//=- AArch64SchedA64FX.td - Fujitsu A64FX Scheduling Defs -*- 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 // //===----------------------------------------------------------------------===// // // This file defines the scheduling model for the Fujitsu A64FX processors. // //===----------------------------------------------------------------------===// def A64FXModel : SchedMachineModel { let IssueWidth = 6; // 6 micro-ops dispatched at a time. let MicroOpBufferSize = 180; // 180 entries in micro-op re-order buffer. let LoadLatency = 5; // Optimistic load latency. let MispredictPenalty = 12; // Extra cycles for mispredicted branch. // Determined via a mix of micro-arch details and experimentation. let LoopMicroOpBufferSize = 128; let PostRAScheduler = 1; // Using PostRA sched. let CompleteModel = 1; list UnsupportedFeatures = !listconcat(SMEUnsupported.F, SVEUnsupported.F, [HasMTE, HasMatMulInt8, HasBF16, HasPAuth, HasPAuthLR, HasCPA, HasCSSC]); let FullInstRWOverlapCheck = 0; } let SchedModel = A64FXModel in { // Define the issue ports. // A64FXIP* // Port 0 def A64FXIPFLA : ProcResource<1>; // Port 1 def A64FXIPPR : ProcResource<1>; // Port 2 def A64FXIPEXA : ProcResource<1>; // Port 3 def A64FXIPFLB : ProcResource<1>; // Port 4 def A64FXIPEXB : ProcResource<1>; // Port 5 def A64FXIPEAGA : ProcResource<1>; // Port 6 def A64FXIPEAGB : ProcResource<1>; // Port 7 def A64FXIPBR : ProcResource<1>; // Define groups for the functional units on each issue port. Each group // created will be used by a WriteRes later on. def A64FXGI7 : ProcResGroup<[A64FXIPBR]>; def A64FXGI0 : ProcResGroup<[A64FXIPFLA]>; def A64FXGI1 : ProcResGroup<[A64FXIPPR]>; def A64FXGI2 : ProcResGroup<[A64FXIPEXA]>; def A64FXGI3 : ProcResGroup<[A64FXIPFLB]>; def A64FXGI4 : ProcResGroup<[A64FXIPEXB]>; def A64FXGI5 : ProcResGroup<[A64FXIPEAGA]>; def A64FXGI6 : ProcResGroup<[A64FXIPEAGB]>; def A64FXGI03 : ProcResGroup<[A64FXIPFLA, A64FXIPFLB]>; def A64FXGI01 : ProcResGroup<[A64FXIPFLA, A64FXIPPR]>; def A64FXGI24 : ProcResGroup<[A64FXIPEXA, A64FXIPEXB]>; def A64FXGI56 : ProcResGroup<[A64FXIPEAGA, A64FXIPEAGB]>; def A64FXGI056 : ProcResGroup<[A64FXIPFLA, A64FXIPEAGA, A64FXIPEAGB]>; def A64FXGI2456 : ProcResGroup<[A64FXIPEXA, A64FXIPEXB, A64FXIPEAGA, A64FXIPEAGB]>; def A64FXAny : ProcResGroup<[A64FXIPFLA, A64FXIPPR, A64FXIPEXA, A64FXIPFLB, A64FXIPEXB, A64FXIPEAGA, A64FXIPEAGB, A64FXIPBR]>; def A64FXWrite_1Cyc_GI7 : SchedWriteRes<[A64FXGI7]> { let Latency = 1; } def A64FXWrite_2Cyc_GI0 : SchedWriteRes<[A64FXGI0]> { let Latency = 2; } def A64FXWrite_4Cyc_GI0 : SchedWriteRes<[A64FXGI0]> { let Latency = 4; } def A64FXWrite_6Cyc_GI0 : SchedWriteRes<[A64FXGI0]> { let Latency = 6; } def A64FXWrite_8Cyc_GI0 : SchedWriteRes<[A64FXGI0]> { let Latency = 8; } def A64FXWrite_9Cyc_GI0 : SchedWriteRes<[A64FXGI0]> { let Latency = 9; } def A64FXWrite_3Cyc_GI1 : SchedWriteRes<[A64FXGI1]> { let Latency = 3; } def A64FXWrite_5Cyc_GI2 : SchedWriteRes<[A64FXGI2]> { let Latency = 5; } def A64FXWrite_4Cyc_GI3 : SchedWriteRes<[A64FXGI3]> { let Latency = 4; } def A64FXWrite_6Cyc_GI3 : SchedWriteRes<[A64FXGI3]> { let Latency = 6; } def A64FXWrite_4Cyc_GI03 : SchedWriteRes<[A64FXGI03]> { let Latency = 4; } def A64FXWrite_8Cyc_GI03 : SchedWriteRes<[A64FXGI03]> { let Latency = 8; } def A64FXWrite_9Cyc_GI03 : SchedWriteRes<[A64FXGI03]> { let Latency = 9; } def A64FXWrite_10Cyc_GI4 : SchedWriteRes<[A64FXGI4]> { let Latency = 10; } def A64FXWrite_12Cyc_GI4 : SchedWriteRes<[A64FXGI4]> { let Latency = 12; } def A64FXWrite_20Cyc_GI4 : SchedWriteRes<[A64FXGI4]> { let Latency = 20; } def A64FXWrite_5Cyc_GI5 : SchedWriteRes<[A64FXGI5]> { let Latency = 5; } def A64FXWrite_11Cyc_GI5 : SchedWriteRes<[A64FXGI5]> { let Latency = 11; } def A64FXWrite_5Cyc_GI6 : SchedWriteRes<[A64FXGI6]> { let Latency = 5; } def A64FXWrite_1Cyc_GI24 : SchedWriteRes<[A64FXGI24]> { let Latency = 1; } def A64FXWrite_2Cyc_GI24 : SchedWriteRes<[A64FXGI24]> { let Latency = 2; } def A64FXWrite_4Cyc_NGI24 : SchedWriteRes<[A64FXGI24]> { let Latency = 4; let NumMicroOps = 4; } def A64FXWrite_1Cyc_GI56 : SchedWriteRes<[A64FXGI56]> { let Latency = 1; } def A64FXWrite_5Cyc_GI56 : SchedWriteRes<[A64FXGI56]> { let Latency = 5; } def A64FXWrite_8Cyc_GI56 : SchedWriteRes<[A64FXGI56]> { let Latency = 8; } def A64FXWrite_11Cyc_GI56 : SchedWriteRes<[A64FXGI56]> { let Latency = 11; } def A64FXWrite_LDNP: SchedWriteRes<[A64FXGI56]> { let Latency = 5; let NumMicroOps = 2; } def A64FXWrite_LDP01: SchedWriteRes<[A64FXGI2456]> { let Latency = 5; let NumMicroOps = 3; } def A64FXWrite_LDR01: SchedWriteRes<[A64FXGI2456]> { let Latency = 5; let NumMicroOps = 2; } def A64FXWrite_LD102: SchedWriteRes<[A64FXGI56]> { let Latency = 8; let NumMicroOps = 2; } def A64FXWrite_LD103: SchedWriteRes<[A64FXGI56]> { let Latency = 11; let NumMicroOps = 2; } def A64FXWrite_LD104: SchedWriteRes<[A64FXGI56]> { let Latency = 8; let NumMicroOps = 3; } def A64FXWrite_LD105: SchedWriteRes<[A64FXGI56]> { let Latency = 11; let NumMicroOps = 3; } def A64FXWrite_LD106: SchedWriteRes<[A64FXGI56]> { let Latency = 8; let NumMicroOps = 4; } def A64FXWrite_LD107: SchedWriteRes<[A64FXGI56]> { let Latency = 11; let NumMicroOps = 4; } def A64FXWrite_LD108: SchedWriteRes<[A64FXGI56]> { let Latency = 8; let NumMicroOps = 2; } def A64FXWrite_LD109: SchedWriteRes<[A64FXGI56]> { let Latency = 11; let NumMicroOps = 2; } def A64FXWrite_LD110: SchedWriteRes<[A64FXGI56]> { let Latency = 8; let NumMicroOps = 3; } def A64FXWrite_LD111: SchedWriteRes<[A64FXGI56]> { let Latency = 11; let NumMicroOps = 3; } def A64FXWrite_LD112: SchedWriteRes<[A64FXGI56]> { let Latency = 8; let NumMicroOps = 4; } def A64FXWrite_LD113: SchedWriteRes<[A64FXGI56]> { let Latency = 11; let NumMicroOps = 4; } def A64FXWrite_LD114: SchedWriteRes<[A64FXGI56]> { let Latency = 8; let NumMicroOps = 5; } def A64FXWrite_LD115: SchedWriteRes<[A64FXGI56]> { let Latency = 11; let NumMicroOps = 5; } def A64FXWrite_LD1I0: SchedWriteRes<[A64FXGI056]> { let Latency = 8; let NumMicroOps = 2; } def A64FXWrite_LD1I1: SchedWriteRes<[A64FXGI056]> { let Latency = 8; let NumMicroOps = 3; } def A64FXWrite_LD2I0: SchedWriteRes<[A64FXGI056]> { let Latency = 8; let NumMicroOps = 4; } def A64FXWrite_LD2I1: SchedWriteRes<[A64FXGI056]> { let Latency = 8; let NumMicroOps = 5; } def A64FXWrite_LD3I0: SchedWriteRes<[A64FXGI056]> { let Latency = 8; let NumMicroOps = 6; } def A64FXWrite_LD3I1: SchedWriteRes<[A64FXGI056]> { let Latency = 8; let NumMicroOps = 7; } def A64FXWrite_LD4I0: SchedWriteRes<[A64FXGI056]> { let Latency = 8; let NumMicroOps = 8; } def A64FXWrite_LD4I1: SchedWriteRes<[A64FXGI056]> { let Latency = 8; let NumMicroOps = 9; } def A64FXWrite_1Cyc_GI2456 : SchedWriteRes<[A64FXGI2456]> { let Latency = 1; } def A64FXWrite_FMOV_GV : SchedWriteRes<[A64FXGI03]> { let Latency = 10; } def A64FXWrite_FMOV_VG14 : SchedWriteRes<[A64FXGI03]> { let Latency = 14; } def A64FXWrite_ADDLV : SchedWriteRes<[A64FXGI03]> { let Latency = 12; } def A64FXWrite_MULLE : SchedWriteRes<[A64FXGI03]> { let Latency = 14; } def A64FXWrite_MULLV : SchedWriteRes<[A64FXGI03]> { let Latency = 14; } def A64FXWrite_MADDL : SchedWriteRes<[A64FXGI03]> { let Latency = 6; } def A64FXWrite_ABA : SchedWriteRes<[A64FXGI03]> { let Latency = 8; } def A64FXWrite_ABAL : SchedWriteRes<[A64FXGI03]> { let Latency = 10; } def A64FXWrite_ADDLV1 : SchedWriteRes<[A64FXGI03]> { let Latency = 12; let NumMicroOps = 6; } def A64FXWrite_MINMAXV : SchedWriteRes<[A64FXGI03]> { let Latency = 14; let NumMicroOps = 6; } def A64FXWrite_SQRDMULH : SchedWriteRes<[A64FXGI03]> { let Latency = 9; } def A64FXWrite_PMUL : SchedWriteRes<[A64FXGI03]> { let Latency = 8; } def A64FXWrite_SRSRAV : SchedWriteRes<[A64FXGI03]> { let Latency = 8; let NumMicroOps = 3; } def A64FXWrite_SSRAV : SchedWriteRes<[A64FXGI03]> { let Latency = 8; let NumMicroOps = 2; } def A64FXWrite_RSHRN : SchedWriteRes<[A64FXGI03]> { let Latency = 10; let NumMicroOps = 3; } def A64FXWrite_SHRN : SchedWriteRes<[A64FXGI03]> { let Latency = 10; let NumMicroOps = 2; } def A64FXWrite_ADDP : SchedWriteRes<[A64FXGI03]> { let Latency = 10; let NumMicroOps = 3; } def A64FXWrite_FMULXE : SchedWriteRes<[A64FXGI03]> { let Latency = 15; let NumMicroOps = 2; } def A64FXWrite_FADDPV : SchedWriteRes<[A64FXGI03]> { let Latency = 15; let NumMicroOps = 3; } def A64FXWrite_SADALP : SchedWriteRes<[A64FXGI03]> { let Latency = 10; let NumMicroOps = 3; } def A64FXWrite_SADDLP : SchedWriteRes<[A64FXGI03]> { let Latency = 10; let NumMicroOps = 2; } def A64FXWrite_FCVTXNV : SchedWriteRes<[A64FXGI03]> { let Latency = 15; let NumMicroOps = 2; } def A64FXWrite_FMAXVVH : SchedWriteRes<[A64FXGI03]> { let Latency = 14; let NumMicroOps = 7; } def A64FXWrite_BIF : SchedWriteRes<[A64FXGI03]> { let Latency = 5; } def A64FXWrite_DUPGENERAL : SchedWriteRes<[A64FXGI03]> { let Latency = 10; } def A64FXWrite_SHA00 : SchedWriteRes<[A64FXGI0]> { let Latency = 9; } def A64FXWrite_SHA01 : SchedWriteRes<[A64FXGI0]> { let Latency = 12; } def A64FXWrite_SMOV : SchedWriteRes<[A64FXGI03]> { let Latency = 25; } def A64FXWrite_TBX1 : SchedWriteRes<[A64FXGI03]> { let Latency = 10; let NumMicroOps = 3; } def A64FXWrite_TBX2 : SchedWriteRes<[A64FXGI03]> { let Latency = 10; let NumMicroOps = 5; } def A64FXWrite_TBX3 : SchedWriteRes<[A64FXGI03]> { let Latency = 10; let NumMicroOps = 7; } def A64FXWrite_TBX4 : SchedWriteRes<[A64FXGI03]> { let Latency = 10; let NumMicroOps = 9; } def A64FXWrite_PREF0: SchedWriteRes<[A64FXGI56]> { let Latency = 0; } def A64FXWrite_PREF1: SchedWriteRes<[A64FXGI56]> { let Latency = 0; } def A64FXWrite_SWP: SchedWriteRes<[A64FXGI56]> { let Latency = 0; } def A64FXWrite_STUR: SchedWriteRes<[A64FXGI56]> { let