From: Luke Kenneth Casson Leighton Date: Sat, 30 Jan 2021 00:36:22 +0000 (+0000) Subject: add SVP64 EXTRA decoding to RB, RC and RT (out) in PowerDecode2 X-Git-Tag: convert-csv-opcode-to-binary~289 X-Git-Url: https://git.libre-soc.org/?p=soc.git;a=commitdiff_plain;h=982a3a872f8969ab61e9f1c42194e1522be38de9 add SVP64 EXTRA decoding to RB, RC and RT (out) in PowerDecode2 DecodeOut2 will have to wait because it is more complex --- diff --git a/src/soc/decoder/power_decoder2.py b/src/soc/decoder/power_decoder2.py index 220258e0..e5f8c0d4 100644 --- a/src/soc/decoder/power_decoder2.py +++ b/src/soc/decoder/power_decoder2.py @@ -275,24 +275,41 @@ class DecodeB(Elaboratable): self.sel_in = Signal(In2Sel, reset_less=True) self.insn_in = Signal(32, reset_less=True) self.reg_out = Data(5, "reg_b") + self.reg_isvec = Signal(1, name="reg_b_isvec") # TODO: in reg_out self.fast_out = Data(3, "fast_b") def elaborate(self, platform): m = Module() comb = m.d.comb + op = self.dec.op + m.submodules.svdec = svdec = SVP64RegExtra() + + # get the 5-bit reg data before svp64-munging it into 7-bit plus isvec + reg = Signal(5, reset_less=True) # select Register B field with m.Switch(self.sel_in): with m.Case(In2Sel.RB): - comb += self.reg_out.data.eq(self.dec.RB) + comb += reg.eq(self.dec.RB) comb += self.reg_out.ok.eq(1) with m.Case(In2Sel.RS): # for M-Form shiftrot - comb += self.reg_out.data.eq(self.dec.RS) + comb += reg.eq(self.dec.RS) comb += self.reg_out.ok.eq(1) + # now do the SVP64 munging. different from DecodeA only by sv_in2 + + extra = self.sv_rm.extra # SVP64 extra bits 10:18 + comb += svdec.extra.eq(extra) # EXTRA field of SVP64 RM + comb += svdec.etype.eq(op.SV_Etype) # EXTRA2/3 for this insn + comb += svdec.idx.eq(op.sv_in2) # SVP64 reg #2 (matches in2_sel) + comb += svdec.reg_in.eq(reg) # 5-bit (RA, RS) + + # outputs: 7-bit reg number and whether it's vectorised + comb += self.reg_out.data.eq(svdec.reg_out) + comb += self.reg_isvec.eq(svdec.isvec) + # decode SPR2 based on instruction type - op = self.dec.op # BCREG implicitly uses LR or TAR for 2nd reg # CTR however is already in fast_spr1 *not* 2. with m.If(op.internal_op == MicrOp.OP_BCREG): @@ -380,21 +397,39 @@ class DecodeC(Elaboratable): self.sel_in = Signal(In3Sel, reset_less=True) self.insn_in = Signal(32, reset_less=True) self.reg_out = Data(5, "reg_c") + self.reg_isvec = Signal(1, name="reg_c_isvec") # TODO: in reg_out def elaborate(self, platform): m = Module() comb = m.d.comb + op = self.dec.op + m.submodules.svdec = svdec = SVP64RegExtra() + + # get the 5-bit reg data before svp64-munging it into 7-bit plus isvec + reg = Signal(5, reset_less=True) # select Register C field with m.Switch(self.sel_in): with m.Case(In3Sel.RB): # for M-Form shiftrot - comb += self.reg_out.data.eq(self.dec.RB) + comb += reg.eq(self.dec.RB) comb += self.reg_out.ok.eq(1) with m.Case(In3Sel.RS): - comb += self.reg_out.data.eq(self.dec.RS) + comb += reg.eq(self.dec.RS) comb += self.reg_out.ok.eq(1) + # now do the SVP64 munging. different from DecodeA only by sv_in3 + + extra = self.sv_rm.extra # SVP64 extra bits 10:18 + comb += svdec.extra.eq(extra) # EXTRA field of SVP64 RM + comb += svdec.etype.eq(op.SV_Etype) # EXTRA2/3 for this insn + comb += svdec.idx.eq(op.sv_in3) # SVP64 reg #3 (matches in3_sel) + comb += svdec.reg_in.eq(reg) # 5-bit (RA, RS) + + # outputs: 7-bit reg number and whether it's vectorised + comb += self.reg_out.data.eq(svdec.reg_out) + comb += self.reg_isvec.eq(svdec.isvec) + return m @@ -410,6 +445,7 @@ class DecodeOut(Elaboratable): self.sel_in = Signal(OutSel, reset_less=True) self.insn_in = Signal(32, reset_less=True) self.reg_out = Data(5, "reg_o") + self.reg_isvec = Signal(1, name="reg_c_isvec") # TODO: in reg_out self.spr_out = Data(SPR, "spr_o") self.fast_out = Data(3, "fast_o") @@ -418,14 +454,18 @@ class DecodeOut(Elaboratable): comb = m.d.comb m.submodules.sprmap = sprmap = SPRMap() op = self.dec.op + m.submodules.svdec = svdec = SVP64RegExtra() + + # get the 5-bit reg data before svp64-munging it into 7-bit plus isvec + reg = Signal(5, reset_less=True) # select Register out field with m.Switch(self.sel_in): with m.Case(OutSel.RT): - comb += self.reg_out.data.eq(self.dec.RT) + comb += reg.eq(self.dec.RT) comb += self.reg_out.ok.eq(1) with m.Case(OutSel.RA): - comb += self.reg_out.data.eq(self.dec.RA) + comb += reg.eq(self.dec.RA) comb += self.reg_out.ok.eq(1) with m.Case(OutSel.SPR): spr = Signal(10, reset_less=True) @@ -436,6 +476,19 @@ class DecodeOut(Elaboratable): comb += self.spr_out.eq(sprmap.spr_o) comb += self.fast_out.eq(sprmap.fast_o) + # now do the SVP64 munging. different from DecodeA only by sv_out + + extra = self.sv_rm.extra # SVP64 extra bits 10:18 + comb += svdec.extra.eq(extra) # EXTRA field of SVP64 RM + comb += svdec.etype.eq(op.SV_Etype) # EXTRA2/3 for this insn + comb += svdec.idx.eq(op.sv_out) # SVP64 reg out1 (matches out_sel) + comb += svdec.reg_in.eq(reg) # 5-bit (RA, RS) + + # outputs: 7-bit reg number and whether it's vectorised + comb += self.reg_out.data.eq(svdec.reg_out) + comb += self.reg_isvec.eq(svdec.isvec) + + # determine Fast Reg with m.Switch(op.internal_op): # BC or BCREG: implicit register (CTR) NOTE: same in DecodeA @@ -456,7 +509,14 @@ class DecodeOut(Elaboratable): class DecodeOut2(Elaboratable): """DecodeOut2 from instruction - decodes output registers + decodes output registers. + + TODO: SVP64 is a little more complex, here. svp64 allows extending + by one more destination by having one more EXTRA field. RA-as-src + is not the same as RA-as-dest. limited in that it's the same first + 5 bits (from the v3.0B opcode), but still kinda cool. mostly used + for operations that have src-as-dest: mostly this is LD/ST-with-update + but there are others. """ def __init__(self, dec):