| //==- RISCVSchedSiFive7.td - SiFive7 Scheduling Definitions --*- tablegen -*-=// |
| // |
| // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. |
| // See https://llvm.org/LICENSE.txt for license information. |
| // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception |
| // |
| //===----------------------------------------------------------------------===// |
| |
| //===----------------------------------------------------------------------===// |
| |
| /// c is true if mx has the worst case behavior compared to LMULs in MxList. |
| /// On the SiFive7, the worst case LMUL is the Largest LMUL |
| /// and the worst case sew is the smallest SEW for that LMUL. |
| class SiFive7IsWorstCaseMX<string mx, list<string> MxList> { |
| defvar LLMUL = LargestLMUL<MxList>.r; |
| bit c = !eq(mx, LLMUL); |
| } |
| |
| /// c is true if mx and sew have the worst case behavior compared to LMULs in |
| /// MxList. On the SiFive7, the worst case LMUL is the Largest LMUL |
| /// and the worst case sew is the smallest SEW for that LMUL. |
| class SiFive7IsWorstCaseMXSEW<string mx, int sew, list<string> MxList, |
| bit isF = 0> { |
| defvar LLMUL = LargestLMUL<MxList>.r; |
| defvar SSEW = SmallestSEW<mx, isF>.r; |
| bit c = !and(!eq(mx, LLMUL), !eq(sew, SSEW)); |
| } |
| |
| /// Number of DLEN parts = (LMUL * VLEN) / DLEN. |
| /// Since DLEN = VLEN / 2, Num DLEN parts = 2 * LMUL. |
| class SiFive7GetCyclesDefault<string mx> { |
| int c = !cond( |
| !eq(mx, "M1") : 2, |
| !eq(mx, "M2") : 4, |
| !eq(mx, "M4") : 8, |
| !eq(mx, "M8") : 16, |
| !eq(mx, "MF2") : 1, |
| !eq(mx, "MF4") : 1, |
| !eq(mx, "MF8") : 1 |
| ); |
| } |
| |
| class SiFive7GetCyclesNarrowing<string mx> { |
| int c = !cond( |
| !eq(mx, "M1") : 4, |
| !eq(mx, "M2") : 8, |
| !eq(mx, "M4") : 16, |
| !eq(mx, "MF2") : 2, |
| !eq(mx, "MF4") : 1, |
| !eq(mx, "MF8") : 1 |
| ); |
| } |
| |
| class SiFive7GetCyclesVMask<string mx> { |
| int c = !cond( |
| !eq(mx, "M1") : 1, |
| !eq(mx, "M2") : 1, |
| !eq(mx, "M4") : 1, |
| !eq(mx, "M8") : 2, |
| !eq(mx, "MF2") : 1, |
| !eq(mx, "MF4") : 1, |
| !eq(mx, "MF8") : 1 |
| ); |
| } |
| |
| /// VLDM and VSTM can't read/write more than 2 DLENs of data. |
| /// 2 DLENs when LMUL=8. 1 DLEN for all other DLENs |
| class SiFive7GetMaskLoadStoreCycles<string mx> { |
| int c = !cond( |
| !eq(mx, "M8") : 2, |
| true : 1 |
| ); |
| } |
| |
| // Cycles for nf=2 segmented loads and stores are calculated using the |
| // formula (2 * VLEN * LMUL) / DLEN = 4 * LMUL |
| class SiFive7GetCyclesSegmentedSeg2<string mx> { |
| int c = !cond( |
| !eq(mx, "M1") : 4, |
| !eq(mx, "M2") : 8, |
| !eq(mx, "M4") : 16, |
| !eq(mx, "M8") : 32, |
| !eq(mx, "MF2") : 2, |
| !eq(mx, "MF4") : 1, |
| !eq(mx, "MF8") : 1 |
| ); |
| } |
| |
| // Cycles for segmented loads and stores are calculated using the |
| // formula vl * ceil((SEW * nf) / DLEN), where SEW * nf is the segment size. |
| class SiFive7GetCyclesSegmented<string mx, int sew, int nf> { |
| defvar VLEN = 512; |
| defvar DLEN = 256; |
| // (VLEN * LMUL) / SEW |
| defvar VLUpperBound = !cond( |
| !eq(mx, "M1") : !div(VLEN, sew), |
| !eq(mx, "M2") : !div(!mul(VLEN, 2), sew), |
| !eq(mx, "M4") : !div(!mul(VLEN, 4), sew), |
| !eq(mx, "M8") : !div(!mul(VLEN, 8), sew), |
| !eq(mx, "MF2") : !div(!div(VLEN, 2), sew), |
| !eq(mx, "MF4") : !div(!div(VLEN, 4), sew), |
| !eq(mx, "MF8") : !div(!div(VLEN, 8), sew), |
| ); |
| // We can calculate ceil(a/b) using (a + b - 1) / b. |
| defvar a = !mul(sew, nf); |
| defvar b = DLEN; |
| int c = !mul(VLUpperBound, !div(!sub(!add(a, b), 1), b)); |
| } |
| |
| class SiFive7GetCyclesOnePerElement<string mx, int sew> { |
| // FIXME: On SiFive7, VLEN is 512. Although a user can request the compiler |
| // to use a different VLEN, this model will not make scheduling decisions |
| // based on the user specified VLEN. |
| // c = ceil(VLEN / SEW) * LMUL |
| // Note: c >= 1 since the smallest VLEN is 512 / 8 = 8, and the |
| // largest division performed on VLEN is in MF8 case with division |
| // by 8. Therefore, there is no need to ceil the result. |
| int VLEN = !div(512, sew); |
| int c = !cond( |
| !eq(mx, "M1") : VLEN, |
| !eq(mx, "M2") : !mul(VLEN, 2), |
| !eq(mx, "M4") : !mul(VLEN, 4), |
| !eq(mx, "M8") : !mul(VLEN, 8), |
| !eq(mx, "MF2") : !div(VLEN, 2), |
| !eq(mx, "MF4") : !div(VLEN, 4), |
| !eq(mx, "MF8") : !div(VLEN, 8) |
| ); |
| } |
| |
| class SiFive7GetDivOrSqrtFactor<int sew> { |
| int c = !cond( |
| // TODO: Add SchedSEWSetFP upstream and remove the SEW=8 case. |
| !eq(sew, 8) : 15, |
| !eq(sew, 16) : 15, |
| !eq(sew, 32) : 28, |
| !eq(sew, 64) : 57 |
| ); |
| } |
| |
| /// Cycles for reductions take approximately VL*SEW/DLEN + 5(4 + log(DLEN/SEW)) |
| /// cycles. |
| class SiFive7GetReductionCycles<string mx, int sew> { |
| // VLUpperBound*SEW/DLEN is equivalent to 2*LMUL since |
| // VLUpperBound=(VLEN*LMUL)/SEW. |
| defvar VLEN = 512; |
| defvar DLEN = !div(VLEN, 2); |
| defvar TwoTimesLMUL = !cond( |
| !eq(mx, "M1") : 2, |
| !eq(mx, "M2") : 4, |
| !eq(mx, "M4") : 8, |
| !eq(mx, "M8") : 16, |
| !eq(mx, "MF2") : 1, |
| !eq(mx, "MF4") : 1, |
| !eq(mx, "MF8") : 1 |
| ); |
| int c = !add( |
| TwoTimesLMUL, |
| !mul(5, !add(4, !logtwo(!div(DLEN, sew)))) |
| ); |
| } |
| |
| /// Cycles for ordered reductions take approximatley 6*VL cycles |
| class SiFive7GetOrderedReductionCycles<string mx, int sew> { |
| defvar VLEN = 512; |
| // (VLEN * LMUL) / SEW |
| defvar VLUpperBound = !cond( |
| !eq(mx, "M1") : !div(VLEN, sew), |
| !eq(mx, "M2") : !div(!mul(VLEN, 2), sew), |
| !eq(mx, "M4") : !div(!mul(VLEN, 4), sew), |
| !eq(mx, "M8") : !div(!mul(VLEN, 8), sew), |
| !eq(mx, "MF2") : !div(!div(VLEN, 2), sew), |
| !eq(mx, "MF4") : !div(!div(VLEN, 4), sew), |
| !eq(mx, "MF8") : !div(!div(VLEN, 8), sew), |
| ); |
| int c = !mul(6, VLUpperBound); |
| } |
| |
| class SiFive7AnyToGPRBypass<SchedRead read, int cycles = 2> |
| : ReadAdvance<read, cycles, [WriteIALU, WriteIALU32, |
| WriteShiftImm, WriteShiftImm32, |
| WriteShiftReg, WriteShiftReg32, |
| WriteSHXADD, WriteSHXADD32, |
| WriteRotateImm, WriteRotateImm32, |
| WriteRotateReg, WriteRotateReg32, |
| WriteSingleBit, WriteSingleBitImm, |
| WriteBEXT, WriteBEXTI, |
| WriteCLZ, WriteCLZ32, WriteCTZ, WriteCTZ32, |
| WriteCPOP, WriteCPOP32, |
| WriteREV8, WriteORCB, WriteSFB, |
| WriteIMul, WriteIMul32, |
| WriteIDiv, WriteIDiv32, |
| WriteLDB, WriteLDH, WriteLDW, WriteLDD]>; |
| |
| // SiFive7 machine model for scheduling and other instruction cost heuristics. |
| def SiFive7Model : SchedMachineModel { |
| let MicroOpBufferSize = 0; // Explicitly set to zero since SiFive7 is in-order. |