Latency = 0; } def A64FXWrite_STNP: SchedWriteRes<[A64FXGI56]> { let Latency = 0; } def A64FXWrite_STP01: SchedWriteRes<[A64FXGI56]> { let Latency = 0; } def A64FXWrite_ST10: SchedWriteRes<[A64FXGI56]> { let Latency = 0; } def A64FXWrite_ST11: SchedWriteRes<[A64FXGI56]> { let Latency = 0; } def A64FXWrite_ST12: SchedWriteRes<[A64FXGI56]> { let Latency = 0; } def A64FXWrite_ST13: SchedWriteRes<[A64FXGI56]> { let Latency = 0; } def A64FXWrite_ST14: SchedWriteRes<[A64FXGI56]> { let Latency = 1; } def A64FXWrite_ST15: SchedWriteRes<[A64FXGI56]> { let Latency = 1; } def A64FXWrite_ST16: SchedWriteRes<[A64FXGI56]> { let Latency = 1; } def A64FXWrite_ST17: SchedWriteRes<[A64FXGI56]> { let Latency = 1; } def A64FXWrite_CAS: SchedWriteRes<[A64FXGI56]> { let Latency = 7; } // Define commonly used read types. // No forwarding is provided for these types. def : ReadAdvance; def : ReadAdvance; def : ReadAdvance; def : ReadAdvance; def : ReadAdvance; def : ReadAdvance; def : ReadAdvance; def : ReadAdvance; def : ReadAdvance; def : ReadAdvance; //===----------------------------------------------------------------------===// // 3. Instruction Tables. //--- // 3.1 Branch Instructions //--- // Branch, immed // Branch and link, immed // Compare and branch def : WriteRes { let Latency = 1; } // Branch, register // Branch and link, register != LR // Branch and link, register = LR def : WriteRes { let Latency = 1; } def : WriteRes { let Latency = 1; } def : WriteRes { let Latency = 1; } def : WriteRes { let Latency = 1; } def : WriteRes { let Latency = 4; } //--- // Branch //--- def : InstRW<[A64FXWrite_1Cyc_GI7], (instrs B, BL, BR, BLR)>; def : InstRW<[A64FXWrite_1Cyc_GI7], (instrs RET)>; def : InstRW<[A64FXWrite_1Cyc_GI7], (instregex "^B..$")>; def : InstRW<[A64FXWrite_1Cyc_GI7], (instregex "^CBZ", "^CBNZ", "^TBZ", "^TBNZ")>; //--- // 3.2 Arithmetic and Logical Instructions // 3.3 Move and Shift Instructions //--- // ALU, basic // Conditional compare // Conditional select // Address generation def : WriteRes { let Latency = 1; } def : InstRW<[WriteI], (instregex "ADD?(W|X)r(i|r|s|x)", "ADDS?(W|X)r(i|r|s|x)(64)?", "AND?(W|X)r(i|r|s|x)", "ANDS?(W|X)r(i|r|s|x)", "ADC(W|X)r", "BIC?(W|X)r(i|r|s|x)", "BICS?(W|X)r(i|r|s|x)", "EON?(W|X)r(i|r|s|x)", "ORN?(W|X)r(i|r|s|x)", "ORR?(W|X)r(i|r|s|x)", "SUB?(W|X)r(i|r|s|x)", "SUBS?(W|X)r(i|r|s|x)", "SBC(W|X)r", "SBCS(W|X)r", "CCMN(W|X)(i|r)", "CCMP(W|X)(i|r)", "CSEL(W|X)r", "CSINC(W|X)r", "CSINV(W|X)r", "CSNEG(W|X)r")>; def : InstRW<[WriteI], (instrs COPY)>; // ALU, extend and/or shift def : WriteRes { let Latency = 2; } def : InstRW<[WriteISReg], (instregex "ADD?(W|X)r(i|r|s|x)", "ADDS?(W|X)r(i|r|s|x)(64)?", "AND?(W|X)r(i|r|s|x)", "ANDS?(W|X)r(i|r|s|x)", "ADC(W|X)r", "BIC?(W|X)r(i|r|s|x)", "BICS?(W|X)r(i|r|s|x)", "EON?(W|X)r(i|r|s|x)", "ORN?(W|X)r(i|r|s|x)", "ORR?(W|X)r(i|r|s|x)", "SUB?(W|X)r(i|r|s|x)", "SUBS?(W|X)r(i|r|s|x)", "SBC(W|X)r", "SBCS(W|X)r", "CCMN(W|X)(i|r)", "CCMP(W|X)(i|r)", "CSEL(W|X)r", "CSINC(W|X)r", "CSINV(W|X)r", "CSNEG(W|X)r")>; def : WriteRes { let Latency = 1; } def : InstRW<[WriteIEReg], (instregex "ADD?(W|X)r(i|r|s|x)", "ADDS?(W|X)r(i|r|s|x)(64)?", "AND?(W|X)r(i|r|s|x)", "ANDS?(W|X)r(i|r|s|x)", "ADC(W|X)r", "BIC?(W|X)r(i|r|s|x)", "BICS?(W|X)r(i|r|s|x)", "EON?(W|X)r(i|r|s|x)", "ORN?(W|X)r(i|r|s|x)", "ORR?(W|X)r(i|r|s|x)", "SUB?(W|X)r(i|r|s|x)", "SUBS?(W|X)r(i|r|s|x)", "SBC(W|X)r", "SBCS(W|X)r", "CCMN(W|X)(i|r)", "CCMP(W|X)(i|r)", "CSEL(W|X)r", "CSINC(W|X)r", "CSINV(W|X)r", "CSNEG(W|X)r")>; // Move immed def : WriteRes { let Latency = 1; } def : InstRW<[A64FXWrite_1Cyc_GI2456], (instrs MOVKWi, MOVKXi, MOVNWi, MOVNXi, MOVZWi, MOVZXi)>; def : InstRW<[A64FXWrite_2Cyc_GI24], (instrs ASRVWr, ASRVXr, LSLVWr, LSLVXr, RORVWr, RORVXr)>; // Variable shift def : WriteRes { let Latency = 1; } //--- // 3.4 Divide and Multiply Instructions //--- // Divide, W-form def : WriteRes { let Latency = 39; let ReleaseAtCycles = [39]; } // Divide, X-form def : WriteRes { let Latency = 23; let ReleaseAtCycles = [23]; } // Multiply accumulate, W-form def : WriteRes { let Latency = 5; } // Multiply accumulate, X-form def : WriteRes { let Latency = 5; } def : InstRW<[WriteIM32], (instrs MADDWrrr, MSUBWrrr)>; def : InstRW<[WriteIM32], (instrs MADDXrrr, MSUBXrrr)>; def : InstRW<[A64FXWrite_MADDL], (instregex "(S|U)(MADDL|MSUBL)rrr")>; def : InstRW<[WriteID32], (instrs SDIVWr, UDIVWr)>; def : InstRW<[WriteID64], (instrs SDIVXr, UDIVXr)>; // Bitfield extract, two reg def : WriteRes { let Latency = 1; } // Multiply high def : InstRW<[A64FXWrite_5Cyc_GI2], (instrs SMULHrr, UMULHrr)>; // Miscellaneous Data-Processing Instructions // Bitfield extract def : InstRW<[A64FXWrite_2Cyc_GI24], (instrs EXTRWrri, EXTRXrri)>; // Bitifield move - basic def : InstRW<[A64FXWrite_1Cyc_GI24], (instrs SBFMWri, SBFMXri, UBFMWri, UBFMXri)>; // Bitfield move, insert def : InstRW<[A64FXWrite_4Cyc_NGI24], (instregex "^BFM")>; def : InstRW<[A64FXWrite_1Cyc_GI24], (instregex "(S|U)?BFM.*")>; // Count leading def : InstRW<[A64FXWrite_2Cyc_GI0], (instregex "^CLS(W|X)r$", "^CLZ(W|X)r$")>; // Reverse bits def : InstRW<[A64FXWrite_4Cyc_GI03], (instrs RBITWr, RBITXr)>; // Cryptography Extensions def : InstRW<[A64FXWrite_8Cyc_GI0], (instregex "^AES[DE]")>; def : InstRW<[A64FXWrite_8Cyc_GI0], (instregex "^AESI?MC")>; def : InstRW<[A64FXWrite_8Cyc_GI0], (instregex "^PMULL")>; def : InstRW<[A64FXWrite_SHA00], (instregex "^SHA1SU0")>; def : InstRW<[A64FXWrite_8Cyc_GI0], (instregex "^SHA1(H|SU1)")>; def : InstRW<[A64FXWrite_SHA01], (instregex "^SHA1[CMP]")>; def : InstRW<[A64FXWrite_8Cyc_GI0], (instregex "^SHA256SU0")>; def : InstRW<[A64FXWrite_8Cyc_GI0], (instregex "^SHA256SU1")>; def : InstRW<[A64FXWrite_SHA01], (instregex "^SHA256(H|H2)")>; // CRC Instructions def : InstRW<[A64FXWrite_10Cyc_GI4], (instrs CRC32Brr, CRC32Hrr)>; def : InstRW<[A64FXWrite_12Cyc_GI4], (instrs CRC32Wrr)>; def : InstRW<[A64FXWrite_20Cyc_GI4], (instrs CRC32Xrr)>; def : InstRW<[A64FXWrite_10Cyc_GI4], (instrs CRC32CBrr, CRC32CHrr)>; def : InstRW<[A64FXWrite_12Cyc_GI4], (instrs CRC32CWrr)>; def : InstRW<[A64FXWrite_20Cyc_GI4], (instrs CRC32CXrr)>; // Reverse bits/bytes // NOTE: Handled by WriteI. //--- // 3.6 Load Instructions // 3.10 FP Load Instructions //--- // Load register, literal // Load register, unscaled immed // Load register, immed unprivileged // Load register, unsigned immed def : WriteRes { let Latency = 4; } // Load register, immed post-index // NOTE: Handled by WriteLD, WriteI. // Load register, immed pre-index // NOTE: Handled by WriteLD, WriteAdr. def : WriteRes { let Latency = 1; } // Load pair, immed offset, normal // Load pair, immed offset, signed words, base != SP // Load pair, immed offset signed words, base = SP // LDP only breaks into *one* LS micro-op. Thus // the resources are handled by WriteLD. def : WriteRes { let Latency = 5; } // Load register offset, basic // Load register, register offset, scale by 4/8 // Load register, register offset, scale by 2 // Load register offset, extend // Load register, register offset, extend, scale by 4/8 // Load register, register offset, extend, scale by 2 def A64FXWriteLDIdx : SchedWriteVariant<[ SchedVar, SchedVar]>; def : SchedAlias; def A64FXReadAdrBase : SchedReadVariant<[ SchedVar, SchedVar]>; def : SchedAlias; // Load pair, immed pre-index, normal // Load pair, immed pre-index, signed words // Load pair, immed post-index, normal // Load pair, immed post-index, signed words // NOTE: Handled by WriteLD, WriteLDHi, WriteAdr. def : InstRW<[A64FXWrite_LDNP, WriteLDHi], (instrs LDNPDi)>; def : InstRW<[A64FXWrite_LDNP, WriteLDHi], (instrs LDNPQi)>; def : InstRW<[A64FXWrite_LDNP, WriteLDHi], (instrs LDNPSi)>; def : InstRW<[A64FXWrite_LDNP, WriteLDHi], (instrs LDNPWi)>; def : InstRW<[A64FXWrite_LDNP, WriteLDHi], (instrs LDNPXi)>; def : InstRW<[A64FXWrite_LDNP, WriteLDHi], (instrs LDPDi)>; def : InstRW<[A64FXWrite_LDNP, WriteLDHi], (instrs LDPQi)>; def : InstRW<[A64FXWrite_LDNP, WriteLDHi], (instrs LDPSi)>; def : InstRW<[A64FXWrite_LDNP, WriteLDHi], (instrs LDPSWi)>; def : InstRW<[A64FXWrite_LDNP, WriteLDHi], (instrs LDPWi)>; def : InstRW<[A64FXWrite_LDNP, WriteLDHi], (instrs LDPXi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDRBui)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDRDui)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDRHui)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDRQui)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDRSui)>; def : InstRW<[A64FXWrite_5Cyc_GI6], (instrs LDRDl)>; def : InstRW<[A64FXWrite_5Cyc_GI6], (instrs LDRQl)>; def : InstRW<[A64FXWrite_5Cyc_GI6], (instrs LDRWl)>; def : InstRW<[A64FXWrite_5Cyc_GI6], (instrs