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|
module AND2(A, B, O);
input A;
input B;
output O;
endmodule
module CEMux(I, O);
input I;
output O;
endmodule
module CascadeBuf(I, O);
input I;
output O;
endmodule
module CascadeMux(I, O);
input I;
output O;
endmodule
module ClkMux(I, O);
input I;
output O;
endmodule
module ColCtrlBuf(I, O);
input I;
output O;
endmodule
module DummyBuf(I, O);
input I;
output O;
endmodule
module Glb2LocalMux(I, O);
input I;
output O;
endmodule
module GlobalMux(I, O);
input I;
output O;
endmodule
module ICE_CARRY_IN_MUX(carryinitout, carryinitin);
input carryinitin;
output carryinitout;
endmodule
module ICE_GB(GLOBALBUFFEROUTPUT, USERSIGNALTOGLOBALBUFFER);
output GLOBALBUFFEROUTPUT;
input USERSIGNALTOGLOBALBUFFER;
endmodule
module ICE_GB_IO(PACKAGEPIN, LATCHINPUTVALUE, CLOCKENABLE, INPUTCLK, OUTPUTCLK, OUTPUTENABLE, DOUT1, DOUT0, DIN1, DIN0, GLOBALBUFFEROUTPUT);
input CLOCKENABLE;
output DIN0;
output DIN1;
input DOUT0;
input DOUT1;
output GLOBALBUFFEROUTPUT;
input INPUTCLK;
input LATCHINPUTVALUE;
input OUTPUTCLK;
input OUTPUTENABLE;
inout PACKAGEPIN;
endmodule
module ICE_IO(PACKAGEPIN, LATCHINPUTVALUE, CLOCKENABLE, INPUTCLK, OUTPUTCLK, OUTPUTENABLE, DOUT1, DOUT0, DIN1, DIN0);
input CLOCKENABLE;
output DIN0;
output DIN1;
input DOUT0;
input DOUT1;
input INPUTCLK;
input LATCHINPUTVALUE;
input OUTPUTCLK;
input OUTPUTENABLE;
inout PACKAGEPIN;
endmodule
module ICE_IO_DLY(PACKAGEPIN, LATCHINPUTVALUE, CLOCKENABLE, INPUTCLK, OUTPUTCLK, OUTPUTENABLE, DOUT1, DOUT0, DIN1, DIN0, SCLK, SDI, CRSEL, SDO);
input CLOCKENABLE;
input CRSEL;
output DIN0;
output DIN1;
input DOUT0;
input DOUT1;
input INPUTCLK;
input LATCHINPUTVALUE;
input OUTPUTCLK;
input OUTPUTENABLE;
inout PACKAGEPIN;
input SCLK;
input SDI;
output SDO;
endmodule
module ICE_IO_DS(PACKAGEPIN, PACKAGEPINB, LATCHINPUTVALUE, CLOCKENABLE, INPUTCLK, OUTPUTCLK, OUTPUTENABLE, DOUT1, DOUT0, DIN1, DIN0);
input CLOCKENABLE;
output DIN0;
output DIN1;
input DOUT0;
input DOUT1;
input INPUTCLK;
input LATCHINPUTVALUE;
input OUTPUTCLK;
input OUTPUTENABLE;
inout PACKAGEPIN;
inout PACKAGEPINB;
endmodule
module ICE_IO_OD(PACKAGEPIN, LATCHINPUTVALUE, CLOCKENABLE, INPUTCLK, OUTPUTCLK, OUTPUTENABLE, DOUT1, DOUT0, DIN1, DIN0);
input CLOCKENABLE;
output DIN0;
output DIN1;
input DOUT0;
input DOUT1;
input INPUTCLK;
input LATCHINPUTVALUE;
input OUTPUTCLK;
input OUTPUTENABLE;
inout PACKAGEPIN;
endmodule
module ICE_IR500_DRV(IRLEDEN, IRPWM, CURREN, IRLEDEN2, IRPWM2, IRLED1, IRLED2);
input CURREN;
output IRLED1;
output IRLED2;
input IRLEDEN;
input IRLEDEN2;
input IRPWM;
input IRPWM2;
endmodule
module INV(I, O);
input I;
output O;
endmodule
module IO_PAD(PACKAGEPIN, DOUT, DIN, OE);
input DIN;
output DOUT;
input OE;
inout PACKAGEPIN;
endmodule
module InMux(I, O);
input I;
output O;
endmodule
module IoInMux(I, O);
input I;
output O;
endmodule
module IoSpan4Mux(I, O);
input I;
output O;
endmodule
module IpInMux(I, O);
input I;
output O;
endmodule
module IpOutMux(I, O);
input I;
output O;
endmodule
module LocalMux(I, O);
input I;
output O;
endmodule
module LogicCell(carryout, lcout, carryin, clk, clkb, in0, in1, in2, in3, sr);
input carryin;
output carryout;
input clk;
input clkb;
input in0;
input in1;
input in2;
input in3;
