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ca0f4dc4f0
This commit starts with a "git mv ARM64 AArch64" and continues out from there, renaming the C++ classes, intrinsics, and other target-local objects for consistency. "ARM64" test directories are also moved, and tests that began their life in ARM64 use an arm64 triple, those from AArch64 use an aarch64 triple. Both should be equivalent though. This finishes the AArch64 merge, and everyone should feel free to continue committing as normal now. llvm-svn: 209577
866 lines
30 KiB
TableGen
866 lines
30 KiB
TableGen
//=- ARMSchedCyclone.td - AArch64 Cyclone Scheduling Defs ----*- tablegen -*-=//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file defines the machine model for AArch64 Cyclone to support
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// instruction scheduling and other instruction cost heuristics.
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//
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//===----------------------------------------------------------------------===//
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def CycloneModel : SchedMachineModel {
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let IssueWidth = 6; // 6 micro-ops are dispatched per cycle.
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let MicroOpBufferSize = 192; // Based on the reorder buffer.
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let LoadLatency = 4; // Optimistic load latency.
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let MispredictPenalty = 16; // 14-19 cycles are typical.
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}
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//===----------------------------------------------------------------------===//
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// Define each kind of processor resource and number available on Cyclone.
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// 4 integer pipes
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def CyUnitI : ProcResource<4> {
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let BufferSize = 48;
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}
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// 2 branch units: I[0..1]
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def CyUnitB : ProcResource<2> {
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let Super = CyUnitI;
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let BufferSize = 24;
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}
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// 1 indirect-branch unit: I[0]
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def CyUnitBR : ProcResource<1> {
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let Super = CyUnitB;
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}
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// 2 shifter pipes: I[2..3]
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// When an instruction consumes a CyUnitIS, it also consumes a CyUnitI
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def CyUnitIS : ProcResource<2> {
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let Super = CyUnitI;
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let BufferSize = 24;
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}
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// 1 mul pipe: I[0]
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def CyUnitIM : ProcResource<1> {
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let Super = CyUnitBR;
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let BufferSize = 32;
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}
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// 1 div pipe: I[1]
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def CyUnitID : ProcResource<1> {
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let Super = CyUnitB;
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let BufferSize = 16;
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}
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// 1 integer division unit. This is driven by the ID pipe, but only
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// consumes the pipe for one cycle at issue and another cycle at writeback.
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def CyUnitIntDiv : ProcResource<1>;
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// 2 ld/st pipes.
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def CyUnitLS : ProcResource<2> {
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let BufferSize = 28;
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}
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// 3 fp/vector pipes.
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def CyUnitV : ProcResource<3> {
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let BufferSize = 48;
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}
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// 2 fp/vector arithmetic and multiply pipes: V[0-1]
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def CyUnitVM : ProcResource<2> {
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let Super = CyUnitV;
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let BufferSize = 32;
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}
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// 1 fp/vector division/sqrt pipe: V[2]
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def CyUnitVD : ProcResource<1> {
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let Super = CyUnitV;
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let BufferSize = 16;
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}
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// 1 fp compare pipe: V[0]
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def CyUnitVC : ProcResource<1> {
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let Super = CyUnitVM;
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let BufferSize = 16;
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}
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// 2 fp division/square-root units. These are driven by the VD pipe,
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// but only consume the pipe for one cycle at issue and a cycle at writeback.
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def CyUnitFloatDiv : ProcResource<2>;
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//===----------------------------------------------------------------------===//
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// Define scheduler read/write resources and latency on Cyclone.
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// This mirrors sections 7.7-7.9 of the Tuning Guide v1.0.1.
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let SchedModel = CycloneModel in {
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//---
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// 7.8.1. Moves
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//---
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// A single nop micro-op (uX).
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def WriteX : SchedWriteRes<[]> { let Latency = 0; }
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// Move zero is a register rename (to machine register zero).
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// The move is replaced by a single nop micro-op.
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// MOVZ Rd, #0
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// AND Rd, Rzr, #imm
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def WriteZPred : SchedPredicate<[{TII->isGPRZero(MI)}]>;
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def WriteImmZ : SchedWriteVariant<[
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SchedVar<WriteZPred, [WriteX]>,
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SchedVar<NoSchedPred, [WriteImm]>]>;
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def : InstRW<[WriteImmZ], (instrs MOVZWi,MOVZXi,ANDWri,ANDXri)>;
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// Move GPR is a register rename and single nop micro-op.
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// ORR Xd, XZR, Xm
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// ADD Xd, Xn, #0
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def WriteIMovPred : SchedPredicate<[{TII->isGPRCopy(MI)}]>;
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def WriteVMovPred : SchedPredicate<[{TII->isFPRCopy(MI)}]>;
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def WriteMov : SchedWriteVariant<[
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SchedVar<WriteIMovPred, [WriteX]>,
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SchedVar<WriteVMovPred, [WriteX]>,
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SchedVar<NoSchedPred, [WriteI]>]>;
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def : InstRW<[WriteMov], (instrs COPY,ORRXrr,ADDXrr)>;
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// Move non-zero immediate is an integer ALU op.
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// MOVN,MOVZ,MOVK
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def : WriteRes<WriteImm, [CyUnitI]>;
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//---
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// 7.8.2-7.8.5. Arithmetic and Logical, Comparison, Conditional,
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// Shifts and Bitfield Operations
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//---
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// ADR,ADRP
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// ADD(S)ri,SUB(S)ri,AND(S)ri,EORri,ORRri
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// ADD(S)rr,SUB(S)rr,AND(S)rr,BIC(S)rr,EONrr,EORrr,ORNrr,ORRrr
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// ADC(S),SBC(S)
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// Aliases: CMN, CMP, TST
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//
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// Conditional operations.
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// CCMNi,CCMPi,CCMNr,CCMPr,
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// CSEL,CSINC,CSINV,CSNEG
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//
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// Bit counting and reversal operations.
