self.issue_i = Signal(n_units, reset_less=True)
self.go_rd_i = Signal(n_units, reset_less=True)
self.go_wr_i = Signal(n_units, reset_less=True)
+ self.busy_o = Signal(n_units, reset_less=True)
self.req_rel_o = Signal(n_units, reset_less=True)
self.dest_o = Signal(rwid, reset_less=True)
go_rd_l = []
go_wr_l = []
issue_l = []
+ busy_l = []
req_rel_l = []
for alu in int_alus:
req_rel_l.append(alu.req_rel_o)
go_wr_l.append(alu.go_wr_i)
go_rd_l.append(alu.go_rd_i)
issue_l.append(alu.issue_i)
+ busy_l.append(alu.busy_o)
m.d.comb += self.req_rel_o.eq(Cat(*req_rel_l))
+ m.d.comb += self.busy_o.eq(Cat(*busy_l))
m.d.comb += Cat(*go_wr_l).eq(self.go_wr_i)
m.d.comb += Cat(*go_rd_l).eq(self.go_rd_i)
m.d.comb += Cat(*issue_l).eq(self.issue_i)
return m
+
class FunctionUnits(Elaboratable):
def __init__(self, n_regs, n_int_alus):
self.n_regs = n_regs
self.n_int_alus = n_int_alus
- self.int_dest_i = Signal(max=n_regs, reset_less=True) # Dest R# in
- self.int_src1_i = Signal(max=n_regs, reset_less=True) # oper1 R# in
- self.int_src2_i = Signal(max=n_regs, reset_less=True) # oper2 R# in
+ self.dest_i = Signal(n_regs, reset_less=True) # Dest R# in
+ self.src1_i = Signal(n_regs, reset_less=True) # oper1 R# in
+ self.src2_i = Signal(n_regs, reset_less=True) # oper2 R# in
+
+ self.dest_rsel_o = Signal(n_regs, reset_less=True) # dest reg (bot)
+ self.src1_rsel_o = Signal(n_regs, reset_less=True) # src1 reg (bot)
+ self.src2_rsel_o = Signal(n_regs, reset_less=True) # src2 reg (bot)
self.req_rel_i = Signal(n_int_alus, reset_less = True)
self.g_int_rd_pend_o = Signal(n_regs, reset_less=True)
self.g_int_wr_pend_o = Signal(n_regs, reset_less=True)
+ self.readable_o = Signal(n_int_alus, reset_less=True)
+ self.writable_o = Signal(n_int_alus, reset_less=True)
self.go_rd_i = Signal(n_int_alus, reset_less=True)
self.go_wr_i = Signal(n_int_alus, reset_less=True)
self.req_rel_o = Signal(n_int_alus, reset_less=True)
self.fn_issue_i = Signal(n_int_alus, reset_less=True)
- self.fn_busy_o = Signal(n_int_alus, reset_less=True)
def elaborate(self, platform):
m = Module()
- # Int FUs
- if_l = []
- int_src1_pend_v = []
- int_src2_pend_v = []
- int_rd_pend_v = []
- int_wr_pend_v = []
- for i in range(self.n_int_alus):
- # set up Integer Function Unit, add to module (and python list)
- fu = IntFnUnit(self.n_regs, shadow_wid=0)
- setattr(m.submodules, "intfu%d" % i, fu)
- if_l.append(fu)
- # collate the read/write pending vectors (to go into global pending)
- int_src1_pend_v.append(fu.src1_pend_o)
- int_src2_pend_v.append(fu.src2_pend_o)
- int_rd_pend_v.append(fu.int_rd_pend_o)
- int_wr_pend_v.append(fu.int_wr_pend_o)
- int_fus = Array(if_l)
-
- # Global Pending Vectors (INT and TODO FP)
- # NOTE: number of vectors is NOT same as number of FUs.
