def test_sv_load_store(self):
lst = SVP64Asm(["addi 1, 0, 0x0010",
- "addi 2, 0, 0x1234",
- "sv.stw 2, 0(1)",
- "sv.lwz 3, 0(1)"])
+ "addi 2, 0, 0x0008",
+ "addi 5, 0, 0x1234",
+ "addi 6, 0, 0x1235",
+ "sv.stw 5, 0(1)",
+ "sv.lwz 9, 0(1)"])
lst = list(lst)
# SVSTATE (in this case, VL=2)
svstate = SVP64State()
- svstate.vl[0:7] = 1 # VL
- svstate.maxvl[0:7] = 1 # MAXVL
+ svstate.vl[0:7] = 2 # VL
+ svstate.maxvl[0:7] = 2 # MAXVL
print ("SVSTATE", bin(svstate.spr.asint()))
with Program(lst, bigendian=False) as program:
sim = self.run_tst_program(program, svstate=svstate)
print(sim.gpr(1))
- self.assertEqual(sim.gpr(3), SelectableInt(0x1234, 64))
+ self.assertEqual(sim.gpr(9), SelectableInt(0x1234, 64))
+ #self.assertEqual(sim.gpr(10), SelectableInt(0x1235, 64))
def test_sv_add(self):
# adds:
self.reg_out = Data(5, name="reg_a")
self.spr_out = Data(SPR, "spr_a")
self.fast_out = Data(3, "fast_a")
+ self.sv_nz = Signal(1)
def elaborate(self, platform):
m = Module()
reg = self.reg_out
m.submodules.sprmap = sprmap = SPRMap()
- # select Register A field
+ # select Register A field, if *full 7 bits* are zero (2 more from SVP64)
ra = Signal(5, reset_less=True)
comb += ra.eq(self.dec.RA)
with m.If((self.sel_in == In1Sel.RA) |
((self.sel_in == In1Sel.RA_OR_ZERO) &
- (ra != Const(0, 5)))):
+ ((ra != Const(0, 5)) | (self.sv_nz != Const(0, 1))))):
comb += reg.data.eq(ra)
comb += reg.ok.eq(1)
"""DecodeA immediate from instruction
decodes register RA, whether immediate-zero, implicit and
- explicit CSRs
+ explicit CSRs. SVP64 mode requires 2 extra bits
"""
def __init__(self, dec):
self.dec = dec
self.sel_in = Signal(In1Sel, reset_less=True)
self.immz_out = Signal(reset_less=True)
+ self.sv_nz = Signal(1) # EXTRA bits from SVP64
def elaborate(self, platform):
m = Module()
# zero immediate requested
ra = Signal(5, reset_less=True)
comb += ra.eq(self.dec.RA)
- with m.If((self.sel_in == In1Sel.RA_OR_ZERO) & (ra == Const(0, 5))):
+ with m.If((self.sel_in == In1Sel.RA_OR_ZERO) &
+ (ra == Const(0, 5)) &
+ (self.sv_nz == Const(0, 1))):
comb += self.immz_out.eq(1)
return m
self.svp64_en = svp64_en
if svp64_en:
self.sv_rm = SVP64Rec(name="dec_svp64") # SVP64 RM field
+ self.sv_a_nz = Signal(1)
self.final = final
self.opkls = opkls
self.fn_name = fn_name
# immediates
if self.needs_field("zero_a", "in1_sel"):
m.submodules.dec_ai = dec_ai = DecodeAImm(self.dec)
+ comb += dec_ai.sv_nz.eq(self.sv_a_nz)
comb += dec_ai.sel_in.eq(op.in1_sel)
comb += self.do_copy("zero_a", dec_ai.immz_out) # RA==0 detected
if self.needs_field("imm_data", "in2_sel"):
m.submodules.dec_o2 = dec_o2 = DecodeOut2(self.dec)
m.submodules.dec_cr_in = self.dec_cr_in = DecodeCRIn(self.dec)
m.submodules.dec_cr_out = self.dec_cr_out = DecodeCROut(self.dec)
+ comb += dec_a.sv_nz.eq(self.sv_a_nz)
if self.svp64_en:
# and SVP64 Extra decoders
comb += to_reg.data.eq(svdec.cr_out) # 7-bit output
comb += to_reg.ok.eq(fromreg.ok)
+ # sigh must determine if RA is nonzero (7 bit)
+ comb += self.sv_a_nz.eq(e.read_reg1.data != Const(0, 7))
else:
# connect up to/from read/write GPRs
for to_reg, fromreg in ((e.read_reg1, dec_a.reg_out),
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