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// CLS,CLZ,RBIT,REV,REV16,REV32
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def : WriteRes<WriteI, [CyUnitI]>;
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// ADD with shifted register operand is a single micro-op that
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// consumes a shift pipeline for two cycles.
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// ADD(S)rs,SUB(S)rs,AND(S)rs,BIC(S)rs,EONrs,EORrs,ORNrs,ORRrs
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// EXAMPLE: ADDrs Xn, Xm LSL #imm
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def : WriteRes<WriteISReg, [CyUnitIS]> {
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let Latency = 2;
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let ResourceCycles = [2];
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}
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// ADD with extended register operand is the same as shifted reg operand.
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// ADD(S)re,SUB(S)re
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// EXAMPLE: ADDXre Xn, Xm, UXTB #1
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def : WriteRes<WriteIEReg, [CyUnitIS]> {
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let Latency = 2;
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let ResourceCycles = [2];
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}
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// Variable shift and bitfield operations.
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// ASRV,LSLV,LSRV,RORV,BFM,SBFM,UBFM
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def : WriteRes<WriteIS, [CyUnitIS]>;
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// EXTR Shifts a pair of registers and requires two micro-ops.
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// The second micro-op is delayed, as modeled by ReadExtrHi.
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// EXTR Xn, Xm, #imm
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def : WriteRes<WriteExtr, [CyUnitIS, CyUnitIS]> {
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let Latency = 2;
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let NumMicroOps = 2;
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}
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// EXTR's first register read is delayed by one cycle, effectively
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// shortening its writer's latency.
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// EXTR Xn, Xm, #imm
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def : ReadAdvance<ReadExtrHi, 1>;
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//---
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// 7.8.6. Multiplies
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//---
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// MUL/MNEG are aliases for MADD/MSUB.
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// MADDW,MSUBW,SMADDL,SMSUBL,UMADDL,UMSUBL
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def : WriteRes<WriteIM32, [CyUnitIM]> {
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let Latency = 4;
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}
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// MADDX,MSUBX,SMULH,UMULH
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def : WriteRes<WriteIM64, [CyUnitIM]> {
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let Latency = 5;
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}
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//---
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// 7.8.7. Divide
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//---
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// 32-bit divide takes 7-13 cycles. 10 cycles covers a 20-bit quotient.
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// The ID pipe is consumed for 2 cycles: issue and writeback.
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// SDIVW,UDIVW
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def : WriteRes<WriteID32, [CyUnitID, CyUnitIntDiv]> {
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let Latency = 10;
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let ResourceCycles = [2, 10];
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}
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// 64-bit divide takes 7-21 cycles. 13 cycles covers a 32-bit quotient.
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// The ID pipe is consumed for 2 cycles: issue and writeback.
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// SDIVX,UDIVX
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def : WriteRes<WriteID64, [CyUnitID, CyUnitIntDiv]> {
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let Latency = 13;
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let ResourceCycles = [2, 13];
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}
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//---
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// 7.8.8,7.8.10. Load/Store, single element
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//---
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// Integer loads take 4 cycles and use one LS unit for one cycle.
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def : WriteRes<WriteLD, [CyUnitLS]> {
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let Latency = 4;
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}
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// Store-load forwarding is 4 cycles.
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//
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// Note: The store-exclusive sequence incorporates this
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// latency. However, general heuristics should not model the
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// dependence between a store and subsequent may-alias load because
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// hardware speculation works.
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def : WriteRes<WriteST, [CyUnitLS]> {
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let Latency = 4;
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}
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// Load from base address plus an optionally scaled register offset.
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// Rt latency is latency WriteIS + WriteLD.
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// EXAMPLE: LDR Xn, Xm [, lsl 3]
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def CyWriteLDIdx : SchedWriteVariant<[
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SchedVar<ScaledIdxPred, [WriteIS, WriteLD]>, // Load from scaled register.
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SchedVar<NoSchedPred, [WriteLD]>]>; // Load from register offset.
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def : SchedAlias<WriteLDIdx, CyWriteLDIdx>; // Map AArch64->Cyclone type.
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// EXAMPLE: STR Xn, Xm [, lsl 3]
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def CyWriteSTIdx : SchedWriteVariant<[
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SchedVar<ScaledIdxPred, [WriteIS, WriteST]>, // Store to scaled register.
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SchedVar<NoSchedPred, [WriteST]>]>; // Store to register offset.
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def : SchedAlias<WriteSTIdx, CyWriteSTIdx>; // Map AArch64->Cyclone type.
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// Read the (unshifted) base register Xn in the second micro-op one cycle later.
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// EXAMPLE: LDR Xn, Xm [, lsl 3]
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def ReadBaseRS : SchedReadAdvance<1>;
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def CyReadAdrBase : SchedReadVariant<[
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SchedVar<ScaledIdxPred, [ReadBaseRS]>, // Read base reg after shifting offset.
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SchedVar<NoSchedPred, [ReadDefault]>]>; // Read base reg with no shift.
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def : SchedAlias<ReadAdrBase, CyReadAdrBase>; // Map AArch64->Cyclone type.
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//---
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// 7.8.9,7.8.11. Load/Store, paired
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//---
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// Address pre/post increment is a simple ALU op with one cycle latency.
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def : WriteRes<WriteAdr, [CyUnitI]>;
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// LDP high register write is fused with the load, but a nop micro-op remains.
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def : WriteRes<WriteLDHi, []> {
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let Latency = 4;
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}
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// STP is a vector op and store, except for QQ, which is just two stores.
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def : SchedAlias<WriteSTP, WriteVSTShuffle>;
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def : InstRW<[WriteST, WriteST], (instrs STPQi)>;
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//---
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// 7.8.13. Branches
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//---
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// Branches take a single micro-op.
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// The misprediction penalty is defined as a SchedMachineModel property.
