameter integer SYSMON_VUSER0_BANK = 0; + parameter SYSMON_VUSER0_MONITOR = "NONE"; + parameter integer SYSMON_VUSER1_BANK = 0; + parameter SYSMON_VUSER1_MONITOR = "NONE"; + parameter integer SYSMON_VUSER2_BANK = 0; + parameter SYSMON_VUSER2_MONITOR = "NONE"; + parameter integer SYSMON_VUSER3_BANK = 0; + parameter SYSMON_VUSER3_MONITOR = "NONE"; + output [15:0] ALM; + output BUSY; + output [5:0] CHANNEL; + output [15:0] DO; + output DRDY; + output EOC; + output EOS; + output I2C_SCLK_TS; + output I2C_SDA_TS; + output JTAGBUSY; + output JTAGLOCKED; + output JTAGMODIFIED; + output [4:0] MUXADDR; + output OT; + input CONVST; + (* invertible_pin = "IS_CONVSTCLK_INVERTED" *) + input CONVSTCLK; + input [7:0] DADDR; + (* invertible_pin = "IS_DCLK_INVERTED" *) + input DCLK; + input DEN; + input [15:0] DI; + input DWE; + input I2C_SCLK; + input I2C_SDA; + input RESET; + input [15:0] VAUXN; + input [15:0] VAUXP; + input VN; + input VP; +endmodule + +module SYSMONE4 (...); + parameter [15:0] COMMON_N_SOURCE = 16'hFFFF; + parameter [15:0] INIT_40 = 16'h0000; + parameter [15:0] INIT_41 = 16'h0000; + parameter [15:0] INIT_42 = 16'h0000; + parameter [15:0] INIT_43 = 16'h0000; + parameter [15:0] INIT_44 = 16'h0000; + parameter [15:0] INIT_45 = 16'h0000; + parameter [15:0] INIT_46 = 16'h0000; + parameter [15:0] INIT_47 = 16'h0000; + parameter [15:0] INIT_48 = 16'h0000; + parameter [15:0] INIT_49 = 16'h0000; + parameter [15:0] INIT_4A = 16'h0000; + parameter [15:0] INIT_4B = 16'h0000; + parameter [15:0] INIT_4C = 16'h0000; + parameter [15:0] INIT_4D = 16'h0000; + parameter [15:0] INIT_4E = 16'h0000; + parameter [15:0] INIT_4F = 16'h0000; + parameter [15:0] INIT_50 = 16'h0000; + parameter [15:0] INIT_51 = 16'h0000; + parameter [15:0] INIT_52 = 16'h0000; + parameter [15:0] INIT_53 = 16'h0000; + parameter [15:0] INIT_54 = 16'h0000; + parameter [15:0] INIT_55 = 16'h0000; + parameter [15:0] INIT_56 = 16'h0000; + parameter [15:0] INIT_57 = 16'h0000; + parameter [15:0] INIT_58 = 16'h0000; + parameter [15:0] INIT_59 = 16'h0000; + parameter [15:0] INIT_5A = 16'h0000; + parameter [15:0] INIT_5B = 16'h0000; + parameter [15:0] INIT_5C = 16'h0000; + parameter [15:0] INIT_5D = 16'h0000; + parameter [15:0] INIT_5E = 16'h0000; + parameter [15:0] INIT_5F = 16'h0000; + parameter [15:0] INIT_60 = 16'h0000; + parameter [15:0] INIT_61 = 16'h0000; + parameter [15:0] INIT_62 = 16'h0000; + parameter [15:0] INIT_63 = 16'h0000; + parameter [15:0] INIT_64 = 16'h0000; + parameter [15:0] INIT_65 = 16'h0000; + parameter [15:0] INIT_66 = 16'h0000; + parameter [15:0] INIT_67 = 16'h0000; + parameter [15:0] INIT_68 = 16'h0000; + parameter [15:0] INIT_69 = 16'h0000; + parameter [15:0] INIT_6A = 16'h0000; + parameter [15:0] INIT_6B = 16'h0000; + parameter [15:0] INIT_6C = 16'h0000; + parameter [15:0] INIT_6D = 16'h0000; + parameter [15:0] INIT_6E = 16'h0000; + parameter [15:0] INIT_6F = 16'h0000; + parameter [15:0] INIT_70 = 16'h0000; + parameter [15:0] INIT_71 = 16'h0000; + parameter [15:0] INIT_72 = 16'h0000; + parameter [15:0] INIT_73 = 16'h0000; + parameter [15:0] INIT_74 = 16'h0000; + parameter [15:0] INIT_75 = 16'h0000; + parameter [15:0] INIT_76 = 16'h0000; + parameter [15:0] INIT_77 = 16'h0000; + parameter [15:0] INIT_78 = 16'h0000; + parameter [15:0] INIT_79 = 16'h0000; + parameter [15:0] INIT_7A = 16'h0000; + parameter [15:0] INIT_7B = 16'h0000; + parameter [15:0] INIT_7C = 16'h0000; + parameter [15:0] INIT_7D = 16'h0000; + parameter [15:0] INIT_7E = 16'h0000; + parameter [15:0] INIT_7F = 16'h0000; + parameter [0:0] IS_CONVSTCLK_INVERTED = 1'b0; + parameter [0:0] IS_DCLK_INVERTED = 1'b0; + parameter SIM_DEVICE = "ULTRASCALE_PLUS"; + parameter SIM_MONITOR_FILE = "design.txt"; + parameter integer SYSMON_VUSER0_BANK = 0; + parameter SYSMON_VUSER0_MONITOR = "NONE"; + parameter integer SYSMON_VUSER1_BANK = 0; + parameter SYSMON_VUSER1_MONITOR = "NONE"; + parameter integer SYSMON_VUSER2_BANK = 0; + parameter SYSMON_VUSER2_MONITOR = "NONE"; + parameter integer SYSMON_VUSER3_BANK = 0; + parameter SYSMON_VUSER3_MONITOR = "NONE"; + output [15:0] ADC_DATA; + output [15:0] ALM; + output BUSY; + output [5:0] CHANNEL; + output [15:0] DO; + output DRDY; + output EOC; + output EOS; + output I2C_SCLK_TS; + output I2C_SDA_TS; + output JTAGBUSY; + output JTAGLOCKED; + output JTAGMODIFIED; + output [4:0] MUXADDR; + output OT; + output SMBALERT_TS; + input CONVST; + (* invertible_pin = "IS_CONVSTCLK_INVERTED" *) + input CONVSTCLK; + input [7:0] DADDR; + (* invertible_pin = "IS_DCLK_INVERTED" *) + input DCLK; + input DEN; + input [15:0] DI; + input DWE; + input I2C_SCLK; + input I2C_SDA; + input RESET; + input [15:0] VAUXN; + input [15:0] VAUXP; + input VN; + input VP; +endmodule + +module DSP48E2 (...); + parameter integer ACASCREG = 1; + parameter integer ADREG = 1; + parameter integer ALUMODEREG = 1; + parameter AMULTSEL = "A"; + parameter integer AREG = 1; + parameter AUTORESET_PATDET = "NO_RESET"; + parameter AUTORESET_PRIORITY = "RESET"; + parameter A_INPUT = "DIRECT"; + parameter integer BCASCREG = 1; + parameter BMULTSEL = "B"; + parameter integer BREG = 1; + parameter B_INPUT = "DIRECT"; + parameter integer CARRYINREG = 1; + parameter integer CARRYINSELREG = 1; + parameter integer CREG = 1; + parameter integer DREG = 1; + parameter integer INMODEREG = 1; + parameter [3:0] IS_ALUMODE_INVERTED = 4'b0000; + parameter [0:0] IS_CARRYIN_INVERTED = 1'b0; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + parameter [4:0] IS_INMODE_INVERTED = 5'b00000; + parameter [8:0] IS_OPMODE_INVERTED = 9'b000000000; + parameter [0:0] IS_RSTALLCARRYIN_INVERTED = 1'b0; + parameter [0:0] IS_RSTALUMODE_INVERTED = 1'b0; + parameter [0:0] IS_RSTA_INVERTED = 1'b0; + parameter [0:0] IS_RSTB_INVERTED = 1'b0; + parameter [0:0] IS_RSTCTRL_INVERTED = 1'b0; + parameter [0:0] IS_RSTC_INVERTED = 1'b0; + parameter [0:0] IS_RSTD_INVERTED = 1'b0; + parameter [0:0] IS_RSTINMODE_INVERTED = 1'b0; + parameter [0:0] IS_RSTM_INVERTED = 1'b0; + parameter [0:0] IS_RSTP_INVERTED = 1'b0; + parameter [47:0] MASK = 48'h3FFFFFFFFFFF; + parameter integer MREG = 1; + parameter integer OPMODEREG = 1; + parameter [47:0] PATTERN = 48'h000000000000; + parameter PREADDINSEL = "A"; + parameter integer PREG = 1; + parameter [47:0] RND = 48'h000000000000; + parameter SEL_MASK = "MASK"; + parameter SEL_PATTERN = "PATTERN"; + parameter USE_MULT = "MULTIPLY"; + parameter USE_PATTERN_DETECT = "NO_PATDET"; + parameter USE_SIMD = "ONE48"; + parameter USE_WIDEXOR = "FALSE"; + parameter XORSIMD = "XOR24_48_96"; + output [29:0] ACOUT; + output [17:0] BCOUT; + output CARRYCASCOUT; + output [3:0] CARRYOUT; + output MULTSIGNOUT; + output OVERFLOW; + output [47:0] P; + output PATTERNBDETECT; + output PATTERNDETECT; + output [47:0] PCOUT; + output UNDERFLOW; + output [7:0] XOROUT; + input [29:0] A; + input [29:0] ACIN; + (* invertible_pin = "IS_ALUMODE_INVERTED" *) + input [3:0] ALUMODE; + input [17:0] B; + input [17:0] BCIN; + input [47:0] C; + input CARRYCASCIN; + (* invertible_pin = "IS_CARRYIN_INVERTED" *) + input CARRYIN; + input [2:0] CARRYINSEL; + input CEA1; + input CEA2; + input CEAD; + input CEALUMODE; + input CEB1; + input CEB2; + input CEC; + input CECARRYIN; + input CECTRL; + input CED; + input CEINMODE; + input CEM; + input CEP; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK; + input [26:0] D; + (* invertible_pin = "IS_INMODE_INVERTED" *) + input [4:0] INMODE; + input MULTSIGNIN; + (* invertible_pin = "IS_OPMODE_INVERTED" *) + input [8:0] OPMODE; + input [47:0] PCIN; + (* invertible_pin = "IS_RSTA_INVERTED" *) + input RSTA; + (* invertible_pin = "IS_RSTALLCARRYIN_INVERTED" *) + input RSTALLCARRYIN; + (* invertible_pin = "IS_RSTALUMODE_INVERTED" *) + input RSTALUMODE; + (* invertible_pin = "IS_RSTB_INVERTED" *) + input RSTB; + (* invertible_pin = "IS_RSTC_INVERTED" *) + input RSTC; + (* invertible_pin = "IS_RSTCTRL_INVERTED" *) + input RSTCTRL; + (* invertible_pin = "IS_RSTD_INVERTED" *) + input RSTD; + (* invertible_pin = "IS_RSTINMODE_INVERTED" *) + input RSTINMODE; + (* invertible_pin = "IS_RSTM_INVERTED" *) + input RSTM; + (* invertible_pin = "IS_RSTP_INVERTED" *) + input RSTP; +endmodule + +module FIFO18E2 (...); + parameter CASCADE_ORDER = "NONE"; + parameter CLOCK_DOMAINS = "INDEPENDENT"; + parameter FIRST_WORD_FALL_THROUGH = "FALSE"; + parameter [35:0] INIT = 36'h000000000; + parameter [0:0] IS_RDCLK_INVERTED = 1'b0; + parameter [0:0] IS_RDEN_INVERTED = 1'b0; + parameter [0:0] IS_RSTREG_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter [0:0] IS_WRCLK_INVERTED = 1'b0; + parameter [0:0] IS_WREN_INVERTED = 1'b0; + parameter integer PROG_EMPTY_THRESH = 256; + parameter integer PROG_FULL_THRESH = 256; + parameter RDCOUNT_TYPE = "RAW_PNTR"; + parameter integer READ_WIDTH = 4; + parameter REGISTER_MODE = "UNREGISTERED"; + parameter RSTREG_PRIORITY = "RSTREG"; + parameter SLEEP_ASYNC = "FALSE"; + parameter [35:0] SRVAL = 36'h000000000; + parameter WRCOUNT_TYPE = "RAW_PNTR"; + parameter integer WRITE_WIDTH = 4; + output [31:0] CASDOUT; + output [3:0] CASDOUTP; + output CASNXTEMPTY; + output CASPRVRDEN; + output [31:0] DOUT; + output [3:0] DOUTP; + output EMPTY; + output FULL; + output PROGEMPTY; + output PROGFULL; + output [12:0] RDCOUNT; + output RDERR; + output RDRSTBUSY; + output [12:0] WRCOUNT; + output WRERR; + output WRRSTBUSY; + input [31:0] CASDIN; + input [3:0] CASDINP; + input CASDOMUX; + input CASDOMUXEN; + input CASNXTRDEN; + input CASOREGIMUX; + input CASOREGIMUXEN; + input CASPRVEMPTY; + input [31:0] DIN; + input [3:0] DINP; + (* clkbuf_sink *) + (* invertible_pin = "IS_RDCLK_INVERTED" *) + input RDCLK; + (* invertible_pin = "IS_RDEN_INVERTED" *) + input RDEN; + input REGCE; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; + (* invertible_pin = "IS_RSTREG_INVERTED" *) + input RSTREG; + input SLEEP; + (* clkbuf_sink *) + (* invertible_pin = "IS_WRCLK_INVERTED" *) + input WRCLK; + (* invertible_pin = "IS_WREN_INVERTED" *) + input WREN; +endmodule + +module FIFO36E2 (...); + parameter CASCADE_ORDER = "NONE"; + parameter CLOCK_DOMAINS = "INDEPENDENT"; + parameter EN_ECC_PIPE = "FALSE"; + parameter EN_ECC_READ = "FALSE"; + parameter EN_ECC_WRITE = "FALSE"; + parameter FIRST_WORD_FALL_THROUGH = "FALSE"; + parameter [71:0] INIT = 72'h000000000000000000; + parameter [0:0] IS_RDCLK_INVERTED = 1'b0; + parameter [0:0] IS_RDEN_INVERTED = 1'b0; + parameter [0:0] IS_RSTREG_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter [0:0] IS_WRCLK_INVERTED = 1'b0; + parameter [0:0] IS_WREN_INVERTED = 1'b0; + parameter integer PROG_EMPTY_THRESH = 256; + parameter integer PROG_FULL_THRESH = 256; + parameter RDCOUNT_TYPE = "RAW_PNTR"; + parameter integer READ_WIDTH = 4; + parameter REGISTER_MODE = "UNREGISTERED"; + parameter RSTREG_PRIORITY = "RSTREG"; + parameter SLEEP_ASYNC = "FALSE"; + parameter [71:0] SRVAL = 72'h000000000000000000; + parameter WRCOUNT_TYPE = "RAW_PNTR"; + parameter integer WRITE_WIDTH = 4; + output [63:0] CASDOUT; + output [7:0] CASDOUTP; + output CASNXTEMPTY; + output CASPRVRDEN; + output DBITERR; + output [63:0] DOUT; + output [7:0] DOUTP; + output [7:0] ECCPARITY; + output EMPTY; + output FULL; + output PROGEMPTY; + output PROGFULL; + output [13:0] RDCOUNT; + output RDERR; + output RDRSTBUSY; + output SBITERR; + output [13:0] WRCOUNT; + output WRERR; + output WRRSTBUSY; + input [63:0] CASDIN; + input [7:0] CASDINP; + input CASDOMUX; + input CASDOMUXEN; + input CASNXTRDEN; + input CASOREGIMUX; + input CASOREGIMUXEN; + input CASPRVEMPTY; + input [63:0] DIN; + input [7:0] DINP; + input INJECTDBITERR; + input INJECTSBITERR; + (* clkbuf_sink *) + (* invertible_pin = "IS_RDCLK_INVERTED" *) + input RDCLK; + (* invertible_pin = "IS_RDEN_INVERTED" *) + input RDEN; + input REGCE; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; + (* invertible_pin = "IS_RSTREG_INVERTED" *) + input RSTREG; + input SLEEP; + (* clkbuf_sink *) + (* invertible_pin = "IS_WRCLK_INVERTED" *) + input WRCLK; + (* invertible_pin = "IS_WREN_INVERTED" *) + input WREN; +endmodule + +module RAMB18E2 (...); + parameter CASCADE_ORDER_A = "NONE"; + parameter CASCADE_ORDER_B = "NONE"; + parameter CLOCK_DOMAINS = "INDEPENDENT"; + parameter integer DOA_REG = 1; + parameter integer DOB_REG = 1; + parameter ENADDRENA = "FALSE"; + parameter ENADDRENB = "FALSE"; + parameter [255:0] INITP_00 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_01 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_02 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_03 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_04 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_05 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_06 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_07 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_00 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_01 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_02 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_03 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_04 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_05 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_06 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_07 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_08 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_09 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_0A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_0B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_0C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_0D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_0E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_0F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_10 