| let IssueWidth = 2; // 2 micro-ops are dispatched per cycle. |
| let LoadLatency = 3; |
| let MispredictPenalty = 3; |
| let CompleteModel = 0; |
| let EnableIntervals = true; |
| let UnsupportedFeatures = [HasStdExtZbkb, HasStdExtZbkc, HasStdExtZbkx, |
| HasStdExtZcmt, HasStdExtZknd, HasStdExtZkne, |
| HasStdExtZknh, HasStdExtZksed, HasStdExtZksh, |
| HasStdExtZkr]; |
| } |
| |
| // The SiFive7 microarchitecture has three pipelines: A, B, V. |
| // Pipe A can handle memory, integer alu and vector operations. |
| // Pipe B can handle integer alu, control flow, integer multiply and divide, |
| // and floating point computation. |
| // The V pipeline is modeled by the VCQ, VA, VL, and VS resources. |
| let SchedModel = SiFive7Model in { |
| let BufferSize = 0 in { |
| def SiFive7PipeA : ProcResource<1>; |
| def SiFive7PipeB : ProcResource<1>; |
| def SiFive7IDiv : ProcResource<1>; // Int Division |
| def SiFive7FDiv : ProcResource<1>; // FP Division/Sqrt |
| def SiFive7VA : ProcResource<1>; // Arithmetic sequencer |
| def SiFive7VL : ProcResource<1>; // Load sequencer |
| def SiFive7VS : ProcResource<1>; // Store sequencer |
| // The VCQ accepts instructions from the the A Pipe and holds them until the |
| // vector unit is ready to dequeue them. The unit dequeues up to one instruction |
| // per cycle, in order, as soon as the sequencer for that type of instruction is |
| // avaliable. This resource is meant to be used for 1 cycle by all vector |
| // instructions, to model that only one vector instruction may be dequed at a |
| // time. The actual dequeueing into the sequencer is modeled by the VA, VL, and |
| // VS sequencer resources below. Each of them will only accept a single |
| // instruction at a time and remain busy for the number of cycles associated |
| // with that instruction. |
| def SiFive7VCQ : ProcResource<1>; // Vector Command Queue |
| } |
| |
| def SiFive7PipeAB : ProcResGroup<[SiFive7PipeA, SiFive7PipeB]>; |
| |
| // Branching |
| let Latency = 3 in { |
| def : WriteRes<WriteJmp, [SiFive7PipeB]>; |
| def : WriteRes<WriteJal, [SiFive7PipeB]>; |
| def : WriteRes<WriteJalr, [SiFive7PipeB]>; |
| } |
| |
| //Short forward branch |
| def : WriteRes<WriteSFB, [SiFive7PipeA, SiFive7PipeB]> { |
| let Latency = 3; |
| let NumMicroOps = 2; |
| } |
| |
| // Integer arithmetic and logic |
| let Latency = 3 in { |
| def : WriteRes<WriteIALU, [SiFive7PipeAB]>; |
| def : WriteRes<WriteIALU32, [SiFive7PipeAB]>; |
| def : WriteRes<WriteShiftImm, [SiFive7PipeAB]>; |
| def : WriteRes<WriteShiftImm32, [SiFive7PipeAB]>; |
| def : WriteRes<WriteShiftReg, [SiFive7PipeAB]>; |
| def : WriteRes<WriteShiftReg32, [SiFive7PipeAB]>; |
| } |
| |
| // Integer multiplication |
| let Latency = 3 in { |
| def : WriteRes<WriteIMul, [SiFive7PipeB]>; |
| def : WriteRes<WriteIMul32, [SiFive7PipeB]>; |
| } |
| |
| // Integer division |
| def : WriteRes<WriteIDiv, [SiFive7PipeB, SiFive7IDiv]> { |
| let Latency = 66; |
| let ReleaseAtCycles = [1, 65]; |
| } |
| def : WriteRes<WriteIDiv32, [SiFive7PipeB, SiFive7IDiv]> { |
| let Latency = 34; |
| let ReleaseAtCycles = [1, 33]; |
| } |
| |
| // Bitmanip |
| let Latency = 3 in { |
| // Rotates are in the late-B ALU. |
| def : WriteRes<WriteRotateImm, [SiFive7PipeB]>; |
| def : WriteRes<WriteRotateImm32, [SiFive7PipeB]>; |
| def : WriteRes<WriteRotateReg, [SiFive7PipeB]>; |
| def : WriteRes<WriteRotateReg32, [SiFive7PipeB]>; |
| |
| // clz[w]/ctz[w] are in the late-B ALU. |
| def : WriteRes<WriteCLZ, [SiFive7PipeB]>; |
| def : WriteRes<WriteCLZ32, [SiFive7PipeB]>; |
| def : WriteRes<WriteCTZ, [SiFive7PipeB]>; |
| def : WriteRes<WriteCTZ32, [SiFive7PipeB]>; |
| |
| // cpop[w] look exactly like multiply. |
| def : WriteRes<WriteCPOP, [SiFive7PipeB]>; |
| def : WriteRes<WriteCPOP32, [SiFive7PipeB]>; |
| |
| // orc.b is in the late-B ALU. |
| def : WriteRes<WriteORCB, [SiFive7PipeB]>; |
| |
| // rev8 is in the late-A and late-B ALUs. |
| def : WriteRes<WriteREV8, [SiFive7PipeAB]>; |
| |
| // shNadd[.uw] is on the early-B and late-B ALUs. |
| def : WriteRes<WriteSHXADD, [SiFive7PipeB]>; |
| def : WriteRes<WriteSHXADD32, [SiFive7PipeB]>; |
| } |
| |
| // Single-bit instructions |
| // BEXT[I] instruction is available on all ALUs and the other instructions |
| // are only available on the SiFive7B pipe. |
| let Latency = 3 in { |
| def : WriteRes<WriteSingleBit, [SiFive7PipeB]>; |
| def : WriteRes<WriteSingleBitImm, [SiFive7PipeB]>; |
| def : WriteRes<WriteBEXT, [SiFive7PipeAB]>; |
| def : WriteRes<WriteBEXTI, [SiFive7PipeAB]>; |
| } |
| |
| // Memory |
| def : WriteRes<WriteSTB, [SiFive7PipeA]>; |
| def : WriteRes<WriteSTH, [SiFive7PipeA]>; |
| def : WriteRes<WriteSTW, [SiFive7PipeA]>; |
| def : WriteRes<WriteSTD, [SiFive7PipeA]>; |
| def : WriteRes<WriteFST16, [SiFive7PipeA]>; |
| def : WriteRes<WriteFST32, [SiFive7PipeA]>; |
| def : WriteRes<WriteFST64, [SiFive7PipeA]>; |
| |
| let Latency = 3 in { |
| def : WriteRes<WriteLDB, [SiFive7PipeA]>; |
| def : WriteRes<WriteLDH, [SiFive7PipeA]>; |
| def : WriteRes<WriteLDW, [SiFive7PipeA]>; |
| def : WriteRes<WriteLDD, [SiFive7PipeA]>; |
| } |
| |
| let Latency = 2 in { |
| def : WriteRes<WriteFLD16, [SiFive7PipeA]>; |
| def : WriteRes<WriteFLD32, [SiFive7PipeA]>; |
| def : WriteRes<WriteFLD64, [SiFive7PipeA]>; |
| } |
| |
| // Atomic memory |
| def : WriteRes<WriteAtomicSTW, [SiFive7PipeA]>; |
| def : WriteRes<WriteAtomicSTD, [SiFive7PipeA]>; |
| |
| let Latency = 3 in { |
| def : WriteRes<WriteAtomicW, [SiFive7PipeA]>; |
| def : WriteRes<WriteAtomicD, [SiFive7PipeA]>; |
| def : WriteRes<WriteAtomicLDW, [SiFive7PipeA]>; |
| def : WriteRes<WriteAtomicLDD, [SiFive7PipeA]>; |
| } |
| |
| // Half precision. |
| let Latency = 5 in { |
| def : WriteRes<WriteFAdd16, [SiFive7PipeB]>; |
| def : WriteRes<WriteFMul16, [SiFive7PipeB]>; |
| def : WriteRes<WriteFMA16, [SiFive7PipeB]>; |
| } |
| let Latency = 3 in { |
| def : WriteRes<WriteFSGNJ16, [SiFive7PipeB]>; |
| def : WriteRes<WriteFMinMax16, [SiFive7PipeB]>; |
| } |
| |
| let Latency = 14, ReleaseAtCycles = [1, 13] in { |
| def : WriteRes<WriteFDiv16, [SiFive7PipeB, SiFive7FDiv]>; |
| def : WriteRes<WriteFSqrt16, [SiFive7PipeB, SiFive7FDiv]>; |
| } |
| |
| // Single precision. |
| let Latency = 5 in { |
| def : WriteRes<WriteFAdd32, [SiFive7PipeB]>; |
| def : WriteRes<WriteFMul32, [SiFive7PipeB]>; |
| def : WriteRes<WriteFMA32, [SiFive7PipeB]>; |
| } |
| let Latency = 3 in { |
| def : WriteRes<WriteFSGNJ32, [SiFive7PipeB]>; |
| def : WriteRes<WriteFMinMax32, [SiFive7PipeB]>; |
| } |
| |
| def : WriteRes<WriteFDiv32, [SiFive7PipeB, SiFive7FDiv]> { let Latency = 27; |
| let ReleaseAtCycles = [1, 26]; } |