LDRXl)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDTRBi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDTRHi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDTRWi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDTRXi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDTRSBWi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDTRSBXi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDTRSHWi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDTRSHXi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDTRSWi)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPDpre)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPQpre)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPSpre)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPWpre)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPWpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRBpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRDpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRHpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRQpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRSpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRWpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRXpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRSBWpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRSBXpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRSBWpost)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRSBXpost)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRSHWpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRSHXpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRSHWpost)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRSHXpost)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRBBpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRBBpost)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRHHpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRHHpost)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPDpost)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPQpost)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPSpost)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPWpost)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPXpost)>; def : InstRW<[A64FXWrite_LDR01, WriteI], (instrs LDRBpost)>; def : InstRW<[A64FXWrite_LDR01, WriteI], (instrs LDRDpost)>; def : InstRW<[A64FXWrite_LDR01, WriteI], (instrs LDRHpost)>; def : InstRW<[A64FXWrite_LDR01, WriteI], (instrs LDRQpost)>; def : InstRW<[A64FXWrite_LDR01, WriteI], (instrs LDRSpost)>; def : InstRW<[A64FXWrite_LDR01, WriteI], (instrs LDRWpost)>; def : InstRW<[A64FXWrite_LDR01, WriteI], (instrs LDRXpost)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPDpre)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPQpre)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPSpre)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPWpre)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPXpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRBpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRDpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRHpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRQpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRSpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRWpre)>; def : InstRW<[A64FXWrite_LDR01, WriteAdr], (instrs LDRXpre)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPDpost)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPQpost)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPSpost)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPWpost)>; def : InstRW<[A64FXWrite_LDP01, WriteLDHi, WriteAdr], (instrs LDPXpost)>; def : InstRW<[A64FXWrite_LDR01, WriteI], (instrs LDRBpost)>; def : InstRW<[A64FXWrite_LDR01, WriteI], (instrs LDRDpost)>; def : InstRW<[A64FXWrite_LDR01, WriteI], (instrs LDRHpost)>; def : InstRW<[A64FXWrite_LDR01, WriteI], (instrs LDRQpost)>; def : InstRW<[A64FXWrite_LDR01, WriteI], (instrs LDRSpost)>; def : InstRW<[A64FXWrite_LDR01, WriteI], (instrs LDRWpost)>; def : InstRW<[A64FXWrite_LDR01, WriteI], (instrs LDRXpost)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRBroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRDroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRHroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRHHroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRQroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRSroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRSHWroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRSHXroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRWroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRXroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRBroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRDroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRHHroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRHroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRQroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRSroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRSHWroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRSHXroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRWroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRXroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRBroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRBroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRDroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRHroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRHHroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRQroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRSroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRSHWroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRSHXroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRWroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRXroW)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRBroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRDroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRHroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRHHroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRQroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRSroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRSHWroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRSHXroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRWroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56, ReadAdrBase], (instrs LDRXroX)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDURBi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDURBBi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDURDi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDURHi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDURHHi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDURQi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDURSi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDURXi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDURSBWi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDURSBXi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDURSHWi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDURSHXi)>; def : InstRW<[A64FXWrite_5Cyc_GI56], (instrs LDURSWi)>; //--- // Prefetch //--- def : InstRW<[A64FXWrite_PREF0], (instrs PRFMl)>; def : InstRW<[A64FXWrite_PREF1], (instrs PRFUMi)>; def : InstRW<[A64FXWrite_PREF1], (instrs PRFMui)>; def : InstRW<[A64FXWrite_PREF1], (instrs PRFMroW)>; def : InstRW<[A64FXWrite_PREF1], (instrs PRFMroX)>; //-- // 3.7 Store Instructions // 3.11 FP Store Instructions //-- // Store register, unscaled immed // Store register, immed unprivileged // Store register, unsigned immed def : WriteRes { let Latency = 1; } // Store register, immed post-index // NOTE: Handled by WriteAdr, WriteST, ReadAdrBase // Store register, immed pre-index // NOTE: Handled by WriteAdr, WriteST // Store register, register offset, basic // Store register, register offset, scaled by 4/8 // Store register, register offset, scaled by 2 // Store register, register offset, extend // Store register, register offset, extend, scale by 4/8 // Store register, register offset, extend, scale by 1 def : WriteRes { let Latency = 1; } // Store pair, immed offset, W-form // Store pair, immed offset, X-form def : WriteRes { let Latency = 1; } // Store pair, immed post-index, W-form // Store pair, immed post-index, X-form // Store pair, immed pre-index, W-form // Store pair, immed pre-index, X-form // NOTE: Handled by WriteAdr, WriteSTP. def : InstRW<[A64FXWrite_STUR], (instrs STURBi)>; def : InstRW<[A64FXWrite_STUR], (instrs STURBBi)>; def : InstRW<[A64FXWrite_STUR], (instrs STURDi)>; def : InstRW<[A64FXWrite_STUR], (instrs STURHi)>; def : InstRW<[A64FXWrite_STUR], (instrs STURHHi)>; def : InstRW<[A64FXWrite_STUR], (instrs STURQi)>; def : InstRW<[A64FXWrite_STUR], (instrs STURSi)>; def : InstRW<[A64FXWrite_STUR], (instrs STURWi)>; def : InstRW<[A64FXWrite_STUR], (instrs STURXi)>; def : InstRW<[WriteAdr, A64FXWrite_STUR], (instrs STTRBi)>; def : InstRW<[WriteAdr, A64FXWrite_STUR], (instrs STTRHi)>; def : InstRW<[WriteAdr, A64FXWrite_STUR], (instrs STTRWi)>; def : InstRW<[WriteAdr, A64FXWrite_STUR], (instrs STTRXi)>; def : InstRW<[A64FXWrite_STNP], (instrs STNPDi)>; def : InstRW<[A64FXWrite_STNP], (instrs STNPQi)>; def : InstRW<[A64FXWrite_STNP], (instrs STNPXi)>; def : InstRW<[A64FXWrite_STNP], (instrs STNPWi)>; def : InstRW<[A64FXWrite_STNP], (instrs STPDi)>; def : InstRW<[A64FXWrite_STNP], (instrs STPQi)>; def : InstRW<[A64FXWrite_STNP], (instrs STPXi)>; def : InstRW<[A64FXWrite_STNP], (instrs STPWi)>; def : InstRW<[A64FXWrite_STUR], (instrs STRBui)>; def : InstRW<[A64FXWrite_STUR], (instrs STRBui)>; def : InstRW<[A64FXWrite_STUR], (instrs STRDui)>; def : InstRW<[A64FXWrite_STUR], (instrs STRDui)>; def : InstRW<[A64FXWrite_STUR], (instrs STRHui)>; def : InstRW<[A64FXWrite_STUR], (instrs STRHui)>; def : InstRW<[A64FXWrite_STUR], (instrs STRQui)>; def : InstRW<[A64FXWrite_STUR], (instrs STRQui)>; def : InstRW<[A64FXWrite_STUR], (instrs STRXui)>; def : InstRW<[A64FXWrite_STUR], (instrs STRXui)>; def : InstRW<[A64FXWrite_STUR], (instrs STRWui)>; def : InstRW<[A64FXWrite_STUR], (instrs STRWui)>; def : InstRW<[A64FXWrite_STP01], (instrs STPDpre, STPDpost)>; def : InstRW<[A64FXWrite_STP01, ReadAdrBase], (instrs STPDpre, STPDpost)>; def : InstRW<[A64FXWrite_STP01], (instrs STPDpre, STPDpost)>; def : InstRW<[A64FXWrite_STP01, ReadAdrBase], (instrs STPDpre, STPDpost)>; def : InstRW<[A64FXWrite_STP01], (instrs STPQpre, STPQpost)>; def : InstRW<[A64FXWrite_STP01, ReadAdrBase], (instrs STPQpre, STPQpost)>; def : InstRW<[A64FXWrite_STP01], (instrs STPQpre, STPQpost)>; def : InstRW<[A64FXWrite_STP01, ReadAdrBase], (instrs STPQpre, STPQpost)>; def : InstRW<[A64FXWrite_STP01], (instrs STPSpre, STPSpost)>; def : InstRW<[A64FXWrite_STP01, ReadAdrBase], (instrs STPSpre, STPSpost)>; def : InstRW<[A64FXWrite_STP01], (instrs STPSpre, STPSpost)>; def : InstRW<[A64FXWrite_STP01, ReadAdrBase], (instrs STPSpre, STPSpost)>; def : InstRW<[A64FXWrite_STP01], (instrs STPWpre, STPWpost)>; def : InstRW<[A64FXWrite_STP01, ReadAdrBase], (instrs STPWpre, STPWpost)>; def : InstRW<[A64FXWrite_STP01], (instrs STPWpre, STPWpost)>; def : InstRW<[A64FXWrite_STP01, ReadAdrBase], (instrs STPWpre, STPWpost)>; def : InstRW<[A64FXWrite_STP01], (instrs STPXpre, STPXpost)>; def : InstRW<[A64FXWrite_STP01, ReadAdrBase], (instrs STPXpre, STPXpost)>; def : InstRW<[A64FXWrite_STP01], (instrs STPXpre, STPXpost)>; def : InstRW<[A64FXWrite_STP01, ReadAdrBase], (instrs STPXpre, STPXpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRBpre, STRBpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRBpre, STRBpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRBpre, STRBpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRBpre, STRBpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRBBpre, STRBBpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRBBpre, STRBBpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRBBpre, STRBBpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRBBpre, STRBBpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRDpre, STRDpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRDpre, STRDpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRDpre, STRDpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRDpre, STRDpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRHpre, STRHpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRHpre, STRHpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRHpre, STRHpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRHpre, STRHpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRHHpre, STRHHpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRHHpre, STRHHpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRHHpre, STRHHpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRHHpre, STRHHpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRQpre, STRQpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRQpre, STRQpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRQpre, STRQpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRQpre, STRQpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRSpre, STRSpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRSpre, STRSpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRSpre, STRSpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRSpre, STRSpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRWpre, STRWpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRWpre, STRWpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRWpre, STRWpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRWpre, STRWpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRXpre, STRXpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRXpre, STRXpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01], (instrs STRXpre, STRXpost)>; def : InstRW<[WriteAdr, A64FXWrite_STP01, ReadAdrBase], (instrs STRXpre, STRXpost)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRBroW, STRBroX)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRBroW, STRBroX)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRBBroW, STRBBroX)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRBBroW, STRBBroX)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRDroW, STRDroX)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRDroW, STRDroX)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRHroW, STRHroX)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRHroW, STRHroX)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRHHroW, STRHHroX)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRHHroW, STRHHroX)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRQroW, STRQroX)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRQroW, STRQroX)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRSroW, STRSroX)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRSroW, STRSroX)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRWroW, STRWroX)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRWroW, STRWroX)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRXroW, STRXroX)>; def : InstRW<[A64FXWrite_STUR, ReadAdrBase], (instrs STRXroW, STRXroX)>; //--- // 3.8 FP Data Processing Instructions //--- // FP absolute value // FP min/max // FP negate def : WriteRes { let Latency = 4; let ReleaseAtCycles = [2]; } // FP arithmetic def : InstRW<[A64FXWrite_4Cyc_GI03], (instrs FADDDrr, FADDHrr)>; def : InstRW<[A64FXWrite_4Cyc_GI03], (instrs FSUBDrr, FSUBHrr)>; // FP compare def : WriteRes { let Latency = 4; let ReleaseAtCycles = [2]; } // FP Div, Sqrt def : WriteRes { let Latency = 43; } def A64FXXWriteFDiv : SchedWriteRes<[A64FXGI0]> { let Latency = 38; } def A64FXXWriteFDivSP : SchedWriteRes<[A64FXGI0]> { let Latency = 29; } def A64FXXWriteFDivDP : SchedWriteRes<[A64FXGI0]> { let Latency = 43; } def A64FXXWriteFSqrtSP : SchedWriteRes<[A64FXGI0]> { let Latency = 29; } def A64FXXWriteFSqrtDP : SchedWriteRes<[A64FXGI0]> { let Latency = 43; } // FP divide, S-form // FP square root, S-form def : InstRW<[A64FXXWriteFDivSP], (instrs FDIVSrr)>; def : InstRW<[A64FXXWriteFSqrtSP], (instrs FSQRTSr)>; def : InstRW<[A64FXXWriteFDivSP], (instregex "^FDIVv.*32$")>; def : InstRW<[A64FXXWriteFSqrtSP], (instregex "^.*SQRT.*32$")>; def : InstRW<[A64FXXWriteFDivSP], (instregex "^FDIVSrr")>; def : InstRW<[A64FXXWriteFSqrtSP], (instregex "^FSQRTSr")>; // FP divide, D-form // FP square root, D-form def : InstRW<[A64FXXWriteFDivDP], (instrs FDIVDrr)>; def : InstRW<[A64FXXWriteFSqrtDP], (instrs FSQRTDr)>; def : InstRW<[A64FXXWriteFDivDP], (instregex "^FDIVv.*64$")>; def : InstRW<[A64FXXWriteFSqrtDP], (instregex "^.*SQRT.*64$")>; def : InstRW<[A64FXXWriteFDivDP], (instregex "^FDIVDrr")>; def : InstRW<[A64FXXWriteFSqrtDP], (instregex "^FSQRTDr")>; // FP round to integral def : InstRW<[A64FXWrite_9Cyc_GI03], (instregex "^FRINT(A|I|M|N|P|X|Z)(Sr|Dr)")>; // FP select def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "^FCSEL")>; //--- // 3.9 FP Miscellaneous Instructions //--- // FP convert, from vec to vec reg // FP convert, from gen to vec reg // FP convert, from vec to gen reg def : WriteRes { let Latency = 9; let ReleaseAtCycles = [2]; } // FP move, immed // FP move, register def : WriteRes { let Latency = 4; let ReleaseAtCycles = [2]; } // FP transfer, from gen to vec reg // FP transfer, from vec to gen reg def : WriteRes { let Latency = 4; let ReleaseAtCycles = [2]; } def : InstRW<[A64FXWrite_FMOV_GV], (instrs FMOVXDHighr)>; def : InstRW<[A64FXWrite_FMOV_VG14], (instrs FMOVDXHighr)>; //--- // 3.12 ASIMD Integer Instructions //--- // ASIMD absolute diff, D-form // ASIMD absolute diff, Q-form // ASIMD absolute diff accum, D-form // ASIMD absolute diff accum, Q-form // ASIMD absolute diff accum long // ASIMD absolute diff long // ASIMD arith, basic // ASIMD arith, complex // ASIMD compare // ASIMD logical (AND, BIC, EOR) // ASIMD max/min, basic // ASIMD max/min, reduce, 4H/4S // ASIMD max/min, reduce, 8B/8H // ASIMD max/min, reduce, 16B // ASIMD multiply, D-form // ASIMD multiply, Q-form // ASIMD multiply accumulate long // ASIMD multiply accumulate saturating long // ASIMD multiply long // ASIMD pairwise add and accumulate // ASIMD shift accumulate // ASIMD shift by immed, basic // ASIMD shift by immed and insert, basic, D-form // ASIMD shift by immed and insert, basic, Q-form // ASIMD shift by immed, complex // ASIMD shift by register, basic, D-form // ASIMD shift by register, basic, Q-form // ASIMD shift by register, complex, D-form // ASIMD shift by register, complex, Q-form def : WriteRes { let Latency = 4; } def : WriteRes { let Latency = 4; } // ASIMD arith, reduce, 4H/4S // ASIMD arith, reduce, 8B/8H // ASIMD arith, reduce, 16B // ASIMD logical (MVN (alias for NOT), ORN, ORR) def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "^ANDv", "^BICv", "^EORv", "^ORRv", "^ORNv", "^NOTv")>; // ASIMD arith, reduce def : InstRW<[A64FXWrite_ADDLV], (instregex "^ADDVv", "^SADDLVv", "^UADDLVv")>; // ASIMD polynomial (8x8) multiply long def : InstRW<[A64FXWrite_MULLE], (instregex "^(S|U|SQD)MULL")>; def : InstRW<[A64FXWrite_MULLV], (instregex "(S|U|SQD)(MLAL|MLSL|MULL)v.*")>; def : InstRW<[A64FXWrite_8Cyc_GI03], (instregex "^PMULL(v8i8|v16i8)")>; def : InstRW<[A64FXWrite_8Cyc_GI03], (instregex "^PMULL(v1i64|v2i64)")>; // ASIMD absolute diff accum, D-form def : InstRW<[A64FXWrite_ABA], (instregex "^[SU]ABA(v8i8|v4i16|v2i32)$")>; // ASIMD absolute diff accum, Q-form def : InstRW<[A64FXWrite_ABA], (instregex "^[SU]ABA(v16i8|v8i16|v4i32)$")>; // ASIMD absolute diff accum long def : InstRW<[A64FXWrite_ABAL], (instregex "^[SU]ABAL")>; // ASIMD arith, reduce, 4H/4S def : InstRW<[A64FXWrite_ADDLV1], (instregex "^[SU]?ADDL?V(v8i8|v4i16|v2i32)v$")>; // ASIMD arith, reduce, 8B def : InstRW<[A64FXWrite_ADDLV1], (instregex "^[SU]?ADDL?V(v8i16|v4i32)v$")>; // ASIMD arith, reduce, 16B/16H def : InstRW<[A64FXWrite_ADDLV1], (instregex "^[SU]?ADDL?Vv16i8v$")>; // ASIMD max/min, reduce, 4H/4S def : InstRW<[A64FXWrite_MINMAXV], (instregex "^[SU](MIN|MAX)V(v4i16|v4i32)v$")>; // ASIMD max/min, reduce, 8B/8H def : InstRW<[A64FXWrite_MINMAXV], (instregex "^[SU](MIN|MAX)V(v8i8|v8i16)v$")>; // ASIMD max/min, reduce, 16B/16H def : InstRW<[A64FXWrite_MINMAXV], (instregex "^[SU](MIN|MAX)Vv16i8v$")>; // ASIMD multiply, D-form def : InstRW<[A64FXWrite_PMUL], (instregex "^(P?MUL|SQR?DMUL)" # "(v8i8|v4i16|v2i32|v1i8|v1i16|v1i32|v1i64)" # "(_indexed)?