Removed old scripts/smt2-bmc/
This commit is contained in:
parent
54a8e4b311
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__pycache__
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debug.smt2
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async_a.smt2
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async_b.smt2
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async_tb
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async_tb.v
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async_tb.vcd
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sync_a.smt2
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sync_b.smt2
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sync_tb
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sync_tb.v
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sync_tb.vcd
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Checking equivalence of different configurations of PicoRV32 using Yosys and
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SMT solvers (Yices, Z3, CVC4, MathSAT).
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The PicoRV32 core provides configuration parameters that change the supported
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ISA and/or the timing of the core. This set of scripts uses model checking
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techniques to proof equivalence of cores in different configurations, thus
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transfering the confidence in the cores gained by running test benches on a few
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configurations to the rest of the configurations.
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async
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-----
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The async test compares two cores with different timings (number of clock
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cycles per operation), but same ISA. The SMT problem models the following
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scenario:
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The cores start out with identical memory and register file. In cycle 0 the
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reset input is active, in all other cycles the reset input is inactive. The
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trap output must by active in the last cycle for both cores. I.e. whatever
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the program in memory does, it must terminate in a trap and it must do so
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for both cores within the simulated number of clock cycles.
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The script searches for a trace that ends in different memory content and/or
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different register file content in the last cycle, i.e. a trace that exposes
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divergent behavior in the two cores.
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sync
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----
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The sync test compares two cores same timings but different ISA. The ISA of the
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2nd code (main_b) must be a superset of the ISA of the first core (main_a), and
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catching illegal instructions and illegal memory transfers must be enabled in
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the first core. The SMT problem models the following scenario:
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The cores start out with identical memory and register file. In cycle 0 the
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reset input is active, in all other cycles the reset input is inactive. The
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cores are run in parallel for a number of cycles with the first core not going
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into the trap state. I.e. all traces are limited to the ISA supported by the
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first core.
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The script searches for a trace that ends in different memory content and/or
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different register file content in the last cycle, i.e. a trace that exposes
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divergent behavior in the two cores.
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#!/usr/bin/env python3
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import os, sys, getopt
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from smtio import smtio, smtopts
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steps = 12
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words = 0
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allmem = False
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fastmem = False
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initzero = False
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check_mem = True
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check_regs = True
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so = smtopts()
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def usage():
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print("""
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python3 async.py [options]
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-t <steps>
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default: 12
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""" + so.helpmsg())
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sys.exit(1)
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try:
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opts, args = getopt.getopt(sys.argv[1:], so.optstr + "t:")
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except:
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usage()
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for o, a in opts:
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if o == "-t":
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steps = int(a)
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elif so.handle(o, a):
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pass
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else:
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usage()
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if len(args) > 0:
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usage()
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smt = smtio(opts=so)
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print("Solver: %s" % so.solver)
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smt.setup("QF_AUFBV", "PicoRV32 \"async.py\" BMC script, powered by Yosys")
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regs_a = list()
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regs_b = list()
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with open("async_a.smt2", "r") as f:
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for line in f:
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if line.startswith("; yosys-smt2-register "):
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line = line.split()
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regs_a.append((line[2], int(line[3])))
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else:
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smt.write(line)
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with open("async_b.smt2", "r") as f:
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for line in f:
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if line.startswith("; yosys-smt2-register "):
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line = line.split()
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regs_b.append((line[2], int(line[3])))
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else:
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smt.write(line)
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for step in range(steps):
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smt.write("(declare-fun a%d () main_a_s)" % step)
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smt.write("(declare-fun b%d () main_b_s)" % step)
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if fastmem:
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smt.write("(assert (|main_a_n domem| a%d))" % step)
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smt.write("(assert (|main_b_n domem| b%d))" % step)
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if words > 0:
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if allmem:
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smt.write("(assert (bvult (|main_a_n mem_addr| a%d) #x%08x))" % (step, words))
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smt.write("(assert (bvult (|main_b_n mem_addr| b%d) #x%08x))" % (step, words))
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else:
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smt.write("(assert (or (not (|main_a_n mem_valid| a%d)) (bvult (|main_a_n mem_addr| a%d) #x%08x)))" % (step, step, words))
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smt.write("(assert (or (not (|main_b_n mem_valid| b%d)) (bvult (|main_b_n mem_addr| b%d) #x%08x)))" % (step, step, words))
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if step == 0:
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# start with synced memory and register file
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smt.write("(assert (= (|main_a_m cpu.cpuregs| a0) (|main_b_m cpu.cpuregs| b0)))")
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smt.write("(assert (= (|main_a_m memory| a0) (|main_b_m memory| b0)))")
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# reset in first cycle
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smt.write("(assert (not (|main_a_n resetn| a%d)))" % step)
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smt.write("(assert (not (|main_b_n resetn| b%d)))" % step)
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else:
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smt.write("(assert (main_a_t a%d a%d))" % (step-1, step))
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smt.write("(assert (main_b_t b%d b%d))" % (step-1, step))
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smt.write("(assert (|main_a_n resetn| a%d))" % step)
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smt.write("(assert (|main_b_n resetn| b%d))" % step)
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print("%s Checking sequence of length %d.." % (smt.timestamp(), step))
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smt.write("(push 1)")
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# stop with a trap and no pending memory xfer
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smt.write("(assert (not (|main_a_n mem_valid| a%d)))" % step)
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smt.write("(assert (not (|main_b_n mem_valid| b%d)))" % step)
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smt.write("(assert (|main_a_n trap| a%d))" % step)
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smt.write("(assert (|main_b_n trap| b%d))" % step)
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# look for differences in memory and/or register file
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if check_mem and check_regs:
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smt.write(("(assert (or (distinct (|main_a_m cpu.cpuregs| a%d) (|main_b_m cpu.cpuregs| b%d)) " +
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"(distinct (|main_a_m memory| a%d) (|main_b_m memory| b%d))))") % (step, step, step, step))
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elif check_mem:
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smt.write(("(assert (distinct (|main_a_m memory| a%d) (|main_b_m memory| b%d)))") % (step, step))
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elif check_regs:
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smt.write(("(assert (distinct (|main_a_m cpu.cpuregs| a%d) (|main_b_m cpu.cpuregs| b%d)))") % (step, step))
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else:
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assert False
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if smt.check_sat() == "sat":
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print("%s Creating model.." % smt.timestamp())
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def make_cpu_regs(step):
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for i in range(1, 32):
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smt.write("(define-fun a%d_r%d () (_ BitVec 32) (select (|main_a_m cpu.cpuregs| a%d) #b%s))" % (step, i, step, bin(32+i)[3:]))
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smt.write("(define-fun b%d_r%d () (_ BitVec 32) (select (|main_b_m cpu.cpuregs| b%d) #b%s))" % (step, i, step, bin(32+i)[3:]))
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make_cpu_regs(0)
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make_cpu_regs(step)
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def print_status(mod, step):
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resetn = smt.get_net_bool("main_" + mod, "resetn", "%s%d" % (mod, step))
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memvld = smt.get_net_bool("main_" + mod, "mem_valid", "%s%d" % (mod, step))
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domem = smt.get_net_bool("main_" + mod, "domem", "%s%d" % (mod, step))
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memrdy = smt.get_net_bool("main_" + mod, "mem_ready", "%s%d" % (mod, step))
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trap = smt.get_net_bool("main_" + mod, "trap", "%s%d" % (mod, step))
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print("status %5s: resetn=%s, memvld=%s, domem=%s, memrdy=%s, trap=%s" % ("%s[%d]" % (mod, step), resetn, memvld, domem, memrdy, trap))
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def print_mem_xfer(mod, step):
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if allmem or smt.get("(and (|main_%s_n mem_valid| %s%d) (|main_%s_n mem_ready| %s%d))" % (mod, mod, step, mod, mod, step)) == 'true':
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mem_addr = smt.get_net_hex("main_" + mod, "mem_addr", "%s%d" % (mod, step))
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mem_wdata = smt.get_net_hex("main_" + mod, "mem_wdata", "%s%d" % (mod, step))
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mem_wstrb = smt.get_net_bin("main_" + mod, "mem_wstrb", "%s%d" % (mod, step))
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mem_rdata = smt.get_net_hex("main_" + mod, "mem_rdata", "%s%d" % (mod, step))
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if allmem and smt.get("(and (|main_%s_n mem_valid| %s%d) (|main_%s_n mem_ready| %s%d))" % (mod, mod, step, mod, mod, step)) == 'true':
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print("mem %5s: addr=%s, wdata=%s, wstrb=%s, rdata=%s <-" % ("%s[%d]" % (mod, step), mem_addr, mem_wdata, mem_wstrb, mem_rdata))
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else:
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print("mem %5s: addr=%s, wdata=%s, wstrb=%s, rdata=%s" % ("%s[%d]" % (mod, step), mem_addr, mem_wdata, mem_wstrb, mem_rdata))
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def print_cpu_regs(step):
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for i in range(1, 32):
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ra = smt.bv2hex(smt.get("a%d_r%d" % (step, i)))
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rb = smt.bv2hex(smt.get("b%d_r%d" % (step, i)))
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print("%3s[%d]: A=%s B=%s%s" % ("x%d" % i, step, ra, rb, " !" if ra != rb else ""))
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assert smt.check_sat() == "sat"
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if initzero:
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for rn, rs in regs_a:
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force_to_zero = True
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if smt.get_net_bin("main_a", rn, "a0").count("1") != 0:
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print("Looking for a solution with |main_a_n %s| initialized to all zeros.." % rn)
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smt.write("(push 1)")
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if rs == 1:
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smt.write("(assert (not (|main_a_n %s| a0)))" % rn)
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else:
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smt.write("(assert (= (|main_a_n %s| a0) #b%s))" % (rn, "0" * rs))
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if smt.check_sat() != "sat":
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force_to_zero = False
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smt.write("(pop 1)")
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if force_to_zero:
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if rs == 1:
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smt.write("(assert (not (|main_a_n %s| a0)))" % rn)
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else:
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smt.write("(assert (= (|main_a_n %s| a0) #b%s))" % (rn, "0" * rs))
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assert smt.check_sat() == "sat"
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for rn, rs in regs_b:
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force_to_zero = True
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if smt.get_net_bin("main_b", rn, "b0").count("1") != 0:
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print("Looking for a solution with |main_b_n %s| initialized to all zeros.." % rn)
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smt.write("(push 1)")
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if rs == 1:
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smt.write("(assert (not (|main_b_n %s| b0)))" % rn)
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else:
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smt.write("(assert (= (|main_b_n %s| b0) #b%s))" % (rn, "0" * rs))
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if smt.check_sat() != "sat":
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force_to_zero = False
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smt.write("(pop 1)")
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if force_to_zero:
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if rs == 1:
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smt.write("(assert (not (|main_b_n %s| b0)))" % rn)
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else:
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smt.write("(assert (= (|main_b_n %s| b0) #b%s))" % (rn, "0" * rs))
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assert smt.check_sat() == "sat"
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print()
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print_cpu_regs(0)
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print()
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print_cpu_regs(step)
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print()
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for i in range(step+1):
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print_status("a", i)
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print()
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for i in range(step+1):
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print_status("b", i)
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print()
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for i in range(1, step+1):
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print_mem_xfer("a", i)
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print()
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for i in range(1, step+1):
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print_mem_xfer("b", i)
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with open("async_tb.v", "w") as f:
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print()
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print("writing verilog test bench...")