| def : WriteRes<WriteFSqrt32, [SiFive7PipeB, SiFive7FDiv]> { let Latency = 27; |
| let ReleaseAtCycles = [1, 26]; } |
| |
| // Double precision |
| let Latency = 7 in { |
| def : WriteRes<WriteFAdd64, [SiFive7PipeB]>; |
| def : WriteRes<WriteFMul64, [SiFive7PipeB]>; |
| def : WriteRes<WriteFMA64, [SiFive7PipeB]>; |
| } |
| let Latency = 3 in { |
| def : WriteRes<WriteFSGNJ64, [SiFive7PipeB]>; |
| def : WriteRes<WriteFMinMax64, [SiFive7PipeB]>; |
| } |
| |
| def : WriteRes<WriteFDiv64, [SiFive7PipeB, SiFive7FDiv]> { let Latency = 56; |
| let ReleaseAtCycles = [1, 55]; } |
| def : WriteRes<WriteFSqrt64, [SiFive7PipeB, SiFive7FDiv]> { let Latency = 56; |
| let ReleaseAtCycles = [1, 55]; } |
| |
| // Conversions |
| let Latency = 3 in { |
| def : WriteRes<WriteFCvtI32ToF16, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCvtI32ToF32, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCvtI32ToF64, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCvtI64ToF16, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCvtI64ToF32, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCvtI64ToF64, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCvtF16ToI32, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCvtF16ToI64, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCvtF16ToF32, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCvtF16ToF64, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCvtF32ToI32, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCvtF32ToI64, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCvtF32ToF16, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCvtF32ToF64, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCvtF64ToI32, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCvtF64ToI64, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCvtF64ToF16, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCvtF64ToF32, [SiFive7PipeB]>; |
| |
| def : WriteRes<WriteFClass16, [SiFive7PipeB]>; |
| def : WriteRes<WriteFClass32, [SiFive7PipeB]>; |
| def : WriteRes<WriteFClass64, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCmp16, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCmp32, [SiFive7PipeB]>; |
| def : WriteRes<WriteFCmp64, [SiFive7PipeB]>; |
| def : WriteRes<WriteFMovI16ToF16, [SiFive7PipeB]>; |
| def : WriteRes<WriteFMovF16ToI16, [SiFive7PipeB]>; |
| def : WriteRes<WriteFMovI32ToF32, [SiFive7PipeB]>; |
| def : WriteRes<WriteFMovF32ToI32, [SiFive7PipeB]>; |
| def : WriteRes<WriteFMovI64ToF64, [SiFive7PipeB]>; |
| def : WriteRes<WriteFMovF64ToI64, [SiFive7PipeB]>; |
| } |
| |
| // 6. Configuration-Setting Instructions |
| let Latency = 3 in { |
| def : WriteRes<WriteVSETVLI, [SiFive7PipeA]>; |
| def : WriteRes<WriteVSETIVLI, [SiFive7PipeA]>; |
| def : WriteRes<WriteVSETVL, [SiFive7PipeA]>; |
| } |
| |
| // 7. Vector Loads and Stores |
| // Unit-stride loads and stores can operate at the full bandwidth of the memory |
| // pipe. The memory pipe is DLEN bits wide on x280. |
| foreach mx = SchedMxList in { |
| defvar Cycles = SiFive7GetCyclesDefault<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxList>.c; |
| let Latency = 4, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVLDE", [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVLDFF", [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| } |
| let Latency = 1, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in |
| defm "" : LMULWriteResMX<"WriteVSTE", [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| } |
| |
| foreach mx = SchedMxList in { |
| defvar Cycles = SiFive7GetMaskLoadStoreCycles<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxList>.c; |
| let Latency = 4, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in |
| defm "" : LMULWriteResMX<"WriteVLDM", [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| let Latency = 1, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in |
| defm "" : LMULWriteResMX<"WriteVSTM", [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| } |
| |
| // Strided loads and stores operate at one element per cycle and should be |
| // scheduled accordingly. Indexed loads and stores operate at one element per |
| // cycle, and they stall the machine until all addresses have been generated, |
| // so they cannot be scheduled. Indexed and strided loads and stores have LMUL |
| // specific suffixes, but since SEW is already encoded in the name of the |
| // resource, we do not need to use LMULSEWXXX constructors. However, we do |
| // use the SEW from the name to determine the number of Cycles. |
| |
| // This predicate is true when the rs2 operand of vlse or vsse is x0, false |
| // otherwise. |
| def VLDSX0Pred : MCSchedPredicate<CheckRegOperand<3, X0>>; |
| |
| foreach mx = SchedMxList in { |
| defvar VLDSX0Cycles = SiFive7GetCyclesDefault<mx>.c; |
| defvar Cycles = SiFive7GetCyclesOnePerElement<mx, 8>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxList>.c; |
| defm SiFive7 : LMULWriteResMXVariant<"WriteVLDS8", VLDSX0Pred, [SiFive7VCQ, SiFive7VL], |
| 4, [0, 1], [1, !add(1, VLDSX0Cycles)], !add(3, Cycles), |
| [0, 1], [1, !add(1, Cycles)], mx, IsWorstCase>; |
| let Latency = !add(3, Cycles), AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVLDUX8", [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVLDOX8", [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| } |
| let Latency = 1, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVSTS8", [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVSTUX8", [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVSTOX8", [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| } |
| } |
| // TODO: The MxLists need to be filtered by EEW. We only need to support |
| // LMUL >= SEW_min/ELEN. Here, the smallest EEW prevents us from having MF8 |
| // since LMUL >= 16/64. |
| foreach mx = ["MF4", "MF2", "M1", "M2", "M4", "M8"] in { |
| defvar VLDSX0Cycles = SiFive7GetCyclesDefault<mx>.c; |
| defvar Cycles = SiFive7GetCyclesOnePerElement<mx, 16>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxList>.c; |
| defm SiFive7 : LMULWriteResMXVariant<"WriteVLDS16", VLDSX0Pred, [SiFive7VCQ, SiFive7VL], |
| 4, [0, 1], [1, !add(1, VLDSX0Cycles)], !add(3, Cycles), |
| [0, 1], [1, !add(1, Cycles)], mx, IsWorstCase>; |
| let Latency = !add(3, Cycles), AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVLDUX16", [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVLDOX16", [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| } |
| let Latency = 1, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVSTS16", [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVSTUX16", [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVSTOX16", [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| } |
