comb += a_signed.eq(a)
comb += a_signed_32.eq(a[0:32])
+ # do not check MSBs of a/b in 32-bit mode
with m.If(rec.is_32bit):
comb += Assume(a[32:64] == 0)
comb += Assume(b[32:64] == 0)
+ # Data.ok checking. these only to be valid when there is a change
+ # in the output that needs to go into a regfile
o_ok = Signal()
+ cr0_ok = Signal()
+ ov_ok = Signal()
+ ca_ok = Signal()
comb += o_ok.eq(1) # will be set to zero if no op takes place
+ comb += cr0_ok.eq(0)
+ comb += ov_ok.eq(0)
+ comb += ca_ok.eq(0)
# main assertion of arithmetic operations
with m.Switch(rec.insn_type):
with m.Case(InternalOp.OP_ADD):
+ # check result of 65-bit add-with-carry
comb += Assert(Cat(o, ca_o) == (a + b + ca_in))
# CA32 - XXX note this fails! replace with ca_in and it works
comb += Assert((a[0:32] + b[0:32] + ca_in)[32] == ca32_o)
- # From microwatt execute1.vhdl line 130
+ # From microwatt execute1.vhdl line 130, calc_ov() function
comb += Assert(ov_o == ((ca_o ^ o[-1]) & ~(a[-1] ^ b[-1])))
comb += Assert(ov32_o == ((ca32_o ^ o[31]) & ~(a[31] ^ b[31])))
+ comb += ov_ok.eq(1)
+ comb += ca_ok.eq(1)
with m.Case(InternalOp.OP_EXTS):
for i in [1, 2, 4]:
with m.If(rec.data_len == i):
+ # main part, then sign-bit replicated up
comb += Assert(o[0:i*8] == a[0:i*8])
comb += Assert(o[i*8:64] == Repl(a[i*8-1], 64-(i*8)))
for i in range(8):
comb += eqs[i].eq(src1 == b[i*8:(i+1)*8])
comb += Assert(dut.o.cr0.data[2] == eqs.any())
+ comb += cr0_ok.eq(1)
with m.Default():
comb += o_ok.eq(0)
# check that data ok was only enabled when op actioned
comb += Assert(dut.o.o.ok == o_ok)
- #comb += Assert(dut.o.xer_ca.ok == o_ok)
+ comb += Assert(dut.o.cr0.ok == cr0_ok)
+ comb += Assert(dut.o.xer_ov.ok == ov_ok)
+ comb += Assert(dut.o.xer_ca.ok == ca_ok)
return m
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