//=- AArch64.td - Describe the AArch64 Target Machine --------*- 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 // //===----------------------------------------------------------------------===// // // //===----------------------------------------------------------------------===// //===----------------------------------------------------------------------===// // Target-independent interfaces which we are implementing. //===----------------------------------------------------------------------===// include "llvm/Target/Target.td" //===----------------------------------------------------------------------===// // AArch64 Subtarget features. // def FeatureFPARMv8 : SubtargetFeature<"fp-armv8", "HasFPARMv8", "true", "Enable ARMv8 FP">; def FeatureNEON : SubtargetFeature<"neon", "HasNEON", "true", "Enable Advanced SIMD instructions", [FeatureFPARMv8]>; def FeatureSM4 : SubtargetFeature< "sm4", "HasSM4", "true", "Enable SM3 and SM4 support", [FeatureNEON]>; def FeatureSHA2 : SubtargetFeature< "sha2", "HasSHA2", "true", "Enable SHA1 and SHA256 support", [FeatureNEON]>; def FeatureSHA3 : SubtargetFeature< "sha3", "HasSHA3", "true", "Enable SHA512 and SHA3 support", [FeatureNEON, FeatureSHA2]>; def FeatureAES : SubtargetFeature< "aes", "HasAES", "true", "Enable AES support", [FeatureNEON]>; // Crypto has been split up and any combination is now valid (see the // crypto defintions above). Also, crypto is now context sensitive: // it has a different meaning for e.g. Armv8.4 than it has for Armv8.2. // Therefore, we rely on Clang, the user interacing tool, to pass on the // appropriate crypto options. But here in the backend, crypto has very little // meaning anymore. We kept the Crypto defintion here for backward // compatibility, and now imply features SHA2 and AES, which was the // "traditional" meaning of Crypto. def FeatureCrypto : SubtargetFeature<"crypto", "HasCrypto", "true", "Enable cryptographic instructions", [FeatureNEON, FeatureSHA2, FeatureAES]>; def FeatureCRC : SubtargetFeature<"crc", "HasCRC", "true", "Enable ARMv8 CRC-32 checksum instructions">; def FeatureRAS : SubtargetFeature<"ras", "HasRAS", "true", "Enable ARMv8 Reliability, Availability and Serviceability Extensions">; def FeatureLSE : SubtargetFeature<"lse", "HasLSE", "true", "Enable ARMv8.1 Large System Extension (LSE) atomic instructions">; def FeatureRDM : SubtargetFeature<"rdm", "HasRDM", "true", "Enable ARMv8.1 Rounding Double Multiply Add/Subtract instructions">; def FeaturePAN : SubtargetFeature< "pan", "HasPAN", "true", "Enables ARM v8.1 Privileged Access-Never extension">; def FeatureLOR : SubtargetFeature< "lor", "HasLOR", "true", "Enables ARM v8.1 Limited Ordering Regions extension">; def FeatureVH : SubtargetFeature< "vh", "HasVH", "true", "Enables ARM v8.1 Virtual Host extension">; def FeaturePerfMon : SubtargetFeature<"perfmon", "HasPerfMon", "true", "Enable ARMv8 PMUv3 Performance Monitors extension">; def FeatureFullFP16 : SubtargetFeature<"fullfp16", "HasFullFP16", "true", "Full FP16", [FeatureFPARMv8]>; def FeatureFP16FML : SubtargetFeature<"fp16fml", "HasFP16FML", "true", "Enable FP16 FML instructions", [FeatureFullFP16]>; def FeatureSPE : SubtargetFeature<"spe", "HasSPE", "true", "Enable Statistical Profiling extension">; def FeaturePAN_RWV : SubtargetFeature< "pan-rwv", "HasPAN_RWV", "true", "Enable v8.2 PAN s1e1R and s1e1W Variants", [FeaturePAN]>; // UAO PState def FeaturePsUAO : SubtargetFeature< "uaops", "HasPsUAO", "true", "Enable v8.2 UAO PState">; def FeatureCCPP : SubtargetFeature<"ccpp", "HasCCPP", "true", "Enable v8.2 data Cache Clean to Point of Persistence" >; def FeatureSVE : SubtargetFeature<"sve", "HasSVE", "true", "Enable Scalable Vector Extension (SVE) instructions">; def FeatureSVE2 : SubtargetFeature<"sve2", "HasSVE2", "true", "Enable