| } |
| foreach mx = ["MF2", "M1", "M2", "M4", "M8"] in { |
| defvar VLDSX0Cycles = SiFive7GetCyclesDefault<mx>.c; |
| defvar Cycles = SiFive7GetCyclesOnePerElement<mx, 32>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxList>.c; |
| defm SiFive7 : LMULWriteResMXVariant<"WriteVLDS32", VLDSX0Pred, [SiFive7VCQ, SiFive7VL], |
| 4, [0, 1], [1, !add(1, VLDSX0Cycles)], !add(3, Cycles), |
| [0, 1], [1, !add(1, Cycles)], mx, IsWorstCase>; |
| let Latency = !add(3, Cycles), AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVLDUX32", [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVLDOX32", [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| } |
| let Latency = 1, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVSTS32", [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVSTUX32", [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVSTOX32", [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| } |
| } |
| foreach mx = ["M1", "M2", "M4", "M8"] in { |
| defvar VLDSX0Cycles = SiFive7GetCyclesDefault<mx>.c; |
| defvar Cycles = SiFive7GetCyclesOnePerElement<mx, 64>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxList>.c; |
| defm SiFive7 : LMULWriteResMXVariant<"WriteVLDS64", VLDSX0Pred, [SiFive7VCQ, SiFive7VL], |
| 4, [0, 1], [1, !add(1, VLDSX0Cycles)], !add(3, Cycles), |
| [0, 1], [1, !add(1, Cycles)], mx, IsWorstCase>; |
| let Latency = !add(3, Cycles), AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVLDUX64", [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVLDOX64", [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| } |
| let Latency = 1, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVSTS64", [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVSTUX64", [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVSTOX64", [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| } |
| } |
| |
| // VLD*R is LMUL aware |
| let Latency = 4, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, 2)] in |
| def : WriteRes<WriteVLD1R, [SiFive7VCQ, SiFive7VL]>; |
| let Latency = 4, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, 4)] in |
| def : WriteRes<WriteVLD2R, [SiFive7VCQ, SiFive7VL]>; |
| let Latency = 4, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, 8)] in |
| def : WriteRes<WriteVLD4R, [SiFive7VCQ, SiFive7VL]>; |
| let Latency = 4, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, 16)] in |
| def : WriteRes<WriteVLD8R, [SiFive7VCQ, SiFive7VL]>; |
| // VST*R is LMUL aware |
| let Latency = 1, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, 2)] in |
| def : WriteRes<WriteVST1R, [SiFive7VCQ, SiFive7VS]>; |
| let Latency = 1, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, 4)] in |
| def : WriteRes<WriteVST2R, [SiFive7VCQ, SiFive7VS]>; |
| let Latency = 1, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, 8)] in |
| def : WriteRes<WriteVST4R, [SiFive7VCQ, SiFive7VS]>; |
| let Latency = 1, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, 16)] in |
| def : WriteRes<WriteVST8R, [SiFive7VCQ, SiFive7VS]>; |
| |
| // Segmented Loads and Stores |
| // Unit-stride segmented loads and stores are effectively converted into strided |
| // segment loads and stores. Strided segment loads and stores operate at up to |
| // one segment per cycle if the segment fits within one aligned memory beat. |
| // Indexed segment loads and stores operate at the same rate as strided ones, |
| // but they stall the machine until all addresses have been generated. |
| foreach mx = SchedMxList in { |
| foreach eew = [8, 16, 32, 64] in { |
| defvar Cycles = SiFive7GetCyclesSegmentedSeg2<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxList>.c; |
| // Does not chain so set latency high |
| let Latency = !add(3, Cycles), AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVLSEG2e" # eew, [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVLSEGFF2e" # eew, [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| } |
| let Latency = 1, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in |
| defm "" : LMULWriteResMX<"WriteVSSEG2e" # eew, [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| foreach nf=3-8 in { |
| defvar Cycles = SiFive7GetCyclesSegmented<mx, eew, nf>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxList>.c; |
| // Does not chain so set latency high |
| let Latency = !add(3, Cycles), AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVLSEG" # nf # "e" # eew, [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVLSEGFF" # nf # "e" # eew, [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| } |
| let Latency = 1, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in |
| defm "" : LMULWriteResMX<"WriteVSSEG" # nf # "e" # eew, [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| } |
| } |
| } |
| foreach mx = SchedMxList in { |
| foreach nf=2-8 in { |
| foreach eew = [8, 16, 32, 64] in { |
| defvar Cycles = SiFive7GetCyclesSegmented<mx, eew, nf>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxList>.c; |
| // Does not chain so set latency high |
| let Latency = !add(3, Cycles), AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVLSSEG" # nf # "e" # eew, [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVLUXSEG" # nf # "e" # eew, [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVLOXSEG" # nf # "e" # eew, [SiFive7VCQ, SiFive7VL], mx, IsWorstCase>; |
| } |
| let Latency = 1, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVSSSEG" # nf # "e" # eew, [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVSUXSEG" # nf # "e" # eew, [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVSOXSEG" # nf # "e" # eew, [SiFive7VCQ, SiFive7VS], mx, IsWorstCase>; |
| } |
| } |
| } |
| } |
| |
| // 11. Vector Integer Arithmetic Instructions |
| foreach mx = SchedMxList in { |
| defvar Cycles = SiFive7GetCyclesDefault<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxList>.c; |
