from __future__ import division
from __future__ import print_function
+import os
import sys
import random
debug_mode = False
+seed = os.getpid()
def create_bram(dsc_f, sim_f, ref_f, tb_f, k1, k2):
while True:
init = random.randrange(2)
abits = random.randrange(1, 8)
dbits = random.randrange(1, 8)
- groups = random.randrange(1, 5)
+ groups = random.randrange(2, 5)
if random.randrange(2):
abits = 2 ** random.randrange(1, 4)
if random.randrange(2):
dbits = 2 ** random.randrange(1, 4)
- ports = [ random.randrange(3) for i in range(groups) ]
- wrmode = [ random.randrange(2) for i in range(groups) ]
- enable = [ random.randrange(4) for i in range(groups) ]
- transp = [ random.randrange(4) for i in range(groups) ]
- clocks = [ random.randrange(4) for i in range(groups) ]
- clkpol = [ random.randrange(4) for i in range(groups) ]
+ ports = [ random.randrange(1, 3) for i in range(groups) ]
+ wrmode = [ random.randrange(0, 2) for i in range(groups) ]
+ enable = [ random.randrange(0, 4) for i in range(groups) ]
+ transp = [ random.randrange(0, 4) for i in range(groups) ]
+ clocks = [ random.randrange(1, 4) for i in range(groups) ]
+ clkpol = [ random.randrange(0, 4) for i in range(groups) ]
# XXX
init = 0
transp = [ 0 for i in range(groups) ]
- clocks = [ 1 for i in range(groups) ]
clkpol = [ 1 for i in range(groups) ]
for p1 in range(groups):
enable[p1] //= 2
config_ok = True
- if wrmode.count(1) <= ports.count(0): config_ok = False
- if wrmode.count(0) <= ports.count(0): config_ok = False
+ if sum(ports) > 3: config_ok = False # XXX
+ if wrmode.count(1) == 0: config_ok = False
+ if wrmode.count(0) == 0: config_ok = False
if config_ok: break
print("bram bram_%02d_%02d" % (k1, k2), file=dsc_f)
v_stmts.append("(* nomem2reg *) reg [%d:0] memory [0:%d];" % (dbits-1, 2**abits-1))
+ portindex = 0
+
for p1 in range(groups):
for p2 in range(ports[p1]):
pf = "%c%d" % (chr(ord("A") + p1), p2 + 1)
+ portindex += 1
if clocks[p1] and not ("CLK%d" % clocks[p1]) in v_ports:
v_ports.add("CLK%d" % clocks[p1])
if not always_hdr in v_always:
v_always[always_hdr] = [list(), list(), list()]
+ v_always[always_hdr][1].append("`delay(%d)" % portindex);
+ v_always[always_hdr][2].append("`delay(%d)" % (sum(ports)-portindex+1));
if wrmode[p1]:
for i in range(enable[p1]):
print(" %s = %d;" % (p, v), file=tb_f)
print(" #1000;", file=tb_f)
- for i in range(100):
+ for i in range(20 if debug_mode else 100):
if len(tb_clocks):
c = random.choice(tb_clocks)
print(" %s = !%s;" % (c, c), file=tb_f)
print(" end", file=tb_f)
print("endmodule", file=tb_f)
+print("Rng seed: %d" % seed)
+random.seed(seed)
+
for k1 in range(5):
dsc_f = file("temp/brams_%02d.txt" % k1, "w");
sim_f = file("temp/brams_%02d.v" % k1, "w");
for f in [sim_f, ref_f, tb_f]:
print("`timescale 1 ns / 1 ns", file=f)
+ for f in [sim_f, ref_f]:
+ print("`ifdef SYNTHESIS", file=f)
+ print(" `define delay(n)", file=f)
+ print("`else", file=f)
+ print(" `define delay(n) #n;", file=f)
+ print("`endif", file=f)
+
for k2 in range(1 if debug_mode else 10):
create_bram(dsc_f, sim_f, ref_f, tb_f, k1, k2)