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_11 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_12 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_13 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_14 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_15 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_16 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_17 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_18 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_19 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_1A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_1B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_1C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_1D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_1E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_1F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_20 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_21 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_22 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_23 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_24 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_25 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_26 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_27 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_28 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_29 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_2A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_2B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_2C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_2D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_2E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_2F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_30 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_31 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_32 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_33 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_34 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_35 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_36 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_37 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_38 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_39 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_3A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_3B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_3C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_3D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_3E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_3F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [17:0] INIT_A = 18'h00000; + parameter [17:0] INIT_B = 18'h00000; + parameter INIT_FILE = "NONE"; + parameter [0:0] IS_CLKARDCLK_INVERTED = 1'b0; + parameter [0:0] IS_CLKBWRCLK_INVERTED = 1'b0; + parameter [0:0] IS_ENARDEN_INVERTED = 1'b0; + parameter [0:0] IS_ENBWREN_INVERTED = 1'b0; + parameter [0:0] IS_RSTRAMARSTRAM_INVERTED = 1'b0; + parameter [0:0] IS_RSTRAMB_INVERTED = 1'b0; + parameter [0:0] IS_RSTREGARSTREG_INVERTED = 1'b0; + parameter [0:0] IS_RSTREGB_INVERTED = 1'b0; + parameter RDADDRCHANGEA = "FALSE"; + parameter RDADDRCHANGEB = "FALSE"; + parameter integer READ_WIDTH_A = 0; + parameter integer READ_WIDTH_B = 0; + parameter RSTREG_PRIORITY_A = "RSTREG"; + parameter RSTREG_PRIORITY_B = "RSTREG"; + parameter SIM_COLLISION_CHECK = "ALL"; + parameter SLEEP_ASYNC = "FALSE"; + parameter [17:0] SRVAL_A = 18'h00000; + parameter [17:0] SRVAL_B = 18'h00000; + parameter WRITE_MODE_A = "NO_CHANGE"; + parameter WRITE_MODE_B = "NO_CHANGE"; + parameter integer WRITE_WIDTH_A = 0; + parameter integer WRITE_WIDTH_B = 0; + output [15:0] CASDOUTA; + output [15:0] CASDOUTB; + output [1:0] CASDOUTPA; + output [1:0] CASDOUTPB; + output [15:0] DOUTADOUT; + output [15:0] DOUTBDOUT; + output [1:0] DOUTPADOUTP; + output [1:0] DOUTPBDOUTP; + input [13:0] ADDRARDADDR; + input [13:0] ADDRBWRADDR; + input ADDRENA; + input ADDRENB; + input CASDIMUXA; + input CASDIMUXB; + input [15:0] CASDINA; + input [15:0] CASDINB; + input [1:0] CASDINPA; + input [1:0] CASDINPB; + input CASDOMUXA; + input CASDOMUXB; + input CASDOMUXEN_A; + input CASDOMUXEN_B; + input CASOREGIMUXA; + input CASOREGIMUXB; + input CASOREGIMUXEN_A; + input CASOREGIMUXEN_B; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLKARDCLK_INVERTED" *) + input CLKARDCLK; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLKBWRCLK_INVERTED" *) + input CLKBWRCLK; + input [15:0] DINADIN; + input [15:0] DINBDIN; + input [1:0] DINPADINP; + input [1:0] DINPBDINP; + (* invertible_pin = "IS_ENARDEN_INVERTED" *) + input ENARDEN; + (* invertible_pin = "IS_ENBWREN_INVERTED" *) + input ENBWREN; + input REGCEAREGCE; + input REGCEB; + (* invertible_pin = "IS_RSTRAMARSTRAM_INVERTED" *) + input RSTRAMARSTRAM; + (* invertible_pin = "IS_RSTRAMB_INVERTED" *) + input RSTRAMB; + (* invertible_pin = "IS_RSTREGARSTREG_INVERTED" *) + input RSTREGARSTREG; + (* invertible_pin = "IS_RSTREGB_INVERTED" *) + input RSTREGB; + input SLEEP; + input [1:0] WEA; + input [3:0] WEBWE; +endmodule + +module RAMB36E2 (...); + parameter CASCADE_ORDER_A = "NONE"; + parameter CASCADE_ORDER_B = "NONE"; + parameter CLOCK_DOMAINS = "INDEPENDENT"; + parameter integer DOA_REG = 1; + parameter integer DOB_REG = 1; + parameter ENADDRENA = "FALSE"; + parameter ENADDRENB = "FALSE"; + parameter EN_ECC_PIPE = "FALSE"; + parameter EN_ECC_READ = "FALSE"; + parameter EN_ECC_WRITE = "FALSE"; + parameter [255:0] INITP_00 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_01 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_02 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_03 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_04 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_05 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_06 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_07 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_08 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_09 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_0A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_0B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_0C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_0D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_0E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INITP_0F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_00 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_01 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_02 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_03 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_04 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_05 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_06 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_07 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_08 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_09 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_0A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_0B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_0C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_0D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_0E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_0F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_10 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_11 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_12 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_13 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_14 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_15 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_16 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_17 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_18 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_19 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_1A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_1B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_1C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_1D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_1E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_1F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_20 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_21 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_22 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_23 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_24 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_25 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_26 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_27 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_28 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_29 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_2A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_2B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_2C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_2D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_2E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_2F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_30 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_31 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_32 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_33 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_34 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_35 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_36 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_37 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_38 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_39 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_3A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_3B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_3C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_3D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_3E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_3F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_40 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_41 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_42 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_43 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_44 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_45 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_46 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_47 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_48 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_49 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_4A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_4B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_4C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_4D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_4E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_4F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_50 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_51 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_52 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_53 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_54 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_55 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_56 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_57 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_58 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_59 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_5A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_5B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_5C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_5D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_5E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_5F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_60 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_61 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_62 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_63 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_64 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_65 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_66 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_67 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_68 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_69 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_6A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_6B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_6C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_6D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_6E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_6F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_70 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_71 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_72 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_73 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_74 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_75 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_76 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_77 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_78 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_79 = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_7A = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_7B = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_7C = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_7D = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_7E = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [255:0] INIT_7F = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [35:0] INIT_A = 36'h000000000; + parameter [35:0] INIT_B = 36'h000000000; + parameter INIT_FILE = "NONE"; + parameter [0:0] IS_CLKARDCLK_INVERTED = 1'b0; + parameter [0:0] IS_CLKBWRCLK_INVERTED = 1'b0; + parameter [0:0] IS_ENARDEN_INVERTED = 1'b0; + parameter [0:0] IS_ENBWREN_INVERTED = 1'b0; + parameter [0:0] IS_RSTRAMARSTRAM_INVERTED = 1'b0; + parameter [0:0] IS_RSTRAMB_INVERTED = 1'b0; + parameter [0:0] IS_RSTREGARSTREG_INVERTED = 1'b0; + parameter [0:0] IS_RSTREGB_INVERTED = 1'b0; + parameter RDADDRCHANGEA = "FALSE"; + parameter RDADDRCHANGEB = "FALSE"; + parameter integer READ_WIDTH_A = 0; + parameter integer READ_WIDTH_B = 0; + parameter RSTREG_PRIORITY_A = "RSTREG"; + parameter RSTREG_PRIORITY_B = "RSTREG"; + parameter SIM_COLLISION_CHECK = "ALL"; + parameter SLEEP_ASYNC = "FALSE"; + parameter [35:0] SRVAL_A = 36'h000000000; + parameter [35:0] SRVAL_B = 36'h000000000; + parameter WRITE_MODE_A = "NO_CHANGE"; + parameter WRITE_MODE_B = "NO_CHANGE"; + parameter integer WRITE_WIDTH_A = 0; + parameter integer WRITE_WIDTH_B = 0; + output [31:0] CASDOUTA; + output [31:0] CASDOUTB; + output [3:0] CASDOUTPA; + output [3:0] CASDOUTPB; + output CASOUTDBITERR; + output CASOUTSBITERR; + output DBITERR; + output [31:0] DOUTADOUT; + output [31:0] DOUTBDOUT; + output [3:0] DOUTPADOUTP; + output [3:0] DOUTPBDOUTP; + output [7:0] ECCPARITY; + output [8:0] RDADDRECC; + output SBITERR; + input [14:0] ADDRARDADDR; + input [14:0] ADDRBWRADDR; + input ADDRENA; + input ADDRENB; + input CASDIMUXA; + input CASDIMUXB; + input [31:0] CASDINA; + input [31:0] CASDINB; + input [3:0] CASDINPA; + input [3:0] CASDINPB; + input CASDOMUXA; + input CASDOMUXB; + input CASDOMUXEN_A; + input CASDOMUXEN_B; + input CASINDBITERR; + input CASINSBITERR; + input CASOREGIMUXA; + input CASOREGIMUXB; + input CASOREGIMUXEN_A; + input CASOREGIMUXEN_B; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLKARDCLK_INVERTED" *) + input CLKARDCLK; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLKBWRCLK_INVERTED" *) + input CLKBWRCLK; + input [31:0] DINADIN; + input [31:0] DINBDIN; + input [3:0] DINPADINP; + input [3:0] DINPBDINP; + input ECCPIPECE; + (* invertible_pin = "IS_ENARDEN_INVERTED" *) + input ENARDEN; + (* invertible_pin = "IS_ENBWREN_INVERTED" *) + input ENBWREN; + input INJECTDBITERR; + input INJECTSBITERR; + input REGCEAREGCE; + input REGCEB; + (* invertible_pin = "IS_RSTRAMARSTRAM_INVERTED" *) + input RSTRAMARSTRAM; + (* invertible_pin = "IS_RSTRAMB_INVERTED" *) + input RSTRAMB; + (* invertible_pin = "IS_RSTREGARSTREG_INVERTED" *) + input RSTREGARSTREG; + (* invertible_pin = "IS_RSTREGB_INVERTED" *) + input RSTREGB; + input SLEEP; + input [3:0] WEA; + input [7:0] WEBWE; +endmodule + +module URAM288 (...); + parameter integer AUTO_SLEEP_LATENCY = 8; + parameter integer AVG_CONS_INACTIVE_CYCLES = 10; + parameter BWE_MODE_A = "PARITY_INTERLEAVED"; + parameter BWE_MODE_B = "PARITY_INTERLEAVED"; + parameter CASCADE_ORDER_A = "NONE"; + parameter CASCADE_ORDER_B = "NONE"; + parameter EN_AUTO_SLEEP_MODE = "FALSE"; + parameter EN_ECC_RD_A = "FALSE"; + parameter EN_ECC_RD_B = "FALSE"; + parameter EN_ECC_WR_A = "FALSE"; + parameter EN_ECC_WR_B = "FALSE"; + parameter IREG_PRE_A = "FALSE"; + parameter IREG_PRE_B = "FALSE"; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + parameter [0:0] IS_EN_A_INVERTED = 1'b0; + parameter [0:0] IS_EN_B_INVERTED = 1'b0; + parameter [0:0] IS_RDB_WR_A_INVERTED = 1'b0; + parameter [0:0] IS_RDB_WR_B_INVERTED = 1'b0; + parameter [0:0] IS_RST_A_INVERTED = 1'b0; + parameter [0:0] IS_RST_B_INVERTED = 1'b0; + parameter MATRIX_ID = "NONE"; + parameter integer NUM_UNIQUE_SELF_ADDR_A = 1; + parameter integer NUM_UNIQUE_SELF_ADDR_B = 1; + parameter integer NUM_URAM_IN_MATRIX = 1; + parameter OREG_A = "FALSE"; + parameter OREG_B = "FALSE"; + parameter OREG_ECC_A = "FALSE"; + parameter OREG_ECC_B = "FALSE"; + parameter REG_CAS_A = "FALSE"; + parameter REG_CAS_B = "FALSE"; + parameter RST_MODE_A = "SYNC"; + parameter RST_MODE_B = "SYNC"; + parameter [10:0] SELF_ADDR_A = 11'h000; + parameter [10:0] SELF_ADDR_B = 11'h000; + parameter [10:0] SELF_MASK_A = 11'h7FF; + parameter [10:0] SELF_MASK_B = 11'h7FF; + parameter USE_EXT_CE_A = "FALSE"; + parameter USE_EXT_CE_B = "FALSE"; + output [22:0] CAS_OUT_ADDR_A; + output [22:0] CAS_OUT_ADDR_B; + output [8:0] CAS_OUT_BWE_A; + output [8:0] CAS_OUT_BWE_B; + output CAS_OUT_DBITERR_A; + output CAS_OUT_DBITERR_B; + output [71:0] CAS_OUT_DIN_A; + output [71:0] CAS_OUT_DIN_B; + output [71:0] CAS_OUT_DOUT_A; + output [71:0] CAS_OUT_DOUT_B; + output CAS_OUT_EN_A; + output CAS_OUT_EN_B; + output CAS_OUT_RDACCESS_A; + output CAS_OUT_RDACCESS_B; + output CAS_OUT_RDB_WR_A; + output CAS_OUT_RDB_WR_B; + output CAS_OUT_SBITERR_A; + output CAS_OUT_SBITERR_B; + output DBITERR_A; + output DBITERR_B; + output [71:0] DOUT_A; + output [71:0] DOUT_B; + output RDACCESS_A; + output RDACCESS_B; + output SBITERR_A; + output SBITERR_B; + input [22:0] ADDR_A; + input [22:0] ADDR_B; + input [8:0] BWE_A; + input [8:0] BWE_B; + input [22:0] CAS_IN_ADDR_A; + input [22:0] CAS_IN_ADDR_B; + input [8:0] CAS_IN_BWE_A; + input [8:0] CAS_IN_BWE_B; + input CAS_IN_DBITERR_A; + input CAS_IN_DBITERR_B; + input [71:0] CAS_IN_DIN_A; + input [71:0] CAS_IN_DIN_B; + input [71:0] CAS_IN_DOUT_A; + input [71:0] CAS_IN_DOUT_B; + input CAS_IN_EN_A; + input CAS_IN_EN_B; + input CAS_IN_RDACCESS_A; + input CAS_IN_RDACCESS_B; + input CAS_IN_RDB_WR_A; + input CAS_IN_RDB_WR_B; + input CAS_IN_SBITERR_A; + input CAS_IN_SBITERR_B; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK; + input [71:0] DIN_A; + input [71:0] DIN_B; + (* invertible_pin = "IS_EN_A_INVERTED" *) + input EN_A; + (* invertible_pin = "IS_EN_B_INVERTED" *) + input EN_B; + input INJECT_DBITERR_A; + input INJECT_DBITERR_B; + input INJECT_SBITERR_A; + input INJECT_SBITERR_B; + input OREG_CE_A; + input OREG_CE_B; + input OREG_ECC_CE_A; + input OREG_ECC_CE_B; + (* invertible_pin = "IS_RDB_WR_A_INVERTED" *) + input RDB_WR_A; + (* invertible_pin = "IS_RDB_WR_B_INVERTED" *) + input RDB_WR_B; + (* invertible_pin = "IS_RST_A_INVERTED" *) + input RST_A; + (* invertible_pin = "IS_RST_B_INVERTED" *) + input RST_B; + input SLEEP; +endmodule + +module URAM288_BASE (...); + parameter integer AUTO_SLEEP_LATENCY = 8; + parameter integer AVG_CONS_INACTIVE_CYCLES = 10; + parameter BWE_MODE_A = "PARITY_INTERLEAVED"; + parameter BWE_MODE_B = "PARITY_INTERLEAVED"; + parameter EN_AUTO_SLEEP_MODE = "FALSE"; + parameter EN_ECC_RD_A = "FALSE"; + parameter EN_ECC_RD_B = "FALSE"; + parameter EN_ECC_WR_A = "FALSE"; + parameter EN_ECC_WR_B = "FALSE"; + parameter IREG_PRE_A = "FALSE"; + parameter IREG_PRE_B = "FALSE"; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + parameter [0:0] IS_EN_A_INVERTED = 1'b0; + parameter [0:0] IS_EN_B_INVERTED = 1'b0; + parameter [0:0] IS_RDB_WR_A_INVERTED = 1'b0; + parameter [0:0] IS_RDB_WR_B_INVERTED = 1'b0; + parameter [0:0] IS_RST_A_INVERTED = 1'b0; + parameter [0:0] IS_RST_B_INVERTED = 1'b0; + parameter OREG_A = "FALSE"; + parameter OREG_B = "FALSE"; + parameter OREG_ECC_A = "FALSE"; + parameter OREG_ECC_B = "FALSE"; + parameter RST_MODE_A = "SYNC"; + parameter RST_MODE_B = "SYNC"; + parameter USE_EXT_CE_A = "FALSE"; + parameter USE_EXT_CE_B = "FALSE"; + output DBITERR_A; + output DBITERR_B; + output [71:0] DOUT_A; + output [71:0] DOUT_B; + output SBITERR_A; + output SBITERR_B; + input [22:0] ADDR_A; + input [22:0] ADDR_B; + input [8:0] BWE_A; + input [8:0] BWE_B; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK; + input [71:0] DIN_A; + input [71:0] DIN_B; + (* invertible_pin = "IS_EN_A_INVERTED" *) + input EN_A; + (* invertible_pin = "IS_EN_B_INVERTED" *) + input EN_B; + input INJECT_DBITERR_A; + input INJECT_DBITERR_B; + input INJECT_SBITERR_A; + input INJECT_SBITERR_B; + input OREG_CE_A; + input OREG_CE_B; + input OREG_ECC_CE_A; + input OREG_ECC_CE_B; + (* invertible_pin = "IS_RDB_WR_A_INVERTED" *) + input RDB_WR_A; + (* invertible_pin = "IS_RDB_WR_B_INVERTED" *) + input RDB_WR_B; + (* invertible_pin = "IS_RST_A_INVERTED" *) + input RST_A; + (* invertible_pin = "IS_RST_B_INVERTED" *) + input RST_B; + input SLEEP; +endmodule + +module RAM128X1S (...); + parameter [127:0] INIT = 128'h00000000000000000000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input A6; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM256X1D (...); + parameter [255:0] INIT = 256'h0000000000000000000000000000000000000000000000000000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output DPO; + output SPO; + input [7:0] A; + input D; + input [7:0] DPRA; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM256X1S (...); + parameter [255:0] INIT = 256'h0; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O; + input [7:0] A; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM32M (...); + parameter [63:0] INIT_A = 64'h0000000000000000; + parameter [63:0] INIT_B = 64'h0000000000000000; + parameter [63:0] INIT_C = 64'h0000000000000000; + parameter [63:0] INIT_D = 64'h0000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output [1:0] DOA; + output [1:0] DOB; + output [1:0] DOC; + output [1:0] DOD; + input [4:0] ADDRA; + input [4:0] ADDRB; + input [4:0] ADDRC; + input [4:0] ADDRD; + input [1:0] DIA; + input [1:0] DIB; + input [1:0] DIC; + input [1:0] DID; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM32M16 (...); + parameter [63:0] INIT_A = 64'h0000000000000000; + parameter [63:0] INIT_B = 64'h0000000000000000; + parameter [63:0] INIT_C = 64'h0000000000000000; + parameter [63:0] INIT_D = 64'h0000000000000000; + parameter [63:0] INIT_E = 64'h0000000000000000; + parameter [63:0] INIT_F = 64'h0000000000000000; + parameter [63:0] INIT_G = 64'h0000000000000000; + parameter [63:0] INIT_H = 64'h0000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output [1:0] DOA; + output [1:0] DOB; + output [1:0] DOC; + output [1:0] DOD; + output [1:0] DOE; + output [1:0] DOF; + output [1:0] DOG; + output [1:0] DOH; + input [4:0] ADDRA; + input [4:0] ADDRB; + input [4:0] ADDRC; + input [4:0] ADDRD; + input [4:0] ADDRE; + input [4:0] ADDRF; + input [4:0] ADDRG; + input [4:0] ADDRH; + input [1:0] DIA; + input [1:0] DIB; + input [1:0] DIC; + input [1:0] DID; + input [1:0] DIE; + input [1:0] DIF; + input [1:0] DIG; + input [1:0] DIH; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM32X1S (...); + parameter [31:0] INIT = 32'h00000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM512X1S (...); + parameter [511:0] INIT = 512'h0; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O; + input [8:0] A; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM64M (...); + parameter [63:0] INIT_A = 64'h0000000000000000; + parameter [63:0] INIT_B = 64'h0000000000000000; + parameter [63:0] INIT_C = 64'h0000000000000000; + parameter [63:0] INIT_D = 64'h0000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output DOA; + output DOB; + output DOC; + output DOD; + input [5:0] ADDRA; + input [5:0] ADDRB; + input [5:0] ADDRC; + input [5:0] ADDRD; + input DIA; + input DIB; + input DIC; + input DID; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM64M8 (...); + parameter [63:0] INIT_A = 64'h0000000000000000; + parameter [63:0] INIT_B = 64'h0000000000000000; + parameter [63:0] INIT_C = 64'h0000000000000000; + parameter [63:0] INIT_D = 64'h0000000000000000; + parameter [63:0] INIT_E = 64'h0000000000000000; + parameter [63:0] INIT_F = 64'h0000000000000000; + parameter [63:0] INIT_G = 64'h0000000000000000; + parameter [63:0] INIT_H = 64'h0000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output DOA; + output DOB; + output DOC; + output DOD; + output DOE; + output DOF; + output DOG; + output DOH; + input [5:0] ADDRA; + input [5:0] ADDRB; + input [5:0] ADDRC; + input [5:0] ADDRD; + input [5:0] ADDRE; + input [5:0] ADDRF; + input [5:0] ADDRG; + input [5:0] ADDRH; + input DIA; + input DIB; + input DIC; + input DID; + input DIE; + input DIF; + input DIG; + input DIH; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module RAM64X1S (...); + parameter [63:0] INIT = 64'h0000000000000000; + parameter [0:0] IS_WCLK_INVERTED = 1'b0; + output O; + input A0; + input A1; + input A2; + input A3; + input A4; + input A5; + input D; + (* clkbuf_sink *) + (* invertible_pin = "IS_WCLK_INVERTED" *) + input WCLK; + input WE; +endmodule + +module AND2B1L (...); + parameter [0:0] IS_SRI_INVERTED = 1'b0; + output O; + input DI; + (* invertible_pin = "IS_SRI_INVERTED" *) + input SRI; +endmodule + +module CARRY8 (...); + parameter CARRY_TYPE = "SINGLE_CY8"; + output [7:0] CO; + output [7:0] O; + input CI; + input CI_TOP; + input [7:0] DI; + input [7:0] S; +endmodule + +module CFGLUT5 (...); + parameter [31:0] INIT = 32'h00000000; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + output CDO; + output O5; + output O6; + input I4; + input I3; + input I2; + input I1; + input I0; + input CDI; + input CE; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK; +endmodule + +module MUXF9 (...); + output O; + input I0; + input I1; + input S; +endmodule + +module OR2L (...); + parameter [0:0] IS_SRI_INVERTED = 1'b0; + output O; + input DI; + (* invertible_pin = "IS_SRI_INVERTED" *) + input SRI; +endmodule + +module BUFG_GT (...); + (* clkbuf_driver *) + output O; + input CE; + input CEMASK; + input CLR; + input CLRMASK; + input [2:0] DIV; + input I; +endmodule + +module BUFG_GT_SYNC (...); + output CESYNC; + output CLRSYNC; + input CE; + input CLK; + input CLR; +endmodule + +module BUFG_PS (...); + (* clkbuf_driver *) + output O; + input