# inputs
self.oper_i = Signal(opwid, reset_less=True)
+ self.imm_i = Signal(rwid, reset_less=True)
# Branch ALU and CU
self.bgt = BranchALU(rwid)
- self.br1 = ComputationUnitNoDelay(rwid, 3, self.bgt)
+ aluopwid = 3 # extra bit for immediate mode
+ self.br1 = ComputationUnitNoDelay(rwid, aluopwid, self.bgt)
CompUnitsBase.__init__(self, rwid, [self.br1])
def elaborate(self, platform):
# hand the same operation to all units
for alu in self.units:
comb += alu.oper_i.eq(self.oper_i)
+ comb += alu.imm_i.eq(self.imm_i)
return m
self.alu_oper_i = Signal(4, reset_less=True)
self.alu_imm_i = Signal(rwid, reset_less=True)
self.br_oper_i = Signal(4, reset_less=True)
+ self.br_imm_i = Signal(rwid, reset_less=True)
# inputs
self.int_dest_i = Signal(max=n_regs, reset_less=True) # Dest R# in
# Int ALUs and Comp Units
n_int_alus = 5
cua = CompUnitALUs(self.rwid, 3)
- cub = CompUnitBR(self.rwid, 2)
+ cub = CompUnitBR(self.rwid, 3)
m.submodules.cu = cu = CompUnitsBase(self.rwid, [cua, cub])
bgt = cub.bgt # get at the branch computation unit
br1 = cub.br1
comb += cua.oper_i.eq(self.alu_oper_i)
comb += cua.imm_i.eq(self.alu_imm_i)
comb += cub.oper_i.eq(self.br_oper_i)
+ comb += cub.imm_i.eq(self.br_imm_i)
# TODO: issueunit.f (FP)
# choose a Function-Unit-Group
with m.If((op & (0x3<<2)) != 0): # branch
comb += sc.brissue.insn_i.eq(1)
- comb += sc.br_oper_i.eq(op & 0x3)
+ comb += sc.br_oper_i.eq(Cat(op[0:2], opi))
+ comb += sc.br_imm_i.eq(imm)
comb += wait_issue_br.eq(1)
with m.Else(): # alu
comb += sc.aluissue.insn_i.eq(1)
if (op & (0x3<<2)) != 0: # branch
yield dut.brissue.insn_i.eq(1)
yield dut.br_oper_i.eq(Const(op & 0x3, 2))
+ yield dut.br_imm_i.eq(imm)
dut_issue = dut.brissue
else:
yield dut.aluissue.insn_i.eq(1)
imm = randint(1, (1<<dut.rwid)-1)
dest = randint(1, dut.n_regs-1)
op = randint(0, max_opnums)
- opi = 0 if randint(0, 3) else 1 # set true if random is nonzero
+ opi = 0 if randint(0, 2) else 1 # set true if random is nonzero
if shadowing:
insts.append((src1, src2, dest, op, opi, imm, (0, 0)))
def scoreboard_sim(dut, alusim):
- #seed(2)
+ seed(0)
for i in range(1):
# create some instructions (some random, some regression tests)
instrs = []
if False:
- instrs = create_random_ops(dut, 15, True, 3)
+ instrs = create_random_ops(dut, 15, True, 4)
- if True:
+ if False:
instrs.append( (1, 2, 2, 1, 1, 20, (0, 0)) )
if False:
instrs.append( (7, 6, 6, 2, (0, 0)) )
instrs.append( (1, 7, 2, 2, (0, 0)) )
-
if False:
- instrs.append((2, 3, 3, 0, (0, 0)))
- instrs.append((5, 3, 3, 1, (0, 0)))
- instrs.append((3, 5, 5, 2, (0, 0)))
- instrs.append((5, 3, 3, 3, (0, 0)))
- instrs.append((3, 5, 5, 0, (0, 0)))
+ instrs.append((2, 3, 3, 0, 0, 0, (0, 0)))
+ instrs.append((5, 3, 3, 1, 0, 0, (0, 0)))
+ instrs.append((3, 5, 5, 2, 0, 0, (0, 0)))
+ instrs.append((5, 3, 3, 3, 0, 0, (0, 0)))
+ instrs.append((3, 5, 5, 0, 0, 0, (0, 0)))
+
+ if True:
+ instrs.append( (3, 3, 4, 0, 0, 13979, (0, 0)))
+ instrs.append( (6, 4, 1, 2, 0, 40976, (0, 0)))
+ instrs.append( (1, 4, 7, 4, 1, 23652, (0, 0)))
if False:
instrs.append((5, 6, 2, 1))