- g_int_src1_pend_v = GlobalPending(self.n_regs, int_src1_pend_v)
- g_int_src2_pend_v = GlobalPending(self.n_regs, int_src2_pend_v)
- g_int_rd_pend_v = GlobalPending(self.n_regs, int_rd_pend_v)
- g_int_wr_pend_v = GlobalPending(self.n_regs, int_wr_pend_v)
- m.submodules.g_int_src1_pend_v = g_int_src1_pend_v
- m.submodules.g_int_src2_pend_v = g_int_src2_pend_v
- m.submodules.g_int_rd_pend_v = g_int_rd_pend_v
- m.submodules.g_int_wr_pend_v = g_int_wr_pend_v
-
- m.d.sync += self.g_int_rd_pend_o.eq(g_int_rd_pend_v.g_pend_o)
- m.d.sync += self.g_int_wr_pend_o.eq(g_int_wr_pend_v.g_pend_o)
-
- # Connect INT Fn Unit global wr/rd pending
- for fu in if_l:
- m.d.comb += fu.g_int_wr_pend_i.eq(self.g_int_wr_pend_o)
- m.d.comb += fu.g_int_rd_pend_i.eq(self.g_int_rd_pend_o)
-
- # Connect function issue / busy arrays, and dest/src1/src2
- fn_busy_l = []
- fn_issue_l = []
- req_rel_l = []
- go_rd_l = []
- go_wr_l = []
- for i, fu in enumerate(if_l):
- fn_issue_l.append(fu.issue_i)
- fn_busy_l.append(fu.busy_o)
- go_wr_l.append(fu.go_wr_i)
- go_rd_l.append(fu.go_rd_i)
- req_rel_l.append(fu.req_rel_i)
-
- m.d.comb += fu.dest_i.eq(self.int_dest_i)
- m.d.comb += fu.src1_i.eq(self.int_src1_i)
- m.d.comb += fu.src2_i.eq(self.int_src2_i)
-
- m.d.comb += Cat(*req_rel_l).eq(self.req_rel_i)
- m.d.comb += Cat(*fn_issue_l).eq(self.fn_issue_i)
- m.d.comb += self.fn_busy_o.eq(Cat(*fn_busy_l))
- m.d.comb += Cat(*go_wr_l).eq(self.go_wr_i)
- m.d.comb += Cat(*go_rd_l).eq(self.go_rd_i)
+ n_int_fus = self.n_int_alus
+ # Integer FU-FU Dep Matrix
+ intfudeps = FUFUDepMatrix(n_int_fus, n_int_fus)
+ m.submodules.intfudeps = intfudeps
+ # Integer FU-Reg Dep Matrix
+ intregdeps = FURegDepMatrix(n_int_fus, self.n_regs)
+ m.submodules.intregdeps = intregdeps
+
+ m.d.comb += self.g_int_rd_pend_o.eq(intregdeps.rd_pend_o)
+ m.d.comb += self.g_int_wr_pend_o.eq(intregdeps.wr_pend_o)
+
+ m.d.comb += intfudeps.rd_pend_i.eq(self.g_int_rd_pend_o)
+ m.d.comb += intfudeps.wr_pend_i.eq(self.g_int_wr_pend_o)
+
+ m.d.sync += intfudeps.issue_i.eq(self.fn_issue_i)
+ m.d.sync += intfudeps.go_rd_i.eq(self.go_rd_i)
+ m.d.sync += intfudeps.go_wr_i.eq(self.go_wr_i)
+ m.d.comb += self.readable_o.eq(intfudeps.readable_o)
+ m.d.comb += self.writable_o.eq(intfudeps.writable_o)
+
+ # Connect function issue / arrays, and dest/src1/src2
+ m.d.comb += intregdeps.dest_i.eq(self.dest_i)
+ m.d.comb += intregdeps.src1_i.eq(self.src1_i)
+ m.d.comb += intregdeps.src2_i.eq(self.src2_i)
+
+ m.d.comb += intregdeps.go_rd_i.eq(self.go_rd_i)
+ m.d.comb += intregdeps.go_wr_i.eq(self.go_wr_i)
+ m.d.comb += intregdeps.issue_i.eq(self.fn_issue_i)
+
+ m.d.comb += self.dest_rsel_o.eq(intregdeps.dest_rsel_o)
+ m.d.comb += self.src1_rsel_o.eq(intregdeps.src1_rsel_o)
+ m.d.comb += self.src2_rsel_o.eq(intregdeps.src2_rsel_o)