I; +endmodule + +module BUFGCE (...); + parameter CE_TYPE = "SYNC"; + parameter [0:0] IS_CE_INVERTED = 1'b0; + parameter [0:0] IS_I_INVERTED = 1'b0; + (* clkbuf_driver *) + output O; + (* invertible_pin = "IS_CE_INVERTED" *) + input CE; + (* invertible_pin = "IS_I_INVERTED" *) + input I; +endmodule + +module BUFGCE_1 (...); + (* clkbuf_driver *) + output O; + input CE; + input I; +endmodule + +module BUFGCE_DIV (...); + parameter integer BUFGCE_DIVIDE = 1; + parameter [0:0] IS_CE_INVERTED = 1'b0; + parameter [0:0] IS_CLR_INVERTED = 1'b0; + parameter [0:0] IS_I_INVERTED = 1'b0; + (* clkbuf_driver *) + output O; + (* invertible_pin = "IS_CE_INVERTED" *) + input CE; + (* invertible_pin = "IS_CLR_INVERTED" *) + input CLR; + (* invertible_pin = "IS_I_INVERTED" *) + input I; +endmodule + +module BUFGMUX (...); + parameter CLK_SEL_TYPE = "SYNC"; + (* clkbuf_driver *) + output O; + input I0; + input I1; + input S; +endmodule + +module BUFGMUX_1 (...); + parameter CLK_SEL_TYPE = "SYNC"; + (* clkbuf_driver *) + output O; + input I0; + input I1; + input S; +endmodule + +module BUFGMUX_CTRL (...); + (* clkbuf_driver *) + output O; + input I0; + input I1; + input S; +endmodule + +module MMCME3_ADV (...); + parameter BANDWIDTH = "OPTIMIZED"; + parameter real CLKFBOUT_MULT_F = 5.000; + parameter real CLKFBOUT_PHASE = 0.000; + parameter CLKFBOUT_USE_FINE_PS = "FALSE"; + parameter real CLKIN1_PERIOD = 0.000; + parameter real CLKIN2_PERIOD = 0.000; + parameter real CLKIN_FREQ_MAX = 1066.000; + parameter real CLKIN_FREQ_MIN = 10.000; + parameter real CLKOUT0_DIVIDE_F = 1.000; + parameter real CLKOUT0_DUTY_CYCLE = 0.500; + parameter real CLKOUT0_PHASE = 0.000; + parameter CLKOUT0_USE_FINE_PS = "FALSE"; + parameter integer CLKOUT1_DIVIDE = 1; + parameter real CLKOUT1_DUTY_CYCLE = 0.500; + parameter real CLKOUT1_PHASE = 0.000; + parameter CLKOUT1_USE_FINE_PS = "FALSE"; + parameter integer CLKOUT2_DIVIDE = 1; + parameter real CLKOUT2_DUTY_CYCLE = 0.500; + parameter real CLKOUT2_PHASE = 0.000; + parameter CLKOUT2_USE_FINE_PS = "FALSE"; + parameter integer CLKOUT3_DIVIDE = 1; + parameter real CLKOUT3_DUTY_CYCLE = 0.500; + parameter real CLKOUT3_PHASE = 0.000; + parameter CLKOUT3_USE_FINE_PS = "FALSE"; + parameter CLKOUT4_CASCADE = "FALSE"; + parameter integer CLKOUT4_DIVIDE = 1; + parameter real CLKOUT4_DUTY_CYCLE = 0.500; + parameter real CLKOUT4_PHASE = 0.000; + parameter CLKOUT4_USE_FINE_PS = "FALSE"; + parameter integer CLKOUT5_DIVIDE = 1; + parameter real CLKOUT5_DUTY_CYCLE = 0.500; + parameter real CLKOUT5_PHASE = 0.000; + parameter CLKOUT5_USE_FINE_PS = "FALSE"; + parameter integer CLKOUT6_DIVIDE = 1; + parameter real CLKOUT6_DUTY_CYCLE = 0.500; + parameter real CLKOUT6_PHASE = 0.000; + parameter CLKOUT6_USE_FINE_PS = "FALSE"; + parameter real CLKPFD_FREQ_MAX = 550.000; + parameter real CLKPFD_FREQ_MIN = 10.000; + parameter COMPENSATION = "AUTO"; + parameter integer DIVCLK_DIVIDE = 1; + parameter [0:0] IS_CLKFBIN_INVERTED = 1'b0; + parameter [0:0] IS_CLKIN1_INVERTED = 1'b0; + parameter [0:0] IS_CLKIN2_INVERTED = 1'b0; + parameter [0:0] IS_CLKINSEL_INVERTED = 1'b0; + parameter [0:0] IS_PSEN_INVERTED = 1'b0; + parameter [0:0] IS_PSINCDEC_INVERTED = 1'b0; + parameter [0:0] IS_PWRDWN_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter real REF_JITTER1 = 0.010; + parameter real REF_JITTER2 = 0.010; + parameter SS_EN = "FALSE"; + parameter SS_MODE = "CENTER_HIGH"; + parameter integer SS_MOD_PERIOD = 10000; + parameter STARTUP_WAIT = "FALSE"; + parameter real VCOCLK_FREQ_MAX = 1600.000; + parameter real VCOCLK_FREQ_MIN = 600.000; + parameter STARTUP_WAIT = "FALSE"; + output CDDCDONE; + output CLKFBOUT; + output CLKFBOUTB; + output CLKFBSTOPPED; + output CLKINSTOPPED; + output CLKOUT0; + output CLKOUT0B; + output CLKOUT1; + output CLKOUT1B; + output CLKOUT2; + output CLKOUT2B; + output CLKOUT3; + output CLKOUT3B; + output CLKOUT4; + output CLKOUT5; + output CLKOUT6; + output [15:0] DO; + output DRDY; + output LOCKED; + output PSDONE; + input CDDCREQ; + (* invertible_pin = "IS_CLKFBIN_INVERTED" *) + input CLKFBIN; + (* invertible_pin = "IS_CLKIN1_INVERTED" *) + input CLKIN1; + (* invertible_pin = "IS_CLKIN2_INVERTED" *) + input CLKIN2; + (* invertible_pin = "IS_CLKINSEL_INVERTED" *) + input CLKINSEL; + input [6:0] DADDR; + input DCLK; + input DEN; + input [15:0] DI; + input DWE; + input PSCLK; + (* invertible_pin = "IS_PSEN_INVERTED" *) + input PSEN; + (* invertible_pin = "IS_PSINCDEC_INVERTED" *) + input PSINCDEC; + (* invertible_pin = "IS_PWRDWN_INVERTED" *) + input PWRDWN; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; +endmodule + +module MMCME3_BASE (...); + parameter BANDWIDTH = "OPTIMIZED"; + parameter real CLKFBOUT_MULT_F = 5.000; + parameter real CLKFBOUT_PHASE = 0.000; + parameter real CLKIN1_PERIOD = 0.000; + parameter real CLKOUT0_DIVIDE_F = 1.000; + parameter real CLKOUT0_DUTY_CYCLE = 0.500; + parameter real CLKOUT0_PHASE = 0.000; + parameter integer CLKOUT1_DIVIDE = 1; + parameter real CLKOUT1_DUTY_CYCLE = 0.500; + parameter real CLKOUT1_PHASE = 0.000; + parameter integer CLKOUT2_DIVIDE = 1; + parameter real CLKOUT2_DUTY_CYCLE = 0.500; + parameter real CLKOUT2_PHASE = 0.000; + parameter integer CLKOUT3_DIVIDE = 1; + parameter real CLKOUT3_DUTY_CYCLE = 0.500; + parameter real CLKOUT3_PHASE = 0.000; + parameter CLKOUT4_CASCADE = "FALSE"; + parameter integer CLKOUT4_DIVIDE = 1; + parameter real CLKOUT4_DUTY_CYCLE = 0.500; + parameter real CLKOUT4_PHASE = 0.000; + parameter integer CLKOUT5_DIVIDE = 1; + parameter real CLKOUT5_DUTY_CYCLE = 0.500; + parameter real CLKOUT5_PHASE = 0.000; + parameter integer CLKOUT6_DIVIDE = 1; + parameter real CLKOUT6_DUTY_CYCLE = 0.500; + parameter real CLKOUT6_PHASE = 0.000; + parameter integer DIVCLK_DIVIDE = 1; + parameter [0:0] IS_CLKFBIN_INVERTED = 1'b0; + parameter [0:0] IS_CLKIN1_INVERTED = 1'b0; + parameter [0:0] IS_PWRDWN_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter real REF_JITTER1 = 0.010; + parameter STARTUP_WAIT = "FALSE"; + output CLKFBOUT; + output CLKFBOUTB; + output CLKOUT0; + output CLKOUT0B; + output CLKOUT1; + output CLKOUT1B; + output CLKOUT2; + output CLKOUT2B; + output CLKOUT3; + output CLKOUT3B; + output CLKOUT4; + output CLKOUT5; + output CLKOUT6; + output LOCKED; + (* invertible_pin = "IS_CLKFBIN_INVERTED" *) + input CLKFBIN; + (* invertible_pin = "IS_CLKIN1_INVERTED" *) + input CLKIN1; + (* invertible_pin = "IS_PWRDWN_INVERTED" *) + input PWRDWN; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; +endmodule + +module MMCME4_ADV (...); + parameter BANDWIDTH = "OPTIMIZED"; + parameter real CLKFBOUT_MULT_F = 5.000; + parameter real CLKFBOUT_PHASE = 0.000; + parameter CLKFBOUT_USE_FINE_PS = "FALSE"; + parameter real CLKIN1_PERIOD = 0.000; + parameter real CLKIN2_PERIOD = 0.000; + parameter real CLKIN_FREQ_MAX = 1066.000; + parameter real CLKIN_FREQ_MIN = 10.000; + parameter real CLKOUT0_DIVIDE_F = 1.000; + parameter real CLKOUT0_DUTY_CYCLE = 0.500; + parameter real CLKOUT0_PHASE = 0.000; + parameter CLKOUT0_USE_FINE_PS = "FALSE"; + parameter integer CLKOUT1_DIVIDE = 1; + parameter real CLKOUT1_DUTY_CYCLE = 0.500; + parameter real CLKOUT1_PHASE = 0.000; + parameter CLKOUT1_USE_FINE_PS = "FALSE"; + parameter integer CLKOUT2_DIVIDE = 1; + parameter real CLKOUT2_DUTY_CYCLE = 0.500; + parameter real CLKOUT2_PHASE = 0.000; + parameter CLKOUT2_USE_FINE_PS = "FALSE"; + parameter integer CLKOUT3_DIVIDE = 1; + parameter real CLKOUT3_DUTY_CYCLE = 0.500; + parameter real CLKOUT3_PHASE = 0.000; + parameter CLKOUT3_USE_FINE_PS = "FALSE"; + parameter CLKOUT4_CASCADE = "FALSE"; + parameter integer CLKOUT4_DIVIDE = 1; + parameter real CLKOUT4_DUTY_CYCLE = 0.500; + parameter real CLKOUT4_PHASE = 0.000; + parameter CLKOUT4_USE_FINE_PS = "FALSE"; + parameter integer CLKOUT5_DIVIDE = 1; + parameter real CLKOUT5_DUTY_CYCLE = 0.500; + parameter real CLKOUT5_PHASE = 0.000; + parameter CLKOUT5_USE_FINE_PS = "FALSE"; + parameter integer CLKOUT6_DIVIDE = 1; + parameter real CLKOUT6_DUTY_CYCLE = 0.500; + parameter real CLKOUT6_PHASE = 0.000; + parameter CLKOUT6_USE_FINE_PS = "FALSE"; + parameter real CLKPFD_FREQ_MAX = 550.000; + parameter real CLKPFD_FREQ_MIN = 10.000; + parameter COMPENSATION = "AUTO"; + parameter integer DIVCLK_DIVIDE = 1; + parameter [0:0] IS_CLKFBIN_INVERTED = 1'b0; + parameter [0:0] IS_CLKIN1_INVERTED = 1'b0; + parameter [0:0] IS_CLKIN2_INVERTED = 1'b0; + parameter [0:0] IS_CLKINSEL_INVERTED = 1'b0; + parameter [0:0] IS_PSEN_INVERTED = 1'b0; + parameter [0:0] IS_PSINCDEC_INVERTED = 1'b0; + parameter [0:0] IS_PWRDWN_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter real REF_JITTER1 = 0.010; + parameter real REF_JITTER2 = 0.010; + parameter SS_EN = "FALSE"; + parameter SS_MODE = "CENTER_HIGH"; + parameter integer SS_MOD_PERIOD = 10000; + parameter STARTUP_WAIT = "FALSE"; + parameter real VCOCLK_FREQ_MAX = 1600.000; + parameter real VCOCLK_FREQ_MIN = 800.000; + parameter STARTUP_WAIT = "FALSE"; + output CDDCDONE; + output CLKFBOUT; + output CLKFBOUTB; + output CLKFBSTOPPED; + output CLKINSTOPPED; + output CLKOUT0; + output CLKOUT0B; + output CLKOUT1; + output CLKOUT1B; + output CLKOUT2; + output CLKOUT2B; + output CLKOUT3; + output CLKOUT3B; + output CLKOUT4; + output CLKOUT5; + output CLKOUT6; + output [15:0] DO; + output DRDY; + output LOCKED; + output PSDONE; + input CDDCREQ; + (* invertible_pin = "IS_CLKFBIN_INVERTED" *) + input CLKFBIN; + (* invertible_pin = "IS_CLKIN1_INVERTED" *) + input CLKIN1; + (* invertible_pin = "IS_CLKIN2_INVERTED" *) + input CLKIN2; + (* invertible_pin = "IS_CLKINSEL_INVERTED" *) + input CLKINSEL; + input [6:0] DADDR; + input DCLK; + input DEN; + input [15:0] DI; + input DWE; + input PSCLK; + (* invertible_pin = "IS_PSEN_INVERTED" *) + input PSEN; + (* invertible_pin = "IS_PSINCDEC_INVERTED" *) + input PSINCDEC; + (* invertible_pin = "IS_PWRDWN_INVERTED" *) + input PWRDWN; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; +endmodule + +module MMCME4_BASE (...); + parameter BANDWIDTH = "OPTIMIZED"; + parameter real CLKFBOUT_MULT_F = 5.000; + parameter real CLKFBOUT_PHASE = 0.000; + parameter real CLKIN1_PERIOD = 0.000; + parameter real CLKOUT0_DIVIDE_F = 1.000; + parameter real CLKOUT0_DUTY_CYCLE = 0.500; + parameter real CLKOUT0_PHASE = 0.000; + parameter integer CLKOUT1_DIVIDE = 1; + parameter real CLKOUT1_DUTY_CYCLE = 0.500; + parameter real CLKOUT1_PHASE = 0.000; + parameter integer CLKOUT2_DIVIDE = 1; + parameter real CLKOUT2_DUTY_CYCLE = 0.500; + parameter real CLKOUT2_PHASE = 0.000; + parameter integer CLKOUT3_DIVIDE = 1; + parameter real CLKOUT3_DUTY_CYCLE = 0.500; + parameter real CLKOUT3_PHASE = 0.000; + parameter CLKOUT4_CASCADE = "FALSE"; + parameter integer CLKOUT4_DIVIDE = 1; + parameter real CLKOUT4_DUTY_CYCLE = 0.500; + parameter real CLKOUT4_PHASE = 0.000; + parameter integer CLKOUT5_DIVIDE = 1; + parameter real CLKOUT5_DUTY_CYCLE = 0.500; + parameter real CLKOUT5_PHASE = 0.000; + parameter integer CLKOUT6_DIVIDE = 1; + parameter real CLKOUT6_DUTY_CYCLE = 0.500; + parameter real CLKOUT6_PHASE = 0.000; + parameter integer DIVCLK_DIVIDE = 1; + parameter [0:0] IS_CLKFBIN_INVERTED = 1'b0; + parameter [0:0] IS_CLKIN1_INVERTED = 1'b0; + parameter [0:0] IS_PWRDWN_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter real REF_JITTER1 = 0.010; + parameter STARTUP_WAIT = "FALSE"; + output CLKFBOUT; + output CLKFBOUTB; + output CLKOUT0; + output CLKOUT0B; + output CLKOUT1; + output CLKOUT1B; + output CLKOUT2; + output CLKOUT2B; + output CLKOUT3; + output CLKOUT3B; + output CLKOUT4; + output CLKOUT5; + output CLKOUT6; + output LOCKED; + (* invertible_pin = "IS_CLKFBIN_INVERTED" *) + input CLKFBIN; + (* invertible_pin = "IS_CLKIN1_INVERTED" *) + input CLKIN1; + (* invertible_pin = "IS_PWRDWN_INVERTED" *) + input PWRDWN; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; +endmodule + +module PLLE3_ADV (...); + parameter integer CLKFBOUT_MULT = 5; + parameter real CLKFBOUT_PHASE = 0.000; + parameter real CLKIN_FREQ_MAX = 1066.000; + parameter real CLKIN_FREQ_MIN = 70.000; + parameter real CLKIN_PERIOD = 0.000; + parameter integer CLKOUT0_DIVIDE = 1; + parameter real CLKOUT0_DUTY_CYCLE = 0.500; + parameter real CLKOUT0_PHASE = 0.000; + parameter integer CLKOUT1_DIVIDE = 1; + parameter real CLKOUT1_DUTY_CYCLE = 0.500; + parameter real CLKOUT1_PHASE = 0.000; + parameter CLKOUTPHY_MODE = "VCO_2X"; + parameter real CLKPFD_FREQ_MAX = 667.500; + parameter real CLKPFD_FREQ_MIN = 70.000; + parameter COMPENSATION = "AUTO"; + parameter integer DIVCLK_DIVIDE = 1; + parameter [0:0] IS_CLKFBIN_INVERTED = 1'b0; + parameter [0:0] IS_CLKIN_INVERTED = 1'b0; + parameter [0:0] IS_PWRDWN_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter real REF_JITTER = 0.010; + parameter STARTUP_WAIT = "FALSE"; + parameter real VCOCLK_FREQ_MAX = 1335.000; + parameter real VCOCLK_FREQ_MIN = 600.000; + parameter STARTUP_WAIT = "FALSE"; + output CLKFBOUT; + output CLKOUT0; + output CLKOUT0B; + output CLKOUT1; + output CLKOUT1B; + output CLKOUTPHY; + output [15:0] DO; + output DRDY; + output LOCKED; + (* invertible_pin = "IS_CLKFBIN_INVERTED" *) + input CLKFBIN; + (* invertible_pin = "IS_CLKIN_INVERTED" *) + input CLKIN; + input CLKOUTPHYEN; + input [6:0] DADDR; + input DCLK; + input DEN; + input [15:0] DI; + input DWE; + (* invertible_pin = "IS_PWRDWN_INVERTED" *) + input PWRDWN; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; +endmodule + +module PLLE3_BASE (...); + parameter integer CLKFBOUT_MULT = 5; + parameter real CLKFBOUT_PHASE = 0.000; + parameter real CLKIN_PERIOD = 0.000; + parameter integer CLKOUT0_DIVIDE = 1; + parameter real CLKOUT0_DUTY_CYCLE = 0.500; + parameter real