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memory_words = 1
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memory_datas = { "a": dict(), "b": dict() }
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for i in range(step, 0, -1):
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for mod in ["a", "b"]:
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if allmem or smt.get("(and (|main_%s_n mem_valid| %s%d) (|main_%s_n mem_ready| %s%d))" % (mod, mod, i, mod, mod, i)) == 'true':
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mem_addr = smt.get_net_hex("main_" + mod, "mem_addr", "%s%d" % (mod, i))
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mem_rdata = smt.get_net_hex("main_" + mod, "mem_rdata", "%s%d" % (mod, i))
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memory_datas[mod][mem_addr] = mem_rdata
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memory_words = max((int(mem_addr, 16) >> 2)+1, memory_words)
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memory_data = dict()
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for k, v in memory_datas["a"].items(): memory_data[k] = v
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for k, v in memory_datas["b"].items(): memory_data[k] = v
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print("`timescale 1 ns / 1 ps", file=f)
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print("", file=f)
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print("module testbench;", file=f)
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print(" reg clk = 1, resetn, domem_a, domem_b;", file=f)
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print(" always #5 clk = ~clk;", file=f)
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print("", file=f)
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print(" main #(", file=f)
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print(" .MEMORY_WORDS(%d)," % memory_words, file=f)
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print(" .ENABLE_REGS_DUALPORT(0),", file=f)
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print(" .TWO_STAGE_SHIFT(0),", file=f)
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print(" .TWO_CYCLE_COMPARE(0),", file=f)
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print(" .TWO_CYCLE_ALU(0)", file=f)
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print(" ) main_a (", file=f)
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print(" .clk(clk),", file=f)
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print(" .resetn(resetn),", file=f)
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print(" .domem(domem_a)", file=f)
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print(" );", file=f)
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print("", file=f)
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print(" main #(", file=f)
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print(" .MEMORY_WORDS(%d)," % memory_words, file=f)
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print(" .ENABLE_REGS_DUALPORT(1),", file=f)
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print(" .TWO_STAGE_SHIFT(1),", file=f)
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print(" .TWO_CYCLE_COMPARE(1),", file=f)
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print(" .TWO_CYCLE_ALU(1)", file=f)
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print(" ) main_b (", file=f)
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print(" .clk(clk),", file=f)
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print(" .resetn(resetn),", file=f)
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print(" .domem(domem_b)", file=f)
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print(" );", file=f)
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print("", file=f)
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print(" task check_reg;", file=f)
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print(" input [4:0] n;", file=f)
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print(" begin", file=f)
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print(" if (main_a.cpu.cpuregs[n] != main_b.cpu.cpuregs[n])", file=f)
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print(" $display(\"Divergent values for reg %1d: A=%08x B=%08x\", n, main_a.cpu.cpuregs[n], main_b.cpu.cpuregs[n]);", file=f)
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print(" end", file=f)
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print(" endtask", file=f)
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print("", file=f)
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print(" task check_mem;", file=f)
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print(" input [31:0] n;", file=f)
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print(" begin", file=f)
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print(" if (main_a.memory[n] != main_b.memory[n])", file=f)
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print(" $display(\"Divergent values for memory addr %08x: A=%08x B=%08x\", n, main_a.cpu.cpuregs[n], main_b.cpu.cpuregs[n]);", file=f)
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print(" end", file=f)
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print(" endtask", file=f)
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print("", file=f)
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print(" initial begin", file=f)
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print(" $dumpfile(\"async_tb.vcd\");", file=f)
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print(" $dumpvars(0, testbench);", file=f)
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print("", file=f)
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for rn, rs in regs_a:
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print(" main_a.%s = %d'b %s;" % (rn, rs, smt.get_net_bin("main_a", rn, "a0")), file=f)
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print("", file=f)
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for rn, rs in regs_b:
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print(" main_b.%s = %d'b %s;" % (rn, rs, smt.get_net_bin("main_b", rn, "b0")), file=f)
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print("", file=f)
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for i in range(1, 32):
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ra = smt.bv2hex(smt.get("a%d_r%d" % (0, i)))
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rb = smt.bv2hex(smt.get("b%d_r%d" % (0, i)))
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print(" main_a.cpu.cpuregs[%2d] = 'h %s; main_b.cpu.cpuregs[%2d] = 'h %s;" % (i, ra, i, rb), file=f)
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print("", file=f)
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for addr, data in memory_data.items():
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print(" main_a.memory['h %08x] = 'h %s;" % (int(addr, 16) >> 2, data), file=f)
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print(" main_b.memory['h %08x] = 'h %s;" % (int(addr, 16) >> 2, data), file=f)
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print("", file=f)
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for i in range(step+1):
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print(" resetn = %d;" % smt.get_net_bool("main_a", "resetn", "a%d" % i), file=f)
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print(" domem_a = %d;" % smt.get_net_bool("main_a", "domem", "a%d" % i), file=f)
|
||||
print(" domem_b = %d;" % smt.get_net_bool("main_b", "domem", "b%d" % i), file=f)
|
||||
print(" @(posedge clk);", file=f)
|
||||
print("", file=f)
|
||||
|
||||
for i in range(1, 32):
|
||||
print(" check_reg(%d);" % i, file=f)
|
||||
for addr, data in memory_data.items():
|
||||
print(" check_mem('h %s);" % addr, file=f)
|
||||
print("", file=f)
|
||||
|
||||
print(" @(posedge clk);", file=f)
|
||||
print(" @(posedge clk);", file=f)
|
||||
print(" $finish;", file=f)
|
||||
print(" end", file=f)
|
||||
print("endmodule", file=f)
|
||||
|
||||
if words > 0:
|
||||
print("running verilog test bench...")