| let Latency = 4, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVIALUV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIALUX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIALUI", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVICALUV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVICALUX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVICALUI", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVShiftV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVShiftX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVShiftI", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIMinMaxV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIMinMaxX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIMulV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIMulX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIMulAddV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIMulAddX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIMergeV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIMergeX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIMergeI", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIMovV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIMovX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIMovI", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| // Mask results can't chain. |
| let Latency = !add(Cycles, 3), AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVICmpV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVICmpX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVICmpI", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| } |
| foreach mx = SchedMxList in { |
| defvar Cycles = SiFive7GetCyclesDefault<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxList>.c; |
| let Latency = 4, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVExtV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| } |
| foreach mx = SchedMxList in { |
| foreach sew = SchedSEWSet<mx>.val in { |
| defvar Cycles = !mul(SiFive7GetDivOrSqrtFactor<sew>.c, |
| !div(SiFive7GetCyclesOnePerElement<mx, sew>.c, 4)); |
| defvar IsWorstCase = SiFive7IsWorstCaseMXSEW<mx, sew, SchedMxList>.c; |
| let Latency = Cycles, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULSEWWriteResMXSEW<"WriteVIDivV", [SiFive7VCQ, SiFive7VA], mx, sew, IsWorstCase>; |
| defm "" : LMULSEWWriteResMXSEW<"WriteVIDivX", [SiFive7VCQ, SiFive7VA], mx, sew, IsWorstCase>; |
| } |
| } |
| } |
| |
| // Widening |
| foreach mx = SchedMxListW in { |
| defvar Cycles = SiFive7GetCyclesDefault<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxListW>.c; |
| let Latency = 8, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVIWALUV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIWALUX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIWALUI", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIWMulV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIWMulX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIWMulAddV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVIWMulAddX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| } |
| // Narrowing |
| foreach mx = SchedMxListW in { |
| defvar Cycles = SiFive7GetCyclesNarrowing<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxListW>.c; |
| let Latency = 8, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVNShiftV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVNShiftX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVNShiftI", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| } |
| |
| // 12. Vector Fixed-Point Arithmetic Instructions |
| foreach mx = SchedMxList in { |
| defvar Cycles = SiFive7GetCyclesDefault<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxList>.c; |
| let Latency = 8, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVSALUV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVSALUX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVSALUI", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVAALUV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVAALUX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVSMulV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVSMulX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVSShiftV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVSShiftX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVSShiftI", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| } |
| // Narrowing |
| foreach mx = SchedMxListW in { |
| defvar Cycles = SiFive7GetCyclesNarrowing<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxListW>.c; |
| let Latency = 8, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVNClipV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVNClipX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVNClipI", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| } |
| |
| // 13. Vector Floating-Point Instructions |
| foreach mx = SchedMxList in { |
| defvar Cycles = SiFive7GetCyclesDefault<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxList>.c; |
| let Latency = 8, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVFALUV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFALUF", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFMulV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFMulF", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFMulAddV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFMulAddF", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFRecpV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFCvtIToFV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFCvtFToIV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| let Latency = 4, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVFSgnjV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFSgnjF", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFMinMaxV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFMinMaxF", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFClassV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFMergeV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFMovV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| // Mask results can't chain. |
| let Latency = !add(Cycles, 3), AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVFCmpV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFCmpF", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| } |
| foreach mx = SchedMxListF in { |
| foreach sew = SchedSEWSet<mx, isF=1>.val in { |
| defvar Cycles = !mul(SiFive7GetDivOrSqrtFactor<sew>.c, |
| !div(SiFive7GetCyclesOnePerElement<mx, sew>.c, 4)); |
| defvar IsWorstCase = SiFive7IsWorstCaseMXSEW<mx, sew, SchedMxListF, 1>.c; |
| let Latency = Cycles, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULSEWWriteResMXSEW<"WriteVFSqrtV", [SiFive7VCQ, SiFive7VA], mx, sew, IsWorstCase>; |
| defm "" : LMULSEWWriteResMXSEW<"WriteVFDivV", [SiFive7VCQ, SiFive7VA], mx, sew, IsWorstCase>; |
| defm "" : LMULSEWWriteResMXSEW<"WriteVFDivF", [SiFive7VCQ, SiFive7VA], mx, sew, IsWorstCase>; |
| } |
| } |
| } |
| |
| // Widening |
| foreach mx = SchedMxListW in { |
| defvar Cycles = SiFive7GetCyclesDefault<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxListW>.c; |