$")>; // ASIMD multiply, Q-form def : InstRW<[A64FXWrite_PMUL], (instregex "^(P?MUL)(v16i8|v8i16|v4i32)(_indexed)?$")>; // ASIMD multiply, Q-form def : InstRW<[A64FXWrite_SQRDMULH], (instregex "^(SQR?DMULH)(v16i8|v8i16|v4i32)(_indexed)?$")>; // ASIMD multiply accumulate, D-form def : InstRW<[A64FXWrite_9Cyc_GI03], (instregex "^ML[AS](v8i8|v4i16|v2i32)(_indexed)?$")>; // ASIMD multiply accumulate, Q-form def : InstRW<[A64FXWrite_9Cyc_GI03], (instregex "^ML[AS](v16i8|v8i16|v4i32)(_indexed)?$")>; // ASIMD shift accumulate def : InstRW<[A64FXWrite_SRSRAV], (instregex "SRSRAv", "URSRAv")>; def : InstRW<[A64FXWrite_SSRAV], (instregex "SSRAv", "USRAv")>; // ASIMD shift by immed, basic def : InstRW<[A64FXWrite_RSHRN], (instregex "RSHRNv", "SQRSHRNv", "SQRSHRUNv", "UQRSHRNv")>; def : InstRW<[A64FXWrite_SHRN], (instregex "SHRNv", "SQSHRNv", "SQSHRUNv", "UQSHRNv")>; def : InstRW<[A64FXWrite_6Cyc_GI3], (instregex "SQXTNv", "SQXTUNv", "UQXTNv")>; // ASIMD shift by immed, complex def : InstRW<[A64FXWrite_ABA], (instregex "^[SU]?(Q|R){1,2}SHR")>; def : InstRW<[A64FXWrite_6Cyc_GI3], (instregex "^SQSHLU")>; // ASIMD shift by register, basic, Q-form def : InstRW<[A64FXWrite_6Cyc_GI3], (instregex "^[SU]SHL(v16i8|v8i16|v4i32|v2i64)")>; // ASIMD shift by register, complex, D-form def : InstRW<[A64FXWrite_6Cyc_GI3], (instregex "^[SU][QR]{1,2}SHL" # "(v1i8|v1i16|v1i32|v1i64|v8i8|v4i16|v2i32|b|d|h|s)")>; // ASIMD shift by register, complex, Q-form def : InstRW<[A64FXWrite_6Cyc_GI3], (instregex "^[SU][QR]{1,2}SHL(v16i8|v8i16|v4i32|v2i64)")>; // ASIMD Arithmetic def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "(ADD|SUB)(v8i8|v4i16|v2i32|v1i64)")>; def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "(ADD|SUB)(v16i8|v8i16|v4i32|v2i64)")>; def : InstRW<[A64FXWrite_SHRN], (instregex "(ADD|SUB)HNv.*")>; def : InstRW<[A64FXWrite_RSHRN], (instregex "(RADD|RSUB)HNv.*")>; def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "^SQADD", "^SQNEG", "^SQSUB", "^SRHADD", "^SUQADD", "^UQADD", "^UQSUB", "^URHADD", "^USQADD")>; def : InstRW<[A64FXWrite_ADDP], (instregex "ADDP(v16i8|v8i16|v4i32|v2i64)")>; def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "((AND|ORN|EOR|EON)S?(Xr[rsi]|v16i8|v8i16|v4i32)|" # "(ORR|BIC)S?(Xr[rs]|v16i8|v8i16|v4i32))")>; def : InstRW<[A64FXWrite_4Cyc_GI0], (instregex "(CLS|CLZ|CNT)(v4i32|v8i16|v16i8)")>; def : InstRW<[A64FXWrite_SADALP], (instregex "^SADALP", "^UADALP")>; def : InstRW<[A64FXWrite_SADDLP], (instregex "^SADDLPv", "^UADDLPv")>; def : InstRW<[A64FXWrite_ADDLV1], (instregex "^SADDLV", "^UADDLV")>; def : InstRW<[A64FXWrite_MINMAXV], (instregex "^ADDVv", "^SMAXVv", "^UMAXVv", "^SMINVv", "^UMINVv")>; def : InstRW<[A64FXWrite_ABA], (instregex "^SABAv", "^UABAv", "^SABALv", "^UABALv")>; def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "^SQADDv", "^SQSUBv", "^UQADDv", "^UQSUBv")>; def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "^SUQADDv", "^USQADDv")>; def : InstRW<[A64FXWrite_SHRN], (instregex "^ADDHNv", "^SUBHNv")>; def : InstRW<[A64FXWrite_RSHRN], (instregex "^RADDHNv", "^RSUBHNv")>; def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "^SQABS", "^SQADD", "^SQNEG", "^SQSUB", "^SRHADD", "^SUQADD", "^UQADD", "^UQSUB", "^URHADD", "^USQADD")>; def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "^CMEQv", "^CMGEv", "^CMGTv", "^CMLEv", "^CMLTv", "^CMHIv", "^CMHSv")>; def : InstRW<[A64FXWrite_MINMAXV], (instregex "^SMAXv", "^SMINv", "^UMAXv", "^UMINv")>; def : InstRW<[A64FXWrite_ADDP], (instregex "^SMAXPv", "^SMINPv", "^UMAXPv", "^UMINPv")>; def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "^SABDv", "^UABDv")>; def : InstRW<[A64FXWrite_TBX1], (instregex "^SABDLv", "^UABDLv")>; //--- // 3.13 ASIMD Floating-point Instructions //--- def : WriteRes { let Latency = 9; } // ASIMD FP absolute value def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "^FABSv")>; // ASIMD FP arith, normal, D-form // ASIMD FP arith, normal, Q-form def : InstRW<[A64FXWrite_9Cyc_GI03], (instregex "^FABDv", "^FADDv", "^FSUBv")>; // ASIMD FP arith, pairwise, D-form // ASIMD FP arith, pairwise, Q-form def : InstRW<[A64FXWrite_FADDPV], (instregex "^FADDPv")>; // ASIMD FP compare, D-form // ASIMD FP compare, Q-form def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "^FACGEv", "^FACGTv")>; def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "^FCMEQv", "^FCMGEv", "^FCMGTv", "^FCMLEv", "^FCMLTv")>; // ASIMD FP round, D-form def : InstRW<[A64FXWrite_9Cyc_GI03], (instregex "^FRINT[AIMNPXZ](v2f32)")>; // ASIMD FP round, Q-form def : InstRW<[A64FXWrite_9Cyc_GI03], (instregex "^FRINT[AIMNPXZ](v4f32|v2f64)")>; // ASIMD FP convert, long // ASIMD FP convert, narrow // ASIMD FP convert, other, D-form // ASIMD FP convert, other, Q-form // ASIMD FP convert, long and narrow def : InstRW<[A64FXWrite_FCVTXNV], (instregex "^FCVT(L|N|XN)v")>; // ASIMD FP convert, other, D-form def : InstRW<[A64FXWrite_FCVTXNV], (instregex "^[FVSU]CVT([AMNPZ][SU])?(_Int)?(v2f32|v1i32|v2i32|v1i64)")>; // ASIMD FP convert, other, Q-form def : InstRW<[A64FXWrite_FCVTXNV], (instregex "^[FVSU]CVT([AMNPZ][SU])?(_Int)?(v4f32|v2f64|v4i32|v2i64)")>; // ASIMD FP divide, D-form, F32 def : InstRW<[A64FXXWriteFDivSP], (instrs FDIVv2f32)>; def : InstRW<[A64FXXWriteFDivSP], (instregex "FDIVv2f32")>; // ASIMD FP divide, Q-form, F32 def : InstRW<[A64FXXWriteFDiv], (instrs FDIVv4f32)>; def : InstRW<[A64FXXWriteFDiv], (instregex "FDIVv4f32")>; // ASIMD FP divide, Q-form, F64 def : InstRW<[A64FXXWriteFDivDP], (instrs FDIVv2f64)>; def : InstRW<[A64FXXWriteFDivDP], (instregex "FDIVv2f64")>; // ASIMD FP max/min, normal, D-form // ASIMD FP max/min, normal, Q-form def : InstRW<[A64FXWrite_4Cyc_GI0], (instregex "^FMAXv", "^FMAXNMv", "^FMINv", "^FMINNMv")>; // ASIMD FP max/min, pairwise, D-form // ASIMD FP max/min, pairwise, Q-form def : InstRW<[A64FXWrite_ADDP], (instregex "^FMAXPv", "^FMAXNMPv", "^FMINPv", "^FMINNMPv")>; // ASIMD FP max/min, reduce def : InstRW<[A64FXWrite_FMAXVVH], (instregex "^FMAXVv", "^FMAXNMVv", "^FMINVv", "^FMINNMVv")>; // ASIMD FP multiply, D-form, FZ // ASIMD FP multiply, D-form, no FZ // ASIMD FP multiply, Q-form, FZ // ASIMD FP multiply, Q-form, no FZ def : InstRW<[A64FXWrite_9Cyc_GI03], (instregex "^FMULv", "^FMULXv")>; def : InstRW<[A64FXWrite_FMULXE], (instregex "^FMULX?(v2f32|v1i32|v2i32|v1i64|32|64)")>; def : InstRW<[A64FXWrite_FMULXE], (instregex "^FMULX?(v4f32|v2f64|v4i32|v2i64)")>; // ASIMD FP multiply accumulate, Dform, FZ // ASIMD FP multiply accumulate, Dform, no FZ // ASIMD FP multiply accumulate, Qform, FZ // ASIMD FP multiply accumulate, Qform, no FZ def : InstRW<[A64FXWrite_9Cyc_GI03], (instregex "^FMLAv", "^FMLSv")>; def : InstRW<[A64FXWrite_FMULXE], (instregex "^FML[AS](v2f32|v1i32|v2i32|v1i64)")>; def : InstRW<[A64FXWrite_FMULXE], (instregex "^FML[AS](v4f32|v2f64|v4i32|v2i64)")>; // ASIMD FP negate def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "^FNEGv")>; //-- // 3.14 ASIMD Miscellaneous Instructions //-- // ASIMD bit reverse def : InstRW<[A64FXWrite_1Cyc_GI2456], (instregex "^RBITv")>; // ASIMD bitwise insert, D-form // ASIMD bitwise insert, Q-form def : InstRW<[A64FXWrite_BIF], (instregex "^BIFv", "^BITv", "^BSLv")>; // ASIMD count, D-form // ASIMD count, Q-form def : InstRW<[A64FXWrite_4Cyc_GI0], (instregex "^CLSv", "^CLZv", "^CNTv")>; // ASIMD duplicate, gen reg // ASIMD duplicate, element def : InstRW<[A64FXWrite_DUPGENERAL], (instregex "^DUPv")>; def : InstRW<[A64FXWrite_6Cyc_GI0], (instregex "^DUP(i8|i16|i32|i64)$")>; def : InstRW<[A64FXWrite_6Cyc_GI0], (instregex "^DUPv.+gpr")>; // ASIMD extract def : InstRW<[A64FXWrite_6Cyc_GI0], (instregex "^EXTv")>; // ASIMD extract narrow def : InstRW<[A64FXWrite_6Cyc_GI3], (instregex "^XTNv")>; // ASIMD extract narrow, saturating def : InstRW<[A64FXWrite_6Cyc_GI3], (instregex "^SQXTNv", "^SQXTUNv", "^UQXTNv")>; // ASIMD insert, element to element def : InstRW<[A64FXWrite_6Cyc_GI0], (instregex "^INSv")>; // ASIMD transfer, element to gen reg def : InstRW<[A64FXWrite_SMOV], (instregex "^[SU]MOVv")>; // ASIMD move, integer immed def : InstRW<[A64FXWrite_4Cyc_GI0], (instregex "^MOVIv")>; // ASIMD move, FP immed def : InstRW<[A64FXWrite_4Cyc_GI0], (instregex "^FMOVv")>; // ASIMD table lookup, D-form def : InstRW<[A64FXWrite_6Cyc_GI3], (instregex "^TBLv8i8One")>; def : InstRW<[A64FXWrite_TBX1], (instregex "^TBLv8i8Two")>; def : InstRW<[A64FXWrite_TBX2], (instregex "^TBLv8i8Three")>; def : InstRW<[A64FXWrite_TBX3], (instregex "^TBLv8i8Four")>; def : InstRW<[A64FXWrite_TBX1], (instregex "^TBXv8i8One")>; def : InstRW<[A64FXWrite_TBX2], (instregex "^TBXv8i8Two")>; def : InstRW<[A64FXWrite_TBX3], (instregex "^TBXv8i8Three")>; def : InstRW<[A64FXWrite_TBX4], (instregex "^TBXv8i8Four")>; // ASIMD table lookup, Q-form def : InstRW<[A64FXWrite_6Cyc_GI3], (instregex "^TBLv16i8One")>; def : InstRW<[A64FXWrite_TBX1], (instregex "^TBLv16i8Two")>; def : InstRW<[A64FXWrite_TBX2], (instregex "^TBLv16i8Three")>; def : InstRW<[A64FXWrite_TBX3], (instregex "^TBLv16i8Four")>; def : InstRW<[A64FXWrite_TBX1], (instregex "^TBXv16i8One")>; def : InstRW<[A64FXWrite_TBX2], (instregex "^TBXv16i8Two")>; def : InstRW<[A64FXWrite_TBX3], (instregex "^TBXv16i8Three")>; def : InstRW<[A64FXWrite_TBX4], (instregex "^TBXv16i8Four")>; // ASIMD unzip/zip def : InstRW<[A64FXWrite_6Cyc_GI0], (instregex "^UZP1", "^UZP2", "^ZIP1", "^ZIP2")>; // ASIMD reciprocal estimate, D-form // ASIMD reciprocal estimate, Q-form def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "^FRECPEv", "^FRECPXv", "^URECPEv", "^FRSQRTEv", "^URSQRTEv")>; // ASIMD reciprocal step, D-form, FZ // ASIMD reciprocal step, D-form, no FZ // ASIMD reciprocal step, Q-form, FZ // ASIMD reciprocal step, Q-form, no FZ def : InstRW<[A64FXWrite_9Cyc_GI0], (instregex "^FRECPSv", "^FRSQRTSv")>; // ASIMD reverse def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "^REV16v", "^REV32v", "^REV64v")>; // ASIMD table lookup, D-form // ASIMD table lookup, Q-form def : InstRW<[A64FXWrite_6Cyc_GI0], (instregex "^TBLv", "^TBXv")>; // ASIMD transfer, element to word or word def : InstRW<[A64FXWrite_SMOV], (instregex "^[SU]MOVv")>; // ASIMD transfer, element to gen reg def : InstRW<[A64FXWrite_SMOV], (instregex "(S|U)MOVv.