|
||||
os.system("iverilog -o async_tb -s testbench async_tb.v main.v ../../picorv32.v && ./async_tb")
|
||||
|
||||
break
|
||||
|
||||
else: # unsat
|
||||
smt.write("(pop 1)")
|
||||
|
||||
print("%s Done." % smt.timestamp())
|
||||
smt.write("(exit)")
|
||||
smt.wait()
|
||||
|
|
@ -1,4 +0,0 @@
|
|||
#!/bin/bash
|
||||
set -ex
|
||||
yosys -qv1 async.ys
|
||||
time python3 async.py
|
|
@ -1,31 +0,0 @@
|
|||
read_verilog main.v
|
||||
read_verilog ../../picorv32.v
|
||||
rename main main_a
|
||||
chparam -set ENABLE_REGS_DUALPORT 0 \
|
||||
-set TWO_STAGE_SHIFT 0 \
|
||||
-set TWO_CYCLE_COMPARE 0 \
|
||||
-set TWO_CYCLE_ALU 0 main_a
|
||||
hierarchy -top main_a
|
||||
proc
|
||||
opt
|
||||
memory -nordff -nomap
|
||||
flatten
|
||||
opt
|
||||
write_smt2 -bv -mem -regs async_a.smt2
|
||||
design -reset
|
||||
|
||||
read_verilog main.v
|
||||
read_verilog ../../picorv32.v
|
||||
rename main main_b
|
||||
chparam -set ENABLE_REGS_DUALPORT 1 \
|
||||
-set TWO_STAGE_SHIFT 1 \
|
||||
-set TWO_CYCLE_COMPARE 1 \
|
||||
-set TWO_CYCLE_ALU 1 main_b
|
||||
hierarchy -top main_b
|
||||
proc
|
||||
opt
|
||||
memory -nordff -nomap
|
||||
flatten
|
||||
opt
|
||||
write_smt2 -bv -mem -regs async_b.smt2
|
||||
design -reset
|
|
@ -1,64 +0,0 @@
|
|||
`timescale 1 ns / 1 ps
|
||||
|
||||
module main (input clk, resetn, domem, output trap);
|
||||
parameter integer MEMORY_WORDS = 2**30;
|
||||
|
||||
// timing parameters (vary for async test)
|
||||
parameter [0:0] ENABLE_REGS_DUALPORT = 1;
|
||||
parameter [0:0] TWO_STAGE_SHIFT = 1;
|
||||
parameter [0:0] TWO_CYCLE_COMPARE = 0;
|
||||
parameter [0:0] TWO_CYCLE_ALU = 0;
|
||||
|
||||
// isa parameters (vary for sync test)
|
||||
parameter [0:0] ENABLE_COUNTERS = 0;
|
||||
parameter [0:0] CATCH_MISALIGN = 1;
|
||||
parameter [0:0] CATCH_ILLINSN = 1;
|
||||
parameter [0:0] ENABLE_MUL = 0;
|
||||
parameter [0:0] ENABLE_IRQ = 0;
|
||||
|
||||
(* keep *) wire mem_valid;
|
||||
(* keep *) wire mem_ready;
|
||||
(* keep *) wire [31:0] mem_addr;
|
||||
(* keep *) wire [31:0] mem_wdata;
|
||||
(* keep *) wire [ 3:0] mem_wstrb;
|
||||
(* keep *) wire [31:0] mem_rdata;
|
||||
|
||||
picorv32 #(
|
||||
// timing parameters
|
||||
.ENABLE_REGS_DUALPORT(ENABLE_REGS_DUALPORT),
|
||||
.TWO_STAGE_SHIFT (TWO_STAGE_SHIFT ),
|
||||
.TWO_CYCLE_COMPARE (TWO_CYCLE_COMPARE ),
|
||||
.TWO_CYCLE_ALU (TWO_CYCLE_ALU ),
|
||||
|
||||
// isa parameters
|
||||
.ENABLE_COUNTERS(ENABLE_COUNTERS),
|
||||
.CATCH_MISALIGN (CATCH_MISALIGN ),
|
||||
.CATCH_ILLINSN (CATCH_ILLINSN ),
|
||||
.ENABLE_MUL (ENABLE_MUL ),
|
||||
.ENABLE_IRQ (ENABLE_IRQ )
|
||||
) cpu (
|
||||
.clk (clk ),
|
||||
.resetn (resetn ),
|
||||
.trap (trap ),
|
||||
.mem_valid(mem_valid),
|
||||
.mem_ready(mem_ready),
|
||||
.mem_addr (mem_addr ),
|
||||
.mem_wdata(mem_wdata),
|
||||
.mem_wstrb(mem_wstrb),
|
||||
.mem_rdata(mem_rdata)
|
||||
);
|
||||
|
||||
reg [31:0] memory [0:MEMORY_WORDS-1];
|
||||
|
||||
assign mem_ready = domem && resetn && mem_valid;
|
||||
assign mem_rdata = memory[mem_addr >> 2];
|
||||
|
||||
always @(posedge clk) begin
|
||||
if (mem_ready && mem_valid) begin
|
||||
if (mem_wstrb[0]) memory[mem_addr >> 2][ 7: 0] <= mem_wdata[ 7: 0];
|
||||
if (mem_wstrb[1]) memory[mem_addr >> 2][15: 8] <= mem_wdata[15: 8];
|
||||
if (mem_wstrb[2]) memory[mem_addr >> 2][23:16] <= mem_wdata[23:16];
|
||||
if (mem_wstrb[3]) memory[mem_addr >> 2][31:24] <= mem_wdata[31:24];
|
||||
end
|
||||
end
|
||||
endmodule
|
|
@ -1,285 +0,0 @@
|
|||
#!/usr/bin/env python3
|
||||
|
||||
import sys
|
||||
import subprocess
|
||||
from select import select
|
||||
from time import time
|
||||
|
||||
class smtio:
|
||||
def __init__(self, solver=None, debug_print=None, debug_file=None, timeinfo=None, opts=None):
|
||||
if opts is not None:
|
||||
self.solver = opts.solver
|
||||
self.debug_print = opts.debug_print
|
||||
self.debug_file = opts.debug_file
|
||||
self.timeinfo = opts.timeinfo
|
||||
|
||||
else:
|
||||
self.solver = "yices"
|
||||
self.debug_print = False
|
||||
self.debug_file = None
|
||||
self.timeinfo = True
|
||||
|
||||
if solver is not None:
|
||||
self.solver = solver
|
||||
|
||||
if debug_print is not None:
|
||||
self.debug_print = debug_print
|
||||
|
||||
if debug_file is not None:
|
||||
self.debug_file = debug_file
|
||||
|
||||
if timeinfo is not None:
|
||||
self.timeinfo = timeinfo
|
||||
|
||||
if self.solver == "yices":
|
||||
popen_vargs = ['yices-smt2', '--incremental']
|
||||
|
||||
if self.solver == "z3":
|
||||
popen_vargs = ['z3', '-smt2', '-in']
|
||||
|
||||
if self.solver == "cvc4":
|
||||