| let Latency = 8, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVFWCvtIToFV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| } |
| foreach mx = SchedMxListFW in { |
| defvar Cycles = SiFive7GetCyclesDefault<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxListFW>.c; |
| let Latency = 8, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVFWALUV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFWMulV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFWMulAddV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFWCvtFToIV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFWCvtFToFV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFWMulAddF", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFWMulF", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFWALUF", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| } |
| // Narrowing |
| foreach mx = SchedMxListW in { |
| defvar Cycles = SiFive7GetCyclesNarrowing<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxListW>.c; |
| let Latency = 8, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVFNCvtFToIV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| } |
| foreach mx = SchedMxListFW in { |
| defvar Cycles = SiFive7GetCyclesNarrowing<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxListFW>.c; |
| let Latency = 8, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVFNCvtIToFV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFNCvtFToFV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| } |
| |
| // 14. Vector Reduction Operations |
| foreach mx = SchedMxList in { |
| foreach sew = SchedSEWSet<mx>.val in { |
| defvar Cycles = SiFive7GetReductionCycles<mx, sew>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMXSEW<mx, sew, SchedMxList>.c; |
| let Latency = Cycles, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULSEWWriteResMXSEW<"WriteVIRedV_From", [SiFive7VCQ, SiFive7VA], |
| mx, sew, IsWorstCase>; |
| defm "" : LMULSEWWriteResMXSEW<"WriteVIRedMinMaxV_From", [SiFive7VCQ, SiFive7VA], |
| mx, sew, IsWorstCase>; |
| } |
| } |
| } |
| |
| foreach mx = SchedMxListWRed in { |
| foreach sew = SchedSEWSet<mx, 0, 1>.val in { |
| defvar Cycles = SiFive7GetReductionCycles<mx, sew>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMXSEW<mx, sew, SchedMxListWRed>.c; |
| let Latency = Cycles, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in |
| defm "" : LMULSEWWriteResMXSEW<"WriteVIWRedV_From", [SiFive7VCQ, SiFive7VA], |
| mx, sew, IsWorstCase>; |
| } |
| } |
| |
| foreach mx = SchedMxListF in { |
| foreach sew = SchedSEWSet<mx, 1>.val in { |
| defvar RedCycles = SiFive7GetReductionCycles<mx, sew>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMXSEW<mx, sew, SchedMxListF, 1>.c; |
| let Latency = RedCycles, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, RedCycles)] in { |
| defm "" : LMULSEWWriteResMXSEW<"WriteVFRedV_From", [SiFive7VCQ, SiFive7VA], |
| mx, sew, IsWorstCase>; |
| defm "" : LMULSEWWriteResMXSEW<"WriteVFRedMinMaxV_From", [SiFive7VCQ, SiFive7VA], |
| mx, sew, IsWorstCase>; |
| } |
| defvar OrdRedCycles = SiFive7GetOrderedReductionCycles<mx, sew>.c; |
| let Latency = OrdRedCycles, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, OrdRedCycles)] in |
| defm "" : LMULSEWWriteResMXSEW<"WriteVFRedOV_From", [SiFive7VCQ, SiFive7VA], |
| mx, sew, IsWorstCase>; |
| } |
| } |
| |
| foreach mx = SchedMxListFWRed in { |
| foreach sew = SchedSEWSet<mx, 1, 1>.val in { |
| defvar RedCycles = SiFive7GetReductionCycles<mx, sew>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMXSEW<mx, sew, SchedMxListFWRed, 1>.c; |
| let Latency = RedCycles, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, RedCycles)] in |
| defm "" : LMULSEWWriteResMXSEW<"WriteVFWRedV_From", [SiFive7VCQ, SiFive7VA], |
| mx, sew, IsWorstCase>; |
| defvar OrdRedCycles = SiFive7GetOrderedReductionCycles<mx, sew>.c; |
| let Latency = OrdRedCycles, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, OrdRedCycles)] in |
| defm "" : LMULSEWWriteResMXSEW<"WriteVFWRedOV_From", [SiFive7VCQ, SiFive7VA], |
| mx, sew, IsWorstCase>; |
| } |
| } |
| |
| // 15. Vector Mask Instructions |
| foreach mx = SchedMxList in { |
| defvar Cycles = SiFive7GetCyclesVMask<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxList>.c; |
| let Latency = 4, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVMALUV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVMPopV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVMFFSV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVMSFSV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| } |
| foreach mx = SchedMxList in { |
| defvar Cycles = SiFive7GetCyclesDefault<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxList>.c; |
| let Latency = 4, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVMIotV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVMIdxV", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| } |
| |
| // 16. Vector Permutation Instructions |
| let Latency = 4, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, 1)] in { |
| def : WriteRes<WriteVIMovVX, [SiFive7VCQ, SiFive7VA]>; |
| def : WriteRes<WriteVIMovXV, [SiFive7VCQ, SiFive7VA]>; |
| def : WriteRes<WriteVFMovVF, [SiFive7VCQ, SiFive7VA]>; |
| def : WriteRes<WriteVFMovFV, [SiFive7VCQ, SiFive7VA]>; |
| } |
| foreach mx = SchedMxList in { |
| defvar Cycles = SiFive7GetCyclesDefault<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxList>.c; |
| let Latency = 8, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVRGatherVX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVRGatherVI", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| } |
| |
| foreach mx = SchedMxList in { |
| foreach sew = SchedSEWSet<mx>.val in { |
| defvar Cycles = SiFive7GetCyclesOnePerElement<mx, sew>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMXSEW<mx, sew, SchedMxList>.c; |
| let Latency = !add(Cycles, 3), AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULSEWWriteResMXSEW<"WriteVRGatherVV", [SiFive7VCQ, SiFive7VA], mx, sew, IsWorstCase>; |
| defm "" : LMULSEWWriteResMXSEW<"WriteVCompressV", [SiFive7VCQ, SiFive7VA], mx, sew, IsWorstCase>; |
| } |
| } |
| } |
| |
| foreach mx = SchedMxList in { |
| defvar Cycles = SiFive7GetCyclesDefault<mx>.c; |
| defvar IsWorstCase = SiFive7IsWorstCaseMX<mx, SchedMxList>.c; |
| let Latency = 4, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, Cycles)] in { |
| defm "" : LMULWriteResMX<"WriteVISlideX", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVISlideI", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVISlide1X", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| defm "" : LMULWriteResMX<"WriteVFSlide1F", [SiFive7VCQ, SiFive7VA], mx, IsWorstCase>; |