Scalable Vector Extension 2 (SVE2) instructions", [FeatureSVE]>; def FeatureSVE2AES : SubtargetFeature<"sve2-aes", "HasSVE2AES", "true", "Enable AES SVE2 instructions", [FeatureSVE2, FeatureAES]>; def FeatureSVE2SM4 : SubtargetFeature<"sve2-sm4", "HasSVE2SM4", "true", "Enable SM4 SVE2 instructions", [FeatureSVE2, FeatureSM4]>; def FeatureSVE2SHA3 : SubtargetFeature<"sve2-sha3", "HasSVE2SHA3", "true", "Enable SHA3 SVE2 instructions", [FeatureSVE2, FeatureSHA3]>; def FeatureSVE2BitPerm : SubtargetFeature<"sve2-bitperm", "HasSVE2BitPerm", "true", "Enable bit permutation SVE2 instructions", [FeatureSVE2]>; def FeatureZCRegMove : SubtargetFeature<"zcm", "HasZeroCycleRegMove", "true", "Has zero-cycle register moves">; def FeatureZCZeroingGP : SubtargetFeature<"zcz-gp", "HasZeroCycleZeroingGP", "true", "Has zero-cycle zeroing instructions for generic registers">; def FeatureZCZeroingFP : SubtargetFeature<"zcz-fp", "HasZeroCycleZeroingFP", "true", "Has zero-cycle zeroing instructions for FP registers">; def FeatureZCZeroing : SubtargetFeature<"zcz", "HasZeroCycleZeroing", "true", "Has zero-cycle zeroing instructions", [FeatureZCZeroingGP, FeatureZCZeroingFP]>; /// ... but the floating-point version doesn't quite work in rare cases on older /// CPUs. def FeatureZCZeroingFPWorkaround : SubtargetFeature<"zcz-fp-workaround", "HasZeroCycleZeroingFPWorkaround", "true", "The zero-cycle floating-point zeroing instruction has a bug">; def FeatureStrictAlign : SubtargetFeature<"strict-align", "StrictAlign", "true", "Disallow all unaligned memory " "access">; foreach i = {1-7,9-15,18,20-28} in def FeatureReserveX#i : SubtargetFeature<"reserve-x"#i, "ReserveXRegister["#i#"]", "true", "Reserve X"#i#", making it unavailable " "as a GPR">; foreach i = {8-15,18} in def FeatureCallSavedX#i : SubtargetFeature<"call-saved-x"#i, "CustomCallSavedXRegs["#i#"]", "true", "Make X"#i#" callee saved.">; def FeatureUseAA : SubtargetFeature<"use-aa", "UseAA", "true", "Use alias analysis during codegen">; def FeatureBalanceFPOps : SubtargetFeature<"balance-fp-ops", "BalanceFPOps", "true", "balance mix of odd and even D-registers for fp multiply(-accumulate) ops">; def FeaturePredictableSelectIsExpensive : SubtargetFeature< "predictable-select-expensive", "PredictableSelectIsExpensive", "true", "Prefer likely predicted branches over selects">; def FeatureCustomCheapAsMoveHandling : SubtargetFeature<"custom-cheap-as-move", "CustomAsCheapAsMove", "true", "Use custom handling of cheap instructions">; def FeatureExynosCheapAsMoveHandling : SubtargetFeature<"exynos-cheap-as-move", "ExynosAsCheapAsMove", "true", "Use Exynos specific handling of cheap instructions", [FeatureCustomCheapAsMoveHandling]>; def FeaturePostRAScheduler : SubtargetFeature<"use-postra-scheduler", "UsePostRAScheduler", "true", "Schedule again after register allocation">; def FeatureSlowMisaligned128Store : SubtargetFeature<"slow-misaligned-128store", "Misaligned128StoreIsSlow", "true", "Misaligned 128 bit stores are slow">; def FeatureSlowPaired128 : SubtargetFeature<"slow-paired-128", "Paired128IsSlow", "true", "Paired 128 bit loads and stores are slow">; def FeatureSlowSTRQro : SubtargetFeature<"slow-strqro-store", "STRQroIsSlow", "true", "STR of Q register with register offset is slow">; def FeatureAlternateSExtLoadCVTF32Pattern : SubtargetFeature< "alternate-sextload-cvt-f32-pattern", "UseAlternateSExtLoadCVTF32Pattern", "true", "Use alternative pattern for sextload convert to f32">; def FeatureArithmeticBccFusion : SubtargetFeature< "arith-bcc-fusion", "HasArithmeticBccFusion", "true", "CPU fuses arithmetic+bcc operations">; def FeatureArithmeticCbzFusion : SubtargetFeature< "arith-cbz-fusion", "HasArithmeticCbzFusion", "true", "CPU fuses arithmetic + cbz/cbnz operations">; def