popen_vargs = ['cvc4', '--incremental', '--lang', 'smt2']
|
||||
|
||||
if self.solver == "mathsat":
|
||||
popen_vargs = ['mathsat']
|
||||
|
||||
self.p = subprocess.Popen(popen_vargs, stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
|
||||
self.start_time = time()
|
||||
|
||||
def setup(self, logic="ALL", info=None):
|
||||
self.write("(set-logic %s)" % logic)
|
||||
if info is not None:
|
||||
self.write("(set-info :source |%s|)" % info)
|
||||
self.write("(set-info :smt-lib-version 2.5)")
|
||||
self.write("(set-info :category \"industrial\")")
|
||||
|
||||
def timestamp(self):
|
||||
secs = int(time() - self.start_time)
|
||||
return "+ %6d %3d:%02d:%02d " % (secs, secs // (60*60), (secs // 60) % 60, secs % 60)
|
||||
|
||||
def write(self, stmt):
|
||||
stmt = stmt.strip()
|
||||
if self.debug_print:
|
||||
print("> %s" % stmt)
|
||||
if self.debug_file:
|
||||
print(stmt, file=self.debug_file)
|
||||
self.debug_file.flush()
|
||||
self.p.stdin.write(bytes(stmt + "\n", "ascii"))
|
||||
self.p.stdin.flush()
|
||||
|
||||
def read(self):
|
||||
stmt = []
|
||||
count_brackets = 0
|
||||
|
||||
while True:
|
||||
line = self.p.stdout.readline().decode("ascii").strip()
|
||||
count_brackets += line.count("(")
|
||||
count_brackets -= line.count(")")
|
||||
stmt.append(line)
|
||||
if self.debug_print:
|
||||
print("< %s" % line)
|
||||
if count_brackets == 0:
|
||||
break
|
||||
if not self.p.poll():
|
||||
print("SMT Solver terminated unexpectedly: %s" % "".join(stmt))
|
||||
sys.exit(1)
|
||||
|
||||
stmt = "".join(stmt)
|
||||
if stmt.startswith("(error"):
|
||||
print("SMT Solver Error: %s" % stmt, file=sys.stderr)
|
||||
sys.exit(1)
|
||||
|
||||
return stmt
|
||||
|
||||
def check_sat(self):
|
||||
if self.debug_print:
|
||||
print("> (check-sat)")
|
||||
if self.debug_file:
|
||||
print("; running check-sat..", file=self.debug_file)
|
||||
self.debug_file.flush()
|
||||
|
||||
self.p.stdin.write(bytes("(check-sat)\n", "ascii"))
|
||||
self.p.stdin.flush()
|
||||
|
||||
if self.timeinfo:
|
||||
i = 0
|
||||
s = "/-\|"
|
||||
|
||||
count = 0
|
||||
num_bs = 0
|
||||
while select([self.p.stdout], [], [], 0.1) == ([], [], []):
|
||||
count += 1
|
||||
|
||||
if count < 25:
|
||||
continue
|
||||
|
||||
if count % 10 == 0 or count == 25:
|
||||
secs = count // 10
|
||||
|
||||
if secs < 60:
|
||||
m = "(%d seconds)" % secs
|
||||
elif secs < 60*60:
|
||||
m = "(%d seconds -- %d:%02d)" % (secs, secs // 60, secs % 60)
|
||||
else:
|
||||
m = "(%d seconds -- %d:%02d:%02d)" % (secs, secs // (60*60), (secs // 60) % 60, secs % 60)
|
||||
|
||||
print("%s %s %c" % ("\b \b" * num_bs, m, s[i]), end="", file=sys.stderr)
|
||||
num_bs = len(m) + 3
|
||||
|
||||
else:
|
||||
print("\b" + s[i], end="", file=sys.stderr)
|
||||
|
||||
sys.stderr.flush()
|
||||
i = (i + 1) % len(s)
|
||||
|
||||
if num_bs != 0:
|
||||
print("\b \b" * num_bs, end="", file=sys.stderr)
|
||||
sys.stderr.flush()
|
||||
|
||||
result = self.read()
|
||||
if self.debug_file:
|
||||
print("(set-info :status %s)" % result, file=self.debug_file)
|
||||
print("(check-sat)", file=self.debug_file)
|
||||
self.debug_file.flush()
|
||||
return result
|
||||
|
||||
def parse(self, stmt):
|
||||
def worker(stmt):
|
||||
if stmt[0] == '(':
|
||||
expr = []
|
||||
cursor = 1
|
||||
while stmt[cursor] != ')':
|
||||
el, le = worker(stmt[cursor:])
|
||||
expr.append(el)
|
||||
cursor += le
|
||||
return expr, cursor+1
|
||||
|
||||
if stmt[0] == '|':
|
||||
expr = "|"
|
||||
cursor = 1
|
||||
while stmt[cursor] != '|':
|
||||
expr += stmt[cursor]
|
||||
cursor += 1
|
||||
expr += "|"
|
||||
return expr, cursor+1
|
||||
|
||||
if stmt[0] in [" ", "\t", "\r", "\n"]:
|
||||
el, le = worker(stmt[1:])
|
||||
return el, le+1
|
||||
|
||||
expr = ""
|
||||
cursor = 0
|
||||
while stmt[cursor] not in ["(", ")", "|", " ", "\t", "\r", "\n"]:
|
||||
expr += stmt[cursor]
|
||||
cursor += 1
|
||||
return expr, cursor
|
||||
return worker(stmt)[0]
|
||||
|
||||
def bv2hex(self, v):
|
||||
if v == "true": return "1"
|
||||
if v == "false": return "0"
|
||||
h = ""
|
||||
while len(v) > 2:
|
||||
d = 0
|
||||
if len(v) > 0 and v[-1] == "1": d += 1
|
||||
if len(v) > 1 and v[-2] == "1": d += 2
|
||||
if len(v) > 2 and v[-3] == "1": d += 4
|
||||
if len(v) > 3 and v[-4] == "1": d += 8
|
||||
h = hex(d)[2:] + h
|
||||
if len(v) < 4: break
|
||||
v = v[:-4]
|
||||
return h
|
||||
|
||||
def bv2bin(self, v):
|
||||
if v == "true": return "1"
|
||||
if v == "false": return "0"
|
||||
return v[2:]
|
||||
|
||||
def get(self, expr):
|
||||
self.write("(get-value (%s))" % (expr))
|
||||