| } |
| } |
| |
| // VMov*V is LMUL Aware |
| let Latency = 4, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, 2)] in |
| def : WriteRes<WriteVMov1V, [SiFive7VCQ, SiFive7VA]>; |
| let Latency = 4, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, 4)] in |
| def : WriteRes<WriteVMov2V, [SiFive7VCQ, SiFive7VA]>; |
| let Latency = 4, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, 8)] in |
| def : WriteRes<WriteVMov4V, [SiFive7VCQ, SiFive7VA]>; |
| let Latency = 4, AcquireAtCycles = [0, 1], ReleaseAtCycles = [1, !add(1, 16)] in |
| def : WriteRes<WriteVMov8V, [SiFive7VCQ, SiFive7VA]>; |
| |
| // Others |
| def : WriteRes<WriteCSR, [SiFive7PipeB]>; |
| def : WriteRes<WriteNop, []>; |
| let Latency = 3 in |
| def : WriteRes<WriteRdVLENB, [SiFive7PipeB]>; |
| |
| def : InstRW<[WriteIALU], (instrs COPY)>; |
| |
| //===----------------------------------------------------------------------===// |
| |
| // Bypass and advance |
| def : SiFive7AnyToGPRBypass<ReadJmp>; |
| def : SiFive7AnyToGPRBypass<ReadJalr>; |
| def : ReadAdvance<ReadCSR, 0>; |
| def : ReadAdvance<ReadStoreData, 0>; |
| def : ReadAdvance<ReadMemBase, 0>; |
| def : SiFive7AnyToGPRBypass<ReadIALU>; |
| def : SiFive7AnyToGPRBypass<ReadIALU32>; |
| def : SiFive7AnyToGPRBypass<ReadShiftImm>; |
| def : SiFive7AnyToGPRBypass<ReadShiftImm32>; |
| def : SiFive7AnyToGPRBypass<ReadShiftReg>; |
| def : SiFive7AnyToGPRBypass<ReadShiftReg32>; |
| def : ReadAdvance<ReadIDiv, 0>; |
| def : ReadAdvance<ReadIDiv32, 0>; |
| def : ReadAdvance<ReadIMul, 0>; |
| def : ReadAdvance<ReadIMul32, 0>; |
| def : ReadAdvance<ReadAtomicWA, 0>; |
| def : ReadAdvance<ReadAtomicWD, 0>; |
| def : ReadAdvance<ReadAtomicDA, 0>; |
| def : ReadAdvance<ReadAtomicDD, 0>; |
| def : ReadAdvance<ReadAtomicLDW, 0>; |
| def : ReadAdvance<ReadAtomicLDD, 0>; |
| def : ReadAdvance<ReadAtomicSTW, 0>; |
| def : ReadAdvance<ReadAtomicSTD, 0>; |
| def : ReadAdvance<ReadFStoreData, 0>; |
| def : ReadAdvance<ReadFMemBase, 0>; |
| def : ReadAdvance<ReadFAdd16, 0>; |
| def : ReadAdvance<ReadFAdd32, 0>; |
| def : ReadAdvance<ReadFAdd64, 0>; |
| def : ReadAdvance<ReadFMul16, 0>; |
| def : ReadAdvance<ReadFMA16, 0>; |
| def : ReadAdvance<ReadFMA16Addend, 0>; |
| def : ReadAdvance<ReadFMul32, 0>; |
| def : ReadAdvance<ReadFMul64, 0>; |
| def : ReadAdvance<ReadFMA32, 0>; |
| def : ReadAdvance<ReadFMA32Addend, 0>; |
| def : ReadAdvance<ReadFMA64, 0>; |
| def : ReadAdvance<ReadFMA64Addend, 0>; |
| def : ReadAdvance<ReadFDiv16, 0>; |
| def : ReadAdvance<ReadFDiv32, 0>; |
| def : ReadAdvance<ReadFDiv64, 0>; |
| def : ReadAdvance<ReadFSqrt16, 0>; |
| def : ReadAdvance<ReadFSqrt32, 0>; |
| def : ReadAdvance<ReadFSqrt64, 0>; |
| def : ReadAdvance<ReadFCmp16, 0>; |
| def : ReadAdvance<ReadFCmp32, 0>; |
| def : ReadAdvance<ReadFCmp64, 0>; |
| def : ReadAdvance<ReadFSGNJ16, 0>; |
| def : ReadAdvance<ReadFSGNJ32, 0>; |
| def : ReadAdvance<ReadFSGNJ64, 0>; |
| def : ReadAdvance<ReadFMinMax16, 0>; |
| def : ReadAdvance<ReadFMinMax32, 0>; |
| def : ReadAdvance<ReadFMinMax64, 0>; |
| def : ReadAdvance<ReadFCvtF16ToI32, 0>; |
| def : ReadAdvance<ReadFCvtF16ToI64, 0>; |
| def : ReadAdvance<ReadFCvtF32ToI32, 0>; |
| def : ReadAdvance<ReadFCvtF32ToI64, 0>; |
| def : ReadAdvance<ReadFCvtF64ToI32, 0>; |
| def : ReadAdvance<ReadFCvtF64ToI64, 0>; |
| def : ReadAdvance<ReadFCvtI32ToF16, 0>; |
| def : ReadAdvance<ReadFCvtI32ToF32, 0>; |
| def : ReadAdvance<ReadFCvtI32ToF64, 0>; |
| def : ReadAdvance<ReadFCvtI64ToF16, 0>; |
| def : ReadAdvance<ReadFCvtI64ToF32, 0>; |
| def : ReadAdvance<ReadFCvtI64ToF64, 0>; |
| def : ReadAdvance<ReadFCvtF32ToF64, 0>; |
| def : ReadAdvance<ReadFCvtF64ToF32, 0>; |
| def : ReadAdvance<ReadFCvtF16ToF32, 0>; |
| def : ReadAdvance<ReadFCvtF32ToF16, 0>; |
| def : ReadAdvance<ReadFCvtF16ToF64, 0>; |
| def : ReadAdvance<ReadFCvtF64ToF16, 0>; |
| def : ReadAdvance<ReadFMovF16ToI16, 0>; |
| def : ReadAdvance<ReadFMovI16ToF16, 0>; |
| def : ReadAdvance<ReadFMovF32ToI32, 0>; |
| def : ReadAdvance<ReadFMovI32ToF32, 0>; |
| def : ReadAdvance<ReadFMovF64ToI64, 0>; |
| def : ReadAdvance<ReadFMovI64ToF64, 0>; |
| def : ReadAdvance<ReadFClass16, 0>; |
| def : ReadAdvance<ReadFClass32, 0>; |
| def : ReadAdvance<ReadFClass64, 0>; |
| |
| def : SiFive7AnyToGPRBypass<ReadSFBJmp, 0>; |
| def : SiFive7AnyToGPRBypass<ReadSFBALU, 0>; |
| |
| // Bitmanip |
| def : SiFive7AnyToGPRBypass<ReadRotateImm>; |
| def : SiFive7AnyToGPRBypass<ReadRotateImm32>; |
| def : SiFive7AnyToGPRBypass<ReadRotateReg>; |
| def : SiFive7AnyToGPRBypass<ReadRotateReg32>; |
| def : SiFive7AnyToGPRBypass<ReadCLZ>; |
| def : SiFive7AnyToGPRBypass<ReadCLZ32>; |
| def : SiFive7AnyToGPRBypass<ReadCTZ>; |
| def : SiFive7AnyToGPRBypass<ReadCTZ32>; |
| def : ReadAdvance<ReadCPOP, 0>; |
| def : ReadAdvance<ReadCPOP32, 0>; |
| def : SiFive7AnyToGPRBypass<ReadORCB>; |
| def : SiFive7AnyToGPRBypass<ReadREV8>; |
| def : SiFive7AnyToGPRBypass<ReadSHXADD>; |
| def : SiFive7AnyToGPRBypass<ReadSHXADD32>; |
| // Single-bit instructions |
| def : SiFive7AnyToGPRBypass<ReadSingleBit>; |
| def : SiFive7AnyToGPRBypass<ReadSingleBitImm>; |
| |
| // 6. Configuration-Setting Instructions |
| def : ReadAdvance<ReadVSETVLI, 2>; |
| def : ReadAdvance<ReadVSETVL, 2>; |
| |
| // 7. Vector Loads and Stores |
| def : ReadAdvance<ReadVLDX, 0>; |
| def : ReadAdvance<ReadVSTX, 0>; |
| defm "" : LMULReadAdvance<"ReadVSTEV", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTM", 0>; |
| def : ReadAdvance<ReadVLDSX, 0>; |
| def : ReadAdvance<ReadVSTSX, 0>; |
| defm "" : LMULReadAdvance<"ReadVSTS8V", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTS16V", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTS32V", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTS64V", 0>; |
| defm "" : LMULReadAdvance<"ReadVLDUXV", 0>; |
| defm "" : LMULReadAdvance<"ReadVLDOXV", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTUX8", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTUX16", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTUX32", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTUX64", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTUXV", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTUX8V", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTUX16V", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTUX32V", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTUX64V", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTOX8", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTOX16", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTOX32", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTOX64", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTOXV", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTOX8V", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTOX16V", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTOX32V", 0>; |
