projects / soc.git / blob
? search:
summary | shortlog | log | commit | commitdiff | tree
history | raw | HEAD
scoreboard 6600 experimentation
[soc.git] / src / scoreboard / fu_reg_matrix.py
1 from nmigen.compat.sim import run_simulation
2 from nmigen.cli import verilog, rtlil
3 from nmigen import Module, Signal, Elaboratable, Array, Cat
4
5 #from nmutil.latch import SRLatch
6 from scoreboard.dependence_cell import DependencyRow
7 from scoreboard.fu_wr_pending import FU_RW_Pend
8 from scoreboard.reg_select import Reg_Rsv
9
10 """
11
12 6600 Dependency Table Matrix inputs / outputs
13 ---------------------------------------------
14
15 d s1 s2 i d s1 s2 i d s1 s2 i d s1 s2 i
16 | | | | | | | | | | | | | | | |
17 v v v v v v v v v v v v v v v v
18 go_rd/go_wr -> dm-r0-fu0 dm-r1-fu0 dm-r2-fu0 dm-r3-fu0 -> wr/rd-pend
19 go_rd/go_wr -> dm-r0-fu1 dm-r1-fu1 dm-r2-fu1 dm-r3-fu1 -> wr/rd-pend
20 go_rd/go_wr -> dm-r0-fu2 dm-r1-fu2 dm-r2-fu2 dm-r3-fu2 -> wr/rd-pend
21 | | | | | | | | | | | |
22 v v v v v v v v v v v v
23 d s1 s2 d s1 s2 d s1 s2 d s1 s2
24 reg sel reg sel reg sel reg sel
25
26 """
27
28 class FURegDepMatrix(Elaboratable):
29 """ implements 11.4.7 mitch alsup FU-to-Reg Dependency Matrix, p26
30 """
31 def __init__(self, n_fu_row, n_reg_col):
32 self.n_fu_row = n_fu_row # Y (FUs) ^v
33 self.n_reg_col = n_reg_col # X (Regs) <>
34 self.dest_i = Signal(n_reg_col, reset_less=True) # Dest in (top)
35 self.src1_i = Signal(n_reg_col, reset_less=True) # oper1 in (top)
36 self.src2_i = Signal(n_reg_col, reset_less=True) # oper2 in (top)
37
38 self.issue_i = Signal(n_fu_row, reset_less=True) # Issue in (top)
39 self.go_wr_i = Signal(n_fu_row, reset_less=True) # Go Write in (left)
40 self.go_rd_i = Signal(n_fu_row, reset_less=True) # Go Read in (left)
41
42 # for Register File Select Lines (horizontal), per-reg
43 self.dest_rsel_o = Signal(n_reg_col, reset_less=True) # dest reg (bot)
44 self.src1_rsel_o = Signal(n_reg_col, reset_less=True) # src1 reg (bot)
45 self.src2_rsel_o = Signal(n_reg_col, reset_less=True) # src2 reg (bot)
46
47 # for Function Unit "forward progress" (vertical), per-FU
48 self.wr_pend_o = Signal(n_fu_row, reset_less=True) # wr pending (right)
49 self.rd_pend_o = Signal(n_fu_row, reset_less=True) # rd pending (right)
50 self.rd_src1_pend_o = Signal(n_fu_row, reset_less=True) # src1 pending
51 self.rd_src2_pend_o = Signal(n_fu_row, reset_less=True) # src2 pending
52
53 def elaborate(self, platform):
54 m = Module()
55
56 # ---
57 # matrix of dependency cells
58 # ---
59 dm = Array(DependencyRow(self.n_reg_col) for r in range(self.n_fu_row))
60 for fu in range(self.n_fu_row):
61 setattr(m.submodules, "dr_fu%d" % fu, dm[fu])
62
63 # ---
64 # array of Function Unit Pending vectors
65 # ---
66 fupend = Array(FU_RW_Pend(self.n_reg_col) for f in range(self.n_fu_row))
67 for fu in range(self.n_fu_row):
68 setattr(m.submodules, "fu_fu%d" % (fu), fupend[fu])
69
70 # ---
71 # array of Register Reservation vectors
72 # ---
73 regrsv = Array(Reg_Rsv(self.n_fu_row) for r in range(self.n_reg_col))
74 for rn in range(self.n_reg_col):
75 setattr(m.submodules, "rr_r%d" % (rn), regrsv[rn])
76
77 # ---
78 # connect Function Unit vector
79 # ---
80 wr_pend = []
81 rd_pend = []
82 rd_src1_pend = []
83 rd_src2_pend = []
84 for fu in range(self.n_fu_row):
85 dc = dm[fu]
86 fup = fupend[fu]
87 dest_fwd_o = []
88 src1_fwd_o = []
89 src2_fwd_o = []
90 for rn in range(self.n_reg_col):
91 # accumulate cell fwd outputs for dest/src1/src2
92 dest_fwd_o.append(dc.dest_fwd_o[rn])
93 src1_fwd_o.append(dc.src1_fwd_o[rn])
94 src2_fwd_o.append(dc.src2_fwd_o[rn])
95 # connect cell fwd outputs to FU Vector in [Cat is gooood]
96 m.d.comb += [fup.dest_fwd_i.eq(Cat(*dest_fwd_o)),
97 fup.src1_fwd_i.eq(Cat(*src1_fwd_o)),