return self.parse(self.read())[0][1]
|
||||
|
||||
def get_net(self, mod_name, net_name, state_name):
|
||||
return self.get("(|%s_n %s| %s)" % (mod_name, net_name, state_name))
|
||||
|
||||
def get_net_bool(self, mod_name, net_name, state_name):
|
||||
v = self.get_net(mod_name, net_name, state_name)
|
||||
assert v in ["true", "false"]
|
||||
return 1 if v == "true" else 0
|
||||
|
||||
def get_net_hex(self, mod_name, net_name, state_name):
|
||||
return self.bv2hex(self.get_net(mod_name, net_name, state_name))
|
||||
|
||||
def get_net_bin(self, mod_name, net_name, state_name):
|
||||
return self.bv2bin(self.get_net(mod_name, net_name, state_name))
|
||||
|
||||
def wait(self):
|
||||
self.p.wait()
|
||||
|
||||
|
||||
class smtopts:
|
||||
def __init__(self):
|
||||
self.optstr = "s:d:vp"
|
||||
self.solver = "yices"
|
||||
self.debug_print = False
|
||||
self.debug_file = None
|
||||
self.timeinfo = True
|
||||
|
||||
def handle(self, o, a):
|
||||
if o == "-s":
|
||||
self.solver = a
|
||||
elif o == "-v":
|
||||
self.debug_print = True
|
||||
elif o == "-p":
|
||||
self.timeinfo = True
|
||||
elif o == "-d":
|
||||
self.debug_file = open(a, "w")
|
||||
else:
|
||||
return False
|
||||
return True
|
||||
|
||||
def helpmsg(self):
|
||||
return """
|
||||
-s <solver>
|
||||
set SMT solver: yices, z3, cvc4, mathsat
|
||||
default: yices
|
||||
|
||||
-v
|
||||
enable debug output
|
||||
|
||||
-p
|
||||
disable timer display during solving
|
||||
|
||||
-d <filename>
|
||||
write smt2 statements to file
|
||||
"""
|
||||
|
||||
|
||||
class mkvcd:
|
||||
def __init__(self, f):
|
||||
self.f = f
|
||||
self.t = -1
|
||||
self.nets = dict()
|
||||
|
||||
def add_net(self, name, width):
|
||||
assert self.t == -1
|
||||
key = "n%d" % len(self.nets)
|
||||
self.nets[name] = (key, width)
|
||||
|
||||
def set_net(self, name, bits):
|
||||
assert name in self.nets
|
||||
assert self.t >= 0
|
||||
print("b%s %s" % (bits, self.nets[name][0]), file=self.f)
|
||||
|
||||
def set_time(self, t):
|
||||
assert t >= self.t
|
||||
if t != self.t:
|
||||
if self.t == -1:
|
||||
for name in sorted(self.nets):
|
||||
key, width = self.nets[name]
|
||||
print("$var wire %d %s %s $end" % (width, key, name), file=self.f)
|
||||
print("$enddefinitions $end", file=self.f)
|
||||
self.t = t
|
||||
assert self.t >= 0
|
||||
print("#%d" % self.t, file=self.f)
|
||||
|
|
@ -1,267 +0,0 @@
|
|||
#!/usr/bin/env python3
|
||||
|
||||
import os, sys, getopt
|
||||
from smtio import smtio, smtopts
|
||||
|
||||
steps = 14
|
||||
words = 0
|
||||
allmem = False
|
||||
so = smtopts()
|
||||
|
||||
def usage():
|
||||
print("""
|
||||
python3 sync.py [options]
|
||||
|
||||
-t <steps>
|
||||
default: 20
|
||||
""" + so.helpmsg())
|
||||
sys.exit(1)
|
||||
|
||||
try:
|
||||
opts, args = getopt.getopt(sys.argv[1:], so.optstr + "t:")
|
||||
except:
|
||||
usage()
|
||||
|
||||
for o, a in opts:
|
||||
if o == "-t":
|
||||
steps = int(a)
|
||||
elif so.handle(o, a):
|
||||
pass
|
||||
else:
|
||||
usage()
|
||||
|
||||
if len(args) > 0:
|
||||
usage()
|
||||
|
||||
smt = smtio(opts=so)
|
||||
|
||||
print("Solver: %s" % so.solver)
|
||||
smt.setup("QF_AUFBV", "PicoRV32 \"sync.py\" BMC script, powered by Yosys")
|
||||
|
||||
regs_a = list()
|
||||
regs_b = list()
|
||||
|
||||
with open("sync_a.smt2", "r") as f:
|
||||
for line in f:
|
||||
if line.startswith("; yosys-smt2-register "):
|
||||
line = line.split()
|
||||
regs_a.append((line[2], int(line[3])))
|
||||
else:
|
||||
smt.write(line)
|
||||
|
||||
with open("sync_b.smt2", "r") as f:
|
||||
for line in f:
|
||||
if line.startswith("; yosys-smt2-register "):
|
||||
line = line.split()
|
||||
regs_b.append((line[2], int(line[3])))
|
||||
else:
|
||||
smt.write(line)
|
||||
|
||||
for step in range(steps):
|
||||
smt.write("(declare-fun a%d () main_a_s)" % step)
|
||||
smt.write("(declare-fun b%d () main_b_s)" % step)
|
||||
|
||||
smt.write("(assert (= (|main_a_n domem| a%d) (|main_b_n domem| b%d)))" % (step, step))
|
||||
smt.write("(assert (not (|main_a_n trap| a%d)))" % step)
|
||||
|
||||
if step == 0:
|
||||
# start with synced memory and register file
|
||||
smt.write("(assert (= (|main_a_m cpu.cpuregs| a0) (|main_b_m cpu.cpuregs| b0)))")
|
||||
smt.write("(assert (= (|main_a_m memory| a0) (|main_b_m memory| b0)))")
|
||||
|
||||
# reset in first cycle
|
||||
smt.write("(assert (not (|main_a_n resetn| a%d)))" % step)
|
||||
smt.write("(assert (not (|main_b_n resetn| b%d)))" % step)
|
||||
|
||||
else:
|
||||
smt.write("(assert (main_a_t a%d a%d))" % (step-1, step))
|
||||