return m
n_int_fus = n_int_alus
n_fp_fus = 0 # for now
- n_fus = n_int_fus + n_fp_fus # plus FP FUs
-
- # Integer FU-FU Dep Matrix
- intfudeps = FUFUDepMatrix(n_int_fus, n_int_fus)
- m.submodules.intfudeps = intfudeps
- # Integer FU-Reg Dep Matrix
- intregdeps = FURegDepMatrix(n_int_fus, self.n_regs)
- m.submodules.intregdeps = intregdeps
-
# Integer Priority Picker 1: Adder + Subtractor
intpick1 = GroupPicker(2) # picks between add and sub
m.submodules.intpick1 = intpick1
# TODO: issueunit.f (FP)
# and int function issue / busy arrays, and dest/src1/src2
- m.d.comb += intfus.int_dest_i.eq(self.int_dest_i)
- m.d.comb += intfus.int_src1_i.eq(self.int_src1_i)
- m.d.comb += intfus.int_src2_i.eq(self.int_src2_i)
+ m.d.comb += intfus.dest_i.eq(regdecode.dest_o)
+ m.d.comb += intfus.src1_i.eq(regdecode.src1_o)
+ m.d.comb += intfus.src2_i.eq(regdecode.src2_o)
fn_issue_o = issueunit.i.fn_issue_o
m.d.comb += intfus.fn_issue_i.eq(fn_issue_o)
# XXX sync, so as to stop a simulation infinite loop
- m.d.sync += issueunit.i.busy_i.eq(intfus.fn_busy_o)
+ m.d.sync += issueunit.i.busy_i.eq(cu.busy_o)
#---------
# connect fu-fu matrix
#---------
- m.d.comb += intfudeps.rd_pend_i.eq(intfus.g_int_rd_pend_o)
- m.d.comb += intfudeps.wr_pend_i.eq(intfus.g_int_wr_pend_o)
-
# Group Picker... done manually for now. TODO: cat array of pick sigs
go_rd_o = intpick1.go_rd_o
go_wr_o = intpick1.go_wr_o
- go_rd_i = intfudeps.go_rd_i
- go_wr_i = intfudeps.go_wr_i
+ go_rd_i = intfus.go_rd_i
+ go_wr_i = intfus.go_wr_i
m.d.comb += go_rd_i[0:2].eq(go_rd_o[0:2]) # add rd
m.d.comb += go_wr_i[0:2].eq(go_wr_o[0:2]) # add wr
- m.d.comb += intfudeps.issue_i.eq(fn_issue_o)
-
- # Connect INT FU go_rd/wr
- m.d.comb += intfus.go_rd_i.eq(go_rd_o)
- m.d.comb += intfus.go_wr_i.eq(go_wr_o)
-
- #---------
- # connect fu-dep matrix
- #---------
- r_go_rd_i = intregdeps.go_rd_i
- r_go_wr_i = intregdeps.go_wr_i
- m.d.comb += r_go_rd_i.eq(go_rd_o)
- m.d.comb += r_go_wr_i.eq(go_wr_o)
-
- m.d.comb += intregdeps.dest_i.eq(regdecode.dest_o)
- m.d.comb += intregdeps.src1_i.eq(regdecode.src1_o)
- m.d.comb += intregdeps.src2_i.eq(regdecode.src2_o)
- m.d.comb += intregdeps.issue_i.eq(fn_issue_o)
-
# Connect Picker
#---------
+ m.d.sync += intpick1.go_rd_i[0:2].eq(~go_rd_i[0:2])
m.d.comb += intpick1.req_rel_i[0:2].eq(cu.req_rel_o[0:2])
- int_readable_o = intfudeps.readable_o
- int_writable_o = intfudeps.writable_o
- m.d.sync += intpick1.readable_i[0:2].eq(int_readable_o[0:2])
- m.d.sync += intpick1.writable_i[0:2].eq(int_writable_o[0:2])
+ int_readable_o = intfus.readable_o
+ int_writable_o = intfus.writable_o
+ m.d.comb += intpick1.readable_i[0:2].eq(int_readable_o[0:2])
+ m.d.comb += intpick1.writable_i[0:2].eq(int_writable_o[0:2])
#---------