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def : WriteRes<WriteBr, [CyUnitB]> {let Latency = 0;}
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def : WriteRes<WriteBrReg, [CyUnitBR]> {let Latency = 0;}
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//---
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// 7.8.14. Never-issued Instructions, Barrier and Hint Operations
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//---
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// NOP,SEV,SEVL,WFE,WFI,YIELD
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def : WriteRes<WriteHint, []> {let Latency = 0;}
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// ISB
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def : InstRW<[WriteI], (instrs ISB)>;
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// SLREX,DMB,DSB
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def : WriteRes<WriteBarrier, [CyUnitLS]>;
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// System instructions get an invalid latency because the latency of
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// other operations across them is meaningless.
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def : WriteRes<WriteSys, []> {let Latency = -1;}
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//===----------------------------------------------------------------------===//
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// 7.9 Vector Unit Instructions
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// Simple vector operations take 2 cycles.
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def : WriteRes<WriteV, [CyUnitV]> {let Latency = 2;}
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// Define some longer latency vector op types for Cyclone.
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def CyWriteV3 : SchedWriteRes<[CyUnitV]> {let Latency = 3;}
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def CyWriteV4 : SchedWriteRes<[CyUnitV]> {let Latency = 4;}
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def CyWriteV5 : SchedWriteRes<[CyUnitV]> {let Latency = 5;}
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def CyWriteV6 : SchedWriteRes<[CyUnitV]> {let Latency = 6;}
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// Simple floating-point operations take 2 cycles.
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def : WriteRes<WriteF, [CyUnitV]> {let Latency = 2;}
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//---
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// 7.9.1 Vector Moves
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//---
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// TODO: Add Cyclone-specific zero-cycle zeros. LLVM currently
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// generates expensive int-float conversion instead:
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// FMOVDi Dd, #0.0
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// FMOVv2f64ns Vd.2d, #0.0
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// FMOVSi,FMOVDi
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def : WriteRes<WriteFImm, [CyUnitV]> {let Latency = 2;}
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// MOVI,MVNI are WriteV
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// FMOVv2f32ns,FMOVv2f64ns,FMOVv4f32ns are WriteV
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// Move FPR is a register rename and single nop micro-op.
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// ORR.16b Vd,Vn,Vn
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// COPY is handled above in the WriteMov Variant.
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def WriteVMov : SchedWriteVariant<[
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SchedVar<WriteVMovPred, [WriteX]>,
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SchedVar<NoSchedPred, [WriteV]>]>;
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def : InstRW<[WriteVMov], (instrs ORRv16i8)>;
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// FMOVSr,FMOVDr are WriteF.
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// MOV V,V is a WriteV.
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// CPY D,V[x] is a WriteV
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// INS V[x],V[y] is a WriteV.
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// FMOVWSr,FMOVXDr,FMOVXDHighr
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def : WriteRes<WriteFCopy, [CyUnitLS]> {
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let Latency = 5;
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}
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// FMOVSWr,FMOVDXr
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def : InstRW<[WriteLD], (instrs FMOVSWr,FMOVDXr,FMOVDXHighr)>;
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// INS V[x],R
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def CyWriteCopyToFPR : WriteSequence<[WriteVLD, WriteV]>;
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def : InstRW<[CyWriteCopyToFPR], (instregex "INSv")>;
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// SMOV,UMOV R,V[x]
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def CyWriteCopyToGPR : WriteSequence<[WriteLD, WriteI]>;
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def : InstRW<[CyWriteCopyToGPR], (instregex "SMOVv","UMOVv")>;
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// DUP V,R
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def : InstRW<[CyWriteCopyToFPR], (instregex "DUPv")>;
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// DUP V,V[x] is a WriteV.
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//---
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// 7.9.2 Integer Arithmetic, Logical, and Comparisons
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//---
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// BIC,ORR V,#imm are WriteV
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def : InstRW<[CyWriteV3], (instregex "ABSv")>;
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// MVN,NEG,NOT are WriteV
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def : InstRW<[CyWriteV3], (instregex "SQABSv","SQNEGv")>;
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// ADDP is a WriteV.
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def CyWriteVADDLP : SchedWriteRes<[CyUnitV]> {let Latency = 2;}
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def : InstRW<[CyWriteVADDLP], (instregex "SADDLPv","UADDLPv")>;
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def : InstRW<[CyWriteV3],
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(instregex "ADDVv","SMAXVv","UMAXVv","SMINVv","UMINVv")>;
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def : InstRW<[CyWriteV3], (instregex "SADDLV","UADDLV")>;
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// ADD,SUB are WriteV
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// Forward declare.
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def CyWriteVABD : SchedWriteRes<[CyUnitV]> {let Latency = 3;}
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// Add/Diff and accumulate uses the vector multiply unit.