smt.write("(assert (main_b_t b%d b%d))" % (step-1, step))
|
||||
|
||||
smt.write("(assert (|main_a_n resetn| a%d))" % step)
|
||||
smt.write("(assert (|main_b_n resetn| b%d))" % step)
|
||||
|
||||
print("%s Checking sequence of length %d.." % (smt.timestamp(), step))
|
||||
smt.write("(push 1)")
|
||||
|
||||
smt.write(("(assert (or (distinct (|main_a_m cpu.cpuregs| a%d) (|main_b_m cpu.cpuregs| b%d)) " +
|
||||
"(distinct (|main_a_m memory| a%d) (|main_b_m memory| b%d))" +
|
||||
"(distinct (|main_a_n trap| a%d) (|main_b_n trap| b%d))))") % (step, step, step, step, step, step))
|
||||
|
||||
if smt.check_sat() == "sat":
|
||||
|
||||
print("%s Creating model.." % smt.timestamp())
|
||||
|
||||
def make_cpu_regs(step):
|
||||
for i in range(1, 32):
|
||||
smt.write("(define-fun a%d_r%d () (_ BitVec 32) (select (|main_a_m cpu.cpuregs| a%d) #b%s))" % (step, i, step, bin(32+i)[3:]))
|
||||
smt.write("(define-fun b%d_r%d () (_ BitVec 32) (select (|main_b_m cpu.cpuregs| b%d) #b%s))" % (step, i, step, bin(32+i)[3:]))
|
||||
|
||||
make_cpu_regs(0)
|
||||
make_cpu_regs(step)
|
||||
|
||||
assert smt.sheck_sat() == "sat"
|
||||
|
||||
def print_status(mod, step):
|
||||
resetn = smt.get_net_bool("main_" + mod, "resetn", "%s%d" % (mod, step))
|
||||
memvld = smt.get_net_bool("main_" + mod, "mem_valid", "%s%d" % (mod, step))
|
||||
domem = smt.get_net_bool("main_" + mod, "domem", "%s%d" % (mod, step))
|
||||
memrdy = smt.get_net_bool("main_" + mod, "mem_ready", "%s%d" % (mod, step))
|
||||
trap = smt.get_net_bool("main_" + mod, "trap", "%s%d" % (mod, step))
|
||||
print("status %5s: resetn=%s, memvld=%s, domem=%s, memrdy=%s, trap=%s" % ("%s[%d]" % (mod, step), resetn, memvld, domem, memrdy, trap))
|
||||
|
||||
def print_mem_xfer(mod, step):
|
||||
if allmem or smt.get("(and (|main_%s_n mem_valid| %s%d) (|main_%s_n mem_ready| %s%d))" % (mod, mod, step, mod, mod, step)) == 'true':
|
||||
mem_addr = smt.get_net_hex("main_" + mod, "mem_addr", "%s%d" % (mod, step))
|
||||
mem_wdata = smt.get_net_hex("main_" + mod, "mem_wdata", "%s%d" % (mod, step))
|
||||
mem_wstrb = smt.get_net_bin("main_" + mod, "mem_wstrb", "%s%d" % (mod, step))
|
||||
mem_rdata = smt.get_net_hex("main_" + mod, "mem_rdata", "%s%d" % (mod, step))
|
||||
if allmem and smt.get("(and (|main_%s_n mem_valid| %s%d) (|main_%s_n mem_ready| %s%d))" % (mod, mod, step, mod, mod, step)) == 'true':
|
||||
print("mem %5s: addr=%s, wdata=%s, wstrb=%s, rdata=%s <-" % ("%s[%d]" % (mod, step), mem_addr, mem_wdata, mem_wstrb, mem_rdata))
|
||||
else:
|
||||
print("mem %5s: addr=%s, wdata=%s, wstrb=%s, rdata=%s" % ("%s[%d]" % (mod, step), mem_addr, mem_wdata, mem_wstrb, mem_rdata))
|
||||
|
||||
def print_cpu_regs(step):
|
||||
for i in range(1, 32):
|
||||
ra = smt.bv2hex(smt.get("a%d_r%d" % (step, i)))
|
||||
rb = smt.bv2hex(smt.get("b%d_r%d" % (step, i)))
|
||||
print("%3s[%d]: A=%s B=%s%s" % ("x%d" % i, step, ra, rb, " !" if ra != rb else ""))
|
||||
|
||||
print()
|
||||
print_cpu_regs(0)
|
||||
|
||||
print()
|
||||
print_cpu_regs(step)
|
||||
|
||||
print()
|
||||
for i in range(step+1):
|
||||
print_status("a", i)
|
||||
|
||||
print()
|
||||
for i in range(step+1):
|
||||
print_status("b", i)
|
||||
|
||||
print()
|
||||
for i in range(1, step+1):
|
||||
print_mem_xfer("a", i)
|
||||
|
||||
print()
|
||||
for i in range(1, step+1):
|
||||
print_mem_xfer("b", i)
|
||||
|
||||
with open("sync_tb.v", "w") as f:
|
||||
print()
|
||||
print("writing verilog test bench...")
|
||||
|
||||
memory_words = 1
|
||||
memory_datas = { "a": dict(), "b": dict() }
|
||||
for i in range(step, 0, -1):
|
||||
for mod in ["a", "b"]:
|
||||
if allmem or smt.get("(and (|main_%s_n mem_valid| %s%d) (|main_%s_n mem_ready| %s%d))" % (mod, mod, i, mod, mod, i)) == 'true':
|
||||
mem_addr = smt.get_net_hex("main_" + mod, "mem_addr", "%s%d" % (mod, i))
|
||||
mem_rdata = smt.get_net_hex("main_" + mod, "mem_rdata", "%s%d" % (mod, i))
|
||||
memory_datas[mod][mem_addr] = mem_rdata
|
||||
memory_words = max((int(mem_addr, 16) >> 2)+1, memory_words)
|
||||
memory_data = dict()
|
||||
for k, v in memory_datas["a"].items(): memory_data[k] = v
|
||||
for k, v in memory_datas["b"].items(): memory_data[k] = v
|
||||
|
||||
print("`timescale 1 ns / 1 ps", file=f)
|
||||
print("", file=f)
|
||||
print("module testbench;", file=f)
|
||||
print(" reg clk = 1, resetn, domem_a, domem_b;", file=f)
|
||||
print(" always #5 clk = ~clk;", file=f)
|
||||
print("", file=f)
|
||||
print(" main #(", file=f)
|
||||
print(" .MEMORY_WORDS(%d)," % memory_words, file=f)
|
||||
print(" /* FIXME */", file=f)
|
||||
print(" ) main_a (", file=f)