output lcout;
input sr;
endmodule
module LogicCell2(carryout, lcout, carryin, clk, in0, in1, in2, in3, sr, ce);
input carryin;
output carryout;
input ce;
input clk;
input in0;
input in1;
input in2;
input in3;
output lcout;
input sr;
endmodule
module LogicCell40(carryout, lcout, ltout, carryin, clk, in0, in1, in2, in3, sr, ce);
input carryin;
output carryout;
input ce;
input clk;
input in0;
input in1;
input in2;
input in3;
output lcout;
output ltout;
input sr;
endmodule
module Odrv12(I, O);
input I;
output O;
endmodule
module Odrv4(I, O);
input I;
output O;
endmodule
module PAD_BANK0(PAD, PADIN, PADOUT, PADOEN);
inout PAD;
output PADIN;
input PADOEN;
input PADOUT;
endmodule
module PAD_BANK1(PAD, PADIN, PADOUT, PADOEN);
inout PAD;
output PADIN;
input PADOEN;
input PADOUT;
endmodule
module PAD_BANK2(PAD, PADIN, PADOUT, PADOEN);
inout PAD;
output PADIN;
input PADOEN;
input PADOUT;
endmodule
module PAD_BANK3(PAD, PADIN, PADOUT, PADOEN);
inout PAD;
output PADIN;
input PADOEN;
input PADOUT;
endmodule
module PLL40(PLLIN, PLLOUTCORE, PLLOUTGLOBAL, EXTFEEDBACK, DYNAMICDELAY, LOCK, BYPASS, RESETB, SDI, SDO, SCLK, LATCHINPUTVALUE);
input BYPASS;
input [7:0] DYNAMICDELAY;
input EXTFEEDBACK;
input LATCHINPUTVALUE;
output LOCK;
input PLLIN;
output PLLOUTCORE;
output PLLOUTGLOBAL;
input RESETB;
input SCLK;
input SDI;
output SDO;
endmodule
module PLL40_2(PLLIN, PLLOUTCOREA, PLLOUTGLOBALA, PLLOUTCOREB, PLLOUTGLOBALB, EXTFEEDBACK, DYNAMICDELAY, LOCK, BYPASS, RESETB, SDI, SDO, SCLK, LATCHINPUTVALUE);
input BYPASS;
input [7:0] DYNAMICDELAY;
input EXTFEEDBACK;
input LATCHINPUTVALUE;
output LOCK;
input PLLIN;
output PLLOUTCOREA;
output PLLOUTCOREB;
output PLLOUTGLOBALA;
output PLLOUTGLOBALB;
input RESETB;
input SCLK;
input SDI;
output SDO;
endmodule
module PLL40_2F(PLLIN, PLLOUTCOREA, PLLOUTGLOBALA, PLLOUTCOREB, PLLOUTGLOBALB, EXTFEEDBACK, DYNAMICDELAY, LOCK, BYPASS, RESETB, SDI, SDO, SCLK, LATCHINPUTVALUE);
input BYPASS;
input [7:0] DYNAMICDELAY;
input EXTFEEDBACK;
input LATCHINPUTVALUE;
output LOCK;
input PLLIN;
output PLLOUTCOREA;
output PLLOUTCOREB;
output PLLOUTGLOBALA;
output PLLOUTGLOBALB;
input RESETB;
input SCLK;
input SDI;
output SDO;
endmodule
module PREIO(PADIN, PADOUT, PADOEN, LATCHINPUTVALUE, CLOCKENABLE, INPUTCLK, OUTPUTCLK, OUTPUTENABLE, DOUT1, DOUT0, DIN1, DIN0);
input CLOCKENABLE;
output DIN0;
output DIN1;
input DOUT0;
input DOUT1;
input INPUTCLK;
input LATCHINPUTVALUE;
input OUTPUTCLK;
input OUTPUTENABLE;
input PADIN;
output PADOEN;
output PADOUT;
endmodule
module PRE_IO(PADIN, PADOUT, PADOEN, LATCHINPUTVALUE, CLOCKENABLE, INPUTCLK, OUTPUTCLK, OUTPUTENABLE, DOUT1, DOUT0, DIN1, DIN0);
input CLOCKENABLE;
output DIN0;
output DIN1;
input DOUT0;
input DOUT1;
input INPUTCLK;
input LATCHINPUTVALUE;
input OUTPUTCLK;
input OUTPUTENABLE;
input PADIN;
output PADOEN;
output PADOUT;
endmodule
module PRE_IO_GBUF(GLOBALBUFFEROUTPUT, PADSIGNALTOGLOBALBUFFER);
output GLOBALBUFFEROUTPUT;
input PADSIGNALTOGLOBALBUFFER;
endmodule
module QuadClkMux(I, O);
input I;
output O;
endmodule
module SB_G2TBuf(I, O);
input I;
output O;
endmodule
module SMCCLK(CLK);
output CLK;
endmodule
module SRMux(I, O);
input I;
output O;
endmodule
module Sp12to4(I, O);
input I;
output O;
endmodule