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def CyWriteVAccum : SchedWriteRes<[CyUnitVM]> {let Latency = 3;}
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def CyReadVAccum : SchedReadAdvance<1,
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[CyWriteVAccum, CyWriteVADDLP, CyWriteVABD]>;
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def : InstRW<[CyWriteVAccum, CyReadVAccum],
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(instregex "SADALP","UADALP")>;
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def : InstRW<[CyWriteVAccum, CyReadVAccum],
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(instregex "SABAv","UABAv","SABALv","UABALv")>;
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def : InstRW<[CyWriteV3], (instregex "SQADDv","SQSUBv","UQADDv","UQSUBv")>;
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def : InstRW<[CyWriteV3], (instregex "SUQADDv","USQADDv")>;
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def : InstRW<[CyWriteV4], (instregex "ADDHNv","RADDHNv", "RSUBHNv", "SUBHNv")>;
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// WriteV includes:
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// AND,BIC,CMTST,EOR,ORN,ORR
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// ADDP
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// SHADD,SHSUB,SRHADD,UHADD,UHSUB,URHADD
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// SADDL,SSUBL,UADDL,USUBL
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// SADDW,SSUBW,UADDW,USUBW
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def : InstRW<[CyWriteV3], (instregex "CMEQv","CMGEv","CMGTv",
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"CMLEv","CMLTv",
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"CMHIv","CMHSv")>;
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def : InstRW<[CyWriteV3], (instregex "SMAXv","SMINv","UMAXv","UMINv",
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"SMAXPv","SMINPv","UMAXPv","UMINPv")>;
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def : InstRW<[CyWriteVABD], (instregex "SABDv","UABDv",
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"SABDLv","UABDLv")>;
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//---
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// 7.9.3 Floating Point Arithmetic and Comparisons
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//---
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// FABS,FNEG are WriteF
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def : InstRW<[CyWriteV4], (instrs FADDPv2i32p)>;
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def : InstRW<[CyWriteV5], (instrs FADDPv2i64p)>;
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def : InstRW<[CyWriteV3], (instregex "FMAXPv2i","FMAXNMPv2i",
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"FMINPv2i","FMINNMPv2i")>;
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def : InstRW<[CyWriteV4], (instregex "FMAXVv","FMAXNMVv","FMINVv","FMINNMVv")>;
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def : InstRW<[CyWriteV4], (instrs FADDSrr,FADDv2f32,FADDv4f32,
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FSUBSrr,FSUBv2f32,FSUBv4f32,
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FADDPv2f32,FADDPv4f32,
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FABD32,FABDv2f32,FABDv4f32)>;
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def : InstRW<[CyWriteV5], (instrs FADDDrr,FADDv2f64,
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FSUBDrr,FSUBv2f64,
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FADDPv2f64,
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FABD64,FABDv2f64)>;
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def : InstRW<[CyWriteV3], (instregex "FCMEQ","FCMGT","FCMLE","FCMLT")>;
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def : InstRW<[CyWriteV3], (instregex "FACGE","FACGT",
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"FMAXS","FMAXD","FMAXv",
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"FMINS","FMIND","FMINv",
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"FMAXNMS","FMAXNMD","FMAXNMv",
|
|
"FMINNMS","FMINNMD","FMINNMv",
|
|
"FMAXPv2f","FMAXPv4f",
|
|
"FMINPv2f","FMINPv4f",
|
|
"FMAXNMPv2f","FMAXNMPv4f",
|
|
"FMINNMPv2f","FMINNMPv4f")>;
|
|
|
|
// FCMP,FCMPE,FCCMP,FCCMPE
|
|
def : WriteRes<WriteFCmp, [CyUnitVC]> {let Latency = 4;}
|
|
|
|
// FCSEL is a WriteF.
|
|
|
|
//---
|
|
// 7.9.4 Shifts and Bitfield Operations
|
|
//---
|
|
|
|
// SHL is a WriteV
|
|
|
|
def CyWriteVSHR : SchedWriteRes<[CyUnitV]> {let Latency = 2;}
|
|
def : InstRW<[CyWriteVSHR], (instregex "SSHRv","USHRv")>;
|
|
|
|
def CyWriteVSRSHR : SchedWriteRes<[CyUnitV]> {let Latency = 3;}
|
|
def : InstRW<[CyWriteVSRSHR], (instregex "SRSHRv","URSHRv")>;
|
|
|
|
// Shift and accumulate uses the vector multiply unit.
|
|
def CyWriteVShiftAcc : SchedWriteRes<[CyUnitVM]> {let Latency = 3;}
|
|
def CyReadVShiftAcc : SchedReadAdvance<1,
|
|
[CyWriteVShiftAcc, CyWriteVSHR, CyWriteVSRSHR]>;
|
|
def : InstRW<[CyWriteVShiftAcc, CyReadVShiftAcc],
|
|
(instregex "SRSRAv","SSRAv","URSRAv","USRAv")>;
|
|
|
|
// SSHL,USHL are WriteV.
|
|
|
|
def : InstRW<[CyWriteV3], (instregex "SRSHLv","URSHLv")>;
|
|
|
|
// SQSHL,SQSHLU,UQSHL are WriteV.
|
|
|
|
def : InstRW<[CyWriteV3], (instregex "SQRSHLv","UQRSHLv")>;
|
|
|
|
// WriteV includes:
|
|
// SHLL,SSHLL,USHLL
|
|
// SLI,SRI
|
|
// BIF,BIT,BSL
|
|
// EXT
|
|
// CLS,CLZ,CNT,RBIT,REV16,REV32,REV64,XTN
|
|
// XTN2
|
|
|
|
def : InstRW<[CyWriteV4],
|
|
(instregex "RSHRNv","SHRNv",
|
|
"SQRSHRNv","SQRSHRUNv","SQSHRNv","SQSHRUNv",
|
|
"UQRSHRNv","UQSHRNv","SQXTNv","SQXTUNv","UQXTNv")>;
|
|
|
|
//---
|
|
// 7.9.5 Multiplication
|
|
//---
|
|
|
|
def CyWriteVMul : SchedWriteRes<[CyUnitVM]> { let Latency = 4;}
|
|
def : InstRW<[CyWriteVMul], (instregex "MULv","SMULLv","UMULLv",
|
|
"SQDMULLv","SQDMULHv","SQRDMULHv")>;
|
|
|
|
// FMUL,FMULX,FNMUL default to WriteFMul.