FeatureFuseAddress : SubtargetFeature< "fuse-address", "HasFuseAddress", "true", "CPU fuses address generation and memory operations">; def FeatureFuseAES : SubtargetFeature< "fuse-aes", "HasFuseAES", "true", "CPU fuses AES crypto operations">; def FeatureFuseArithmeticLogic : SubtargetFeature< "fuse-arith-logic", "HasFuseArithmeticLogic", "true", "CPU fuses arithmetic and logic operations">; def FeatureFuseCCSelect : SubtargetFeature< "fuse-csel", "HasFuseCCSelect", "true", "CPU fuses conditional select operations">; def FeatureFuseCryptoEOR : SubtargetFeature< "fuse-crypto-eor", "HasFuseCryptoEOR", "true", "CPU fuses AES/PMULL and EOR operations">; def FeatureFuseLiterals : SubtargetFeature< "fuse-literals", "HasFuseLiterals", "true", "CPU fuses literal generation operations">; def FeatureDisableLatencySchedHeuristic : SubtargetFeature< "disable-latency-sched-heuristic", "DisableLatencySchedHeuristic", "true", "Disable latency scheduling heuristic">; def FeatureForce32BitJumpTables : SubtargetFeature<"force-32bit-jump-tables", "Force32BitJumpTables", "true", "Force jump table entries to be 32-bits wide except at MinSize">; def FeatureRCPC : SubtargetFeature<"rcpc", "HasRCPC", "true", "Enable support for RCPC extension">; def FeatureUseRSqrt : SubtargetFeature< "use-reciprocal-square-root", "UseRSqrt", "true", "Use the reciprocal square root approximation">; def FeatureDotProd : SubtargetFeature< "dotprod", "HasDotProd", "true", "Enable dot product support">; def FeaturePA : SubtargetFeature< "pa", "HasPA", "true", "Enable v8.3-A Pointer Authentication enchancement">; def FeatureJS : SubtargetFeature< "jsconv", "HasJS", "true", "Enable v8.3-A JavaScript FP conversion enchancement", [FeatureFPARMv8]>; def FeatureCCIDX : SubtargetFeature< "ccidx", "HasCCIDX", "true", "Enable v8.3-A Extend of the CCSIDR number of sets">; def FeatureComplxNum : SubtargetFeature< "complxnum", "HasComplxNum", "true", "Enable v8.3-A Floating-point complex number support", [FeatureNEON]>; def FeatureNV : SubtargetFeature< "nv", "HasNV", "true", "Enable v8.4-A Nested Virtualization Enchancement">; def FeatureRASv8_4 : SubtargetFeature< "rasv8_4", "HasRASv8_4", "true", "Enable v8.4-A Reliability, Availability and Serviceability extension", [FeatureRAS]>; def FeatureMPAM : SubtargetFeature< "mpam", "HasMPAM", "true", "Enable v8.4-A Memory system Partitioning and Monitoring extension">; def FeatureDIT : SubtargetFeature< "dit", "HasDIT", "true", "Enable v8.4-A Data Independent Timing instructions">; def FeatureTRACEV8_4 : SubtargetFeature< "tracev8.4", "HasTRACEV8_4", "true", "Enable v8.4-A Trace extension">; def FeatureAM : SubtargetFeature< "am", "HasAM", "true", "Enable v8.4-A Activity Monitors extension">; def FeatureSEL2 : SubtargetFeature< "sel2", "HasSEL2", "true", "Enable v8.4-A Secure Exception Level 2 extension">; def FeaturePMU : SubtargetFeature< "pmu", "HasPMU", "true", "Enable v8.4-A PMU extension">; def FeatureTLB_RMI : SubtargetFeature< "tlb-rmi", "HasTLB_RMI", "true", "Enable v8.4-A TLB Range and Maintenance Instructions">; def FeatureFMI : SubtargetFeature< "fmi", "HasFMI", "true", "Enable v8.4-A Flag Manipulation Instructions">; // 8.4 RCPC enchancements: LDAPR & STLR instructions with Immediate Offset def FeatureRCPC_IMMO : SubtargetFeature<"rcpc-immo", "HasRCPC_IMMO", "true", "Enable v8.4-A RCPC instructions with Immediate Offsets", [FeatureRCPC]>; def FeatureNoNegativeImmediates : SubtargetFeature<"no-neg-immediates", "NegativeImmediates", "false", "Convert immediates and instructions " "to their negated or complemented " "equivalent when the immediate does " "not fit in the encoding.">; def FeatureLSLFast : SubtargetFeature< "lsl-fast", "HasLSLFast", "true", "CPU has a fastpath logical shift of up to 3 places">; def FeatureAggressiveFMA : SubtargetFeature<"aggressive-fma", "HasAggressiveFMA", "true", "Enable Aggressive FMA for floating-point.">; def FeatureAltFPCmp : SubtargetFeature<"altnzcv", "HasAlternativeNZCV", "true", "Enable alternative NZCV format for floating point comparisons">; def FeatureFRInt3264 : SubtargetFeature<"fptoint", "HasFRInt3264", "true", "Enable FRInt[32|64][Z|X] instructions that round a floating-point number to " "an integer (in FP format) forcing it to fit into a 32- or 64-bit int" >; def FeatureSpecRestrict : SubtargetFeature<"specrestrict", "HasSpecRestrict", "true", "Enable architectural speculation restriction" >; def FeatureSB : SubtargetFeature<"sb", "HasSB", "true", "Enable v8.5 Speculation Barrier" >; def FeatureSSBS : SubtargetFeature<"ssbs", "HasSSBS", "true", "Enable Speculative Store Bypass Safe bit" >; def FeaturePredRes : SubtargetFeature<"predres", "HasPredRes", "true", "Enable v8.5a execution and data prediction invalidation instructions" >; def FeatureCacheDeepPersist : SubtargetFeature<"ccdp", "HasCCDP", "true", "Enable v8.5 Cache Clean to Point of Deep Persistence" >; def FeatureBranchTargetId : SubtargetFeature<"bti", "HasBTI", "true", "Enable Branch Target Identification" >; def FeatureRandGen : SubtargetFeature<"rand", "HasRandGen", "true", "Enable Random Number generation instructions" >; def FeatureMTE : SubtargetFeature<"mte", "HasMTE", "true", "Enable Memory Tagging Extension" >; def FeatureTRBE : SubtargetFeature<"trbe", "HasTRBE", "true", "Enable Trace Buffer Extension">; def FeatureETE : SubtargetFeature<"ete", "HasETE", "true", "Enable Embedded Trace Extension", [FeatureTRBE]>; def FeatureTME : SubtargetFeature<"tme", "HasTME", "true", "Enable Transactional Memory Extension" >; def FeatureTaggedGlobals : SubtargetFeature<"tagged-globals", "AllowTaggedGlobals", "true", "Use an instruction sequence for taking the address of a global " "that allows a memory tag in the upper address bits">; //===----------------------------------------------------------------------===// // Architectures. // def HasV8_1aOps : SubtargetFeature<"v8.1a", "HasV8_1aOps", "true", "Support ARM v8.1a instructions", [FeatureCRC, FeatureLSE, FeatureRDM, FeaturePAN, FeatureLOR, FeatureVH]>; def HasV8_2aOps : SubtargetFeature<"v8.2a", "HasV8_2aOps", "true", "Support ARM v8.2a instructions", [HasV8_1aOps, FeaturePsUAO, FeaturePAN_RWV, FeatureRAS, FeatureCCPP]>; def HasV8_3aOps : SubtargetFeature<"v8.3a", "HasV8_3aOps", "true", "Support ARM v8.3a instructions", [HasV8_2aOps, FeatureRCPC, FeaturePA, FeatureJS, FeatureCCIDX, FeatureComplxNum]>; def HasV8_4aOps : SubtargetFeature<"v8.4a", "HasV8_4aOps", "true", "Support ARM v8.4a instructions", [HasV8_3aOps, FeatureDotProd, FeatureNV, FeatureRASv8_4, FeatureMPAM, FeatureDIT, FeatureTRACEV8_4, FeatureAM, FeatureSEL2, FeaturePMU, FeatureTLB_RMI, FeatureFMI, FeatureRCPC_IMMO]>; def HasV8_5aOps : SubtargetFeature< "v8.5a", "HasV8_5aOps", "true", "Support ARM v8.5a instructions", [HasV8_4aOps, FeatureAltFPCmp, FeatureFRInt3264, FeatureSpecRestrict, FeatureSSBS, FeatureSB, FeaturePredRes, FeatureCacheDeepPersist, FeatureBranchTargetId] >; //===----------------------------------------------------------------------===// // Register File Description //===----------------------------------------------------------------------===// include "AArch64RegisterInfo.td" include "AArch64RegisterBanks.td" include "AArch64CallingConvention.td" //===----------------------------------------------------------------------===// // Instruction Descriptions //===----------------------------------------------------------------------===// include "AArch64Schedule.td" include "AArch64InstrInfo.td" include "AArch64SchedPredicates.td" include "AArch64SchedPredExynos.td" include "AArch64Combine.td" def AArch64InstrInfo : InstrInfo; //===----------------------------------------------------------------------===// // Named operands for MRS/MSR/TLBI/... //===----------------------------------------------------------------------===// include "AArch64SystemOperands.td" //===----------------------------------------------------------------------===// // Access to privileged registers //===----------------------------------------------------------------------===// foreach i = 1-3 in def FeatureUseEL#i#ForTP : SubtargetFeature<"tpidr-el"#i, "UseEL"#i#"ForTP", "true", "Permit use of TPIDR_EL"#i#" for the TLS base">; //===----------------------------------------------------------------------===// // AArch64 Processors supported. // //===----------------------------------------------------------------------===// // Unsupported features to disable for scheduling models //===----------------------------------------------------------------------===// class AArch64Unsupported { list F; } def SVEUnsupported : AArch64Unsupported { let F = [HasSVE, HasSVE2, HasSVE2AES, HasSVE2SM4, HasSVE2SHA3, HasSVE2BitPerm]; } def PAUnsupported : AArch64Unsupported { let F = [HasPA]; } include "AArch64SchedA53.td" include "AArch64SchedA57.td" include "AArch64SchedCyclone.td" include "AArch64SchedFalkor.td" include "AArch64SchedKryo.td" include "AArch64SchedExynosM3.td" include "AArch64SchedExynosM4.td" include "AArch64SchedExynosM5.td" include "AArch64SchedThunderX.td" include "AArch64SchedThunderX2T99.td" include "AArch64SchedThunderX3T110.td" def ProcA35 : SubtargetFeature<"a35", "ARMProcFamily", "CortexA35", "Cortex-A35 ARM processors", [ FeatureCRC, FeatureCrypto, FeatureFPARMv8, FeatureNEON, FeaturePerfMon ]>; def ProcA53 : SubtargetFeature<"a53", "ARMProcFamily", "CortexA53", "Cortex-A53 ARM processors", [ FeatureBalanceFPOps, FeatureCRC, FeatureCrypto, FeatureCustomCheapAsMoveHandling, FeatureFPARMv8, FeatureFuseAES, FeatureNEON, FeaturePerfMon, FeaturePostRAScheduler, FeatureUseAA ]>; def ProcA55 : SubtargetFeature<"a55", "ARMProcFamily", "CortexA55", "Cortex-A55 ARM processors", [ HasV8_2aOps, FeatureCrypto, FeatureFPARMv8, FeatureFuseAES, FeatureNEON, FeatureFullFP16, FeatureDotProd, FeatureRCPC, FeaturePerfMon ]>; def ProcA57 : SubtargetFeature<"a57", "ARMProcFamily", "CortexA57", "Cortex-A57 ARM processors", [ FeatureBalanceFPOps, FeatureCRC, FeatureCrypto, FeatureCustomCheapAsMoveHandling, FeatureFPARMv8, FeatureFuseAES, FeatureFuseLiterals, FeatureNEON, FeaturePerfMon, FeaturePostRAScheduler, FeaturePredictableSelectIsExpensive ]>; def ProcA65 : SubtargetFeature<"a65", "ARMProcFamily", "CortexA65", "Cortex-A65 ARM processors", [ HasV8_2aOps, FeatureCrypto, FeatureDotProd, FeatureFPARMv8, FeatureFullFP16, FeatureNEON, FeatureRAS, FeatureRCPC, FeatureSSBS, ]>; def ProcA72 : SubtargetFeature<"a72", "ARMProcFamily", "CortexA72", "Cortex-A72 ARM processors", [ FeatureCRC, FeatureCrypto, FeatureFPARMv8, FeatureFuseAES, FeatureNEON, FeaturePerfMon ]>; def ProcA73 : SubtargetFeature<"a73", "ARMProcFamily", "CortexA73", "Cortex-A73 ARM processors", [ FeatureCRC, FeatureCrypto, FeatureFPARMv8, FeatureFuseAES, FeatureNEON, FeaturePerfMon ]>; def ProcA75 : SubtargetFeature<"a75", "ARMProcFamily", "CortexA75", "Cortex-A75 ARM processors", [ HasV8_2aOps, FeatureCrypto, FeatureFPARMv8, FeatureFuseAES, FeatureNEON, FeatureFullFP16, FeatureDotProd, FeatureRCPC, FeaturePerfMon ]>; def ProcA76 : SubtargetFeature<"a76", "ARMProcFamily", "CortexA76", "Cortex-A76 ARM processors", [ HasV8_2aOps, FeatureFPARMv8, FeatureNEON, FeatureRCPC, FeatureCrypto, FeatureFullFP16, FeatureDotProd, FeatureSSBS ]>; // Note that cyclone does not fuse AES instructions, but newer apple chips do // perform the fusion and cyclone is used by default when targetting apple OSes. def ProcAppleA7 : SubtargetFeature<"apple-a7", "ARMProcFamily", "AppleA7", "Apple A7 (the CPU formerly known as Cyclone)", [ FeatureAlternateSExtLoadCVTF32Pattern, FeatureArithmeticBccFusion, FeatureArithmeticCbzFusion, FeatureCrypto, FeatureDisableLatencySchedHeuristic, FeatureFPARMv8, FeatureFuseAES, FeatureFuseCryptoEOR, FeatureNEON, FeaturePerfMon, FeatureZCRegMove, FeatureZCZeroing, FeatureZCZeroingFPWorkaround ]>; def ProcAppleA10 : SubtargetFeature<"apple-a10", "ARMProcFamily", "AppleA10", "Apple A10", [ FeatureAlternateSExtLoadCVTF32Pattern, FeatureArithmeticBccFusion, FeatureArithmeticCbzFusion, FeatureCrypto, FeatureDisableLatencySchedHeuristic, FeatureFPARMv8, FeatureFuseAES, FeatureFuseCryptoEOR, FeatureNEON, FeaturePerfMon, FeatureZCRegMove, FeatureZCZeroing, FeatureCRC, FeatureRDM, FeaturePAN, FeatureLOR, FeatureVH, ]>; def ProcAppleA11 : SubtargetFeature<"apple-a11", "ARMProcFamily", "AppleA11", "Apple A11", [ FeatureAlternateSExtLoadCVTF32Pattern, FeatureArithmeticBccFusion, FeatureArithmeticCbzFusion, FeatureCrypto, FeatureDisableLatencySchedHeuristic, FeatureFPARMv8, FeatureFuseAES, FeatureFuseCryptoEOR, FeatureNEON, FeaturePerfMon, FeatureZCRegMove, FeatureZCZeroing, FeatureFullFP16, HasV8_2aOps ]>; def ProcAppleA12 : SubtargetFeature<"apple-a12", "ARMProcFamily", "AppleA12", "Apple A12", [ FeatureAlternateSExtLoadCVTF32Pattern, FeatureArithmeticBccFusion, FeatureArithmeticCbzFusion, FeatureCrypto, FeatureDisableLatencySchedHeuristic, FeatureFPARMv8, FeatureFuseAES, FeatureFuseCryptoEOR, FeatureNEON, FeaturePerfMon, FeatureZCRegMove, FeatureZCZeroing, FeatureFullFP16, HasV8_3aOps ]>; def ProcAppleA13 : SubtargetFeature<"apple-a13", "ARMProcFamily", "AppleA13", "Apple A13", [ FeatureAlternateSExtLoadCVTF32Pattern, FeatureArithmeticBccFusion, FeatureArithmeticCbzFusion, FeatureCrypto, FeatureDisableLatencySchedHeuristic, FeatureFPARMv8, FeatureFuseAES, FeatureFuseCryptoEOR, FeatureNEON, FeaturePerfMon, FeatureZCRegMove, FeatureZCZeroing, FeatureFullFP16, FeatureFP16FML, FeatureSHA3, HasV8_4aOps ]>; def ProcExynosM3 : SubtargetFeature<"exynosm3", "ARMProcFamily", "ExynosM3", "Samsung Exynos-M3 processors", [FeatureCRC, FeatureCrypto, FeatureExynosCheapAsMoveHandling, FeatureForce32BitJumpTables, FeatureFuseAddress, FeatureFuseAES, FeatureFuseCCSelect, FeatureFuseLiterals, FeatureLSLFast, FeaturePerfMon, FeaturePostRAScheduler, FeaturePredictableSelectIsExpensive, FeatureZCZeroingFP]>; def ProcExynosM4 : SubtargetFeature<"exynosm4", "ARMProcFamily", "ExynosM3", "Samsung Exynos-M4 processors", [HasV8_2aOps, FeatureArithmeticBccFusion, FeatureArithmeticCbzFusion, FeatureCrypto, FeatureDotProd, FeatureExynosCheapAsMoveHandling, FeatureForce32BitJumpTables, FeatureFullFP16, FeatureFuseAddress, FeatureFuseAES, FeatureFuseArithmeticLogic, FeatureFuseCCSelect, FeatureFuseLiterals, FeatureLSLFast, FeaturePerfMon, FeaturePostRAScheduler, FeatureZCZeroing]>; def ProcKryo : SubtargetFeature<"kryo", "ARMProcFamily", "Kryo", "Qualcomm Kryo processors", [ FeatureCRC, FeatureCrypto, FeatureCustomCheapAsMoveHandling, FeatureFPARMv8, FeatureNEON, FeaturePerfMon, FeaturePostRAScheduler, FeaturePredictableSelectIsExpensive, FeatureZCZeroing, FeatureLSLFast ]>; def ProcFalkor : SubtargetFeature<"falkor", "ARMProcFamily", "Falkor", "Qualcomm Falkor processors", [ FeatureCRC, FeatureCrypto, FeatureCustomCheapAsMoveHandling, FeatureFPARMv8, FeatureNEON, FeaturePerfMon, FeaturePostRAScheduler, FeaturePredictableSelectIsExpensive, FeatureRDM, FeatureZCZeroing, FeatureLSLFast, FeatureSlowSTRQro ]>; def ProcNeoverseE1 : SubtargetFeature<"neoversee1", "ARMProcFamily", "NeoverseE1", "Neoverse E1 ARM processors", [ HasV8_2aOps, FeatureCrypto, FeatureDotProd, FeatureFPARMv8, FeatureFullFP16, FeatureNEON, FeatureRCPC, FeatureSSBS, ]>; def ProcNeoverseN1 : SubtargetFeature<"neoversen1", "ARMProcFamily", "NeoverseN1", "Neoverse