module Span12Mux(I, O);
input I;
output O;
endmodule
module Span12Mux_h(I, O);
input I;
output O;
endmodule
module Span12Mux_s0_h(I, O);
input I;
output O;
endmodule
module Span12Mux_s0_v(I, O);
input I;
output O;
endmodule
module Span12Mux_s10_h(I, O);
input I;
output O;
endmodule
module Span12Mux_s10_v(I, O);
input I;
output O;
endmodule
module Span12Mux_s11_h(I, O);
input I;
output O;
endmodule
module Span12Mux_s11_v(I, O);
input I;
output O;
endmodule
module Span12Mux_s1_h(I, O);
input I;
output O;
endmodule
module Span12Mux_s1_v(I, O);
input I;
output O;
endmodule
module Span12Mux_s2_h(I, O);
input I;
output O;
endmodule
module Span12Mux_s2_v(I, O);
input I;
output O;
endmodule
module Span12Mux_s3_h(I, O);
input I;
output O;
endmodule
module Span12Mux_s3_v(I, O);
input I;
output O;
endmodule
module Span12Mux_s4_h(I, O);
input I;
output O;
endmodule
module Span12Mux_s4_v(I, O);
input I;
output O;
endmodule
module Span12Mux_s5_h(I, O);
input I;
output O;
endmodule
module Span12Mux_s5_v(I, O);
input I;
output O;
endmodule
module Span12Mux_s6_h(I, O);
input I;
output O;
endmodule
module Span12Mux_s6_v(I, O);
input I;
output O;
endmodule
module Span12Mux_s7_h(I, O);
input I;
output O;
endmodule
module Span12Mux_s7_v(I, O);
input I;
output O;
endmodule
module Span12Mux_s8_h(I, O);
input I;
output O;
endmodule
module Span12Mux_s8_v(I, O);
input I;
output O;
endmodule
module Span12Mux_s9_h(I, O);
input I;
output O;
endmodule
module Span12Mux_s9_v(I, O);
input I;
output O;
endmodule
module Span12Mux_v(I, O);
input I;
output O;
endmodule
module Span4Mux(I, O);
input I;
output O;
endmodule
module Span4Mux_h(I, O);
input I;
output O;
endmodule
module Span4Mux_s0_h(I, O);
input I;
output O;
endmodule
module Span4Mux_s0_v(I, O);
input I;
output O;
endmodule
module Span4Mux_s1_h(I, O);
input I;
output O;
endmodule
module Span4Mux_s1_v(I, O);
input I;
output O;
endmodule
module Span4Mux_s2_h(I, O);
input I;
output O;
endmodule
module Span4Mux_s2_v(I, O);
input I;
output O;
endmodule
module Span4Mux_s3_h(I, O);
input I;
output O;
endmodule
module Span4Mux_s3_v(I, O);
input I;
output O;
endmodule
module Span4Mux_v(I, O);
input I;
output O;
endmodule
module carry_logic(cout, carry_in, a, a_bar, b, b_bar, vg_en);
input a;
input a_bar;
input b;
input b_bar;
input carry_in;
output cout;
input vg_en;
endmodule
module clut4(lut4, in0, in1, in2, in3, in0b, in1b, in2b, in3b, cbit);
input [15:0] cbit;
input in0;
input in0b;
input in1;
input in1b;
input in2;
input in2b;
input in3;
input in3b;
output lut4;
endmodule
module coredffr(q, d, purst, S_R, cbit, clk, clkb);
input S_R;
input [1:0] cbit;
input clk;
input clkb;
input d;
input purst;
output q;
endmodule
module coredffr2(q, d, purst, S_R, cbit, clk, clkb, ce);
input S_R;
input [1:0] cbit;
input ce;
input clk;
input clkb;
input d;
input purst;
output q;
endmodule
module gio2CtrlBuf(I, O);
input I;
output O;
endmodule
module inv_hvt(Y, A);
input A;
output Y;
endmodule
module logic_cell(carry_out, lc_out, carry_in, cbit, clk, clkb, in0, in1, in2, in3, prog, purst, s_r);
input carry_in;
output carry_out;
input [20:0] cbit;
input clk;
input clkb;
input in0;
input in1;
input in2;
input in3;
output lc_out;
input prog;
input purst;
input s_r;
endmodule
