138 lines
6.2 KiB
TableGen
138 lines
6.2 KiB
TableGen
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//==- AArch64SchedKryo.td - Qualcomm Kryo Scheduling Defs ---*- tablegen -*-==//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file defines the machine model for Qualcomm Kryo 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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//===----------------------------------------------------------------------===//
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// The issue width is set to five, matching the five issue queues for expanded
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// uops. Now, the latency spreadsheet has information based on fragmented uops,
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// but these do not actually take up an issue queue.
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def KryoModel : SchedMachineModel {
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let IssueWidth = 5; // 5-wide issue for expanded uops
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let MicroOpBufferSize = 128; // Out-of-order with temporary unified issue buffer
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let LoadLatency = 4; // Optimistic load latency
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let MispredictPenalty = 14; // Fetch + Decode/Rename/Dispatch + Branch
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// Enable partial & runtime unrolling. The magic number is chosen based on
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// experiments and benchmarking data.
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let LoopMicroOpBufferSize = 16;
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let CompleteModel = 1;
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list<Predicate> UnsupportedFeatures = !listconcat(SVEUnsupported.F,
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PAUnsupported.F);
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// FIXME: Remove when all errors have been fixed.
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let FullInstRWOverlapCheck = 0;
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}
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//===----------------------------------------------------------------------===//
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// Define each kind of processor resource and number available on Kryo.
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let SchedModel = KryoModel in {
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def KryoUnitXA : ProcResource<1>; // Type X(A) micro-ops
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def KryoUnitXB : ProcResource<1>; // Type X(B) micro-ops
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def KryoUnitYA : ProcResource<1>; // Type Y(A) micro-ops
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def KryoUnitYB : ProcResource<1>; // Type Y(B) micro-ops
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def KryoUnitX : ProcResGroup<[KryoUnitXA, // Type X micro-ops
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KryoUnitXB]>;
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def KryoUnitY : ProcResGroup<[KryoUnitYA, // Type Y micro-ops
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KryoUnitYB]>;
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def KryoUnitXY : ProcResGroup<[KryoUnitXA, // Type XY micro-ops
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KryoUnitXB,
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KryoUnitYA,
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KryoUnitYB]>;
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def KryoUnitLSA : ProcResource<1>; // Type LS(A) micro-ops
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def KryoUnitLSB : ProcResource<1>; // Type LS(B) micro-ops
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def KryoUnitLS : ProcResGroup<[KryoUnitLSA, // Type LS micro-ops
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KryoUnitLSB]>;
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}
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let SchedModel = KryoModel in {
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//===----------------------------------------------------------------------===//
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// Map the target-defined scheduler read/write resources and latency for
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// Kryo.
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def : WriteRes<WriteImm, [KryoUnitXY]> { let Latency = 1; }
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def : WriteRes<WriteI, [KryoUnitXY]> { let Latency = 1; }
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def : WriteRes<WriteISReg, [KryoUnitXY, KryoUnitXY]>
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{ let Latency = 2; let NumMicroOps = 2; }
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def : WriteRes<WriteIEReg, [KryoUnitXY, KryoUnitXY]>
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{ let Latency = 2; let NumMicroOps = 2; }
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def : WriteRes<WriteExtr, [KryoUnitXY, KryoUnitX]>
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{ let Latency = 2; let NumMicroOps = 2; }
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def : WriteRes<WriteIS, [KryoUnitXY]> { let Latency = 2; }
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def : WriteRes<WriteID32, [KryoUnitXA, KryoUnitY]>
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{ let Latency = 8; let NumMicroOps = 1; } // Fragent -1
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def : WriteRes<WriteID64, [KryoUnitXA, KryoUnitY]>
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{ let Latency = 8; let NumMicroOps = 1; } // Fragent -1
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def : WriteRes<WriteIM32, [KryoUnitX]> { let Latency = 5; }
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def : WriteRes<WriteIM64, [KryoUnitX]> { let Latency = 5; }
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def : WriteRes<WriteBr, [KryoUnitXY]> { let Latency = 1; }
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def : WriteRes<WriteBrReg, [KryoUnitXY]> { let Latency = 1; }
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def : WriteRes<WriteLD, [KryoUnitLS]> { let Latency = 4; }
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def : WriteRes<WriteST, [KryoUnitLS]> { let Latency = 4; }
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def : WriteRes<WriteSTP, [KryoUnitLS]> { let Latency = 4; }
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def : WriteRes<WriteAdr, [KryoUnitXY]> { let Latency = 6; }
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def : WriteRes<WriteLDIdx, [KryoUnitLS]> { let Latency = 4; }
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def : WriteRes<WriteSTIdx, [KryoUnitLS]> { let Latency = 4; }
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def : WriteRes<WriteF, [KryoUnitXY, KryoUnitXY]>
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{ let Latency = 3; let NumMicroOps = 2; }
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def : WriteRes<WriteFCmp, [KryoUnitXY]> { let Latency = 2; }
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def : WriteRes<WriteFCvt, [KryoUnitX]> { let Latency = 4; }
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def : WriteRes<WriteFCopy, [KryoUnitXY]> { let Latency = 6; }
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def : WriteRes<WriteFImm, [KryoUnitXY]> { let Latency = 6; }
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def : WriteRes<WriteFMul, [KryoUnitX, KryoUnitX]>
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{ let Latency = 6; let NumMicroOps = 2; }
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def : WriteRes<WriteFDiv, [KryoUnitXA, KryoUnitY]>
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{ let Latency = 12; let NumMicroOps = 2; } // Fragent -1 / NoRSV +1
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def : WriteRes<WriteV, [KryoUnitXY]> { let Latency = 6; }
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def : WriteRes<WriteVLD, [KryoUnitLS]> { let Latency = 4; }
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def : WriteRes<WriteVST, [KryoUnitLS]> { let Latency = 4; }
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def : WriteRes<WriteSys, []> { let Latency = 1; }
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def : WriteRes<WriteBarrier, []> { let Latency = 1; }
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def : WriteRes<WriteHint, []> { let Latency = 1; }
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def : WriteRes<WriteLDHi, []> { let Latency = 4; }
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def : WriteRes<WriteAtomic, []> { let Unsupported = 1; }
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// No forwarding logic is modelled yet.
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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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def : ReadAdvance<ReadExtrHi, 0>;
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def : ReadAdvance<ReadAdrBase, 0>;
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def : ReadAdvance<ReadVLD, 0>;
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//===----------------------------------------------------------------------===//
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// Specialize the coarse model by associating instruction groups with the
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// subtarget-defined types. As the modeled is refined, this will override most
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// of the above SchedWriteRes and SchedAlias mappings.
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// Miscellaneous
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// -----------------------------------------------------------------------------
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def : InstRW<[WriteI], (instrs COPY)>;
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// Detailed Refinedments
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// -----------------------------------------------------------------------------
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include "AArch64SchedKryoDetails.td"
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} // SchedModel = KryoModel
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