*")>; // ASIMD transfer gen reg to element def : InstRW<[A64FXWrite_6Cyc_GI0], (instregex "^INSv")>; // ASIMD transpose def : InstRW<[A64FXWrite_6Cyc_GI0], (instregex "^TRN1v", "^TRN2v", "^UZP1v", "^UZP2v")>; // ASIMD unzip/zip def : InstRW<[A64FXWrite_6Cyc_GI0], (instregex "^ZIP1v", "^ZIP2v")>; //-- // 3.15 ASIMD Load Instructions //-- // ASIMD load, 1 element, multiple, 1 reg, D-form // ASIMD load, 1 element, multiple, 1 reg, Q-form def : InstRW<[A64FXWrite_8Cyc_GI56], (instregex "^LD1Onev(8b|4h|2s|1d|2d)$")>; def : InstRW<[A64FXWrite_11Cyc_GI56], (instregex "^LD1Onev(16b|8h|4s)$")>; def : InstRW<[A64FXWrite_LD108, WriteAdr], (instregex "^LD1Onev(8b|4h|2s|1d|2d)_POST$")>; def : InstRW<[A64FXWrite_LD109, WriteAdr], (instregex "^LD1Onev(16b|8h|4s)_POST$")>; // ASIMD load, 1 element, multiple, 2 reg, D-form // ASIMD load, 1 element, multiple, 2 reg, Q-form def : InstRW<[A64FXWrite_LD102], (instregex "^LD1Twov(8b|4h|2s|1d|2d)$")>; def : InstRW<[A64FXWrite_LD103], (instregex "^LD1Twov(16b|8h|4s)$")>; def : InstRW<[A64FXWrite_LD110, WriteAdr], (instregex "^LD1Twov(8b|4h|2s|1d|2d)_POST$")>; def : InstRW<[A64FXWrite_LD111, WriteAdr], (instregex "^LD1Twov(16b|8h|4s)_POST$")>; // ASIMD load, 1 element, multiple, 3 reg, D-form // ASIMD load, 1 element, multiple, 3 reg, Q-form def : InstRW<[A64FXWrite_LD104], (instregex "^LD1Threev(8b|4h|2s|1d|2d)$")>; def : InstRW<[A64FXWrite_LD105], (instregex "^LD1Threev(16b|8h|4s)$")>; def : InstRW<[A64FXWrite_LD112, WriteAdr], (instregex "^LD1Threev(8b|4h|2s|1d|2d)_POST$")>; def : InstRW<[A64FXWrite_LD113, WriteAdr], (instregex "^LD1Threev(16b|8h|4s)_POST$")>; // ASIMD load, 1 element, multiple, 4 reg, D-form // ASIMD load, 1 element, multiple, 4 reg, Q-form def : InstRW<[A64FXWrite_LD106], (instregex "^LD1Fourv(8b|4h|2s|1d|2d)$")>; def : InstRW<[A64FXWrite_LD107], (instregex "^LD1Fourv(16b|8h|4s)$")>; def : InstRW<[A64FXWrite_LD114, WriteAdr], (instregex "^LD1Fourv(8b|4h|2s|1d|2d)_POST$")>; def : InstRW<[A64FXWrite_LD115, WriteAdr], (instregex "^LD1Fourv(16b|8h|4s)_POST$")>; // ASIMD load, 1 element, one lane, B/H/S // ASIMD load, 1 element, one lane, D def : InstRW<[A64FXWrite_LD1I0], (instregex "^LD1i(8|16|32|64)$")>; def : InstRW<[A64FXWrite_LD1I1, WriteAdr], (instregex "^LD1i(8|16|32|64)_POST$")>; // ASIMD load, 1 element, all lanes, D-form, B/H/S // ASIMD load, 1 element, all lanes, D-form, D // ASIMD load, 1 element, all lanes, Q-form def : InstRW<[A64FXWrite_8Cyc_GI03], (instregex "^LD1Rv(8b|4h|2s|1d|16b|8h|4s|2d)$")>; def : InstRW<[A64FXWrite_LD108, WriteAdr], (instregex "^LD1Rv(8b|4h|2s|1d|16b|8h|4s|2d)_POST$")>; // ASIMD load, 2 element, multiple, D-form, B/H/S // ASIMD load, 2 element, multiple, Q-form, D def : InstRW<[A64FXWrite_LD103], (instregex "^LD2Twov(8b|4h|2s|16b|8h|4s|2d)$")>; def : InstRW<[A64FXWrite_LD111, WriteAdr], (instregex "^LD2Twov(8b|4h|2s|16b|8h|4s|2d)_POST$")>; // ASIMD load, 2 element, one lane, B/H // ASIMD load, 2 element, one lane, S // ASIMD load, 2 element, one lane, D def : InstRW<[A64FXWrite_LD2I0], (instregex "^LD2i(8|16|32|64)$")>; def : InstRW<[A64FXWrite_LD2I1, WriteAdr], (instregex "^LD2i(8|16|32|64)_POST$")>; // ASIMD load, 2 element, all lanes, D-form, B/H/S // ASIMD load, 2 element, all lanes, D-form, D // ASIMD load, 2 element, all lanes, Q-form def : InstRW<[A64FXWrite_LD102], (instregex "^LD2Rv(8b|4h|2s|1d|16b|8h|4s|2d)$")>; def : InstRW<[A64FXWrite_LD110, WriteAdr], (instregex "^LD2Rv(8b|4h|2s|1d|16b|8h|4s|2d)_POST$")>; // ASIMD load, 3 element, multiple, D-form, B/H/S // ASIMD load, 3 element, multiple, Q-form, B/H/S // ASIMD load, 3 element, multiple, Q-form, D def : InstRW<[A64FXWrite_LD105], (instregex "^LD3Threev(8b|4h|2s|16b|8h|4s|2d)$")>; def : InstRW<[A64FXWrite_LD113, WriteAdr], (instregex "^LD3Threev(8b|4h|2s|16b|8h|4s|2d)_POST$")>; // ASIMD load, 3 element, one lone, B/H // ASIMD load, 3 element, one lane, S // ASIMD load, 3 element, one lane, D def : InstRW<[A64FXWrite_LD3I0], (instregex "^LD3i(8|16|32|64)$")>; def : InstRW<[A64FXWrite_LD3I1, WriteAdr], (instregex "^LD3i(8|16|32|64)_POST$")>; // ASIMD load, 3 element, all lanes, D-form, B/H/S // ASIMD load, 3 element, all lanes, D-form, D // ASIMD load, 3 element, all lanes, Q-form, B/H/S // ASIMD load, 3 element, all lanes, Q-form, D def : InstRW<[A64FXWrite_LD104], (instregex "^LD3Rv(8b|4h|2s|1d|16b|8h|4s|2d)$")>; def : InstRW<[A64FXWrite_LD112, WriteAdr], (instregex "^LD3Rv(8b|4h|2s|1d|16b|8h|4s|2d)_POST$")>; // ASIMD load, 4 element, multiple, D-form, B/H/S // ASIMD load, 4 element, multiple, Q-form, B/H/S // ASIMD load, 4 element, multiple, Q-form, D def : InstRW<[A64FXWrite_LD107], (instregex "^LD4Fourv(8b|4h|2s|16b|8h|4s|2d)$")>; def : InstRW<[A64FXWrite_LD115, WriteAdr], (instregex "^LD4Fourv(8b|4h|2s|16b|8h|4s|2d)_POST$")>; // ASIMD load, 4 element, one lane, B/H // ASIMD load, 4 element, one lane, S // ASIMD load, 4 element, one lane, D def : InstRW<[A64FXWrite_LD4I0], (instregex "^LD4i(8|16|32|64)$")>; def : InstRW<[A64FXWrite_LD4I1, WriteAdr], (instregex "^LD4i(8|16|32|64)_POST$")>; // ASIMD load, 4 element, all lanes, D-form, B/H/S // ASIMD load, 4 element, all lanes, D-form, D // ASIMD load, 4 element, all lanes, Q-form, B/H/S // ASIMD load, 4 element, all lanes, Q-form, D def : InstRW<[A64FXWrite_LD106], (instregex "^LD4Rv(8b|4h|2s|1d|16b|8h|4s|2d)$")>; def : InstRW<[A64FXWrite_LD114, WriteAdr], (instregex "^LD4Rv(8b|4h|2s|1d|16b|8h|4s|2d)_POST$")>; //-- // 3.16 ASIMD Store Instructions //-- // ASIMD store, 1 element, multiple, 1 reg, D-form // ASIMD store, 1 element, multiple, 1 reg, Q-form def : InstRW<[A64FXWrite_ST10], (instregex "^ST1Onev(8b|4h|2s|1d|16b|8h|4s|2d)$")>; def : InstRW<[A64FXWrite_ST14, WriteAdr], (instregex "^ST1Onev(8b|4h|2s|1d|16b|8h|4s|2d)_POST$")>; // ASIMD store, 1 element, multiple, 2 reg, D-form // ASIMD store, 1 element, multiple, 2 reg, Q-form def : InstRW<[A64FXWrite_ST11], (instregex "^ST1Twov(8b|4h|2s|1d|16b|8h|4s|2d)$")>; def : InstRW<[A64FXWrite_ST15, WriteAdr], (instregex "^ST1Twov(8b|4h|2s|1d|16b|8h|4s|2d)_POST$")>; // ASIMD store, 1 element, multiple, 3 reg, D-form // ASIMD store, 1 element, multiple, 3 reg, Q-form def : InstRW<[A64FXWrite_ST12], (instregex "^ST1Threev(8b|4h|2s|1d|16b|8h|4s|2d)$")>; def : InstRW<[A64FXWrite_ST16, WriteAdr], (instregex "^ST1Threev(8b|4h|2s|1d|16b|8h|4s|2d)_POST$")>; // ASIMD store, 1 element, multiple, 4 reg, D-form // ASIMD store, 1 element, multiple, 4 reg, Q-form def : InstRW<[A64FXWrite_ST13], (instregex "^ST1Fourv(8b|4h|2s|1d|16b|8h|4s|2d)$")>; def : InstRW<[A64FXWrite_ST17, WriteAdr], (instregex "^ST1Fourv(8b|4h|2s|1d|16b|8h|4s|2d)_POST$")>; // ASIMD store, 1 element, one lane, B/H/S // ASIMD store, 1 element, one lane, D def : InstRW<[A64FXWrite_ST10], (instregex "^ST1i(8|16|32|64)$")>; def : InstRW<[A64FXWrite_ST14, WriteAdr], (instregex "^ST1i(8|16|32|64)_POST$")>; // ASIMD store, 2 element, multiple, D-form, B/H/S // ASIMD store, 2 element, multiple, Q-form, B/H/S // ASIMD store, 2 element, multiple, Q-form, D def : InstRW<[A64FXWrite_ST11], (instregex "^ST2Twov(8b|4h|2s|16b|8h|4s|2d)$")>; def : InstRW<[A64FXWrite_ST15, WriteAdr], (instregex "^ST2Twov(8b|4h|2s|16b|8h|4s|2d)_POST$")>; // ASIMD store, 2 element, one lane, B/H/S // ASIMD store, 2 element, one lane, D def : InstRW<[A64FXWrite_ST11], (instregex "^ST2i(8|16|32|64)$")>; def : InstRW<[A64FXWrite_ST15, WriteAdr], (instregex "^ST2i(8|16|32|64)_POST$")>; // ASIMD store, 3 element, multiple, D-form, B/H/S // ASIMD store, 3 element, multiple, Q-form, B/H/S // ASIMD store, 3 element, multiple, Q-form, D def : InstRW<[A64FXWrite_ST12], (instregex "^ST3Threev(8b|4h|2s|16b|8h|4s|2d)$")>; def : InstRW<[A64FXWrite_ST16, WriteAdr], (instregex "^ST3Threev(8b|4h|2s|16b|8h|4s|2d)_POST$")>; // ASIMD store, 3 element, one lane, B/H // ASIMD store, 3 element, one lane, S // ASIMD store, 3 element, one lane, D def : InstRW<[A64FXWrite_ST12], (instregex "^ST3i(8|16|32|64)$")>; def : InstRW<[A64FXWrite_ST16, WriteAdr], (instregex "^ST3i(8|16|32|64)_POST$")>; // ASIMD store, 4 element, multiple, D-form, B/H/S // ASIMD store, 4 element, multiple, Q-form, B/H/S // ASIMD store, 4 element, multiple, Q-form, D def : InstRW<[A64FXWrite_ST13], (instregex "^ST4Fourv(8b|4h|2s|16b|8h|4s|2d)$")>; def : InstRW<[A64FXWrite_ST17, WriteAdr], (instregex "^ST4Fourv(8b|4h|2s|16b|8h|4s|2d)_POST$")>; // ASIMD store, 4 element, one lane, B/H // ASIMD store, 4 element, one lane, S // ASIMD store, 4 element, one lane, D def : InstRW<[A64FXWrite_ST13], (instregex "^ST4i(8|16|32|64)$")>; def : InstRW<[A64FXWrite_ST17, WriteAdr], (instregex "^ST4i(8|16|32|64)_POST$")>; // V8.1a Atomics (LSE) def : InstRW<[A64FXWrite_CAS, WriteAtomic], (instrs CASB, CASH, CASW, CASX)>; def : InstRW<[A64FXWrite_CAS, WriteAtomic], (instrs CASAB, CASAH, CASAW, CASAX)>; def : InstRW<[A64FXWrite_CAS, WriteAtomic], (instrs CASLB, CASLH, CASLW, CASLX)>; def : InstRW<[A64FXWrite_CAS, WriteAtomic], (instrs