|
|
def : WriteRes<WriteFMul, [CyUnitVM]> { let Latency = 4;}
|
|
|
|
def CyWriteV64Mul : SchedWriteRes<[CyUnitVM]> { let Latency = 5;}
|
|
def : InstRW<[CyWriteV64Mul], (instrs FMULDrr,FMULv2f64,FMULv2i64_indexed,
|
|
FNMULDrr,FMULX64,FMULXv2f64,FMULXv2i64_indexed)>;
|
|
|
|
def CyReadVMulAcc : SchedReadAdvance<1, [CyWriteVMul, CyWriteV64Mul]>;
|
|
def : InstRW<[CyWriteVMul, CyReadVMulAcc],
|
|
(instregex "MLA","MLS","SMLAL","SMLSL","UMLAL","UMLSL",
|
|
"SQDMLAL","SQDMLSL")>;
|
|
|
|
def CyWriteSMul : SchedWriteRes<[CyUnitVM]> { let Latency = 8;}
|
|
def CyWriteDMul : SchedWriteRes<[CyUnitVM]> { let Latency = 10;}
|
|
def CyReadSMul : SchedReadAdvance<4, [CyWriteSMul]>;
|
|
def CyReadDMul : SchedReadAdvance<5, [CyWriteDMul]>;
|
|
|
|
def : InstRW<[CyWriteSMul, CyReadSMul],
|
|
(instrs FMADDSrrr,FMSUBSrrr,FNMADDSrrr,FNMSUBSrrr,
|
|
FMLAv2f32,FMLAv4f32,
|
|
FMLAv1i32_indexed,FMLAv1i64_indexed,FMLAv2i32_indexed)>;
|
|
def : InstRW<[CyWriteDMul, CyReadDMul],
|
|
(instrs FMADDDrrr,FMSUBDrrr,FNMADDDrrr,FNMSUBDrrr,
|
|
FMLAv2f64,FMLAv2i64_indexed,
|
|
FMLSv2f64,FMLSv2i64_indexed)>;
|
|
|
|
def CyWritePMUL : SchedWriteRes<[CyUnitVD]> { let Latency = 3; }
|
|
def : InstRW<[CyWritePMUL], (instregex "PMULv", "PMULLv")>;
|
|
|
|
//---
|
|
// 7.9.6 Divide and Square Root
|
|
//---
|
|
|
|
// FDIV,FSQRT
|
|
// TODO: Add 64-bit variant with 19 cycle latency.
|
|
// TODO: Specialize FSQRT for longer latency.
|
|
def : WriteRes<WriteFDiv, [CyUnitVD, CyUnitFloatDiv]> {
|
|
let Latency = 17;
|
|
let ResourceCycles = [2, 17];
|
|
}
|
|
|
|
def : InstRW<[CyWriteV4], (instregex "FRECPEv","FRECPXv","URECPEv","URSQRTEv")>;
|
|
|
|
def WriteFRSQRTE : SchedWriteRes<[CyUnitVM]> { let Latency = 4; }
|
|
def : InstRW<[WriteFRSQRTE], (instregex "FRSQRTEv")>;
|
|
|
|
def WriteFRECPS : SchedWriteRes<[CyUnitVM]> { let Latency = 8; }
|
|
def WriteFRSQRTS : SchedWriteRes<[CyUnitVM]> { let Latency = 10; }
|
|
def : InstRW<[WriteFRECPS], (instregex "FRECPSv")>;
|
|
def : InstRW<[WriteFRSQRTS], (instregex "FRSQRTSv")>;
|
|
|
|
//---
|
|
// 7.9.7 Integer-FP Conversions
|
|
//---
|
|
|
|
// FCVT lengthen f16/s32
|
|
def : InstRW<[WriteV], (instrs FCVTSHr,FCVTDHr,FCVTDSr)>;
|
|
|
|
// FCVT,FCVTN,FCVTXN
|
|
// SCVTF,UCVTF V,V
|
|
// FRINT(AIMNPXZ) V,V
|
|
def : WriteRes<WriteFCvt, [CyUnitV]> {let Latency = 4;}
|
|
|
|
// SCVT/UCVT S/D, Rd = VLD5+V4: 9 cycles.
|
|
def CyWriteCvtToFPR : WriteSequence<[WriteVLD, CyWriteV4]>;
|
|
def : InstRW<[CyWriteCopyToFPR], (instregex "FCVT[AMNPZ][SU][SU][WX][SD]r")>;
|
|
|
|
// FCVT Rd, S/D = V6+LD4: 10 cycles
|
|
def CyWriteCvtToGPR : WriteSequence<[CyWriteV6, WriteLD]>;
|
|
def : InstRW<[CyWriteCvtToGPR], (instregex "[SU]CVTF[SU][WX][SD]r")>;
|
|
|
|
// FCVTL is a WriteV
|
|
|
|
//---
|
|
// 7.9.8-7.9.10 Cryptography, Data Transposition, Table Lookup
|
|
//---
|
|
|
|
def CyWriteCrypto2 : SchedWriteRes<[CyUnitVD]> {let Latency = 2;}
|
|
def : InstRW<[CyWriteCrypto2], (instrs AESIMCrr, AESMCrr, SHA1Hrr,
|
|
AESDrr, AESErr, SHA1SU1rr, SHA256SU0rr,
|
|
SHA1SU0rrr)>;
|
|
|
|
def CyWriteCrypto3 : SchedWriteRes<[CyUnitVD]> {let Latency = 3;}
|
|
def : InstRW<[CyWriteCrypto3], (instrs SHA256SU1rrr)>;
|
|
|
|
def CyWriteCrypto6 : SchedWriteRes<[CyUnitVD]> {let Latency = 6;}
|
|
def : InstRW<[CyWriteCrypto6], (instrs SHA1Crrr, SHA1Mrrr, SHA1Prrr,
|
|
SHA256Hrrr,SHA256H2rrr)>;
|
|
|
|
// TRN,UZP,ZUP are WriteV.
|
|
|
|
// TBL,TBX are WriteV.
|
|
|
|
//---
|
|
// 7.9.11-7.9.14 Load/Store, single element and paired
|
|
//---
|
|
|
|
// Loading into the vector unit takes 5 cycles vs 4 for integer loads.
|
|
def : WriteRes<WriteVLD, [CyUnitLS]> {
|
|
let Latency = 5;
|
|
}
|
|
|
|
// Store-load forwarding is 4 cycles.
|
|
def : WriteRes<WriteVST, [CyUnitLS]> {
|
|
let Latency = 4;
|
|
}
|
|
|
|
// WriteVLDPair/VSTPair sequences are expanded by the target description.
