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#!/usr/bin/python2
from __future__ import division
from __future__ import print_function
from fuzzconfig import *
import numpy as np
import os
os.system("rm -rf work_ram40")
os.mkdir("work_ram40")
for idx in range(num):
with open("work_ram40/ram40_%02d.v" % idx, "w") as f:
glbs = ["glb[%d]" % i for i in range(np.random.randint(9))]
glbs_choice = ["wa", "ra", "msk", "wd", "we", "wce", "wc", "re", "rce", "rc"]
print("""
module top (
input [%d:0] glb_pins,
input [59:0] in_pins,
output [15:0] out_pins
);
wire [%d:0] glb, glb_pins;
SB_GB gbufs [%d:0] (
.USER_SIGNAL_TO_GLOBAL_BUFFER(glb_pins),
.GLOBAL_BUFFER_OUTPUT(glb)
);
""" % (len(glbs)-1, len(glbs)-1, len(glbs)-1), file=f)
bits = ["in_pins[%d]" % i for i in range(60)]
bits = list(np.random.permutation(bits))
for i in range(num_ramb40):
tmp = list(np.random.permutation(bits))
rmode = np.random.randint(4)
if rmode == 3:
wmode = np.random.randint(1, 4)
else:
wmode = np.random.randint(4)
raddr_bits = (8, 9, 10, 11)[rmode]
waddr_bits = (8, 9, 10, 11)[wmode]
rdata_bits = (16, 8, 4, 2)[rmode]
wdata_bits = (16, 8, 4, 2)[wmode]
bits_waddr = [tmp.pop() for k in range(waddr_bits)]
bits_raddr = [tmp.pop() for k in range(raddr_bits)]
bits_mask = [tmp.pop() for k in range(16)]
bits_wdata = [tmp.pop() for k in range(wdata_bits)]
bit_we = tmp.pop()
bit_wclke = tmp.pop()
bit_wclk = tmp.pop()
bit_re = tmp.pop()
bit_rclke = tmp.pop()
bit_rclk = tmp.pop()
if len(glbs) != 0:
s = np.random.choice(glbs_choice)
glbs_choice.remove(s)
if s == "wa": bits_waddr[np.random.randint(len(bits_waddr))] = glbs.pop()
if s == "ra": bits_raddr[np.random.randint(len(bits_raddr))] = glbs.pop()
if s == "msk": bits_mask [np.random.randint(len(bits_mask ))] = glbs.pop()
if s == "wd": bits_wdata[np.random.randint(len(bits_wdata))] = glbs.pop()
if s == "we": bit_we = glbs.pop()
if s == "wce": bit_wclke = glbs.pop()
if s == "wc": bit_wclk = glbs.pop()
if s == "re": bit_re = glbs.pop()
if s == "rce": bit_rclke = glbs.pop()
if s == "rc": bit_rclk = glbs.pop()
bits_waddr = "{%s}" % ", ".join(bits_waddr)
bits_raddr = "{%s}" % ", ".join(bits_raddr)
bits_mask = "{%s}" % ", ".join(bits_mask)
bits_wdata = "{%s}" % ", ".join(bits_wdata)
if wmode != 0: bits_mask = ""
memtype = np.random.choice(["", "NR", "NW", "NRNW"])
wclksuffix = "N" if memtype in ["NW", "NRNW"] else ""
rclksuffix = "N" if memtype in ["NR", "NRNW"] else ""
print("""
wire [%d:0] rdata_%d;
SB_RAM40_4K%s #(
.READ_MODE(%d),
.WRITE_MODE(%d)
) ram_%d (
.WADDR(%s),
.RADDR(%s),
.MASK(%s),
.WDATA(%s),
.RDATA(rdata_%d),
.WE(%s),
.WCLKE(%s),
.WCLK%s(%s),
.RE(%s),
.RCLKE(%s),
.RCLK%s(%s)
);
""" % (
rdata_bits-1, i, memtype, rmode, wmode, i,
bits_waddr, bits_raddr, bits_mask, bits_wdata, i,
bit_we, bit_wclke, wclksuffix, bit_wclk,
bit_re, bit_rclke, rclksuffix, bit_rclk
), file=f)
bits = list(np.random.permutation(bits))
for k in range(rdata_bits):
bits[k] = "rdata_%d[%d] ^ %s" % (i, k, bits[k])
print("assign out_pins = rdata_%d;" % i, file=f)
print("endmodule", file=f)
with open("work_ram40/ram40_%02d.pcf" % idx, "w") as f:
p = list(np.random.permutation(pins))
for i in range(60):
print("set_io in_pins[%d] %s" % (i, p.pop()), file=f)
for i in range(16):
print("set_io out_pins[%d] %s" % (i, p.pop()), file=f)
with open("work_ram40/Makefile", "w") as f:
print("all: %s" % " ".join(["ram40_%02d.bin" % i for i in range(num)]), file=f)
for i in range(num):
print("ram40_%02d.bin:" % i, file=f)
print("\t-bash ../icecube.sh ram40_%02d > ram40_%02d.log 2>&1 && rm -rf ram40_%02d.tmp || tail ram40_%02d.log" % (i, i, i, i), file=f)
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