CLKOUT0_PHASE = 0.000; + parameter integer CLKOUT1_DIVIDE = 1; + parameter real CLKOUT1_DUTY_CYCLE = 0.500; + parameter real CLKOUT1_PHASE = 0.000; + parameter CLKOUTPHY_MODE = "VCO_2X"; + parameter integer DIVCLK_DIVIDE = 1; + parameter [0:0] IS_CLKFBIN_INVERTED = 1'b0; + parameter [0:0] IS_CLKIN_INVERTED = 1'b0; + parameter [0:0] IS_PWRDWN_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter real REF_JITTER = 0.010; + parameter STARTUP_WAIT = "FALSE"; + output CLKFBOUT; + output CLKOUT0; + output CLKOUT0B; + output CLKOUT1; + output CLKOUT1B; + output CLKOUTPHY; + output LOCKED; + (* invertible_pin = "IS_CLKFBIN_INVERTED" *) + input CLKFBIN; + (* invertible_pin = "IS_CLKIN_INVERTED" *) + input CLKIN; + input CLKOUTPHYEN; + (* invertible_pin = "IS_PWRDWN_INVERTED" *) + input PWRDWN; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; +endmodule + +module PLLE4_ADV (...); + parameter integer CLKFBOUT_MULT = 5; + parameter real CLKFBOUT_PHASE = 0.000; + parameter real CLKIN_FREQ_MAX = 1066.000; + parameter real CLKIN_FREQ_MIN = 70.000; + parameter real CLKIN_PERIOD = 0.000; + parameter integer CLKOUT0_DIVIDE = 1; + parameter real CLKOUT0_DUTY_CYCLE = 0.500; + parameter real CLKOUT0_PHASE = 0.000; + parameter integer CLKOUT1_DIVIDE = 1; + parameter real CLKOUT1_DUTY_CYCLE = 0.500; + parameter real CLKOUT1_PHASE = 0.000; + parameter CLKOUTPHY_MODE = "VCO_2X"; + parameter real CLKPFD_FREQ_MAX = 667.500; + parameter real CLKPFD_FREQ_MIN = 70.000; + parameter COMPENSATION = "AUTO"; + parameter integer DIVCLK_DIVIDE = 1; + parameter [0:0] IS_CLKFBIN_INVERTED = 1'b0; + parameter [0:0] IS_CLKIN_INVERTED = 1'b0; + parameter [0:0] IS_PWRDWN_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter real REF_JITTER = 0.010; + parameter STARTUP_WAIT = "FALSE"; + parameter real VCOCLK_FREQ_MAX = 1500.000; + parameter real VCOCLK_FREQ_MIN = 750.000; + parameter STARTUP_WAIT = "FALSE"; + output CLKFBOUT; + output CLKOUT0; + output CLKOUT0B; + output CLKOUT1; + output CLKOUT1B; + output CLKOUTPHY; + output [15:0] DO; + output DRDY; + output LOCKED; + (* invertible_pin = "IS_CLKFBIN_INVERTED" *) + input CLKFBIN; + (* invertible_pin = "IS_CLKIN_INVERTED" *) + input CLKIN; + input CLKOUTPHYEN; + input [6:0] DADDR; + input DCLK; + input DEN; + input [15:0] DI; + input DWE; + (* invertible_pin = "IS_PWRDWN_INVERTED" *) + input PWRDWN; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; +endmodule + +module PLLE4_BASE (...); + parameter integer CLKFBOUT_MULT = 5; + parameter real CLKFBOUT_PHASE = 0.000; + parameter real CLKIN_PERIOD = 0.000; + parameter integer CLKOUT0_DIVIDE = 1; + parameter real CLKOUT0_DUTY_CYCLE = 0.500; + parameter real CLKOUT0_PHASE = 0.000; + parameter integer CLKOUT1_DIVIDE = 1; + parameter real CLKOUT1_DUTY_CYCLE = 0.500; + parameter real CLKOUT1_PHASE = 0.000; + parameter CLKOUTPHY_MODE = "VCO_2X"; + parameter integer DIVCLK_DIVIDE = 1; + parameter [0:0] IS_CLKFBIN_INVERTED = 1'b0; + parameter [0:0] IS_CLKIN_INVERTED = 1'b0; + parameter [0:0] IS_PWRDWN_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter real REF_JITTER = 0.010; + parameter STARTUP_WAIT = "FALSE"; + output CLKFBOUT; + output CLKOUT0; + output CLKOUT0B; + output CLKOUT1; + output CLKOUT1B; + output CLKOUTPHY; + output LOCKED; + (* invertible_pin = "IS_CLKFBIN_INVERTED" *) + input CLKFBIN; + (* invertible_pin = "IS_CLKIN_INVERTED" *) + input CLKIN; + input CLKOUTPHYEN; + (* invertible_pin = "IS_PWRDWN_INVERTED" *) + input PWRDWN; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; +endmodule + +(* keep *) +module BSCANE2 (...); + parameter DISABLE_JTAG = "FALSE"; + parameter integer JTAG_CHAIN = 1; + output CAPTURE; + output DRCK; + output RESET; + output RUNTEST; + output SEL; + output SHIFT; + output TCK; + output TDI; + output TMS; + output UPDATE; + input TDO; +endmodule + +module DNA_PORTE2 (...); + parameter [95:0] SIM_DNA_VALUE = 96'h000000000000000000000000; + output DOUT; + input CLK; + input DIN; + input READ; + input SHIFT; +endmodule + +module EFUSE_USR (...); + parameter [31:0] SIM_EFUSE_VALUE = 32'h00000000; + output [31:0] EFUSEUSR; +endmodule + +module FRAME_ECCE3 (...); + output CRCERROR; + output ECCERRORNOTSINGLE; + output ECCERRORSINGLE; + output ENDOFFRAME; + output ENDOFSCAN; + output [25:0] FAR; + input [1:0] FARSEL; + input ICAPBOTCLK; + input ICAPTOPCLK; +endmodule + +(* keep *) +module ICAPE3 (...); + parameter [31:0] DEVICE_ID = 32'h03628093; + parameter ICAP_AUTO_SWITCH = "DISABLE"; + parameter SIM_CFG_FILE_NAME = "NONE"; + output AVAIL; + output [31:0] O; + output PRDONE; + output PRERROR; + input CLK; + input CSIB; + input RDWRB; + input [31:0] I; +endmodule + +(* keep *) +module MASTER_JTAG (...); + output TDO; + input TCK; + input TDI; + input TMS; +endmodule + +(* keep *) +module STARTUPE3 (...); + parameter PROG_USR = "FALSE"; + parameter real SIM_CCLK_FREQ = 0.0; + output CFGCLK; + output CFGMCLK; + output [3:0] DI; + output EOS; + output PREQ; + input [3:0] DO; + input [3:0] DTS; + input FCSBO; + input FCSBTS; + input GSR; + input GTS; + input KEYCLEARB; + input PACK; + input USRCCLKO; + input USRCCLKTS; + input USRDONEO; + input USRDONETS; +endmodule + +module USR_ACCESSE2 (...); + output CFGCLK; + output DATAVALID; + output [31:0] DATA; +endmodule + +(* keep *) +module BITSLICE_CONTROL (...); + parameter CTRL_CLK = "EXTERNAL"; + parameter DIV_MODE = "DIV2"; + parameter EN_CLK_TO_EXT_NORTH = "DISABLE"; + parameter EN_CLK_TO_EXT_SOUTH = "DISABLE"; + parameter EN_DYN_ODLY_MODE = "FALSE"; + parameter EN_OTHER_NCLK = "FALSE"; + parameter EN_OTHER_PCLK = "FALSE"; + parameter IDLY_VT_TRACK = "TRUE"; + parameter INV_RXCLK = "FALSE"; + parameter ODLY_VT_TRACK = "TRUE"; + parameter QDLY_VT_TRACK = "TRUE"; + parameter [5:0] READ_IDLE_COUNT = 6'h00; + parameter REFCLK_SRC = "PLLCLK"; + parameter integer ROUNDING_FACTOR = 16; + parameter RXGATE_EXTEND = "FALSE"; + parameter RX_CLK_PHASE_N = "SHIFT_0"; + parameter RX_CLK_PHASE_P = "SHIFT_0"; + parameter RX_GATING = "DISABLE"; + parameter SELF_CALIBRATE = "ENABLE"; + parameter SERIAL_MODE = "FALSE"; + parameter SIM_DEVICE = "ULTRASCALE"; + parameter SIM_SPEEDUP = "FAST"; + parameter real SIM_VERSION = 2.0; + parameter TX_GATING = "DISABLE"; + output CLK_TO_EXT_NORTH; + output CLK_TO_EXT_SOUTH; + output DLY_RDY; + output [6:0] DYN_DCI; + output NCLK_NIBBLE_OUT; + output PCLK_NIBBLE_OUT; + output [15:0] RIU_RD_DATA; + output RIU_VALID; + output [39:0] RX_BIT_CTRL_OUT0; + output [39:0] RX_BIT_CTRL_OUT1; + output [39:0] RX_BIT_CTRL_OUT2; + output [39:0] RX_BIT_CTRL_OUT3; + output [39:0] RX_BIT_CTRL_OUT4; + output [39:0] RX_BIT_CTRL_OUT5; + output [39:0] RX_BIT_CTRL_OUT6; + output [39:0] TX_BIT_CTRL_OUT0; + output [39:0] TX_BIT_CTRL_OUT1; + output [39:0] TX_BIT_CTRL_OUT2; + output [39:0] TX_BIT_CTRL_OUT3; + output [39:0] TX_BIT_CTRL_OUT4; + output [39:0] TX_BIT_CTRL_OUT5; + output [39:0] TX_BIT_CTRL_OUT6; + output [39:0] TX_BIT_CTRL_OUT_TRI; + output VTC_RDY; + input CLK_FROM_EXT; + input EN_VTC; + input NCLK_NIBBLE_IN; + input PCLK_NIBBLE_IN; + input [3:0] PHY_RDCS0; + input [3:0] PHY_RDCS1; + input [3:0] PHY_RDEN; + input [3:0] PHY_WRCS0; + input [3:0] PHY_WRCS1; + input PLL_CLK; + input REFCLK; + input [5:0] RIU_ADDR; + input RIU_CLK; + input RIU_NIBBLE_SEL; + input [15:0] RIU_WR_DATA; + input RIU_WR_EN; + input RST; + input [39:0] RX_BIT_CTRL_IN0; + input [39:0] RX_BIT_CTRL_IN1; + input [39:0] RX_BIT_CTRL_IN2; + input [39:0] RX_BIT_CTRL_IN3; + input [39:0] RX_BIT_CTRL_IN4; + input [39:0] RX_BIT_CTRL_IN5; + input [39:0] RX_BIT_CTRL_IN6; + input [3:0] TBYTE_IN; + input [39:0] TX_BIT_CTRL_IN0; + input [39:0] TX_BIT_CTRL_IN1; + input [39:0] TX_BIT_CTRL_IN2; + input [39:0] TX_BIT_CTRL_IN3; + input [39:0] TX_BIT_CTRL_IN4; + input [39:0] TX_BIT_CTRL_IN5; + input [39:0] TX_BIT_CTRL_IN6; + input [39:0] TX_BIT_CTRL_IN_TRI; +endmodule + +(* keep *) +module DCIRESET (...); + output LOCKED; + input RST; +endmodule + +module HPIO_VREF (...); + parameter VREF_CNTR = "OFF"; + output VREF; + input [6:0] FABRIC_VREF_TUNE; +endmodule + +module IBUF_ANALOG (...); + output O; + (* iopad_external_pin *) + input I; +endmodule + +module IBUF_IBUFDISABLE (...); + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SIM_DEVICE = "7SERIES"; + parameter USE_IBUFDISABLE = "TRUE"; + output O; + (* iopad_external_pin *) + input I; + input IBUFDISABLE; +endmodule + +module IBUF_INTERMDISABLE (...); + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SIM_DEVICE = "7SERIES"; + parameter USE_IBUFDISABLE = "TRUE"; + output O; + (* iopad_external_pin *) + input I; + input IBUFDISABLE; + input INTERMDISABLE; +endmodule + +module IBUFDS (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_DELAY_VALUE = "0"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IFD_DELAY_VALUE = "AUTO"; + parameter IOSTANDARD = "DEFAULT"; + output O; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; +endmodule + +module IBUFDS_DIFF_OUT (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + output O; + output OB; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; +endmodule + +module IBUFDS_DIFF_OUT_IBUFDISABLE (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SIM_DEVICE = "7SERIES"; + parameter USE_IBUFDISABLE = "TRUE"; + output O; + output OB; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; + input IBUFDISABLE; +endmodule + +module IBUFDS_DIFF_OUT_INTERMDISABLE (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SIM_DEVICE = "7SERIES"; + parameter USE_IBUFDISABLE = "TRUE"; + output O; + output OB; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; + input IBUFDISABLE; + input INTERMDISABLE; +endmodule + +module IBUFDS_DPHY (...); + parameter DIFF_TERM = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + output HSRX_O; + output LPRX_O_N; + output LPRX_O_P; + input HSRX_DISABLE; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; + input LPRX_DISABLE; +endmodule + +module IBUFDS_IBUFDISABLE (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SIM_DEVICE = "7SERIES"; + parameter USE_IBUFDISABLE = "TRUE"; + output O; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; + input IBUFDISABLE; +endmodule + +module IBUFDS_INTERMDISABLE (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SIM_DEVICE = "7SERIES"; + parameter USE_IBUFDISABLE = "TRUE"; + output O; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; + input IBUFDISABLE; + input INTERMDISABLE; +endmodule + +module IBUFDSE3 (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter USE_IBUFDISABLE = "FALSE"; + parameter integer SIM_INPUT_BUFFER_OFFSET = 0; + output O; + (* iopad_external_pin *) + input I; + (* iopad_external_pin *) + input IB; + input IBUFDISABLE; + input [3:0] OSC; + input [1:0] OSC_EN; +endmodule + +module IBUFE3 (...); + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter USE_IBUFDISABLE = "FALSE"; + parameter integer SIM_INPUT_BUFFER_OFFSET = 0; + output O; + (* iopad_external_pin *) + input I; + input IBUFDISABLE; + input [3:0] OSC; + input OSC_EN; + input VREF; +endmodule + +(* keep *) +module IDELAYCTRL (...); + parameter SIM_DEVICE = "7SERIES"; + output RDY; + (* clkbuf_sink *) + input REFCLK; + input RST; +endmodule + +module IDELAYE3 (...); + parameter CASCADE = "NONE"; + parameter DELAY_FORMAT = "TIME"; + parameter DELAY_SRC = "IDATAIN"; + parameter DELAY_TYPE = "FIXED"; + parameter integer DELAY_VALUE = 0; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter LOOPBACK = "FALSE"; + parameter real REFCLK_FREQUENCY = 300.0; + parameter SIM_DEVICE = "ULTRASCALE"; + parameter real SIM_VERSION = 2.0; + parameter UPDATE_MODE = "ASYNC"; + output CASC_OUT; + output [8:0] CNTVALUEOUT; + output DATAOUT; + input CASC_IN; + input CASC_RETURN; + input CE; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK; + input [8:0] CNTVALUEIN; + input DATAIN; + input EN_VTC; + input IDATAIN; + input INC; + input LOAD; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; +endmodule + +module IOBUF (...); + parameter integer DRIVE = 12; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SLEW = "SLOW"; + output O; + (* iopad_external_pin *) + inout IO; + input I; + input T; +endmodule + +module IOBUF_DCIEN (...); + parameter integer DRIVE = 12; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SIM_DEVICE = "7SERIES"; + parameter SLEW = "SLOW"; + parameter USE_IBUFDISABLE = "TRUE"; + output O; + (* iopad_external_pin *) + inout IO; + input DCITERMDISABLE; + input I; + input IBUFDISABLE; + input T; +endmodule + +module IOBUF_INTERMDISABLE (...); + parameter integer DRIVE = 12; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SIM_DEVICE = "7SERIES"; + parameter SLEW = "SLOW"; + parameter USE_IBUFDISABLE = "TRUE"; + output O; + (* iopad_external_pin *) + inout IO; + input I; + input IBUFDISABLE; + input INTERMDISABLE; + input T; +endmodule + +module IOBUFDS (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SLEW = "SLOW"; + output O; + (* iopad_external_pin *) + inout IO; + inout IOB; + input I; + input T; +endmodule + +module IOBUFDS_DCIEN (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SIM_DEVICE = "7SERIES"; + parameter SLEW = "SLOW"; + parameter USE_IBUFDISABLE = "TRUE"; + output O; + (* iopad_external_pin *) + inout IO; + (* iopad_external_pin *) + inout IOB; + input DCITERMDISABLE; + input I; + input IBUFDISABLE; + input T; +endmodule + +module IOBUFDS_DIFF_OUT (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + output O; + output OB; + (* iopad_external_pin *) + inout IO; + (* iopad_external_pin *) + inout IOB; + input I; + input TM; + input TS; +endmodule + +module IOBUFDS_DIFF_OUT_DCIEN (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SIM_DEVICE = "7SERIES"; + parameter USE_IBUFDISABLE = "TRUE"; + output O; + output OB; + (* iopad_external_pin *) + inout IO; + (* iopad_external_pin *) + inout IOB; + input DCITERMDISABLE; + input I; + input IBUFDISABLE; + input TM; + input TS; +endmodule + +module IOBUFDS_DIFF_OUT_INTERMDISABLE (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SIM_DEVICE = "7SERIES"; + parameter USE_IBUFDISABLE = "TRUE"; + output O; + output OB; + (* iopad_external_pin *) + inout IO; + (* iopad_external_pin *) + inout IOB; + input I; + input IBUFDISABLE; + input INTERMDISABLE; + input TM; + input TS; +endmodule + +module IOBUFDS_INTERMDISABLE (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SIM_DEVICE = "7SERIES"; + parameter SLEW = "SLOW"; + parameter USE_IBUFDISABLE = "TRUE"; + output O; + (* iopad_external_pin *) + inout IO; + (* iopad_external_pin *) + inout IOB; + input I; + input IBUFDISABLE; + input INTERMDISABLE; + input T; +endmodule + +module IOBUFDSE3 (...); + parameter DIFF_TERM = "FALSE"; + parameter DQS_BIAS = "FALSE"; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter integer SIM_INPUT_BUFFER_OFFSET = 0; + parameter USE_IBUFDISABLE = "FALSE"; + output O; + (* iopad_external_pin *) + inout IO; + inout IOB; + input DCITERMDISABLE; + input I; + input IBUFDISABLE; + input [3:0] OSC; + input [1:0] OSC_EN; + input T; +endmodule + +module IOBUFE3 (...); + parameter integer DRIVE = 12; + parameter IBUF_LOW_PWR = "TRUE"; + parameter IOSTANDARD = "DEFAULT"; + parameter USE_IBUFDISABLE = "FALSE"; + parameter integer SIM_INPUT_BUFFER_OFFSET = 0; + output O; + (* iopad_external_pin *) + inout IO; + input DCITERMDISABLE; + input I; + input IBUFDISABLE; + input [3:0] OSC; + input OSC_EN; + input T; + input VREF; +endmodule + +module ISERDESE3 (...); + parameter integer DATA_WIDTH = 8; + parameter DDR_CLK_EDGE = "OPPOSITE_EDGE"; + parameter FIFO_ENABLE = "FALSE"; + parameter FIFO_SYNC_MODE = "FALSE"; + parameter IDDR_MODE = "FALSE"; + parameter [0:0] IS_CLK_B_INVERTED = 1'b0; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter SIM_DEVICE = "ULTRASCALE"; + parameter real SIM_VERSION = 2.0; + output FIFO_EMPTY; + output INTERNAL_DIVCLK; + output [7:0] Q; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK; + (* clkbuf_sink *) + input CLKDIV; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_B_INVERTED" *) + input CLK_B; + input D; + (* clkbuf_sink *) + input FIFO_RD_CLK; + input FIFO_RD_EN; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; +endmodule + +module KEEPER (...); + inout O; +endmodule + +module OBUFDS (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SLEW = "SLOW"; + (* iopad_external_pin *) + output O; + (* iopad_external_pin *) + output OB; + input I; +endmodule + +module OBUFDS_DPHY (...); + parameter IOSTANDARD = "DEFAULT"; + (* iopad_external_pin *) + output O; + (* iopad_external_pin *) + output OB; + input HSTX_I; + input HSTX_T; + input LPTX_I_N; + input LPTX_I_P; + input LPTX_T; +endmodule + +module OBUFT (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter integer DRIVE = 12; + parameter IOSTANDARD = "DEFAULT"; + parameter SLEW = "SLOW"; + (* iopad_external_pin *) + output O; + input I; + input T; +endmodule + +module OBUFTDS (...); + parameter CAPACITANCE = "DONT_CARE"; + parameter IOSTANDARD = "DEFAULT"; + parameter SLEW = "SLOW"; + (* iopad_external_pin *) + output O; + (* iopad_external_pin *) + output OB; + input I; + input T; +endmodule + +module ODELAYE3 (...); + parameter CASCADE = "NONE"; + parameter DELAY_FORMAT = "TIME"; + parameter DELAY_TYPE = "FIXED"; + parameter integer DELAY_VALUE = 0; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter real REFCLK_FREQUENCY = 300.0; + parameter SIM_DEVICE = "ULTRASCALE"; + parameter real SIM_VERSION = 2.0; + parameter UPDATE_MODE = "ASYNC"; + output CASC_OUT; + output [8:0] CNTVALUEOUT; + output DATAOUT; + input CASC_IN; + input CASC_RETURN; + input CE; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK; + input [8:0] CNTVALUEIN; + input EN_VTC; + input INC; + input LOAD; + input ODATAIN; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; +endmodule + +module OSERDESE3 (...); + parameter integer DATA_WIDTH = 8; + parameter [0:0] INIT = 1'b0; + parameter [0:0] IS_CLKDIV_INVERTED = 1'b0; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter ODDR_MODE = "FALSE"; + parameter OSERDES_D_BYPASS = "FALSE"; + parameter OSERDES_T_BYPASS = "FALSE"; + parameter SIM_DEVICE = "ULTRASCALE"; + parameter real SIM_VERSION = 2.0; + output OQ; + output T_OUT; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLKDIV_INVERTED" *) + input CLKDIV; + input [7:0] D; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; + input T; +endmodule + +module PULLDOWN (...); + output O; +endmodule + +module PULLUP (...); + output O; +endmodule + +module RIU_OR (...); + parameter SIM_DEVICE = "ULTRASCALE"; + parameter real SIM_VERSION = 2.0; + output [15:0] RIU_RD_DATA; + output RIU_RD_VALID; + input [15:0] RIU_RD_DATA_LOW; + input [15:0] RIU_RD_DATA_UPP; + input RIU_RD_VALID_LOW; + input RIU_RD_VALID_UPP; +endmodule + +module RX_BITSLICE (...); + parameter CASCADE = "TRUE"; + parameter DATA_TYPE = "NONE"; + parameter integer DATA_WIDTH = 8; + parameter DELAY_FORMAT = "TIME"; + parameter DELAY_TYPE = "FIXED"; + parameter integer DELAY_VALUE = 0; + parameter integer DELAY_VALUE_EXT = 0; + parameter FIFO_SYNC_MODE = "FALSE"; + parameter [0:0] IS_CLK_EXT_INVERTED = 1'b0; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + parameter [0:0] IS_RST_DLY_EXT_INVERTED = 1'b0; + parameter [0:0] IS_RST_DLY_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter real REFCLK_FREQUENCY = 300.0; + parameter SIM_DEVICE = "ULTRASCALE"; + parameter real SIM_VERSION = 2.0; + parameter UPDATE_MODE = "ASYNC"; + parameter UPDATE_MODE_EXT = "ASYNC"; + output [8:0] CNTVALUEOUT; + output [8:0] CNTVALUEOUT_EXT; + output FIFO_EMPTY; + output FIFO_WRCLK_OUT; + output [7:0] Q; + output [39:0] RX_BIT_CTRL_OUT; + output [39:0] TX_BIT_CTRL_OUT; + input CE; + input CE_EXT; + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK; + (* invertible_pin = "IS_CLK_EXT_INVERTED" *) + input CLK_EXT; + input [8:0] CNTVALUEIN; + input [8:0] CNTVALUEIN_EXT; + input DATAIN; + input EN_VTC; + input EN_VTC_EXT; + input FIFO_RD_CLK; + input FIFO_RD_EN; + input INC; + input INC_EXT; + input LOAD; + input LOAD_EXT; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; + (* invertible_pin = "IS_RST_DLY_INVERTED" *) + input RST_DLY; + (* invertible_pin = "IS_RST_DLY_EXT_INVERTED" *) + input RST_DLY_EXT; + input [39:0] RX_BIT_CTRL_IN; + input [39:0] TX_BIT_CTRL_IN; +endmodule + +module RXTX_BITSLICE (...); + parameter FIFO_SYNC_MODE = "FALSE"; + parameter [0:0] INIT = 1'b1; + parameter [0:0] IS_RX_CLK_INVERTED = 1'b0; + parameter [0:0] IS_RX_RST_DLY_INVERTED = 1'b0; + parameter [0:0] IS_RX_RST_INVERTED = 1'b0; + parameter [0:0] IS_TX_CLK_INVERTED = 1'b0; + parameter [0:0] IS_TX_RST_DLY_INVERTED = 1'b0; + parameter [0:0] IS_TX_RST_INVERTED = 1'b0; + parameter LOOPBACK = "FALSE"; + parameter NATIVE_ODELAY_BYPASS = "FALSE"; + parameter ENABLE_PRE_EMPHASIS = "FALSE"; + parameter RX_DATA_TYPE = "NONE"; + parameter integer RX_DATA_WIDTH = 8; + parameter RX_DELAY_FORMAT = "TIME"; + parameter RX_DELAY_TYPE = "FIXED"; + parameter integer RX_DELAY_VALUE = 0; + parameter real RX_REFCLK_FREQUENCY = 300.0; + parameter RX_UPDATE_MODE = "ASYNC"; + parameter SIM_DEVICE = "ULTRASCALE"; + parameter real SIM_VERSION = 2.0; + parameter TBYTE_CTL = "TBYTE_IN"; + parameter integer TX_DATA_WIDTH = 8; + parameter TX_DELAY_FORMAT = "TIME"; + parameter TX_DELAY_TYPE = "FIXED"; + parameter integer TX_DELAY_VALUE = 0; + parameter TX_OUTPUT_PHASE_90 = "FALSE"; + parameter real TX_REFCLK_FREQUENCY = 300.0; + parameter TX_UPDATE_MODE = "ASYNC"; + output FIFO_EMPTY; + output FIFO_WRCLK_OUT; + output O; + output [7:0] Q; + output [39:0] RX_BIT_CTRL_OUT; + output [8:0] RX_CNTVALUEOUT; + output [39:0] TX_BIT_CTRL_OUT; + output [8:0] TX_CNTVALUEOUT; + output T_OUT; + input [7:0] D; + input DATAIN; + input FIFO_RD_CLK; + input FIFO_RD_EN; + input [39:0] RX_BIT_CTRL_IN; + input RX_CE; + (* invertible_pin = "IS_RX_CLK_INVERTED" *) + input RX_CLK; + input [8:0] RX_CNTVALUEIN; + input RX_EN_VTC; + input RX_INC; + input RX_LOAD; + (* invertible_pin = "IS_RX_RST_INVERTED" *) + input RX_RST; + (* invertible_pin = "IS_RX_RST_DLY_INVERTED" *) + input RX_RST_DLY; + input T; + input TBYTE_IN; + input [39:0] TX_BIT_CTRL_IN; + input TX_CE; + (* invertible_pin = "IS_TX_CLK_INVERTED" *) + input TX_CLK; + input [8:0] TX_CNTVALUEIN; + input TX_EN_VTC; + input TX_INC; + input TX_LOAD; + (* invertible_pin = "IS_TX_RST_INVERTED" *) + input TX_RST; + (* invertible_pin = "IS_TX_RST_DLY_INVERTED" *) + input TX_RST_DLY; +endmodule + +module TX_BITSLICE (...); + parameter integer DATA_WIDTH = 8; + parameter DELAY_FORMAT = "TIME"; + parameter DELAY_TYPE = "FIXED"; + parameter integer DELAY_VALUE = 0; + parameter ENABLE_PRE_EMPHASIS = "FALSE"; + parameter [0:0] INIT = 1'b1; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + parameter [0:0] IS_RST_DLY_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter NATIVE_ODELAY_BYPASS = "FALSE"; + parameter OUTPUT_PHASE_90 = "FALSE"; + parameter real REFCLK_FREQUENCY = 300.0; + parameter SIM_DEVICE = "ULTRASCALE"; + parameter real SIM_VERSION = 2.0; + parameter TBYTE_CTL = "TBYTE_IN"; + parameter UPDATE_MODE = "ASYNC"; + output [8:0] CNTVALUEOUT; + output O; + output [39:0] RX_BIT_CTRL_OUT; + output [39:0] TX_BIT_CTRL_OUT; + output T_OUT; + input CE; + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK; + input [8:0] CNTVALUEIN; + input [7:0] D; + input EN_VTC; + input INC; + input LOAD; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; + (* invertible_pin = "IS_RST_DLY_INVERTED" *) + input RST_DLY; + input [39:0] RX_BIT_CTRL_IN; + input T; + input TBYTE_IN; + input [39:0] TX_BIT_CTRL_IN; +endmodule + +module TX_BITSLICE_TRI (...); + parameter integer DATA_WIDTH = 8; + parameter DELAY_FORMAT = "TIME"; + parameter DELAY_TYPE = "FIXED"; + parameter integer DELAY_VALUE = 0; + parameter [0:0] INIT = 1'b1; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + parameter [0:0] IS_RST_DLY_INVERTED = 1'b0; + parameter [0:0] IS_RST_INVERTED = 1'b0; + parameter NATIVE_ODELAY_BYPASS = "FALSE"; + parameter OUTPUT_PHASE_90 = "FALSE"; + parameter real REFCLK_FREQUENCY = 300.0; + parameter SIM_DEVICE = "ULTRASCALE"; + parameter real SIM_VERSION = 2.0; + parameter UPDATE_MODE = "ASYNC"; + output [39:0] BIT_CTRL_OUT; + output [8:0] CNTVALUEOUT; + output TRI_OUT; + input [39:0] BIT_CTRL_IN; + input CE; + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK; + input [8:0] CNTVALUEIN; + input EN_VTC; + input INC; + input LOAD; + (* invertible_pin = "IS_RST_INVERTED" *) + input RST; + (* invertible_pin = "IS_RST_DLY_INVERTED" *) + input RST_DLY; +endmodule + +module HARD_SYNC (...); + parameter [0:0] INIT = 1'b0; + parameter [0:0] IS_CLK_INVERTED = 1'b0; + parameter integer LATENCY = 2; + output DOUT; + (* clkbuf_sink *) + (* invertible_pin = "IS_CLK_INVERTED" *) + input CLK; + input DIN; +endmodule + +module IDDRE1 (...); + parameter DDR_CLK_EDGE = "OPPOSITE_EDGE"; + parameter [0:0] IS_CB_INVERTED = 1'b0; + parameter [0:0] IS_C_INVERTED = 1'b0; + output Q1; + output Q2; + (* clkbuf_sink *) + (* invertible_pin = "IS_C_INVERTED" *) + input C; + (* clkbuf_sink *) + (* invertible_pin = "IS_CB_INVERTED" *) + input CB; + input D; + input R; +endmodule + +module LDCE (...); + parameter [0:0] INIT = 1'b0; + parameter [0:0] IS_CLR_INVERTED = 1'b0; + parameter [0:0] IS_G_INVERTED = 1'b0; + parameter MSGON = "TRUE"; + parameter XON = "TRUE"; + output Q; + (* invertible_pin = "IS_CLR_INVERTED" *) + input CLR; + input D; + (* invertible_pin = "IS_G_INVERTED" *) + input G; + input GE; +endmodule + +module LDPE (...); + parameter [0:0] INIT = 1'b1; + parameter [0:0] IS_G_INVERTED = 1'b0; + parameter [0:0] IS_PRE_INVERTED = 1'b0; + parameter MSGON = "TRUE"; + parameter XON = "TRUE"; + output Q; + input D; + (* invertible_pin = "IS_G_INVERTED" *) + input G; + input GE; + (* invertible_pin = "IS_PRE_INVERTED" *) + input PRE; +endmodule + +module ODDRE1 (...); + parameter [0:0] IS_C_INVERTED = 1'b0; + parameter [0:0] IS_D1_INVERTED = 1'b0; + parameter [0:0] IS_D2_INVERTED = 1'b0; + parameter [0:0] SRVAL = 1'b0; + output Q; + (* clkbuf_sink *) + (* invertible_pin = "IS_C_INVERTED" *) + input C; + (* invertible_pin = "IS_D1_INVERTED" *) + input D1; + (* invertible_pin = "IS_D2_INVERTED" *) + input D2; + input SR; +endmodule + +(* keep *) +module PS8 (...); + output [7:0] ADMA2PLCACK; + output [7:0] ADMA2PLTVLD; + output DPAUDIOREFCLK; + output DPAUXDATAOEN; + output DPAUXDATAOUT; + output DPLIVEVIDEODEOUT; + output [31:0] DPMAXISMIXEDAUDIOTDATA; + output DPMAXISMIXEDAUDIOTID; + output DPMAXISMIXEDAUDIOTVALID; + output DPSAXISAUDIOTREADY; + output DPVIDEOOUTHSYNC; + output [35:0] DPVIDEOOUTPIXEL1; + output DPVIDEOOUTVSYNC; + output DPVIDEOREFCLK; + output EMIOCAN0PHYTX; + output EMIOCAN1PHYTX; + output [1:0] EMIOENET0DMABUSWIDTH; + output EMIOENET0DMATXENDTOG; + output [93:0] EMIOENET0GEMTSUTIMERCNT; + output [7:0] EMIOENET0GMIITXD; + output EMIOENET0GMIITXEN; + output EMIOENET0GMIITXER; + output EMIOENET0MDIOMDC; + output EMIOENET0MDIOO; + output EMIOENET0MDIOTN; + output [7:0] EMIOENET0RXWDATA; + output EMIOENET0RXWEOP; + output EMIOENET0RXWERR; + output EMIOENET0RXWFLUSH; + output EMIOENET0RXWSOP; + output [44:0] EMIOENET0RXWSTATUS; + output EMIOENET0RXWWR; + output [2:0] EMIOENET0SPEEDMODE; + output EMIOENET0TXRRD; + output [3:0] EMIOENET0TXRSTATUS; + output [1:0] EMIOENET1DMABUSWIDTH; + output EMIOENET1DMATXENDTOG; + output [7:0] EMIOENET1GMIITXD; + output EMIOENET1GMIITXEN; + output EMIOENET1GMIITXER; + output EMIOENET1MDIOMDC; + output EMIOENET1MDIOO; + output EMIOENET1MDIOTN; + output [7:0] EMIOENET1RXWDATA; + output EMIOENET1RXWEOP; + output EMIOENET1RXWERR; + output EMIOENET1RXWFLUSH; + output EMIOENET1RXWSOP; + output [44:0] EMIOENET1RXWSTATUS; + output EMIOENET1RXWWR; + output [2:0] EMIOENET1SPEEDMODE; + output EMIOENET1TXRRD; + output [3:0] EMIOENET1TXRSTATUS; + output [1:0] EMIOENET2DMABUSWIDTH; + output EMIOENET2DMATXENDTOG; + output [7:0] EMIOENET2GMIITXD; + output EMIOENET2GMIITXEN; + output EMIOENET2GMIITXER; + output EMIOENET2MDIOMDC; + output EMIOENET2MDIOO; + output EMIOENET2MDIOTN; + output [7:0] EMIOENET2RXWDATA; + output EMIOENET2RXWEOP; + output EMIOENET2RXWERR; + output EMIOENET2RXWFLUSH; + output EMIOENET2RXWSOP; + output [44:0] EMIOENET2RXWSTATUS; + output EMIOENET2RXWWR; + output [2:0] EMIOENET2SPEEDMODE; + output EMIOENET2TXRRD; + output [3:0] EMIOENET2TXRSTATUS; + output [1:0] EMIOENET3DMABUSWIDTH; + output EMIOENET3DMATXENDTOG; + output [7:0] EMIOENET3GMIITXD; + output EMIOENET3GMIITXEN; + output EMIOENET3GMIITXER; + output EMIOENET3MDIOMDC; + output EMIOENET3MDIOO; + output EMIOENET3MDIOTN; + output [7:0] EMIOENET3RXWDATA; + output EMIOENET3RXWEOP; + output EMIOENET3RXWERR; + output EMIOENET3RXWFLUSH; + output EMIOENET3RXWSOP; + output [44:0] EMIOENET3RXWSTATUS; + output EMIOENET3RXWWR; + output [2:0] EMIOENET3SPEEDMODE; + output EMIOENET3TXRRD; + output [3:0] EMIOENET3TXRSTATUS; + output EMIOGEM0DELAYREQRX; + output EMIOGEM0DELAYREQTX; + output EMIOGEM0PDELAYREQRX; + output EMIOGEM0PDELAYREQTX; + output EMIOGEM0PDELAYRESPRX; + output EMIOGEM0PDELAYRESPTX; + output EMIOGEM0RXSOF; + output EMIOGEM0SYNCFRAMERX; + output EMIOGEM0SYNCFRAMETX; + output EMIOGEM0TSUTIMERCMPVAL; + output EMIOGEM0TXRFIXEDLAT; + output EMIOGEM0TXSOF; + output EMIOGEM1DELAYREQRX; + output EMIOGEM1DELAYREQTX; + output EMIOGEM1PDELAYREQRX; + output EMIOGEM1PDELAYREQTX; + output EMIOGEM1PDELAYRESPRX; + output EMIOGEM1PDELAYRESPTX; + output EMIOGEM1RXSOF; + output EMIOGEM1SYNCFRAMERX; + output EMIOGEM1SYNCFRAMETX; + output EMIOGEM1TSUTIMERCMPVAL; + output EMIOGEM1TXRFIXEDLAT; + output EMIOGEM1TXSOF; + output EMIOGEM2DELAYREQRX; + output EMIOGEM2DELAYREQTX; + output EMIOGEM2PDELAYREQRX; + output EMIOGEM2PDELAYREQTX; + output EMIOGEM2PDELAYRESPRX; + output EMIOGEM2PDELAYRESPTX; + output EMIOGEM2RXSOF; + output EMIOGEM2SYNCFRAMERX; + output EMIOGEM2SYNCFRAMETX; + output EMIOGEM2TSUTIMERCMPVAL; + output EMIOGEM2TXRFIXEDLAT; + output EMIOGEM2TXSOF; + output EMIOGEM3DELAYREQRX; + output EMIOGEM3DELAYREQTX; + output EMIOGEM3PDELAYREQRX; + output EMIOGEM3PDELAYREQTX; + output EMIOGEM3PDELAYRESPRX; + output EMIOGEM3PDELAYRESPTX; + output EMIOGEM3RXSOF; + output EMIOGEM3SYNCFRAMERX; + output EMIOGEM3SYNCFRAMETX; + output EMIOGEM3TSUTIMERCMPVAL; + output EMIOGEM3TXRFIXEDLAT; + output EMIOGEM3TXSOF; + output [95:0] EMIOGPIOO; + output [95:0] EMIOGPIOTN; + output EMIOI2C0SCLO; + output EMIOI2C0SCLTN; + output EMIOI2C0SDAO; + output EMIOI2C0SDATN; + output EMIOI2C1SCLO; + output EMIOI2C1SCLTN; + output EMIOI2C1SDAO; + output EMIOI2C1SDATN; + output EMIOSDIO0BUSPOWER; + output [2:0] EMIOSDIO0BUSVOLT; + output EMIOSDIO0CLKOUT; + output EMIOSDIO0CMDENA; + output EMIOSDIO0CMDOUT; + output [7:0] EMIOSDIO0DATAENA; + output [7:0] EMIOSDIO0DATAOUT; + output EMIOSDIO0LEDCONTROL; + output EMIOSDIO1BUSPOWER; + output [2:0] EMIOSDIO1BUSVOLT; + output EMIOSDIO1CLKOUT; + output EMIOSDIO1CMDENA; + output EMIOSDIO1CMDOUT; + output [7:0] EMIOSDIO1DATAENA; + output [7:0] EMIOSDIO1DATAOUT; + output EMIOSDIO1LEDCONTROL; + output EMIOSPI0MO; + output EMIOSPI0MOTN; + output EMIOSPI0SCLKO; + output EMIOSPI0SCLKTN; + output EMIOSPI0SO; + output EMIOSPI0SSNTN; + output [2:0] EMIOSPI0SSON; + output EMIOSPI0STN; + output EMIOSPI1MO; + output EMIOSPI1MOTN; + output EMIOSPI1SCLKO; + output EMIOSPI1SCLKTN; + output EMIOSPI1SO; + output EMIOSPI1SSNTN; + output [2:0] EMIOSPI1SSON; + output EMIOSPI1STN; + output [2:0] EMIOTTC0WAVEO; + output [2:0] EMIOTTC1WAVEO; + output [2:0] EMIOTTC2WAVEO; + output [2:0] EMIOTTC3WAVEO; + output EMIOU2DSPORTVBUSCTRLUSB30; + output EMIOU2DSPORTVBUSCTRLUSB31; + output EMIOU3DSPORTVBUSCTRLUSB30; + output EMIOU3DSPORTVBUSCTRLUSB31; + output EMIOUART0DTRN; + output EMIOUART0RTSN; + output EMIOUART0TX; + output EMIOUART1DTRN; + output EMIOUART1RTSN; + output EMIOUART1TX; + output EMIOWDT0RSTO; + output EMIOWDT1RSTO; + output FMIOGEM0FIFORXCLKTOPLBUFG; + output FMIOGEM0FIFOTXCLKTOPLBUFG; + output FMIOGEM1FIFORXCLKTOPLBUFG; + output FMIOGEM1FIFOTXCLKTOPLBUFG; + output FMIOGEM2FIFORXCLKTOPLBUFG; + output FMIOGEM2FIFOTXCLKTOPLBUFG; + output FMIOGEM3FIFORXCLKTOPLBUFG; + output FMIOGEM3FIFOTXCLKTOPLBUFG; + output FMIOGEMTSUCLKTOPLBUFG; + output [31:0] FTMGPO; + output [7:0] GDMA2PLCACK; + output [7:0] GDMA2PLTVLD; + output [39:0] MAXIGP0ARADDR; + output [1:0] MAXIGP0ARBURST; + output [3:0] MAXIGP0ARCACHE; + output [15:0] MAXIGP0ARID; + output [7:0] MAXIGP0ARLEN; + output MAXIGP0ARLOCK; + output [2:0] MAXIGP0ARPROT; + output [3:0] MAXIGP0ARQOS; + output [2:0] MAXIGP0ARSIZE; + output [15:0] MAXIGP0ARUSER; + output MAXIGP0ARVALID; + output [39:0] MAXIGP0AWADDR; + output [1:0] MAXIGP0AWBURST; + output [3:0] MAXIGP0AWCACHE; + output [15:0] MAXIGP0AWID; + output [7:0] MAXIGP0AWLEN; + output MAXIGP0AWLOCK; + output [2:0] MAXIGP0AWPROT; + output [3:0] MAXIGP0AWQOS; + output [2:0] MAXIGP0AWSIZE; + output [15:0] MAXIGP0AWUSER; + output MAXIGP0AWVALID; + output MAXIGP0BREADY; + output MAXIGP0RREADY; + output [127:0] MAXIGP0WDATA; + output MAXIGP0WLAST; + output [15:0] MAXIGP0WSTRB; + output MAXIGP0WVALID; + output [39:0] MAXIGP1ARADDR; + output [1:0] MAXIGP1ARBURST; + output [3:0] MAXIGP1ARCACHE; + output [15:0] MAXIGP1ARID; + output [7:0] MAXIGP1ARLEN; + output MAXIGP1ARLOCK; + output [2:0] MAXIGP1ARPROT; + output [3:0] MAXIGP1ARQOS; + output [2:0] MAXIGP1ARSIZE; + output [15:0] MAXIGP1ARUSER; + output MAXIGP1ARVALID; + output [39:0] MAXIGP1AWADDR; + output [1:0] MAXIGP1AWBURST; + output [3:0] MAXIGP1AWCACHE; + output [15:0] MAXIGP1AWID; + output [7:0] MAXIGP1AWLEN; + output MAXIGP1AWLOCK; + output [2:0] MAXIGP1AWPROT; + output [3:0] MAXIGP1AWQOS; + output [2:0] MAXIGP1AWSIZE; + output [15:0] MAXIGP1AWUSER; + output MAXIGP1AWVALID; + output MAXIGP1BREADY; + output MAXIGP1RREADY; + output [127:0] MAXIGP1WDATA; + output MAXIGP1WLAST; + output [15:0] MAXIGP1WSTRB; + output MAXIGP1WVALID; + output [39:0] MAXIGP2ARADDR; + output [1:0] MAXIGP2ARBURST; + output [3:0] MAXIGP2ARCACHE; + output [15:0] MAXIGP2ARID; + output [7:0] MAXIGP2ARLEN; + output MAXIGP2ARLOCK; + output [2:0] MAXIGP2ARPROT; + output [3:0] MAXIGP2ARQOS; + output [2:0] MAXIGP2ARSIZE; + output [15:0] MAXIGP2ARUSER; + output MAXIGP2ARVALID; + output [39:0] MAXIGP2AWADDR; + output [1:0] MAXIGP2AWBURST; + output [3:0] MAXIGP2AWCACHE; + output [15:0] MAXIGP2AWID; + output [7:0] MAXIGP2AWLEN; + output MAXIGP2AWLOCK; + output [2:0] MAXIGP2AWPROT; + output [3:0] MAXIGP2AWQOS; + output [2:0] MAXIGP2AWSIZE; + output [15:0] MAXIGP2AWUSER; + output MAXIGP2AWVALID; + output MAXIGP2BREADY; + output MAXIGP2RREADY; + output [127:0] MAXIGP2WDATA; + output MAXIGP2WLAST; + output [15:0] MAXIGP2WSTRB; + output MAXIGP2WVALID; + output OSCRTCCLK; + output [3:0] PLCLK; + output PMUAIBAFIFMFPDREQ; + output PMUAIBAFIFMLPDREQ; + output [46:0] PMUERRORTOPL; + output [31:0] PMUPLGPO; + output PSPLEVENTO; + output [63:0] PSPLIRQFPD; + output [99:0] PSPLIRQLPD; + output [3:0] PSPLSTANDBYWFE; + output [3:0] PSPLSTANDBYWFI; + output PSPLTRACECTL; + output [31:0] PSPLTRACEDATA; + output [3:0] PSPLTRIGACK; + output [3:0] PSPLTRIGGER; + output PSS_ALTO_CORE_PAD_MGTTXN0OUT; + output PSS_ALTO_CORE_PAD_MGTTXN1OUT; + output PSS_ALTO_CORE_PAD_MGTTXN2OUT; + output PSS_ALTO_CORE_PAD_MGTTXN3OUT; + output PSS_ALTO_CORE_PAD_MGTTXP0OUT; + output PSS_ALTO_CORE_PAD_MGTTXP1OUT; + output PSS_ALTO_CORE_PAD_MGTTXP2OUT; + output PSS_ALTO_CORE_PAD_MGTTXP3OUT; + output PSS_ALTO_CORE_PAD_PADO; + output RPUEVENTO0; + output RPUEVENTO1; + output [43:0] SACEFPDACADDR; + output [2:0] SACEFPDACPROT; + output [3:0] SACEFPDACSNOOP; + output SACEFPDACVALID; + output SACEFPDARREADY; + output SACEFPDAWREADY; + output [5:0] SACEFPDBID; + output [1:0] SACEFPDBRESP; + output SACEFPDBUSER; + output SACEFPDBVALID; + output SACEFPDCDREADY; + output SACEFPDCRREADY; + output [127:0] SACEFPDRDATA; + output [5:0] SACEFPDRID; + output SACEFPDRLAST; + output [3:0] SACEFPDRRESP; + output SACEFPDRUSER; + output SACEFPDRVALID; + output SACEFPDWREADY; + output SAXIACPARREADY; + output SAXIACPAWREADY; + output [4:0] SAXIACPBID; + output [1:0] SAXIACPBRESP; + output SAXIACPBVALID; + output [127:0] SAXIACPRDATA; + output [4:0] SAXIACPRID; + output SAXIACPRLAST; + output [1:0] SAXIACPRRESP; + output SAXIACPRVALID; + output SAXIACPWREADY; + output SAXIGP0ARREADY; + output SAXIGP0AWREADY; + output [5:0] SAXIGP0BID; + output [1:0] SAXIGP0BRESP; + output SAXIGP0BVALID; + output [3:0] SAXIGP0RACOUNT; + output [7:0] SAXIGP0RCOUNT; + output [127:0] SAXIGP0RDATA; + output [5:0] SAXIGP0RID; + output SAXIGP0RLAST; + output [1:0] SAXIGP0RRESP; + output SAXIGP0RVALID; + output [3:0] SAXIGP0WACOUNT; + output [7:0] SAXIGP0WCOUNT; + output SAXIGP0WREADY; + output SAXIGP1ARREADY; + output SAXIGP1AWREADY; + output [5:0] SAXIGP1BID; + output [1:0] SAXIGP1BRESP; + output SAXIGP1BVALID; + output [3:0] SAXIGP1RACOUNT; + output [7:0] SAXIGP1RCOUNT; + output [127:0] SAXIGP1RDATA; + output [5:0] SAXIGP1RID; + output SAXIGP1RLAST; + output [1:0] SAXIGP1RRESP; + output SAXIGP1RVALID; + output [3:0] SAXIGP1WACOUNT; + output [7:0] SAXIGP1WCOUNT; + output SAXIGP1WREADY; + output SAXIGP2ARREADY; + output SAXIGP2AWREADY; + output [5:0] SAXIGP2BID; + output [1:0] SAXIGP2BRESP; + output SAXIGP2BVALID; + output [3:0] SAXIGP2RACOUNT; + output [7:0] SAXIGP2RCOUNT; + output [127:0] SAXIGP2RDATA; + output [5:0] SAXIGP2RID; + output SAXIGP2RLAST; + output [1:0] SAXIGP2RRESP; + output SAXIGP2RVALID; + output [3:0] SAXIGP2WACOUNT; + output [7:0] SAXIGP2WCOUNT; + output SAXIGP2WREADY; + output SAXIGP3ARREADY; + output SAXIGP3AWREADY; + output [5:0] SAXIGP3BID; + output [1:0] SAXIGP3BRESP; + output SAXIGP3BVALID; + output [3:0] SAXIGP3RACOUNT; + output [7:0] SAXIGP3RCOUNT; + output [127:0] SAXIGP3RDATA; + output [5:0] SAXIGP3RID; + output SAXIGP3RLAST; + output [1:0] SAXIGP3RRESP; + output SAXIGP3RVALID; + output [3:0] SAXIGP3WACOUNT; + output [7:0] SAXIGP3WCOUNT; + output SAXIGP3WREADY; + output SAXIGP4ARREADY; + output SAXIGP4AWREADY; + output [5:0] SAXIGP4BID; + output [1:0] SAXIGP4BRESP; + output SAXIGP4BVALID; + output [3:0] SAXIGP4RACOUNT; + output [7:0] SAXIGP4RCOUNT; + output [127:0] SAXIGP4RDATA; + output [5:0] SAXIGP4RID; + output SAXIGP4RLAST; + output [1:0] SAXIGP4RRESP; + output SAXIGP4RVALID; + output [3:0] SAXIGP4WACOUNT; + output [7:0] SAXIGP4WCOUNT; + output SAXIGP4WREADY; + output SAXIGP5ARREADY; + output SAXIGP5AWREADY; + output [5:0] SAXIGP5BID; + output [1:0] SAXIGP5BRESP; + output SAXIGP5BVALID; + output [3:0] SAXIGP5RACOUNT; + output [7:0] SAXIGP5RCOUNT; + output [127:0] SAXIGP5RDATA; + output [5:0] SAXIGP5RID; + output SAXIGP5RLAST; + output [1:0] SAXIGP5RRESP; + output SAXIGP5RVALID; + output [3:0] SAXIGP5WACOUNT; + output [7:0] SAXIGP5WCOUNT; + output SAXIGP5WREADY; + output SAXIGP6ARREADY; + output SAXIGP6AWREADY; + output [5:0] SAXIGP6BID; + output [1:0] SAXIGP6BRESP; + output SAXIGP6BVALID; + output [3:0] SAXIGP6RACOUNT; + output [7:0] SAXIGP6RCOUNT; + output [127:0] SAXIGP6RDATA; + output [5:0] SAXIGP6RID; + output SAXIGP6RLAST; + output [1:0] SAXIGP6RRESP; + output SAXIGP6RVALID; + output [3:0] SAXIGP6WACOUNT; + output [7:0] SAXIGP6WCOUNT; + output SAXIGP6WREADY; + inout [3:0] PSS_ALTO_CORE_PAD_BOOTMODE; + inout PSS_ALTO_CORE_PAD_CLK; + inout PSS_ALTO_CORE_PAD_DONEB; + inout [17:0] PSS_ALTO_CORE_PAD_DRAMA; + inout PSS_ALTO_CORE_PAD_DRAMACTN; + inout PSS_ALTO_CORE_PAD_DRAMALERTN; + inout [1:0] PSS_ALTO_CORE_PAD_DRAMBA; + inout [1:0] PSS_ALTO_CORE_PAD_DRAMBG; + inout [1:0] PSS_ALTO_CORE_PAD_DRAMCK; + inout [1:0] PSS_ALTO_CORE_PAD_DRAMCKE; + inout [1:0] PSS_ALTO_CORE_PAD_DRAMCKN; + inout [1:0] PSS_ALTO_CORE_PAD_DRAMCSN; + inout [8:0] PSS_ALTO_CORE_PAD_DRAMDM; + inout [71:0] PSS_ALTO_CORE_PAD_DRAMDQ; + inout [8:0] PSS_ALTO_CORE_PAD_DRAMDQS; + inout [8:0] PSS_ALTO_CORE_PAD_DRAMDQSN; + inout [1:0] PSS_ALTO_CORE_PAD_DRAMODT; + inout PSS_ALTO_CORE_PAD_DRAMPARITY; + inout PSS_ALTO_CORE_PAD_DRAMRAMRSTN; + inout PSS_ALTO_CORE_PAD_ERROROUT; + inout PSS_ALTO_CORE_PAD_ERRORSTATUS; + inout PSS_ALTO_CORE_PAD_INITB; + inout PSS_ALTO_CORE_PAD_JTAGTCK; + inout PSS_ALTO_CORE_PAD_JTAGTDI; + inout PSS_ALTO_CORE_PAD_JTAGTDO; + inout PSS_ALTO_CORE_PAD_JTAGTMS; + inout [77:0] PSS_ALTO_CORE_PAD_MIO; + inout PSS_ALTO_CORE_PAD_PORB; + inout PSS_ALTO_CORE_PAD_PROGB; + inout PSS_ALTO_CORE_PAD_RCALIBINOUT; + inout PSS_ALTO_CORE_PAD_SRSTB; + inout PSS_ALTO_CORE_PAD_ZQ; + input [7:0] ADMAFCICLK; + input AIBPMUAFIFMFPDACK; + input AIBPMUAFIFMLPDACK; + input DDRCEXTREFRESHRANK0REQ; + input DDRCEXTREFRESHRANK1REQ; + input DDRCREFRESHPLCLK; + input DPAUXDATAIN; + input DPEXTERNALCUSTOMEVENT1; + input DPEXTERNALCUSTOMEVENT2; + input DPEXTERNALVSYNCEVENT; + input DPHOTPLUGDETECT; + input [7:0] DPLIVEGFXALPHAIN; + input [35:0] DPLIVEGFXPIXEL1IN; + input DPLIVEVIDEOINDE; + input DPLIVEVIDEOINHSYNC; + input [35:0] DPLIVEVIDEOINPIXEL1; + input DPLIVEVIDEOINVSYNC; + input DPMAXISMIXEDAUDIOTREADY; + input DPSAXISAUDIOCLK; + input [31:0] DPSAXISAUDIOTDATA; + input DPSAXISAUDIOTID; + input DPSAXISAUDIOTVALID; + input DPVIDEOINCLK; + input EMIOCAN0PHYRX; + input EMIOCAN1PHYRX; + input