|
||||
print(" .clk(clk),", file=f)
|
||||
print(" .resetn(resetn),", file=f)
|
||||
print(" .domem(domem_a)", file=f)
|
||||
print(" );", file=f)
|
||||
print("", file=f)
|
||||
print(" main #(", file=f)
|
||||
print(" .MEMORY_WORDS(%d)," % memory_words, file=f)
|
||||
print(" /* FIXME */", file=f)
|
||||
print(" ) main_b (", file=f)
|
||||
print(" .clk(clk),", file=f)
|
||||
print(" .resetn(resetn),", file=f)
|
||||
print(" .domem(domem_b)", file=f)
|
||||
print(" );", file=f)
|
||||
print("", file=f)
|
||||
print(" task check_reg;", file=f)
|
||||
print(" input [4:0] n;", file=f)
|
||||
print(" begin", file=f)
|
||||
print(" if (main_a.cpu.cpuregs[n] != main_b.cpu.cpuregs[n])", file=f)
|
||||
print(" $display(\"Divergent values for reg %1d: A=%08x B=%08x\", n, main_a.cpu.cpuregs[n], main_b.cpu.cpuregs[n]);", file=f)
|
||||
print(" end", file=f)
|
||||
print(" endtask", file=f)
|
||||
print("", file=f)
|
||||
print(" task check_mem;", file=f)
|
||||
print(" input [31:0] n;", file=f)
|
||||
print(" begin", file=f)
|
||||
print(" if (main_a.memory[n] != main_b.memory[n])", file=f)
|
||||
print(" $display(\"Divergent values for memory addr %08x: A=%08x B=%08x\", n, main_a.cpu.cpuregs[n], main_b.cpu.cpuregs[n]);", file=f)
|
||||
print(" end", file=f)
|
||||
print(" endtask", file=f)
|
||||
print("", file=f)
|
||||
print(" initial begin", file=f)
|
||||
print(" $dumpfile(\"sync_tb.vcd\");", file=f)
|
||||
print(" $dumpvars(0, testbench);", file=f)
|
||||
print("", file=f)
|
||||
|
||||
for rn, rs in regs_a:
|
||||
print(" main_a.%s = %d'b %s;" % (rn, rs, smt.get_net_bin("main_a", rn, "a0")), file=f)
|
||||
print("", file=f)
|
||||
|
||||
for rn, rs in regs_b:
|
||||
print(" main_b.%s = %d'b %s;" % (rn, rs, smt.get_net_bin("main_b", rn, "b0")), file=f)
|
||||
print("", file=f)
|
||||
|
||||
for i in range(1, 32):
|
||||
ra = smt.bv2hex(smt.get("a%d_r%d" % (0, i)))
|
||||
rb = smt.bv2hex(smt.get("b%d_r%d" % (0, i)))
|
||||
print(" main_a.cpu.cpuregs[%2d] = 'h %s; main_b.cpu.cpuregs[%2d] = 'h %s;" % (i, ra, i, rb), file=f)
|
||||
print("", file=f)
|
||||
|
||||
for addr, data in memory_data.items():
|
||||
print(" main_a.memory['h %08x] = 'h %s;" % (int(addr, 16) >> 2, data), file=f)
|
||||
print(" main_b.memory['h %08x] = 'h %s;" % (int(addr, 16) >> 2, data), file=f)
|
||||
print("", file=f)
|
||||
|
||||
for i in range(step+1):
|
||||
print(" resetn = %d;" % smt.get_net_bool("main_a", "resetn", "a%d" % i), file=f)
|
||||
print(" domem_a = %d;" % smt.get_net_bool("main_a", "domem", "a%d" % i), file=f)
|
||||
print(" domem_b = %d;" % smt.get_net_bool("main_b", "domem", "b%d" % i), file=f)
|
||||
print(" @(posedge clk);", file=f)
|
||||
print("", file=f)
|
||||
|
||||
for i in range(1, 32):
|
||||
print(" check_reg(%d);" % i, file=f)
|
||||
for addr, data in memory_data.items():
|
||||
print(" check_mem('h %s);" % addr, file=f)
|
||||
print("", file=f)
|
||||
|
||||
print(" @(posedge clk);", file=f)
|
||||
print(" @(posedge clk);", file=f)
|
||||
print(" $finish;", file=f)
|
||||
print(" end", file=f)
|
||||
print("endmodule", file=f)
|
||||
|
||||
if words > 0:
|
||||
print("running verilog test bench...")
|
||||
os.system("iverilog -o sync_tb -s testbench sync_tb.v main.v ../../picorv32.v && ./sync_tb")
|
||||
|
||||
break
|
||||
|
||||
else: # unsat
|
||||
smt.write("(pop 1)")
|
||||
|
||||
smt.write("(assert (= (|main_a_m cpu.cpuregs| a%d) (|main_b_m cpu.cpuregs| b%d)))" % (step, step))
|
||||
smt.write("(assert (= (|main_a_m memory| a%d) (|main_b_m memory| b%d)))" % (step, step))
|
||||
smt.write("(assert (= (|main_a_n trap| a%d) (|main_b_n trap| b%d)))" % (step, step))
|
||||
|
||||
print("%s Done." % smt.timestamp())
|
||||
smt.write("(exit)")
|
||||
smt.wait()
|
||||
|
|
@ -1,4 +0,0 @@
|
|||
#!/bin/bash
|
||||
set -ex
|
||||
yosys -qv1 sync.ys
|
||||
time python3 sync.py
|
|
@ -1,28 +0,0 @@
|
|||
read_verilog main.v
|
||||
read_verilog ../../picorv32.v
|
||||
rename main main_a
|
||||
hierarchy -top main_a
|
||||
proc
|
||||
opt
|
||||
memory -nordff -nomap
|
||||
flatten
|
||||
opt
|
||||
write_smt2 -bv -mem -regs sync_a.smt2
|
||||
design -reset
|
||||
|
||||
read_verilog main.v
|
||||
read_verilog ../../picorv32.v
|
||||
rename main main_b
|
||||
chparam -set ENABLE_COUNTERS 1 \
|
||||
-set CATCH_MISALIGN 0 \
|
||||
-set CATCH_ILLINSN 0 \
|
||||
-set ENABLE_MUL 1 \
|
||||
-set ENABLE_IRQ 0 main_b
|
||||
hierarchy -top main_b
|
||||
proc
|
||||
opt
|
||||
memory -nordff -nomap
|
||||
flatten
|
||||
opt
|
||||
write_smt2 -bv -mem -regs sync_b.smt2
|
||||
design -reset
|
Loading…
Reference in New Issue