N1 ARM processors", [ HasV8_2aOps, FeatureCrypto, FeatureDotProd, FeatureFPARMv8, FeatureFullFP16, FeatureNEON, FeatureRCPC, FeatureSPE, FeatureSSBS, ]>; def ProcSaphira : SubtargetFeature<"saphira", "ARMProcFamily", "Saphira", "Qualcomm Saphira processors", [ FeatureCrypto, FeatureCustomCheapAsMoveHandling, FeatureFPARMv8, FeatureNEON, FeatureSPE, FeaturePerfMon, FeaturePostRAScheduler, FeaturePredictableSelectIsExpensive, FeatureZCZeroing, FeatureLSLFast, HasV8_4aOps]>; def ProcThunderX2T99 : SubtargetFeature<"thunderx2t99", "ARMProcFamily", "ThunderX2T99", "Cavium ThunderX2 processors", [ FeatureAggressiveFMA, FeatureCRC, FeatureCrypto, FeatureFPARMv8, FeatureArithmeticBccFusion, FeatureNEON, FeaturePostRAScheduler, FeaturePredictableSelectIsExpensive, FeatureLSE, HasV8_1aOps]>; def ProcThunderX3T110 : SubtargetFeature<"thunderx3t110", "ARMProcFamily", "ThunderX3T110", "Marvell ThunderX3 processors", [ FeatureAggressiveFMA, FeatureCRC, FeatureCrypto, FeatureFPARMv8, FeatureArithmeticBccFusion, FeatureNEON, FeaturePostRAScheduler, FeaturePredictableSelectIsExpensive, FeatureLSE, FeaturePA, FeatureUseAA, FeatureBalanceFPOps, FeaturePerfMon, FeatureStrictAlign, HasV8_3aOps]>; def ProcThunderX : SubtargetFeature<"thunderx", "ARMProcFamily", "ThunderX", "Cavium ThunderX processors", [ FeatureCRC, FeatureCrypto, FeatureFPARMv8, FeaturePerfMon, FeaturePostRAScheduler, FeaturePredictableSelectIsExpensive, FeatureNEON]>; def ProcThunderXT88 : SubtargetFeature<"thunderxt88", "ARMProcFamily", "ThunderXT88", "Cavium ThunderX processors", [ FeatureCRC, FeatureCrypto, FeatureFPARMv8, FeaturePerfMon, FeaturePostRAScheduler, FeaturePredictableSelectIsExpensive, FeatureNEON]>; def ProcThunderXT81 : SubtargetFeature<"thunderxt81", "ARMProcFamily", "ThunderXT81", "Cavium ThunderX processors", [ FeatureCRC, FeatureCrypto, FeatureFPARMv8, FeaturePerfMon, FeaturePostRAScheduler, FeaturePredictableSelectIsExpensive, FeatureNEON]>; def ProcThunderXT83 : SubtargetFeature<"thunderxt83", "ARMProcFamily", "ThunderXT83", "Cavium ThunderX processors", [ FeatureCRC, FeatureCrypto, FeatureFPARMv8, FeaturePerfMon, FeaturePostRAScheduler, FeaturePredictableSelectIsExpensive, FeatureNEON]>; def ProcTSV110 : SubtargetFeature<"tsv110", "ARMProcFamily", "TSV110", "HiSilicon TS-V110 processors", [ HasV8_2aOps, FeatureCrypto, FeatureCustomCheapAsMoveHandling, FeatureFPARMv8, FeatureFuseAES, FeatureNEON, FeaturePerfMon, FeaturePostRAScheduler, FeatureSPE, FeatureFullFP16, FeatureFP16FML, FeatureDotProd]>; def : ProcessorModel<"generic", NoSchedModel, [ FeatureFPARMv8, FeatureFuseAES, FeatureNEON, FeaturePerfMon, FeaturePostRAScheduler, // ETE and TRBE are future architecture extensions. We temporariliy enable them // by default for users targeting generic AArch64, until it is decided in which // armv8.x-a architecture revision they will end up. The extensions do not // affect code generated by the compiler and can be used only by explicitly // mentioning the new system register names in assembly. FeatureETE ]>; def : ProcessorModel<"cortex-a35", CortexA53Model, [ProcA35]>; def : ProcessorModel<"cortex-a53", CortexA53Model, [ProcA53]>; def : ProcessorModel<"cortex-a55", CortexA53Model, [ProcA55]>; def : ProcessorModel<"cortex-a57", CortexA57Model, [ProcA57]>; def : ProcessorModel<"cortex-a65", CortexA53Model, [ProcA65]>; def : ProcessorModel<"cortex-a65ae", CortexA53Model, [ProcA65]>; def : ProcessorModel<"cortex-a72", CortexA57Model, [ProcA72]>; def : ProcessorModel<"cortex-a73", CortexA57Model, [ProcA73]>; def : ProcessorModel<"cortex-a75", CortexA57Model, [ProcA75]>; def : ProcessorModel<"cortex-a76", CortexA57Model, [ProcA76]>; def : ProcessorModel<"cortex-a76ae", CortexA57Model, [ProcA76]>; def : ProcessorModel<"neoverse-e1", CortexA53Model, [ProcNeoverseE1]>; def : ProcessorModel<"neoverse-n1", CortexA57Model, [ProcNeoverseN1]>; def : ProcessorModel<"exynos-m3", ExynosM3Model, [ProcExynosM3]>; def : ProcessorModel<"exynos-m4", ExynosM4Model, [ProcExynosM4]>; def : ProcessorModel<"exynos-m5", ExynosM5Model, [ProcExynosM4]>; def : ProcessorModel<"falkor", FalkorModel, [ProcFalkor]>; def : ProcessorModel<"saphira", FalkorModel, [ProcSaphira]>; def : ProcessorModel<"kryo", KryoModel, [ProcKryo]>; // Cavium ThunderX/ThunderX T8X Processors def : ProcessorModel<"thunderx", ThunderXT8XModel, [ProcThunderX]>; def : ProcessorModel<"thunderxt88", ThunderXT8XModel, [ProcThunderXT88]>; def : ProcessorModel<"thunderxt81", ThunderXT8XModel, [ProcThunderXT81]>; def : ProcessorModel<"thunderxt83", ThunderXT8XModel, [ProcThunderXT83]>; // Cavium ThunderX2T9X Processors. Formerly Broadcom Vulcan. def : ProcessorModel<"thunderx2t99", ThunderX2T99Model, [ProcThunderX2T99]>; // Marvell ThunderX3T110 Processors. def : ProcessorModel<"thunderx3t110", ThunderX3T110Model, [ProcThunderX3T110]>; // FIXME: HiSilicon TSV110 is currently modeled as a Cortex-A57. def : ProcessorModel<"tsv110", CortexA57Model, [ProcTSV110]>; // Support cyclone as an alias for apple-a7 so we can still LTO old bitcode. def : ProcessorModel<"cyclone", CycloneModel, [ProcAppleA7]>; // iPhone and iPad CPUs def : ProcessorModel<"apple-a7", CycloneModel, [ProcAppleA7]>; def : ProcessorModel<"apple-a8", CycloneModel, [ProcAppleA7]>; def : ProcessorModel<"apple-a9", CycloneModel, [ProcAppleA7]>; def : ProcessorModel<"apple-a10", CycloneModel, [ProcAppleA10]>; def : ProcessorModel<"apple-a11", CycloneModel, [ProcAppleA11]>; def : ProcessorModel<"apple-a12", CycloneModel, [ProcAppleA12]>; def : ProcessorModel<"apple-a13", CycloneModel, [ProcAppleA13]>; // watch CPUs. def : ProcessorModel<"apple-s4", CycloneModel, [ProcAppleA12]>; def : ProcessorModel<"apple-s5", CycloneModel, [ProcAppleA12]>; // Alias for the latest Apple processor model supported by LLVM. def : ProcessorModel<"apple-latest", CycloneModel, [ProcAppleA13]>; //===----------------------------------------------------------------------===// // Assembly parser //===----------------------------------------------------------------------===// def GenericAsmParserVariant : AsmParserVariant { int Variant = 0; string Name = "generic"; string BreakCharacters = "."; string TokenizingCharacters = "[]*!/"; } def AppleAsmParserVariant : AsmParserVariant { int Variant = 1; string Name = "apple-neon"; string BreakCharacters = "."; string TokenizingCharacters = "[]*!/"; } //===----------------------------------------------------------------------===// // Assembly printer //===----------------------------------------------------------------------===// // AArch64 Uses the MC printer for asm output, so make sure the TableGen // AsmWriter bits get associated with the correct class. def GenericAsmWriter : AsmWriter { string AsmWriterClassName = "InstPrinter"; int PassSubtarget = 1; int Variant = 0; bit isMCAsmWriter = 1; } def AppleAsmWriter : AsmWriter { let AsmWriterClassName = "AppleInstPrinter"; int PassSubtarget = 1; int Variant = 1; int isMCAsmWriter = 1; } //===----------------------------------------------------------------------===// // Target Declaration //===----------------------------------------------------------------------===// def AArch64 : Target { let InstructionSet = AArch64InstrInfo; let AssemblyParserVariants = [GenericAsmParserVariant, AppleAsmParserVariant]; let AssemblyWriters = [GenericAsmWriter, AppleAsmWriter]; let AllowRegisterRenaming = 1; } //===----------------------------------------------------------------------===// // Pfm Counters //===----------------------------------------------------------------------===// include "AArch64PfmCounters.td"