EMIOENET0DMATXSTATUSTOG; + input EMIOENET0EXTINTIN; + input EMIOENET0GMIICOL; + input EMIOENET0GMIICRS; + input EMIOENET0GMIIRXCLK; + input [7:0] EMIOENET0GMIIRXD; + input EMIOENET0GMIIRXDV; + input EMIOENET0GMIIRXER; + input EMIOENET0GMIITXCLK; + input EMIOENET0MDIOI; + input EMIOENET0RXWOVERFLOW; + input EMIOENET0TXRCONTROL; + input [7:0] EMIOENET0TXRDATA; + input EMIOENET0TXRDATARDY; + input EMIOENET0TXREOP; + input EMIOENET0TXRERR; + input EMIOENET0TXRFLUSHED; + input EMIOENET0TXRSOP; + input EMIOENET0TXRUNDERFLOW; + input EMIOENET0TXRVALID; + input EMIOENET1DMATXSTATUSTOG; + input EMIOENET1EXTINTIN; + input EMIOENET1GMIICOL; + input EMIOENET1GMIICRS; + input EMIOENET1GMIIRXCLK; + input [7:0] EMIOENET1GMIIRXD; + input EMIOENET1GMIIRXDV; + input EMIOENET1GMIIRXER; + input EMIOENET1GMIITXCLK; + input EMIOENET1MDIOI; + input EMIOENET1RXWOVERFLOW; + input EMIOENET1TXRCONTROL; + input [7:0] EMIOENET1TXRDATA; + input EMIOENET1TXRDATARDY; + input EMIOENET1TXREOP; + input EMIOENET1TXRERR; + input EMIOENET1TXRFLUSHED; + input EMIOENET1TXRSOP; + input EMIOENET1TXRUNDERFLOW; + input EMIOENET1TXRVALID; + input EMIOENET2DMATXSTATUSTOG; + input EMIOENET2EXTINTIN; + input EMIOENET2GMIICOL; + input EMIOENET2GMIICRS; + input EMIOENET2GMIIRXCLK; + input [7:0] EMIOENET2GMIIRXD; + input EMIOENET2GMIIRXDV; + input EMIOENET2GMIIRXER; + input EMIOENET2GMIITXCLK; + input EMIOENET2MDIOI; + input EMIOENET2RXWOVERFLOW; + input EMIOENET2TXRCONTROL; + input [7:0] EMIOENET2TXRDATA; + input EMIOENET2TXRDATARDY; + input EMIOENET2TXREOP; + input EMIOENET2TXRERR; + input EMIOENET2TXRFLUSHED; + input EMIOENET2TXRSOP; + input EMIOENET2TXRUNDERFLOW; + input EMIOENET2TXRVALID; + input EMIOENET3DMATXSTATUSTOG; + input EMIOENET3EXTINTIN; + input EMIOENET3GMIICOL; + input EMIOENET3GMIICRS; + input EMIOENET3GMIIRXCLK; + input [7:0] EMIOENET3GMIIRXD; + input EMIOENET3GMIIRXDV; + input EMIOENET3GMIIRXER; + input EMIOENET3GMIITXCLK; + input EMIOENET3MDIOI; + input EMIOENET3RXWOVERFLOW; + input EMIOENET3TXRCONTROL; + input [7:0] EMIOENET3TXRDATA; + input EMIOENET3TXRDATARDY; + input EMIOENET3TXREOP; + input EMIOENET3TXRERR; + input EMIOENET3TXRFLUSHED; + input EMIOENET3TXRSOP; + input EMIOENET3TXRUNDERFLOW; + input EMIOENET3TXRVALID; + input EMIOENETTSUCLK; + input [1:0] EMIOGEM0TSUINCCTRL; + input [1:0] EMIOGEM1TSUINCCTRL; + input [1:0] EMIOGEM2TSUINCCTRL; + input [1:0] EMIOGEM3TSUINCCTRL; + input [95:0] EMIOGPIOI; + input EMIOHUBPORTOVERCRNTUSB20; + input EMIOHUBPORTOVERCRNTUSB21; + input EMIOHUBPORTOVERCRNTUSB30; + input EMIOHUBPORTOVERCRNTUSB31; + input EMIOI2C0SCLI; + input EMIOI2C0SDAI; + input EMIOI2C1SCLI; + input EMIOI2C1SDAI; + input EMIOSDIO0CDN; + input EMIOSDIO0CMDIN; + input [7:0] EMIOSDIO0DATAIN; + input EMIOSDIO0FBCLKIN; + input EMIOSDIO0WP; + input EMIOSDIO1CDN; + input EMIOSDIO1CMDIN; + input [7:0] EMIOSDIO1DATAIN; + input EMIOSDIO1FBCLKIN; + input EMIOSDIO1WP; + input EMIOSPI0MI; + input EMIOSPI0SCLKI; + input EMIOSPI0SI; + input EMIOSPI0SSIN; + input EMIOSPI1MI; + input EMIOSPI1SCLKI; + input EMIOSPI1SI; + input EMIOSPI1SSIN; + input [2:0] EMIOTTC0CLKI; + input [2:0] EMIOTTC1CLKI; + input [2:0] EMIOTTC2CLKI; + input [2:0] EMIOTTC3CLKI; + input EMIOUART0CTSN; + input EMIOUART0DCDN; + input EMIOUART0DSRN; + input EMIOUART0RIN; + input EMIOUART0RX; + input EMIOUART1CTSN; + input EMIOUART1DCDN; + input EMIOUART1DSRN; + input EMIOUART1RIN; + input EMIOUART1RX; + input EMIOWDT0CLKI; + input EMIOWDT1CLKI; + input FMIOGEM0FIFORXCLKFROMPL; + input FMIOGEM0FIFOTXCLKFROMPL; + input FMIOGEM0SIGNALDETECT; + input FMIOGEM1FIFORXCLKFROMPL; + input FMIOGEM1FIFOTXCLKFROMPL; + input FMIOGEM1SIGNALDETECT; + input FMIOGEM2FIFORXCLKFROMPL; + input FMIOGEM2FIFOTXCLKFROMPL; + input FMIOGEM2SIGNALDETECT; + input FMIOGEM3FIFORXCLKFROMPL; + input FMIOGEM3FIFOTXCLKFROMPL; + input FMIOGEM3SIGNALDETECT; + input FMIOGEMTSUCLKFROMPL; + input [31:0] FTMGPI; + input [7:0] GDMAFCICLK; + input MAXIGP0ACLK; + input MAXIGP0ARREADY; + input MAXIGP0AWREADY; + input [15:0] MAXIGP0BID; + input [1:0] MAXIGP0BRESP; + input MAXIGP0BVALID; + input [127:0] MAXIGP0RDATA; + input [15:0] MAXIGP0RID; + input MAXIGP0RLAST; + input [1:0] MAXIGP0RRESP; + input MAXIGP0RVALID; + input MAXIGP0WREADY; + input MAXIGP1ACLK; + input MAXIGP1ARREADY; + input MAXIGP1AWREADY; + input [15:0] MAXIGP1BID; + input [1:0] MAXIGP1BRESP; + input MAXIGP1BVALID; + input [127:0] MAXIGP1RDATA; + input [15:0] MAXIGP1RID; + input MAXIGP1RLAST; + input [1:0] MAXIGP1RRESP; + input MAXIGP1RVALID; + input MAXIGP1WREADY; + input MAXIGP2ACLK; + input MAXIGP2ARREADY; + input MAXIGP2AWREADY; + input [15:0] MAXIGP2BID; + input [1:0] MAXIGP2BRESP; + input MAXIGP2BVALID; + input [127:0] MAXIGP2RDATA; + input [15:0] MAXIGP2RID; + input MAXIGP2RLAST; + input [1:0] MAXIGP2RRESP; + input MAXIGP2RVALID; + input MAXIGP2WREADY; + input NFIQ0LPDRPU; + input NFIQ1LPDRPU; + input NIRQ0LPDRPU; + input NIRQ1LPDRPU; + input [7:0] PL2ADMACVLD; + input [7:0] PL2ADMATACK; + input [7:0] PL2GDMACVLD; + input [7:0] PL2GDMATACK; + input PLACECLK; + input PLACPINACT; + input [3:0] PLFPGASTOP; + input [2:0] PLLAUXREFCLKFPD; + input [1:0] PLLAUXREFCLKLPD; + input [31:0] PLPMUGPI; + input [3:0] PLPSAPUGICFIQ; + input [3:0] PLPSAPUGICIRQ; + input PLPSEVENTI; + input [7:0] PLPSIRQ0; + input [7:0] PLPSIRQ1; + input PLPSTRACECLK; + input [3:0] PLPSTRIGACK; + input [3:0] PLPSTRIGGER; + input [3:0] PMUERRORFROMPL; + input PSS_ALTO_CORE_PAD_MGTRXN0IN; + input PSS_ALTO_CORE_PAD_MGTRXN1IN; + input PSS_ALTO_CORE_PAD_MGTRXN2IN; + input PSS_ALTO_CORE_PAD_MGTRXN3IN; + input PSS_ALTO_CORE_PAD_MGTRXP0IN; + input PSS_ALTO_CORE_PAD_MGTRXP1IN; + input PSS_ALTO_CORE_PAD_MGTRXP2IN; + input PSS_ALTO_CORE_PAD_MGTRXP3IN; + input PSS_ALTO_CORE_PAD_PADI; + input PSS_ALTO_CORE_PAD_REFN0IN; + input PSS_ALTO_CORE_PAD_REFN1IN; + input PSS_ALTO_CORE_PAD_REFN2IN; + input PSS_ALTO_CORE_PAD_REFN3IN; + input PSS_ALTO_CORE_PAD_REFP0IN; + input PSS_ALTO_CORE_PAD_REFP1IN; + input PSS_ALTO_CORE_PAD_REFP2IN; + input PSS_ALTO_CORE_PAD_REFP3IN; + input RPUEVENTI0; + input RPUEVENTI1; + input SACEFPDACREADY; + input [43:0] SACEFPDARADDR; + input [1:0] SACEFPDARBAR; + input [1:0] SACEFPDARBURST; + input [3:0] SACEFPDARCACHE; + input [1:0] SACEFPDARDOMAIN; + input [5:0] SACEFPDARID; + input [7:0] SACEFPDARLEN; + input SACEFPDARLOCK; + input [2:0] SACEFPDARPROT; + input [3:0] SACEFPDARQOS; + input [3:0] SACEFPDARREGION; + input [2:0] SACEFPDARSIZE; + input [3:0] SACEFPDARSNOOP; + input [15:0] SACEFPDARUSER; + input SACEFPDARVALID; + input [43:0] SACEFPDAWADDR; + input [1:0] SACEFPDAWBAR; + input [1:0] SACEFPDAWBURST; + input [3:0] SACEFPDAWCACHE; + input [1:0] SACEFPDAWDOMAIN; + input [5:0] SACEFPDAWID; + input [7:0] SACEFPDAWLEN; + input SACEFPDAWLOCK; + input [2:0] SACEFPDAWPROT; + input [3:0] SACEFPDAWQOS; + input [3:0] SACEFPDAWREGION; + input [2:0] SACEFPDAWSIZE; + input [2:0] SACEFPDAWSNOOP; + input [15:0] SACEFPDAWUSER; + input SACEFPDAWVALID; + input SACEFPDBREADY; + input [127:0] SACEFPDCDDATA; + input SACEFPDCDLAST; + input SACEFPDCDVALID; + input [4:0] SACEFPDCRRESP; + input SACEFPDCRVALID; + input SACEFPDRACK; + input SACEFPDRREADY; + input SACEFPDWACK; + input [127:0] SACEFPDWDATA; + input SACEFPDWLAST; + input [15:0] SACEFPDWSTRB; + input SACEFPDWUSER; + input SACEFPDWVALID; + input SAXIACPACLK; + input [39:0] SAXIACPARADDR; + input [1:0] SAXIACPARBURST; + input [3:0] SAXIACPARCACHE; + input [4:0] SAXIACPARID; + input [7:0] SAXIACPARLEN; + input SAXIACPARLOCK; + input [2:0] SAXIACPARPROT; + input [3:0] SAXIACPARQOS; + input [2:0] SAXIACPARSIZE; + input [1:0] SAXIACPARUSER; + input SAXIACPARVALID; + input [39:0] SAXIACPAWADDR; + input [1:0] SAXIACPAWBURST; + input [3:0] SAXIACPAWCACHE; + input [4:0] SAXIACPAWID; + input [7:0] SAXIACPAWLEN; + input SAXIACPAWLOCK; + input [2:0] SAXIACPAWPROT; + input [3:0] SAXIACPAWQOS; + input [2:0] SAXIACPAWSIZE; + input [1:0] SAXIACPAWUSER; + input SAXIACPAWVALID; + input SAXIACPBREADY; + input SAXIACPRREADY; + input [127:0] SAXIACPWDATA; + input SAXIACPWLAST; + input [15:0] SAXIACPWSTRB; + input SAXIACPWVALID; + input [48:0] SAXIGP0ARADDR; + input [1:0] SAXIGP0ARBURST; + input [3:0] SAXIGP0ARCACHE; + input [5:0] SAXIGP0ARID; + input [7:0] SAXIGP0ARLEN; + input SAXIGP0ARLOCK; + input [2:0] SAXIGP0ARPROT; + input [3:0] SAXIGP0ARQOS; + input [2:0] SAXIGP0ARSIZE; + input SAXIGP0ARUSER; + input SAXIGP0ARVALID; + input [48:0] SAXIGP0AWADDR; + input [1:0] SAXIGP0AWBURST; + input [3:0] SAXIGP0AWCACHE; + input [5:0] SAXIGP0AWID; + input [7:0] SAXIGP0AWLEN; + input SAXIGP0AWLOCK; + input [2:0] SAXIGP0AWPROT; + input [3:0] SAXIGP0AWQOS; + input [2:0] SAXIGP0AWSIZE; + input SAXIGP0AWUSER; + input SAXIGP0AWVALID; + input SAXIGP0BREADY; + input SAXIGP0RCLK; + input SAXIGP0RREADY; + input SAXIGP0WCLK; + input [127:0] SAXIGP0WDATA; + input SAXIGP0WLAST; + input [15:0] SAXIGP0WSTRB; + input SAXIGP0WVALID; + input [48:0] SAXIGP1ARADDR; + input [1:0] SAXIGP1ARBURST; + input [3:0] SAXIGP1ARCACHE; + input [5:0] SAXIGP1ARID; + input [7:0] SAXIGP1ARLEN; + input SAXIGP1ARLOCK; + input [2:0] SAXIGP1ARPROT; + input [3:0] SAXIGP1ARQOS; + input [2:0] SAXIGP1ARSIZE; + input SAXIGP1ARUSER; + input SAXIGP1ARVALID; + input [48:0] SAXIGP1AWADDR; + input [1:0] SAXIGP1AWBURST; + input [3:0] SAXIGP1AWCACHE; + input [5:0] SAXIGP1AWID; + input [7:0] SAXIGP1AWLEN; + input SAXIGP1AWLOCK; + input [2:0] SAXIGP1AWPROT; + input [3:0] SAXIGP1AWQOS; + input [2:0] SAXIGP1AWSIZE; + input SAXIGP1AWUSER; + input SAXIGP1AWVALID; + input SAXIGP1BREADY; + input SAXIGP1RCLK; + input SAXIGP1RREADY; + input SAXIGP1WCLK; + input [127:0] SAXIGP1WDATA; + input SAXIGP1WLAST; + input [15:0] SAXIGP1WSTRB; + input SAXIGP1WVALID; + input [48:0] SAXIGP2ARADDR; + input [1:0] SAXIGP2ARBURST; + input [3:0] SAXIGP2ARCACHE; + input [5:0] SAXIGP2ARID; + input [7:0] SAXIGP2ARLEN; + input SAXIGP2ARLOCK; + input [2:0] SAXIGP2ARPROT; + input [3:0] SAXIGP2ARQOS; + input [2:0] SAXIGP2ARSIZE; + input SAXIGP2ARUSER; + input SAXIGP2ARVALID; + input [48:0] SAXIGP2AWADDR; + input [1:0] SAXIGP2AWBURST; + input [3:0] SAXIGP2AWCACHE; + input [5:0] SAXIGP2AWID; + input [7:0] SAXIGP2AWLEN; + input SAXIGP2AWLOCK; + input [2:0] SAXIGP2AWPROT; + input [3:0] SAXIGP2AWQOS; + input [2:0] SAXIGP2AWSIZE; + input SAXIGP2AWUSER; + input SAXIGP2AWVALID; + input SAXIGP2BREADY; + input SAXIGP2RCLK; + input SAXIGP2RREADY; + input SAXIGP2WCLK; + input [127:0] SAXIGP2WDATA; + input SAXIGP2WLAST; + input [15:0] SAXIGP2WSTRB; + input SAXIGP2WVALID; + input [48:0] SAXIGP3ARADDR; + input [1:0] SAXIGP3ARBURST; + input [3:0] SAXIGP3ARCACHE; + input [5:0] SAXIGP3ARID; + input [7:0] SAXIGP3ARLEN; + input SAXIGP3ARLOCK; + input [2:0] SAXIGP3ARPROT; + input [3:0] SAXIGP3ARQOS; + input [2:0] SAXIGP3ARSIZE; + input SAXIGP3ARUSER; + input SAXIGP3ARVALID; + input [48:0] SAXIGP3AWADDR; + input [1:0] SAXIGP3AWBURST; + input [3:0] SAXIGP3AWCACHE; + input [5:0] SAXIGP3AWID; + input [7:0] SAXIGP3AWLEN; + input SAXIGP3AWLOCK; + input [2:0] SAXIGP3AWPROT; + input [3:0] SAXIGP3AWQOS; + input [2:0] SAXIGP3AWSIZE; + input SAXIGP3AWUSER; + input SAXIGP3AWVALID; + input SAXIGP3BREADY; + input SAXIGP3RCLK; + input SAXIGP3RREADY; + input SAXIGP3WCLK; + input [127:0] SAXIGP3WDATA; + input SAXIGP3WLAST; + input [15:0] SAXIGP3WSTRB; + input SAXIGP3WVALID; + input [48:0] SAXIGP4ARADDR; + input [1:0] SAXIGP4ARBURST; + input [3:0] SAXIGP4ARCACHE; + input [5:0] SAXIGP4ARID; + input [7:0] SAXIGP4ARLEN; + input SAXIGP4ARLOCK; + input [2:0] SAXIGP4ARPROT; + input [3:0] SAXIGP4ARQOS; + input [2:0] SAXIGP4ARSIZE; + input SAXIGP4ARUSER; + input SAXIGP4ARVALID; + input [48:0] SAXIGP4AWADDR; + input [1:0] SAXIGP4AWBURST; + input [3:0] SAXIGP4AWCACHE; + input [5:0] SAXIGP4AWID; + input [7:0] SAXIGP4AWLEN; + input SAXIGP4AWLOCK; + input [2:0] SAXIGP4AWPROT; + input [3:0] SAXIGP4AWQOS; + input [2:0] SAXIGP4AWSIZE; + input SAXIGP4AWUSER; + input SAXIGP4AWVALID; + input SAXIGP4BREADY; + input SAXIGP4RCLK; + input SAXIGP4RREADY; + input SAXIGP4WCLK; + input [127:0] SAXIGP4WDATA; + input SAXIGP4WLAST; + input [15:0] SAXIGP4WSTRB; + input SAXIGP4WVALID; + input [48:0] SAXIGP5ARADDR; + input [1:0] SAXIGP5ARBURST; + input [3:0] SAXIGP5ARCACHE; + input [5:0] SAXIGP5ARID; + input [7:0] SAXIGP5ARLEN; + input SAXIGP5ARLOCK; + input [2:0] SAXIGP5ARPROT; + input [3:0] SAXIGP5ARQOS; + input [2:0] SAXIGP5ARSIZE; + input SAXIGP5ARUSER; + input SAXIGP5ARVALID; + input [48:0] SAXIGP5AWADDR; + input [1:0] SAXIGP5AWBURST; + input [3:0] SAXIGP5AWCACHE; + input [5:0] SAXIGP5AWID; + input [7:0] SAXIGP5AWLEN; + input SAXIGP5AWLOCK; + input [2:0] SAXIGP5AWPROT; + input [3:0] SAXIGP5AWQOS; + input [2:0] SAXIGP5AWSIZE; + input SAXIGP5AWUSER; + input SAXIGP5AWVALID; + input SAXIGP5BREADY; + input SAXIGP5RCLK; + input SAXIGP5RREADY; + input SAXIGP5WCLK; + input [127:0] SAXIGP5WDATA; + input SAXIGP5WLAST; + input [15:0] SAXIGP5WSTRB; + input SAXIGP5WVALID; + input [48:0] SAXIGP6ARADDR; + input [1:0] SAXIGP6ARBURST; + input [3:0] SAXIGP6ARCACHE; + input [5:0] SAXIGP6ARID; + input [7:0] SAXIGP6ARLEN; + input SAXIGP6ARLOCK; + input [2:0] SAXIGP6ARPROT; + input [3:0] SAXIGP6ARQOS; + input [2:0] SAXIGP6ARSIZE; + input SAXIGP6ARUSER; + input SAXIGP6ARVALID; + input [48:0] SAXIGP6AWADDR; + input [1:0] SAXIGP6AWBURST; + input [3:0] SAXIGP6AWCACHE; + input [5:0] SAXIGP6AWID; + input [7:0] SAXIGP6AWLEN; + input SAXIGP6AWLOCK; + input [2:0] SAXIGP6AWPROT; + input [3:0] SAXIGP6AWQOS; + input [2:0] SAXIGP6AWSIZE; + input SAXIGP6AWUSER; + input SAXIGP6AWVALID; + input SAXIGP6BREADY; + input SAXIGP6RCLK; + input SAXIGP6RREADY; + input SAXIGP6WCLK; + input [127:0] SAXIGP6WDATA; + input SAXIGP6WLAST; + input [15:0] SAXIGP6WSTRB; + input SAXIGP6WVALID; + input [59:0] STMEVENT; +endmodule + |