|
|
|
|
//---
|
|
// 7.9.15 Load, element operations
|
|
//---
|
|
|
|
// Only the first WriteVLD and WriteAdr for writeback matches def operands.
|
|
// Subsequent WriteVLDs consume resources. Since all loaded values have the
|
|
// same latency, this is acceptable.
|
|
|
|
// Vd is read 5 cycles after issuing the vector load.
|
|
def : ReadAdvance<ReadVLD, 5>;
|
|
|
|
def : InstRW<[WriteVLD],
|
|
(instregex "LD1Onev(8b|4h|2s|1d|16b|8h|4s|2d)$")>;
|
|
def : InstRW<[WriteVLD, WriteAdr],
|
|
(instregex "LD1Onev(8b|4h|2s|1d|16b|8h|4s|2d)_POST")>;
|
|
|
|
// Register writes from the load's high half are fused micro-ops.
|
|
def : InstRW<[WriteVLD],
|
|
(instregex "LD1Twov(8b|4h|2s|1d)$")>;
|
|
def : InstRW<[WriteVLD, WriteAdr],
|
|
(instregex "LD1Twov(8b|4h|2s|1d)_POST")>;
|
|
def : InstRW<[WriteVLD, WriteVLD],
|
|
(instregex "LD1Twov(16b|8h|4s|2d)$")>;
|
|
def : InstRW<[WriteVLD, WriteAdr, WriteVLD],
|
|
(instregex "LD1Twov(16b|8h|4s|2d)_POST")>;
|
|
|
|
def : InstRW<[WriteVLD, WriteVLD],
|
|
(instregex "LD1Threev(8b|4h|2s|1d)$")>;
|
|
def : InstRW<[WriteVLD, WriteAdr, WriteVLD],
|
|
(instregex "LD1Threev(8b|4h|2s|1d)_POST")>;
|
|
def : InstRW<[WriteVLD, WriteVLD, WriteVLD],
|
|
(instregex "LD1Threev(16b|8h|4s|2d)$")>;
|
|
def : InstRW<[WriteVLD, WriteAdr, WriteVLD, WriteVLD],
|
|
(instregex "LD1Threev(16b|8h|4s|2d)_POST")>;
|
|
|
|
def : InstRW<[WriteVLD, WriteVLD],
|
|
(instregex "LD1Fourv(8b|4h|2s|1d)$")>;
|
|
def : InstRW<[WriteVLD, WriteAdr, WriteVLD],
|
|
(instregex "LD1Fourv(8b|4h|2s|1d)_POST")>;
|
|
def : InstRW<[WriteVLD, WriteVLD, WriteVLD, WriteVLD],
|
|
(instregex "LD1Fourv(16b|8h|4s|2d)$")>;
|
|
def : InstRW<[WriteVLD, WriteAdr, WriteVLD, WriteVLD, WriteVLD],
|
|
(instregex "LD1Fourv(16b|8h|4s|2d)_POST")>;
|
|
|
|
def : InstRW<[WriteVLDShuffle, ReadVLD],
|
|
(instregex "LD1i(8|16|32)$")>;
|
|
def : InstRW<[WriteVLDShuffle, ReadVLD, WriteAdr],
|
|
(instregex "LD1i(8|16|32)_POST")>;
|
|
|
|
def : InstRW<[WriteVLDShuffle, ReadVLD], (instrs LD1i64)>;
|
|
def : InstRW<[WriteVLDShuffle, ReadVLD, WriteAdr],(instrs LD1i64_POST)>;
|
|
|
|
def : InstRW<[WriteVLDShuffle],
|
|
(instregex "LD1Rv(8b|4h|2s|1d|16b|8h|4s|2d)$")>;
|
|
def : InstRW<[WriteVLDShuffle, WriteAdr],
|
|
(instregex "LD1Rv(8b|4h|2s|1d|16b|8h|4s|2d)_POST$")>;
|
|
|
|
def : InstRW<[WriteVLDShuffle, WriteV],
|
|
(instregex "LD2Twov(8b|4h|2s)$")>;
|
|
def : InstRW<[WriteVLDShuffle, WriteAdr, WriteV],
|
|
(instregex "LD2Twov(8b|4h|2s)_POST$")>;
|
|
def : InstRW<[WriteVLDShuffle, WriteVLDShuffle],
|
|
(instregex "LD2Twov(16b|8h|4s|2d)$")>;
|
|
def : InstRW<[WriteVLDShuffle, WriteAdr, WriteVLDShuffle],
|
|
(instregex "LD2Twov(16b|8h|4s|2d)_POST")>;
|
|
|
|
def : InstRW<[WriteVLDShuffle, ReadVLD, WriteV],
|
|
(instregex "LD2i(8|16|32)$")>;
|
|
def : InstRW<[WriteVLDShuffle, ReadVLD, WriteAdr, WriteV],
|
|
(instregex "LD2i(8|16|32)_POST")>;
|
|
def : InstRW<[WriteVLDShuffle, ReadVLD, WriteV],
|
|
(instregex "LD2i64$")>;
|
|
def : InstRW<[WriteVLDShuffle, ReadVLD, WriteAdr, WriteV],
|
|
(instregex "LD2i64_POST")>;
|
|
|
|
def : InstRW<[WriteVLDShuffle, WriteV],
|
|