module logic_cell2(carry_out, lc_out, carry_in, cbit, clk, clkb, in0, in1, in2, in3, prog, purst, s_r, ce);
input carry_in;
output carry_out;
input [20:0] cbit;
input ce;
input clk;
input clkb;
input in0;
input in1;
input in2;
input in3;
output lc_out;
input prog;
input purst;
input s_r;
endmodule
module logic_cell40(carry_out, lc_out, lt_out, carry_in, cbit, clk, clkb, in0, in1, in2, in3, prog, purst, s_r, ce);
input carry_in;
output carry_out;
input [20:0] cbit;
input ce;
input clk;
input clkb;
input in0;
input in1;
input in2;
input in3;
output lc_out;
output lt_out;
input prog;
input purst;
input s_r;
endmodule
module o_mux(O, in0, in1, cbit, prog);
output O;
input cbit;
input in0;
input in1;
input prog;
endmodule
module sync_clk_enable(D, NC, Q);
input D;
input NC;
output Q;
endmodule
module Span4Mux_h0(I, O);
input I;
output O;
endmodule
module Span4Mux_h1(I, O);
input I;
output O;
endmodule
module Span4Mux_h2(I, O);
input I;
output O;
endmodule
module Span4Mux_h3(I, O);
input I;
output O;
endmodule
module Span4Mux_h4(I, O);
input I;
output O;
endmodule
module Span4Mux_v0(I, O);
input I;
output O;
endmodule
module Span4Mux_v1(I, O);
input I;
output O;
endmodule
module Span4Mux_v2(I, O);
input I;
output O;
endmodule
module Span4Mux_v3(I, O);
input I;
output O;
endmodule
module Span4Mux_v4(I, O);
input I;
output O;
endmodule
module Span12Mux_h0(I, O);
input I;
output O;
endmodule
module Span12Mux_h1(I, O);
input I;
output O;
endmodule
module Span12Mux_h2(I, O);
input I;
output O;
endmodule
module Span12Mux_h3(I, O);
input I;
output O;
endmodule
module Span12Mux_h4(I, O);
input I;
output O;
endmodule
module Span12Mux_h5(I, O);
input I;
output O;
endmodule
module Span12Mux_h6(I, O);
input I;
output O;
endmodule
module Span12Mux_h7(I, O);
input I;
output O;
endmodule
module Span12Mux_h8(I, O);
input I;
output O;
endmodule
module Span12Mux_h9(I, O);
input I;
output O;
endmodule
module Span12Mux_h10(I, O);
input I;
output O;
endmodule
module Span12Mux_h11(I, O);
input I;
output O;
endmodule
module Span12Mux_h12(I, O);
input I;
output O;
endmodule
module Span12Mux_v0(I, O);
input I;
output O;
endmodule
module Span12Mux_v1(I, O);
input I;
output O;
endmodule
module Span12Mux_v2(I, O);
input I;
output O;
endmodule
module Span12Mux_v3(I, O);
input I;
output O;
endmodule
module Span12Mux_v4(I, O);
input I;
output O;
endmodule
module Span12Mux_v5(I, O);
input I;
output O;
endmodule
module Span12Mux_v6(I, O);
input I;
output O;
endmodule
module Span12Mux_v7(I, O);
input I;
output O;
endmodule
module Span12Mux_v8(I, O);
input I;
output O;
endmodule
module Span12Mux_v9(I, O);
input I;
output O;
endmodule
module Span12Mux_v10(I, O);
input I;
output O;
endmodule
module Span12Mux_v11(I, O);
input I;
output O;
endmodule
module Span12Mux_v12(I, O);
input I;
output O;
endmodule
module GND(Y);
output Y;
endmodule
module VCC(Y);
output Y;
endmodule
module INTERCONN(I, O);
input I;
output O;
endmodule
module SB_RAM40_4K(RDATA, RCLK, RCLKE, RE, RADDR, WCLK, WCLKE, WE, WADDR, MASK, WDATA);
output [15:0] RDATA;
input RCLK, RCLKE, RE;
input [10:0] RADDR;
input WCLK, WCLKE, WE;
input [10:0] WADDR;
input [15:0] MASK, WDATA;
endmodule
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