# Connect Register File(s)
#---------
- print ("intregdeps wen len", len(intregdeps.dest_rsel_o))
- m.d.sync += int_dest.wen.eq(intregdeps.dest_rsel_o)
- m.d.comb += int_src1.ren.eq(intregdeps.src1_rsel_o)
- m.d.comb += int_src2.ren.eq(intregdeps.src2_rsel_o)
+ print ("intregdeps wen len", len(intfus.dest_rsel_o))
+ m.d.sync += int_dest.wen.eq(intfus.dest_rsel_o)
+ m.d.comb += int_src1.ren.eq(intfus.src1_rsel_o)
+ m.d.comb += int_src2.ren.eq(intfus.src2_rsel_o)
# connect ALUs to regfule
m.d.comb += int_dest.data_i.eq(cu.dest_o)
m.d.sync += cu.go_wr_i[0:2].eq(go_wr_o[0:2])
m.d.sync += cu.issue_i[0:2].eq(fn_issue_o[0:2])
- # Connect ALU request release to FUs
- m.d.sync += intfus.req_rel_i.eq(cu.req_rel_o) # pipe out ready
-
return m
yield dut.intregs.regs[i].reg.eq(i*2)
alusim.setval(i, i*2)
+ yield
+
+ instrs = []
if False:
- yield from int_instr(dut, alusim, IADD, 4, 3, 5)
- yield from print_reg(dut, [3,4,5])
- yield
- yield from int_instr(dut, alusim, IADD, 5, 2, 5)
- yield from print_reg(dut, [3,4,5])
- yield
- yield from int_instr(dut, alusim, ISUB, 5, 1, 3)
- yield from print_reg(dut, [3,4,5])
- yield
- for i in range(len(dut.int_insn_i)):
- yield dut.int_insn_i[i].eq(0)
- yield from print_reg(dut, [3,4,5])
- yield
- yield from print_reg(dut, [3,4,5])
- yield
- yield from print_reg(dut, [3,4,5])
- yield
+ for i in range(2):
+ src1 = randint(1, dut.n_regs-1)
+ src2 = randint(1, dut.n_regs-1)
+ while True:
+ dest = randint(1, dut.n_regs-1)
+ break
+ if dest not in [src1, src2]:
+ break
+ #src1 = 2
+ #src2 = 3
+ #dest = 2
- yield from alusim.check(dut)
+ op = randint(0, 1)
+ op = i % 2
+ instrs.append((src1, src2, dest, op))
- for i in range(1):
- src1 = randint(1, dut.n_regs-1)
- src2 = randint(1, dut.n_regs-1)
- while True:
- dest = randint(1, dut.n_regs-1)
- break
- if dest not in [src1, src2]:
- break
- #src1 = 7
- #src2 = 4
- #dest = 2
+ if False:
+ instrs.append((2, 3, 3, 0))
+ instrs.append((5, 3, 3, 1))
+
+ if True:
+ instrs.append((7, 2, 6, 1))
+ instrs.append((3, 7, 1, 1))
+ instrs.append((2, 2, 3, 1))
- op = randint(0, 1)
- op = 0
- print ("random %d: %d %d %d %d\n" % (i, op, src1, src2, dest))
+ for i, (src1, src2, dest, op) in enumerate(instrs):
+
+ print ("instr %d: %d %d %d %d\n" % (i, op, src1, src2, dest))
yield from int_instr(dut, alusim, op, src1, src2, dest)
yield from print_reg(dut, [3,4,5])
- yield
- yield from print_reg(dut, [3,4,5])
- for i in range(len(dut.int_insn_i)):
- yield dut.int_insn_i[i].eq(0)
- yield
- yield
-
+ while True:
+ yield
+ issue_o = yield dut.issue_o
+ if issue_o:
+ yield from print_reg(dut, [3,4,5])
+ for i in range(len(dut.int_insn_i)):
+ yield dut.int_insn_i[i].eq(0)
+ break
+ print ("busy",)
+ yield from print_reg(dut, [3,4,5])
+ yield
yield
yield from print_reg(dut, [3,4,5])