CASALB, CASALH, CASALW, CASALX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDLARB, LDLARH, LDLARW, LDLARX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDADDB, LDADDH, LDADDW, LDADDX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDADDAB, LDADDAH, LDADDAW, LDADDAX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDADDLB, LDADDLH, LDADDLW, LDADDLX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDADDALB, LDADDALH, LDADDALW, LDADDALX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDCLRB, LDCLRH, LDCLRW, LDCLRX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDCLRAB, LDCLRAH, LDCLRAW, LDCLRAX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDCLRLB, LDCLRLH, LDCLRLW, LDCLRLX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDCLRALB, LDCLRALH, LDCLRALW, LDCLRALX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDEORB, LDEORH, LDEORW, LDEORX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDEORAB, LDEORAH, LDEORAW, LDEORAX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDEORLB, LDEORLH, LDEORLW, LDEORLX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDEORALB, LDEORALH, LDEORALW, LDEORALX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDSETB, LDSETH, LDSETW, LDSETX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDSETAB, LDSETAH, LDSETAW, LDSETAX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDSETLB, LDSETLH, LDSETLW, LDSETLX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDSETALB, LDSETALH, LDSETALW, LDSETALX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDSMAXB, LDSMAXH, LDSMAXW, LDSMAXX, LDSMAXAB, LDSMAXAH, LDSMAXAW, LDSMAXAX, LDSMAXLB, LDSMAXLH, LDSMAXLW, LDSMAXLX, LDSMAXALB, LDSMAXALH, LDSMAXALW, LDSMAXALX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDSMINB, LDSMINH, LDSMINW, LDSMINX, LDSMINAB, LDSMINAH, LDSMINAW, LDSMINAX, LDSMINLB, LDSMINLH, LDSMINLW, LDSMINLX, LDSMINALB, LDSMINALH, LDSMINALW, LDSMINALX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDUMAXB, LDUMAXH, LDUMAXW, LDUMAXX, LDUMAXAB, LDUMAXAH, LDUMAXAW, LDUMAXAX, LDUMAXLB, LDUMAXLH, LDUMAXLW, LDUMAXLX, LDUMAXALB, LDUMAXALH, LDUMAXALW, LDUMAXALX)>; def : InstRW<[A64FXWrite_5Cyc_GI5, WriteAtomic], (instrs LDUMINB, LDUMINH, LDUMINW, LDUMINX, LDUMINAB, LDUMINAH, LDUMINAW, LDUMINAX, LDUMINLB, LDUMINLH, LDUMINLW, LDUMINLX, LDUMINALB, LDUMINALH, LDUMINALW, LDUMINALX)>; def : InstRW<[A64FXWrite_SWP, WriteAtomic], (instrs SWPB, SWPH, SWPW, SWPX)>; def : InstRW<[A64FXWrite_SWP, WriteAtomic], (instrs SWPAB, SWPAH, SWPAW, SWPAX)>; def : InstRW<[A64FXWrite_SWP, WriteAtomic], (instrs SWPLB, SWPLH, SWPLW, SWPLX)>; def : InstRW<[A64FXWrite_SWP, WriteAtomic], (instrs SWPALB, SWPALH, SWPALW, SWPALX)>; def : InstRW<[A64FXWrite_STUR, WriteAtomic], (instrs STLLRB, STLLRH, STLLRW, STLLRX)>; // SVE instructions // The modeling method for SVE instructions is more accurate than others. // TODO: modify the model of other instructions similarly. def : InstRW<[A64FXWrite_4Cyc_GI0], (instregex "^AND_ZI", "^CL[SZ]_Z", "^CPY_ZP[mz]I", "^DUP_ZZ?I", "^DUPM_Z", "^EOR_ZI", "^ORR_ZI", "^FCM(EQ|GT|GE|LT|LE|NE|UO)_P", "^FCPY_Z", "^F(MAX|MIN).*I_", "^NEG_Z", "^[SU](MAX|MIN)_ZI", "^SUBR?_ZI")>; def : InstRW<[A64FXWrite_6Cyc_GI0], (instregex "^CLAST[AB]_[VZ]", "^COMPACT_Z", "^CPY_ZPmV", "^DUP_ZR", "^EXT_Z", "^FDUP_Z", "^INSR_ZV", "^LAST[AB]_V", "^REV_Z", "^SPLICE_Z", "^[SU]UNPK(HI|LO)_Z", "^TBL_Z", "^TRN[12]_Z")>; def : InstRW<[A64FXWrite_9Cyc_GI0], (instregex "^F(ADD|SUBR?)_.*I_", "^FRECPS_Z", "^FRSQRTS_Z", "^INDEX_II_[SD]", "^MUL_ZI")>; def : InstRW<[A64FXWrite_4Cyc_GI3], (instregex "^CNT_Z")>; def : InstRW<[A64FXWrite_4Cyc_GI03], (instregex "^ABS_Z", "^ADD_Z", "^AND_Z[^I]", "^ASRR?_(WIDE_)?Z", "^BIC_Z", "^ADR_[SU]XTW_Z", "^CNOT_Z", "^DEC[BHWD]_Z", "^EOR_Z[^I]", "^INC[BHWD]_Z", "^ORR_Z[^I]", "^FABS_Z", "^FACG[ET]_P", "^FEXPA_Z", "^F(MAX|MIN)[^V]*Z_", "^FNEG_Z", "^FRECP[EX]_Z", "^FRSQRTE_Z", "^FTSSEL_Z", "^LS[LR]R?(_WIDE)?_Z", "^NOT_Z", "^RBIT_Z", "^REV[BHW]_Z", "^SABD_Z", "^SEL_Z", "^[SU](MAX|MIN)_ZP", "^[SU]Q(INC|DEC)[^P]_Z", "^SUBR?_Z[^I]", "^[SU]XT._Z", "^UABD_Z")>; def : InstRW<[A64FXWrite_9Cyc_GI03 ], (instregex "^FABD_Z", "^F(ADD|SUBR?)_.*Z_", "^FN?(MAD|MLA|MLS|MSB)_ZP", "^FMUL_(ZP|ZZZ_)", "^FMULX_Z", "^FCVT(ZS|ZU)?_Z", "^FRINT._Z", "^FSCALE_Z", "^FTMAD_Z", "^FTSMUL_Z", "^MAD_Z", "^MLA_Z", "^MLS_Z", "^MSB_Z", "^MUL_ZP", "^[SU]CVTF_Z", "^[SU]DOT_ZZZ_", "^[SU]MULH_Z")>; def : InstRW<[A64FXWrite_3Cyc_GI1], (instregex "^ANDS?_P", "^BICS?_P", "^BRK.*_P", "^EORS?_P", "^ORRS?_P", "^NANDS?_P", "^NORS?_P", "^ORNS?_P", "^PFALSE", "^PNEXT", "^PFIRST", "^PTEST", "^PTRUES?", "^PUNPK(HI|LO)", "^RDFFRS?", "^REV_P", "^SEL_P", "^TRN[12]_P")>; def : InstRW<[A64FXWrite_1Cyc_GI24], (instregex "^ADD[PV]L", "^CNT[BHWD]_X", "^DEC[BHWD]_X", "^INC[BHWD]_X", "^RDVLI")>; def : InstRW<[A64FXWrite_11Cyc_GI5], (instregex "^LDR_[PZ]XI")>; def : InstRW<[A64FXWrite_11Cyc_GI56], (instregex "^LD(NF|FF|NT)?1R?S?[BHSWDQ]")>; def A64FXWrite_None : SchedWriteRes<[]> { } def : InstRW<[A64FXWrite_None], (instregex "^SETFFR", "^MOVPRFX")>; def A64FXWrite_FMAIndexed : SchedWriteRes<[A64FXGI03]> { let Latency = 15; let NumMicroOps = 2; let ReleaseAtCycles = [2]; } def : InstRW<[A64FXWrite_FMAIndexed], (instregex "^F(MLA|MLS|MUL)_ZZZI")>; def A64FXWrite_ADR_LSL_Z : SchedWriteRes<[A64FXGI0]> { let Latency = 5; let NumMicroOps = 2; let ReleaseAtCycles = [2]; } def : InstRW<[A64FXWrite_ADR_LSL_Z], (instregex "^ADR_LSL_Z")>; def A64FXWrite_ASRD : SchedWriteRes<[A64FXGI0, A64FXGI01]> { let Latency = 8; let NumMicroOps = 2; } def : InstRW<[A64FXWrite_ASRD], (instregex "^ASRD_Z")>; def A64FXWrite_Reduction4CycB : SchedWriteRes<[A64FXGI03]> { let Latency = 46; let NumMicroOps = 10; let ReleaseAtCycles = [10]; } def : InstRW<[A64FXWrite_Reduction4CycB], (instregex "^(AND|EOR|OR|SADD|SMAX|SMIN|UADD|UMAX|UMIN)V_VPZ_B")>; def A64FXWrite_Reduction4CycH : SchedWriteRes<[A64FXGI03]> { let Latency = 42; let NumMicroOps = 9; let ReleaseAtCycles = [9]; } def : InstRW<[A64FXWrite_Reduction4CycH], (instregex "^(AND|EOR|OR|SADD|SMAX|SMIN|UADD|UMAX|UMIN)V_VPZ_H")>; def A64FXWrite_Reduction4CycS : SchedWriteRes<[A64FXGI03]> { let Latency = 38; let NumMicroOps = 8; let ReleaseAtCycles = [8]; } def : InstRW<[A64FXWrite_Reduction4CycS], (instregex "^(AND|EOR|OR|SADD|SMAX|SMIN|UADD|UMAX|UMIN)V_VPZ_S")>; def A64FXWrite_Reduction4CycD : SchedWriteRes<[A64FXGI03]> { let Latency = 34; let NumMicroOps = 7; let ReleaseAtCycles = [7]; } def : InstRW<[A64FXWrite_Reduction4CycD], (instregex "^(AND|EOR|OR|SADD|SMAX|SMIN|UADD|UMAX|UMIN)V_VPZ_D")>; def A64FXWrite_CLAST_R : SchedWriteRes<[A64FXGI0, A64FXGI56]> { let Latency = 29; } def : InstRW<[A64FXWrite_CLAST_R], (instregex "^CLAST[AB]_R")>; def A64FXWrite_CMP : SchedWriteRes<[A64FXGI0, A64FXGI1]> { let Latency = 4; } def : InstRW<[A64FXWrite_CMP], (instregex "^CMP.*_P")>; def A64FXWrite_CNTP : SchedWriteRes<[A64FXGI1, A64FXGI2]> { let Latency = 6; } def : InstRW<[A64FXWrite_CNTP], (instregex "^CNTP_X")>; def A64FXWrite_CPYScalar : SchedWriteRes<[A64FXGI0, A64FXGI2]> { let Latency = 8; } def : InstRW<[A64FXWrite_CPYScalar], (instregex "^CPY_ZPmR")>; def A64FXWrite_CTERM : SchedWriteRes<[A64FXGI24]> { let Latency = 2; let ReleaseAtCycles = [2]; } def : InstRW<[A64FXWrite_CTERM], (instregex "^CTERM")>; def A64FXWrite_INCPScalar : SchedWriteRes<[A64FXGI1, A64FXGI2, A64FXGI4]> { let Latency = 7; let NumMicroOps = 2; } def : InstRW<[A64FXWrite_INCPScalar], (instregex "^DECP_X", "^INCP_X")>; def A64FXWrite_INCPVector : SchedWriteRes<[A64FXGI0, A64FXGI1]> { let Latency = 12; } def : InstRW<[A64FXWrite_INCPVector], (instregex "^DECP_Z", "^INCP_Z")>; def A64FXWrite_FADDVH : SchedWriteRes<[A64FXGI03]> { let Latency = 75; let NumMicroOps = 11; let ReleaseAtCycles = [11]; } def : InstRW<[A64FXWrite_FADDVH], (instrs FADDV_VPZ_H)>; def A64FXWrite_FADDVS : SchedWriteRes<[A64FXGI03]> { let Latency = 60; let NumMicroOps = 9; let ReleaseAtCycles = [9]; } def : InstRW<[A64FXWrite_FADDVS], (instrs FADDV_VPZ_S)>; def A64FXWrite_FADDVD : SchedWriteRes<[A64FXGI03]> { let Latency = 45; let NumMicroOps = 7; let ReleaseAtCycles = [7]; } def : InstRW<[A64FXWrite_FADDVD], (instrs FADDV_VPZ_D)>; def A64FXWrite_FADDAH : SchedWriteRes<[A64FXGI03]> { let Latency = 468; let NumMicroOps = 63; let ReleaseAtCycles = [63]; } def : InstRW<[A64FXWrite_FADDAH], (instrs FADDA_VPZ_H)>; def A64FXWrite_FADDAS : SchedWriteRes<[A64FXGI03]> { let Latency = 228; let NumMicroOps = 31; let ReleaseAtCycles = [31]; } def : InstRW<[A64FXWrite_FADDAS], (instrs FADDA_VPZ_S)>; def A64FXWrite_FADDAD : SchedWriteRes<[A64FXGI03]> { let Latency = 108; let NumMicroOps = 15; let ReleaseAtCycles = [15]; } def : InstRW<[A64FXWrite_FADDAD], (instrs FADDA_VPZ_D)>; def A64FXWrite_FCADDZ : SchedWriteRes<[A64FXGI0, A64FXGI3]> { let Latency = 15; let NumMicroOps = 2; } def : InstRW<[A64FXWrite_FCADDZ], (instregex "^FCADD_Z")>; def A64FXWrite_FCMLAZ : SchedWriteRes<[A64FXGI03]> { let Latency = 15; let NumMicroOps = 3; let ReleaseAtCycles = [3]; } def : InstRW<[A64FXWrite_FCMLAZ], (instregex "^FCMLA_Z")>; def A64FXWrite_FDIVH : SchedWriteRes<[A64FXGI0]> { let Latency = 134; let ReleaseAtCycles = [134]; } def : InstRW<[A64FXWrite_FDIVH], (instregex "^F(DIVR?|SQRT)_Z.*_H")>; def A64FXWrite_FDIVS : SchedWriteRes<[A64FXGI0]> { let Latency = 98; let ReleaseAtCycles = [98]; } def : InstRW<[A64FXWrite_FDIVS], (instregex "^F(DIVR?|SQRT)_Z.*_S")>; def A64FXWrite_FDIVD : SchedWriteRes<[A64FXGI0]> { let Latency = 154; let ReleaseAtCycles = [154]; } def : InstRW<[A64FXWrite_FDIVD], (instregex "^F(DIVR?|SQRT)_Z.