98 fup.src2_fwd_i.eq(Cat(*src2_fwd_o))
99 ]
100 # accumulate FU Vector outputs
101 wr_pend.append(fup.reg_wr_pend_o)
102 rd_pend.append(fup.reg_rd_pend_o)
103 rd_src1_pend.append(fup.reg_rd_src1_pend_o)
104 rd_src2_pend.append(fup.reg_rd_src2_pend_o)
105
106 # ... and output them from this module (vertical, width=FUs)
107 m.d.comb += self.wr_pend_o.eq(Cat(*wr_pend))
108 m.d.comb += self.rd_pend_o.eq(Cat(*rd_pend))
109 m.d.comb += self.rd_src1_pend_o.eq(Cat(*rd_src1_pend))
110 m.d.comb += self.rd_src2_pend_o.eq(Cat(*rd_src2_pend))
111
112 print ("wr pend len", len(wr_pend))
113
114 # ---
115 # connect Reg Selection vector
116 # ---
117 dest_rsel = []
118 src1_rsel = []
119 src2_rsel = []
120 for rn in range(self.n_reg_col):
121 rsv = regrsv[rn]
122 dest_rsel_o = []
123 src1_rsel_o = []
124 src2_rsel_o = []
125 for fu in range(self.n_fu_row):
126 dc = dm[fu]
127 # accumulate cell reg-select outputs dest/src1/src2
128 dest_rsel_o.append(dc.dest_rsel_o[rn])
129 src1_rsel_o.append(dc.src1_rsel_o[rn])
130 src2_rsel_o.append(dc.src2_rsel_o[rn])
131 # connect cell reg-select outputs to Reg Vector In
132 m.d.comb += [rsv.dest_rsel_i.eq(Cat(*dest_rsel_o)),
133 rsv.src1_rsel_i.eq(Cat(*src1_rsel_o)),
134 rsv.src2_rsel_i.eq(Cat(*src2_rsel_o)),
135 ]
136 # accumulate Reg-Sel Vector outputs
137 dest_rsel.append(rsv.dest_rsel_o)
138 src1_rsel.append(rsv.src1_rsel_o)
139 src2_rsel.append(rsv.src2_rsel_o)
140 print ("dest_rsel_rsv len", len(rsv.dest_rsel_o))
141
142 # ... and output them from this module (horizontal, width=REGs)
143 m.d.comb += self.dest_rsel_o.eq(Cat(*dest_rsel))
144 m.d.comb += self.src1_rsel_o.eq(Cat(*src1_rsel))
145 m.d.comb += self.src2_rsel_o.eq(Cat(*src2_rsel))
146
147 print ("dest rsel len", len(dest_rsel), self.dest_rsel_o)
148 # ---
149 # connect Dependency Matrix dest/src1/src2/issue to module d/s/s/i
150 # ---
151 for fu in range(self.n_fu_row):
152 dc = dm[fu]
153 # wire up inputs from module to row cell inputs (Cat is gooood)
154 m.d.comb += [dc.dest_i.eq(self.dest_i),
155 dc.src1_i.eq(self.src1_i),
156 dc.src2_i.eq(self.src2_i),
157 ]
158
159 # ---
160 # connect Dep issue_i/go_rd_i/go_wr_i to module issue_i/go_rd/go_wr
161 # ---
162 go_rd_i = []
163 go_wr_i = []
164 issue_i = []
165 for fu in range(self.n_fu_row):
166 dc = dm[fu]
167 # accumulate cell fwd outputs for dest/src1/src2
168 go_rd_i.append(dc.go_rd_i)
169 go_wr_i.append(dc.go_wr_i)
170 issue_i.append(dc.issue_i)
171 # wire up inputs from module to row cell inputs (Cat is gooood)
172 m.d.comb += [Cat(*go_rd_i).eq(self.go_rd_i),
173 Cat(*go_wr_i).eq(self.go_wr_i),
174 Cat(*issue_i).eq(self.issue_i),
175 ]
176
177 return m
178
179 def __iter__(self):
180 yield self.dest_i
181 yield self.src1_i
182 yield self.src2_i
183 yield self.issue_i
184 yield self.go_wr_i
185 yield self.go_rd_i
186 yield self.dest_rsel_o
187 yield self.src1_rsel_o
188 yield self.src2_rsel_o
189 yield self.wr_pend_o
190 yield self.rd_pend_o
191 yield self.rd_src1_pend_o
192 yield self.rd_src2_pend_o
193
194 def ports(self):
195 return list(self)
196
197 def d_matrix_sim(dut):
198 """ XXX TODO
199 """
200 yield dut.dest_i.eq(1)
201 yield dut.issue_i.eq(1)
202 yield
203 yield dut.issue_i.eq(0)
204 yield
205 yield dut.src1_i.eq(1)
206 yield dut.issue_i.eq(1)
207 yield
208 yield dut.issue_i.eq(0)
209 yield
210 yield dut.go_rd_i.eq(1)
211 yield
212 yield dut.go_rd_i.eq(0)
213 yield
214 yield dut.go_wr_i.eq(1)
215 yield
216 yield dut.go_wr_i.eq(0)
217 yield
218
219 def test_d_matrix():
220 dut = FURegDepMatrix(n_fu_row=3, n_reg_col=4)
221 vl = rtlil.convert(dut, ports=dut.ports())
222 with open("test_fu_reg_matrix.il", "w") as f:
223 f.write(vl)
224
225 run_simulation(dut, d_matrix_sim(dut), vcd_name='test_fu_reg_matrix.vcd')
226
227 if __name__ == '__main__':
228 test_d_matrix()