| defm "" : LMULReadAdvance<"ReadVSTOX64V", 0>; |
| // LMUL Aware |
| def : ReadAdvance<ReadVST1R, 0>; |
| def : ReadAdvance<ReadVST2R, 0>; |
| def : ReadAdvance<ReadVST4R, 0>; |
| def : ReadAdvance<ReadVST8R, 0>; |
| |
| // 12. Vector Integer Arithmetic Instructions |
| defm : LMULReadAdvance<"ReadVIALUV", 0>; |
| defm : LMULReadAdvance<"ReadVIALUX", 0>; |
| defm : LMULReadAdvanceW<"ReadVIWALUV", 0>; |
| defm : LMULReadAdvanceW<"ReadVIWALUX", 0>; |
| defm : LMULReadAdvance<"ReadVExtV", 0>; |
| defm : LMULReadAdvance<"ReadVICALUV", 0>; |
| defm : LMULReadAdvance<"ReadVICALUX", 0>; |
| defm : LMULReadAdvance<"ReadVShiftV", 0>; |
| defm : LMULReadAdvance<"ReadVShiftX", 0>; |
| defm : LMULReadAdvanceW<"ReadVNShiftV", 0>; |
| defm : LMULReadAdvanceW<"ReadVNShiftX", 0>; |
| defm : LMULReadAdvance<"ReadVICmpV", 0>; |
| defm : LMULReadAdvance<"ReadVICmpX", 0>; |
| defm : LMULReadAdvance<"ReadVIMinMaxV", 0>; |
| defm : LMULReadAdvance<"ReadVIMinMaxX", 0>; |
| defm : LMULReadAdvance<"ReadVIMulV", 0>; |
| defm : LMULReadAdvance<"ReadVIMulX", 0>; |
| defm : LMULSEWReadAdvance<"ReadVIDivV", 0>; |
| defm : LMULSEWReadAdvance<"ReadVIDivX", 0>; |
| defm : LMULReadAdvanceW<"ReadVIWMulV", 0>; |
| defm : LMULReadAdvanceW<"ReadVIWMulX", 0>; |
| defm : LMULReadAdvance<"ReadVIMulAddV", 0>; |
| defm : LMULReadAdvance<"ReadVIMulAddX", 0>; |
| defm : LMULReadAdvanceW<"ReadVIWMulAddV", 0>; |
| defm : LMULReadAdvanceW<"ReadVIWMulAddX", 0>; |
| defm : LMULReadAdvance<"ReadVIMergeV", 0>; |
| defm : LMULReadAdvance<"ReadVIMergeX", 0>; |
| defm : LMULReadAdvance<"ReadVIMovV", 0>; |
| defm : LMULReadAdvance<"ReadVIMovX", 0>; |
| |
| // 13. Vector Fixed-Point Arithmetic Instructions |
| defm "" : LMULReadAdvance<"ReadVSALUV", 0>; |
| defm "" : LMULReadAdvance<"ReadVSALUX", 0>; |
| defm "" : LMULReadAdvance<"ReadVAALUV", 0>; |
| defm "" : LMULReadAdvance<"ReadVAALUX", 0>; |
| defm "" : LMULReadAdvance<"ReadVSMulV", 0>; |
| defm "" : LMULReadAdvance<"ReadVSMulX", 0>; |
| defm "" : LMULReadAdvance<"ReadVSShiftV", 0>; |
| defm "" : LMULReadAdvance<"ReadVSShiftX", 0>; |
| defm "" : LMULReadAdvanceW<"ReadVNClipV", 0>; |
| defm "" : LMULReadAdvanceW<"ReadVNClipX", 0>; |
| |
| // 14. Vector Floating-Point Instructions |
| defm "" : LMULReadAdvance<"ReadVFALUV", 0>; |
| defm "" : LMULReadAdvance<"ReadVFALUF", 0>; |
| defm "" : LMULReadAdvanceFW<"ReadVFWALUV", 0>; |
| defm "" : LMULReadAdvanceFW<"ReadVFWALUF", 0>; |
| defm "" : LMULReadAdvance<"ReadVFMulV", 0>; |
| defm "" : LMULReadAdvance<"ReadVFMulF", 0>; |
| defm "" : LMULSEWReadAdvanceF<"ReadVFDivV", 0>; |
| defm "" : LMULSEWReadAdvanceF<"ReadVFDivF", 0>; |
| defm "" : LMULReadAdvanceFW<"ReadVFWMulV", 0>; |
| defm "" : LMULReadAdvanceFW<"ReadVFWMulF", 0>; |
| defm "" : LMULReadAdvance<"ReadVFMulAddV", 0>; |
| defm "" : LMULReadAdvance<"ReadVFMulAddF", 0>; |
| defm "" : LMULReadAdvanceFW<"ReadVFWMulAddV", 0>; |
| defm "" : LMULReadAdvanceFW<"ReadVFWMulAddF", 0>; |
| defm "" : LMULSEWReadAdvanceF<"ReadVFSqrtV", 0>; |
| defm "" : LMULReadAdvance<"ReadVFRecpV", 0>; |
| defm "" : LMULReadAdvance<"ReadVFMinMaxV", 0>; |
| defm "" : LMULReadAdvance<"ReadVFMinMaxF", 0>; |
| defm "" : LMULReadAdvance<"ReadVFSgnjV", 0>; |
| defm "" : LMULReadAdvance<"ReadVFSgnjF", 0>; |
| defm "" : LMULReadAdvance<"ReadVFCmpV", 0>; |
| defm "" : LMULReadAdvance<"ReadVFCmpF", 0>; |
| defm "" : LMULReadAdvance<"ReadVFClassV", 0>; |
| defm "" : LMULReadAdvance<"ReadVFMergeV", 0>; |
| defm "" : LMULReadAdvance<"ReadVFMergeF", 0>; |
| defm "" : LMULReadAdvance<"ReadVFMovF", 0>; |
| defm "" : LMULReadAdvance<"ReadVFCvtIToFV", 0>; |
| defm "" : LMULReadAdvance<"ReadVFCvtFToIV", 0>; |
| defm "" : LMULReadAdvanceW<"ReadVFWCvtIToFV", 0>; |
| defm "" : LMULReadAdvanceFW<"ReadVFWCvtFToIV", 0>; |
| defm "" : LMULReadAdvanceFW<"ReadVFWCvtFToFV", 0>; |
| defm "" : LMULReadAdvanceFW<"ReadVFNCvtIToFV", 0>; |
| defm "" : LMULReadAdvanceW<"ReadVFNCvtFToIV", 0>; |
| defm "" : LMULReadAdvanceFW<"ReadVFNCvtFToFV", 0>; |
| |
| // 15. Vector Reduction Operations |
| def : ReadAdvance<ReadVIRedV, 0>; |
| def : ReadAdvance<ReadVIRedV0, 0>; |
| def : ReadAdvance<ReadVIWRedV, 0>; |
| def : ReadAdvance<ReadVIWRedV0, 0>; |
| def : ReadAdvance<ReadVFRedV, 0>; |
| def : ReadAdvance<ReadVFRedV0, 0>; |
| def : ReadAdvance<ReadVFRedOV, 0>; |
| def : ReadAdvance<ReadVFRedOV0, 0>; |
| def : ReadAdvance<ReadVFWRedV, 0>; |
| def : ReadAdvance<ReadVFWRedV0, 0>; |
| def : ReadAdvance<ReadVFWRedOV, 0>; |
| def : ReadAdvance<ReadVFWRedOV0, 0>; |
| |
| // 16. Vector Mask Instructions |
| defm "" : LMULReadAdvance<"ReadVMALUV", 0>; |
| defm "" : LMULReadAdvance<"ReadVMPopV", 0>; |
| defm "" : LMULReadAdvance<"ReadVMFFSV", 0>; |
| defm "" : LMULReadAdvance<"ReadVMSFSV", 0>; |
| defm "" : LMULReadAdvance<"ReadVMIotV", 0>; |
| |
| // 17. Vector Permutation Instructions |
| def : ReadAdvance<ReadVIMovVX, 0>; |
| def : ReadAdvance<ReadVIMovXV, 0>; |
| def : ReadAdvance<ReadVIMovXX, 0>; |
| def : ReadAdvance<ReadVFMovVF, 0>; |
| def : ReadAdvance<ReadVFMovFV, 0>; |
| def : ReadAdvance<ReadVFMovFX, 0>; |
| defm "" : LMULReadAdvance<"ReadVISlideV", 0>; |
| defm "" : LMULReadAdvance<"ReadVISlideX", 0>; |
| defm "" : LMULReadAdvance<"ReadVFSlideV", 0>; |
| defm "" : LMULReadAdvance<"ReadVFSlideF", 0>; |
| defm "" : LMULSEWReadAdvance<"ReadVRGatherVV_data", 0>; |
| defm "" : LMULSEWReadAdvance<"ReadVRGatherVV_index", 0>; |
| defm "" : LMULReadAdvance<"ReadVRGatherVX_data", 0>; |
| defm "" : LMULReadAdvance<"ReadVRGatherVX_index", 0>; |
| defm "" : LMULReadAdvance<"ReadVRGatherVI_data", 0>; |
| defm "" : LMULSEWReadAdvance<"ReadVCompressV", 0>; |
| // LMUL Aware |
| def : ReadAdvance<ReadVMov1V, 0>; |
| def : ReadAdvance<ReadVMov2V, 0>; |
| def : ReadAdvance<ReadVMov4V, 0>; |
| def : ReadAdvance<ReadVMov8V, 0>; |
| |
| // Others |
| def : ReadAdvance<ReadVMask, 0>; |
| def : ReadAdvance<ReadVMergeOp_WorstCase, 0>; |
| foreach mx = SchedMxList in { |
| def : ReadAdvance<!cast<SchedRead>("ReadVMergeOp_" # mx), 0>; |
| foreach sew = SchedSEWSet<mx>.val in |
| def : ReadAdvance<!cast<SchedRead>("ReadVMergeOp_" # mx # "_E" # sew), 0>; |
| } |
| |
| //===----------------------------------------------------------------------===// |
| // Unsupported extensions |
| defm : UnsupportedSchedZbc; |
| defm : UnsupportedSchedZbkb; |
| defm : UnsupportedSchedZbkx; |
| defm : UnsupportedSchedZfa; |
| } |