*_D")>; def A64FXWrite_FMAXVH : SchedWriteRes<[A64FXGI03]> { let Latency = 54; let NumMicroOps = 11; let ReleaseAtCycles = [11]; } def : InstRW<[A64FXWrite_FMAXVH], (instregex "^F(MAX|MIN)(NM)?V_VPZ_H")>; def A64FXWrite_FMAXVS : SchedWriteRes<[A64FXGI03]> { let Latency = 44; let NumMicroOps = 9; let ReleaseAtCycles = [9]; } def : InstRW<[A64FXWrite_FMAXVS], (instregex "^F(MAX|MIN)(NM)?V_VPZ_S")>; def A64FXWrite_FMAXVD : SchedWriteRes<[A64FXGI03]> { let Latency = 34; let NumMicroOps = 7; let ReleaseAtCycles = [7]; } def : InstRW<[A64FXWrite_FMAXVH], (instregex "^F(MAX|MIN)(NM)?V_VPZ_D")>; def A64FXWrite_INDEX_RI_BH : SchedWriteRes<[A64FXGI0, A64FXGI2]> { let Latency = 17; let NumMicroOps = 2; let ReleaseAtCycles = [2, 2]; } def : InstRW<[A64FXWrite_INDEX_RI_BH], (instregex "^INDEX_(RI|IR)_[BH]")>; def A64FXWrite_INDEX_RI_SD : SchedWriteRes<[A64FXGI0, A64FXGI2]> { let Latency = 13; let NumMicroOps = 1; } def : InstRW<[A64FXWrite_INDEX_RI_SD], (instregex "^INDEX_(RI|IR)_[SD]")>; def A64FXWrite_INDEX_II_BH : SchedWriteRes<[A64FXGI0]> { let Latency = 13; let NumMicroOps = 2; let ReleaseAtCycles = [2]; } def : InstRW<[A64FXWrite_INDEX_II_BH], (instregex "^INDEX_II_[BH]")>; def A64FXWrite_INDEX_RR_BH : SchedWriteRes<[A64FXGI0, A64FXGI2, A64FXGI3]> { let Latency = 17; let NumMicroOps = 3; let ReleaseAtCycles = [2, 2, 1]; } def : InstRW<[A64FXWrite_INDEX_RR_BH], (instregex "^INDEX_RR_[BH]")>; def A64FXWrite_INDEX_RR_SD : SchedWriteRes<[A64FXGI0, A64FXGI2]> { let Latency = 17; let NumMicroOps = 2; let ReleaseAtCycles = [2, 1]; } def : InstRW<[A64FXWrite_INDEX_RR_SD], (instregex "^INDEX_RR_[SD]")>; def A64FXWrite_INSR_ZR : SchedWriteRes<[A64FXGI0, A64FXGI2]> { let Latency = 10; } def : InstRW<[A64FXWrite_INSR_ZR], (instregex "^INSR_ZR")>; def A64FXWrite_LAST_R : SchedWriteRes<[A64FXGI0, A64FXGI56]> { let Latency = 25; } def : InstRW<[A64FXWrite_CLAST_R], (instregex "^LAST[AB]_R")>; def A64FXWrite_GLD_S_ZI : SchedWriteRes<[A64FXGI0, A64FXGI5, A64FXGI6]> { let Latency = 19; let ReleaseAtCycles = [2, 4, 4]; } def : InstRW<[A64FXWrite_GLD_S_ZI], (instregex "^GLD(FF)?1W_IMM", "^GLD(FF)?1S?[BHW]_S_IMM")>; def A64FXWrite_GLD_D_ZI : SchedWriteRes<[A64FXGI0, A64FXGI5, A64FXGI6]> { let Latency = 16; let ReleaseAtCycles = [1, 2, 2]; } def : InstRW<[A64FXWrite_GLD_D_ZI], (instregex "^GLD(FF)?1D_IMM", "^GLD(FF)?1S?[BHW]_D_IMM")>; def A64FXWrite_GLD_S_RZ : SchedWriteRes<[A64FXGI0, A64FXGI2, A64FXGI5, A64FXGI6]> { let Latency = 23; let ReleaseAtCycles = [2, 1, 4, 4]; } def : InstRW<[A64FXWrite_GLD_S_RZ], (instregex "^GLD(FF)?1W_[^DI]", "^GLD(FF)?1S?[BHW]_S_[^I]")>; def A64FXWrite_GLD_D_RZ : SchedWriteRes<[A64FXGI0, A64FXGI2, A64FXGI5, A64FXGI6]> { let Latency = 20; let ReleaseAtCycles = [1, 1, 2, 2]; } def : InstRW<[A64FXWrite_GLD_D_RZ], (instregex "^GLD(FF)?1D_[^I]", "^GLD(FF)?1D$", "^GLD(FF)?1S?[BHW]_D_[^I]", "^GLD(FF)?1S?[BHW]_D$")>; def A64FXWrite_LD2_BH : SchedWriteRes<[A64FXGI56]> { let Latency = 15; let NumMicroOps = 3; let ReleaseAtCycles = [9]; } def : InstRW<[A64FXWrite_LD2_BH], (instregex "^LD2[BH]")>; def A64FXWrite_LD2_WD_IMM : SchedWriteRes<[A64FXGI56]> { let Latency = 11; let NumMicroOps = 2; let ReleaseAtCycles = [2]; } def : InstRW<[A64FXWrite_LD2_WD_IMM], (instregex "^LD2[WD]_IMM")>; def A64FXWrite_LD2_WD : SchedWriteRes<[A64FXGI56]> { let Latency = 12; let NumMicroOps = 3; let ReleaseAtCycles = [3]; } def : InstRW<[A64FXWrite_LD2_WD], (instregex "^LD2[WD]$")>; def A64FXWrite_LD3_BH : SchedWriteRes<[A64FXGI56]> { let Latency = 15; let NumMicroOps = 4; let ReleaseAtCycles = [13]; } def : InstRW<[A64FXWrite_LD3_BH], (instregex "^LD3[BH]")>; def A64FXWrite_LD3_WD_IMM : SchedWriteRes<[A64FXGI56]> { let Latency = 11; let NumMicroOps = 3; let ReleaseAtCycles = [3]; } def : InstRW<[A64FXWrite_LD3_WD_IMM], (instregex "^LD3[WD]_IMM")>; def A64FXWrite_LD3_WD : SchedWriteRes<[A64FXGI56]> { let Latency = 12; let NumMicroOps = 4; let ReleaseAtCycles = [4]; } def : InstRW<[A64FXWrite_LD3_WD], (instregex "^LD3[WD]$")>; def A64FXWrite_LD4_BH : SchedWriteRes<[A64FXGI56]> { let Latency = 15; let NumMicroOps = 5; let ReleaseAtCycles = [17]; } def : InstRW<[A64FXWrite_LD4_BH], (instregex "^LD4[BH]")>; def A64FXWrite_LD4_WD_IMM : SchedWriteRes<[A64FXGI56]> { let Latency = 11; let NumMicroOps = 4; let ReleaseAtCycles = [4]; } def : InstRW<[A64FXWrite_LD4_WD_IMM], (instregex "^LD4[WD]_IMM")>; def A64FXWrite_LD4_WD : SchedWriteRes<[A64FXGI56]> { let Latency = 12; let NumMicroOps = 5; let ReleaseAtCycles = [5]; } def : InstRW<[A64FXWrite_LD4_WD], (instregex "^LD4[WD]$")>; def A64FXWrite_PRF : SchedWriteRes<[A64FXGI56]> { } def : InstRW<[A64FXWrite_PRF], (instregex "^PRF._PR")>; def A64FXWrite_PRF_W_RZ : SchedWriteRes<[A64FXGI0, A64FXGI2, A64FXGI56]> { let ReleaseAtCycles = [2, 1, 4]; } def : InstRW<[A64FXWrite_PRF_W_RZ], (instregex "^PRF._S_[^P]")>; def A64FXWrite_PRF_W_ZI : SchedWriteRes<[A64FXGI0, A64FXGI56]> { let ReleaseAtCycles = [2, 4]; } def : InstRW<[A64FXWrite_PRF_W_ZI], (instregex "^PRF._S_PZI")>; def A64FXWrite_PRF_D_RZ : SchedWriteRes<[A64FXGI0, A64FXGI2, A64FXGI56]> { let ReleaseAtCycles = [1, 1, 2]; } def : InstRW<[A64FXWrite_PRF_D_RZ], (instregex "^PRF._D_[^P]")>; def A64FXWrite_PRF_D_ZI : SchedWriteRes<[A64FXGI0, A64FXGI56]> { let ReleaseAtCycles = [1, 2]; } def : InstRW<[A64FXWrite_PRF_D_ZI], (instregex "^PRF._D_PZI")>; def A64FXWrite_SDIV_S : SchedWriteRes<[A64FXGI0]> { let Latency = 114; let ReleaseAtCycles = [114]; } def : InstRW<[A64FXWrite_SDIV_S], (instregex "^[SU]DIVR?.*_S")>; def A64FXWrite_SDIV_D : SchedWriteRes<[A64FXGI0]> { let Latency = 178; let ReleaseAtCycles = [178]; } def : InstRW<[A64FXWrite_SDIV_D], (instregex "^[SU]DIVR?.*_D")>; def A64FXWrite_SDOT_I : SchedWriteRes<[A64FXGI0, A64FXGI3]> { let Latency = 15; let NumMicroOps = 2; } def : InstRW<[A64FXWrite_SDOT_I], (instregex "^[SU]DOT_ZZZI")>; def A64FXWrite_SQINC_Scalar : SchedWriteRes<[A64FXGI24]> { let Latency = 2; let ReleaseAtCycles = [2]; } def : InstRW<[A64FXWrite_SQINC_Scalar], (instregex "^[SU]Q(INC|DEC)[BHWD]_[WX]")>; def A64FXWrite_SQINCP_X : SchedWriteRes<[A64FXGI24, A64FXGI3]> { let Latency = 6; let NumMicroOps = 2; let ReleaseAtCycles = [3, 1]; } def : InstRW<[A64FXWrite_SQINCP_X], (instregex "^[SU]Q(INC|DEC)P_[WX]")>; def A64FXWrite_SQINCP_Z : SchedWriteRes<[A64FXGI24, A64FXGI3]> { let Latency = 12; } def : InstRW<[A64FXWrite_SQINCP_Z], (instregex "^[SU]Q(INC|DEC)P_Z")>; def A64FXWrite_ST1 : SchedWriteRes<[A64FXGI0, A64FXGI56]> { let Latency = 11; } def : InstRW<[A64FXWrite_ST1], (instregex "^ST(NT)?1[BHWD]")>; def A64FXWrite_SST1_W_RZ : SchedWriteRes<[A64FXGI0, A64FXGI2, A64FXGI5, A64FXGI6]> { let Latency = 20; let NumMicroOps = 8; let ReleaseAtCycles = [8, 8, 8, 8]; } def : InstRW<[A64FXWrite_SST1_W_RZ], (instregex "^SST1[BH]_S(_[^I]|$)", "^SST1W(_[^ID]|$)")>; def A64FXWrite_SST1_D_RZ : SchedWriteRes<[A64FXGI0, A64FXGI2, A64FXGI5, A64FXGI6]> { let Latency = 20; let NumMicroOps = 4; let ReleaseAtCycles = [4, 4, 4, 4]; } def : InstRW<[A64FXWrite_SST1_D_RZ], (instregex "^SST1[BHW]_D(_[^I]|$)", "^SST1D(_[^I]|$)")>; def A64FXWrite_SST1_W_ZI : SchedWriteRes<[A64FXGI0, A64FXGI5, A64FXGI6]> { let Latency = 16; let NumMicroOps = 8; let ReleaseAtCycles = [12, 8, 8]; } def : InstRW<[A64FXWrite_SST1_W_ZI], (instregex "^SST1[BH]_S_I", "^SST1W_I")>; def A64FXWrite_SST1_D_ZI : SchedWriteRes<[A64FXGI0, A64FXGI5, A64FXGI6]> { let Latency = 16; let NumMicroOps = 4; let ReleaseAtCycles = [4, 4, 4]; } def : InstRW<[A64FXWrite_SST1_D_ZI], (instregex "^SST1[BHW]_D_I", "^SST1D_I")>; def A64FXWrite_ST2_BH : SchedWriteRes<[A64FXGI0, A64FXGI56]> { let Latency = 12; let NumMicroOps = 3; let ReleaseAtCycles = [8, 9]; } def : InstRW<[A64FXWrite_ST2_BH], (instregex "^ST2[BH]")>; def A64FXWrite_ST2_WD_RI : SchedWriteRes<[A64FXGI0, A64FXGI56]> { let Latency = 11; let NumMicroOps = 2; let ReleaseAtCycles = [2, 2]; } def : InstRW<[A64FXWrite_ST2_WD_RI], (instregex "^ST2[WD]$")>; def A64FXWrite_ST2_WD_RR : SchedWriteRes<[A64FXGI0, A64FXGI56]> { let Latency = 12; let NumMicroOps = 3; let ReleaseAtCycles = [2, 3]; } def : InstRW<[A64FXWrite_ST2_WD_RR], (instregex "^ST2[WD]_I")>; def A64FXWrite_ST3_BH : SchedWriteRes<[A64FXGI0, A64FXGI56]> { let Latency = 15; let NumMicroOps = 4; let ReleaseAtCycles = [12, 13]; } def : InstRW<[A64FXWrite_ST3_BH], (instregex "^ST3[BH]")>; def A64FXWrite_ST3_WD_RI : SchedWriteRes<[A64FXGI0, A64FXGI56]> { let Latency = 11; let NumMicroOps = 3; let ReleaseAtCycles = [3, 3]; } def : InstRW<[A64FXWrite_ST3_WD_RI], (instregex "^ST3[WD]$")>; def A64FXWrite_ST3_WD_RR : SchedWriteRes<[A64FXGI0, A64FXGI56]> { let Latency = 12; let NumMicroOps = 4; let ReleaseAtCycles = [3, 4]; } def : InstRW<[A64FXWrite_ST3_WD_RR], (instregex "^ST3[WD]_I")>; def A64FXWrite_ST4_BH : SchedWriteRes<[A64FXGI0, A64FXGI56]> { let Latency = 15; let NumMicroOps = 5; let ReleaseAtCycles = [16, 17]; } def : InstRW<[A64FXWrite_ST4_BH], (instregex "^ST4[BH]")>; def A64FXWrite_ST4_WD_RI : SchedWriteRes<[A64FXGI0, A64FXGI56]> { let Latency = 11; let NumMicroOps = 4; let ReleaseAtCycles = [4, 4]; } def : InstRW<[A64FXWrite_ST4_WD_RI], (instregex "^ST4[WD]$")>; def A64FXWrite_ST4_WD_RR : SchedWriteRes<[A64FXGI0, A64FXGI56]> { let Latency = 12; let NumMicroOps = 5; let ReleaseAtCycles = [4, 5]; } def : InstRW<[A64FXWrite_ST4_WD_RR], (instregex "^ST4[WD]_I")>; def A64FXWrite_STR_P : SchedWriteRes<[A64FXGI3, A64FXGI5]> { let Latency = 11; } def : InstRW<[A64FXWrite_STR_P], (instrs STR_PXI)>; def A64FXWrite_STR_Z : SchedWriteRes<[A64FXGI0, A64FXGI5]> { let Latency = 11; } def : InstRW<[A64FXWrite_STR_Z], (instrs STR_ZXI)>; def A64FXWrite_WHILE : SchedWriteRes<[A64FXGI3, A64FXGI5]> { let Latency = 4; } def : InstRW<[A64FXWrite_WHILE], (instregex "^WHILEL._P")>; def A64FXWrite_WRFFR : SchedWriteRes<[A64FXGI3, A64FXGI5]> { let Latency = 3; let NumMicroOps = 2; } def : InstRW<[A64FXWrite_WRFFR], (instrs WRFFR)>; } // SchedModel = A64FXModel