(instregex "LD2Rv(8b|4h|2s|1d|16b|8h|4s|2d)$")>;
|
|
def : InstRW<[WriteVLDShuffle, WriteAdr, WriteV],
|
|
(instregex "LD2Rv(8b|4h|2s|1d|16b|8h|4s|2d)_POST")>;
|
|
|
|
def : InstRW<[WriteVLDShuffle, WriteVLDShuffle, WriteV],
|
|
(instregex "LD3Threev(8b|4h|2s)$")>;
|
|
def : InstRW<[WriteVLDShuffle, WriteAdr, WriteVLDShuffle, WriteV],
|
|
(instregex "LD3Threev(8b|4h|2s)_POST")>;
|
|
def : InstRW<[WriteVLDShuffle, WriteVLDShuffle, WriteVLDShuffle],
|
|
(instregex "LD3Threev(16b|8h|4s|2d)$")>;
|
|
def : InstRW<[WriteVLDShuffle, WriteAdr, WriteVLDShuffle, WriteVLDShuffle],
|
|
(instregex "LD3Threev(16b|8h|4s|2d)_POST")>;
|
|
|
|
def : InstRW<[WriteVLDShuffle, ReadVLD, WriteV, WriteV],
|
|
(instregex "LD3i(8|16|32)$")>;
|
|
def : InstRW<[WriteVLDShuffle, ReadVLD, WriteAdr, WriteV, WriteV],
|
|
(instregex "LD3i(8|16|32)_POST")>;
|
|
|
|
def : InstRW<[WriteVLDShuffle, ReadVLD, WriteVLDShuffle, WriteV],
|
|
(instregex "LD3i64$")>;
|
|
def : InstRW<[WriteVLDShuffle, ReadVLD, WriteAdr, WriteVLDShuffle, WriteV],
|
|
(instregex "LD3i64_POST")>;
|
|
|
|
def : InstRW<[WriteVLDShuffle, WriteV, WriteV],
|
|
(instregex "LD3Rv(8b|4h|2s|16b|8h|4s)$")>;
|
|
def : InstRW<[WriteVLDShuffle, WriteAdr, WriteV, WriteV],
|
|
(instregex "LD3Rv(8b|4h|2s|16b|8h|4s)_POST")>;
|
|
|
|
def : InstRW<[WriteVLDShuffle, WriteVLDShuffle, WriteV],
|
|
(instrs LD3Rv1d,LD3Rv2d)>;
|
|
def : InstRW<[WriteVLDShuffle, WriteAdr, WriteVLDShuffle, WriteV],
|
|
(instrs LD3Rv2d_POST,LD3Rv2d_POST)>;
|
|
|
|
def : InstRW<[WriteVLDShuffle, WriteVLDShuffle, WriteV, WriteV],
|
|
(instregex "LD4Fourv(8b|4h|2s)$")>;
|
|
def : InstRW<[WriteVLDShuffle, WriteAdr, WriteVLDShuffle, WriteV, WriteV],
|
|
(instregex "LD4Fourv(8b|4h|2s)_POST")>;
|
|
def : InstRW<[WriteVLDPairShuffle, WriteVLDPairShuffle,
|
|
WriteVLDPairShuffle, WriteVLDPairShuffle],
|
|
(instregex "LD4Fourv(16b|8h|4s|2d)$")>;
|
|
def : InstRW<[WriteVLDPairShuffle, WriteAdr, WriteVLDPairShuffle,
|
|
WriteVLDPairShuffle, WriteVLDPairShuffle],
|
|
(instregex "LD4Fourv(16b|8h|4s|2d)_POST")>;
|
|
|
|
def : InstRW<[WriteVLDShuffle, ReadVLD, WriteV, WriteV, WriteV],
|
|
(instregex "LD4i(8|16|32)$")>;
|
|
def : InstRW<[WriteVLDShuffle, ReadVLD, WriteAdr, WriteV, WriteV, WriteV],
|
|
(instregex "LD4i(8|16|32)_POST")>;
|
|
|
|
|
|
def : InstRW<[WriteVLDShuffle, ReadVLD, WriteVLDShuffle, WriteV, WriteV],
|
|
(instrs LD4i64)>;
|
|
def : InstRW<[WriteVLDShuffle, ReadVLD, WriteAdr, WriteVLDShuffle, WriteV],
|
|
(instrs LD4i64_POST)>;
|
|
|
|
def : InstRW<[WriteVLDShuffle, WriteV, WriteV, WriteV],
|
|
(instregex "LD4Rv(8b|4h|2s|16b|8h|4s)$")>;
|
|
def : InstRW<[WriteVLDShuffle, WriteAdr, WriteV, WriteV, WriteV],
|
|
(instregex "LD4Rv(8b|4h|2s|16b|8h|4s)_POST")>;
|
|
|
|
def : InstRW<[WriteVLDShuffle, WriteVLDShuffle, WriteV, WriteV],
|
|
(instrs LD4Rv1d,LD4Rv2d)>;
|
|
def : InstRW<[WriteVLDShuffle, WriteAdr, WriteVLDShuffle, WriteV, WriteV],
|
|
(instrs LD4Rv1d_POST,LD4Rv2d_POST)>;
|
|
|
|
//---
|
|
// 7.9.16 Store, element operations
|
|
//---
|
|
|
|
// Only the WriteAdr for writeback matches a def operands.
|
|
// Subsequent WriteVLDs only consume resources.
|
|
|
|
def : InstRW<[WriteVST],
|
|
(instregex "ST1Onev(8b|4h|2s|1d|16b|8h|4s|2d)$")>;
|
|
def : InstRW<[WriteAdr, WriteVST],
|
|
(instregex "ST1Onev(8b|4h|2s|1d|16b|8h|4s|2d)_POST")>;
|
|
|
|
def : InstRW<[WriteVSTShuffle],
|
|
(instregex "ST1Twov(8b|4h|2s|1d)$")>;
|
|
def : InstRW<[WriteAdr, WriteVSTShuffle],
|
|
(instregex "ST1Twov(8b|4h|2s|1d)_POST")>;
|
|
def : InstRW<[WriteVST, WriteVST],
|
|
(instregex "ST1Twov(16b|8h|4s|2d)$")>;
|
|
def : InstRW<[WriteAdr, WriteVST, WriteVST],
|
|
(instregex "ST1Twov(16b|8h|4s|2d)_POST")>;
|
|
|
|
def : InstRW<[WriteVSTShuffle, WriteVST],
|
|
(instregex "ST1Threev(8b|4h|2s|1d)$")>;
|
|
def : InstRW<[WriteAdr, WriteVSTShuffle, WriteVST],
|
|
(instregex "ST1Threev(8b|4h|2s|1d)_POST")>;
|
|
def : InstRW<[WriteVST, WriteVST, WriteVST],
|
|
(instregex "ST1Threev(16b|8h|4s|2d)$")>;
|
|
def : InstRW<[WriteAdr, WriteVST, WriteVST, WriteVST],
|
|
(instregex "ST1Threev(16b|8h|4s|2d)_POST")>;
|
|
|
|
def : InstRW<[WriteVSTShuffle, WriteVSTShuffle],
|
|
(instregex "ST1Fourv(8b|4h|2s|1d)$")>;
|
|
def : InstRW<[WriteAdr, WriteVSTShuffle, WriteVSTShuffle],
|
|
(instregex "ST1Fourv(8b|4h|2s|1d)_POST")>;
|
|
def : InstRW<[WriteVST, WriteVST, WriteVST, WriteVST],
|
|
(instregex "ST1Fourv(16b|8h|4s|2d)$")>;
|
|
def : InstRW<[WriteAdr, WriteVST, WriteVST, WriteVST, WriteVST],
|
|
(instregex "ST1Fourv(16b|8h|4s|2d)_POST")>;
|
|
|
|
def : InstRW<[WriteVSTShuffle], (instregex "ST1i(8|16|32)$")>;
|
|
def : InstRW<[WriteAdr, WriteVSTShuffle], (instregex "ST1i(8|16|32)_POST")>;
|
|
|
|
def : InstRW<[WriteVSTShuffle], (instrs ST1i64)>;
|
|
def : InstRW<[WriteAdr, WriteVSTShuffle], (instrs ST1i64_POST)>;
|
|
|
|
def : InstRW<[WriteVSTShuffle],
|
|
(instregex "ST2Twov(8b|4h|2s)$")>;
|
|
def : InstRW<[WriteAdr, WriteVSTShuffle],
|
|
(instregex "ST2Twov(8b|4h|2s)_POST")>;
|
|
def : InstRW<[WriteVSTShuffle, WriteVSTShuffle],
|
|
(instregex "ST2Twov(16b|8h|4s|2d)$")>;
|
|
def : InstRW<[WriteAdr, WriteVSTShuffle, WriteVSTShuffle],
|
|
(instregex "ST2Twov(16b|8h|4s|2d)_POST")>;
|
|
|
|
def : InstRW<[WriteVSTShuffle], (instregex "ST2i(8|16|32)$")>;
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def : InstRW<[WriteAdr, WriteVSTShuffle], (instregex "ST2i(8|16|32)_POST")>;
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def : InstRW<[WriteVSTShuffle], (instrs ST2i64)>;
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def : InstRW<[WriteAdr, WriteVSTShuffle], (instrs ST2i64_POST)>;
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def : InstRW<[WriteVSTShuffle, WriteVSTShuffle],
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(instregex "ST3Threev(8b|4h|2s)$")>;
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def : InstRW<[WriteAdr, WriteVSTShuffle, WriteVSTShuffle],
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(instregex "ST3Threev(8b|4h|2s)_POST")>;
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def : InstRW<[WriteVSTShuffle, WriteVSTShuffle, WriteVSTShuffle],
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(instregex "ST3Threev(16b|8h|4s|2d)$")>;
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def : InstRW<[WriteAdr, WriteVSTShuffle, WriteVSTShuffle, WriteVSTShuffle],
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(instregex "ST3Threev(16b|8h|4s|2d)_POST")>;
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|
|
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def : InstRW<[WriteVSTShuffle], (instregex "ST3i(8|16|32)$")>;
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def : InstRW<[WriteAdr, WriteVSTShuffle], (instregex "ST3i(8|16|32)_POST")>;
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|
|
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def :InstRW<[WriteVSTShuffle, WriteVSTShuffle], (instrs ST3i64)>;
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def :InstRW<[WriteAdr, WriteVSTShuffle, WriteVSTShuffle], (instrs ST3i64_POST)>;
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|
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def : InstRW<[WriteVSTPairShuffle, WriteVSTPairShuffle],
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(instregex "ST4Fourv(8b|4h|2s|1d)$")>;
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def : InstRW<[WriteAdr, WriteVSTPairShuffle, WriteVSTPairShuffle],
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(instregex "ST4Fourv(8b|4h|2s|1d)_POST")>;
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def : InstRW<[WriteVSTPairShuffle, WriteVSTPairShuffle,
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WriteVSTPairShuffle, WriteVSTPairShuffle],
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(instregex "ST4Fourv(16b|8h|4s|2d)$")>;
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def : InstRW<[WriteAdr, WriteVSTPairShuffle, WriteVSTPairShuffle,
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WriteVSTPairShuffle, WriteVSTPairShuffle],
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(instregex "ST4Fourv(16b|8h|4s|2d)_POST")>;
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|
|
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def : InstRW<[WriteVSTPairShuffle], (instregex "ST4i(8|16|32)$")>;
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def : InstRW<[WriteAdr, WriteVSTPairShuffle], (instregex "ST4i(8|16|32)_POST")>;
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|
|
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def : InstRW<[WriteVSTShuffle, WriteVSTShuffle], (instrs ST4i64)>;
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def : InstRW<[WriteAdr, WriteVSTShuffle, WriteVSTShuffle],(instrs ST4i64_POST)>;
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|
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//---
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// Unused SchedRead types
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//---
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|
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def : ReadAdvance<ReadI, 0>;
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def : ReadAdvance<ReadISReg, 0>;
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def : ReadAdvance<ReadIEReg, 0>;
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def : ReadAdvance<ReadIM, 0>;
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def : ReadAdvance<ReadIMA, 0>;
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def : ReadAdvance<ReadID, 0>;
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} // SchedModel = CycloneModel
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