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https://github.com/c64scene-ar/llvm-6502.git
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6c4ec69c6b
Summary: This port includes the rudimentary latencies that were provided for the Cortex-A53 Machine Model in the AArch64 backend. It also changes the SchedAlias for COPY in the Cyclone model to an explicit WriteRes mapping to avoid conflicts in other subtargets. Differential Revision: http://reviews.llvm.org/D3427 Patch by Dave Estes <cestes@codeaurora.org>! git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@206652 91177308-0d34-0410-b5e6-96231b3b80d8
130 lines
5.7 KiB
TableGen
130 lines
5.7 KiB
TableGen
//=- ARM64SchedA53.td - ARM Cortex-A53 Scheduling Definitions -*- 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 itinerary class data for the ARM Cortex A53 processors.
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//
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//===----------------------------------------------------------------------===//
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// ===---------------------------------------------------------------------===//
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// The following definitions describe the simpler per-operand machine model.
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// This works with MachineScheduler. See MCSchedModel.h for details.
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// Cortex-A53 machine model for scheduling and other instruction cost heuristics.
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def CortexA53Model : SchedMachineModel {
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let MicroOpBufferSize = 0; // Explicitly set to zero since A53 is in-order.
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let IssueWidth = 2; // 2 micro-ops are dispatched per cycle.
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let MinLatency = 1 ; // OperandCycles are interpreted as MinLatency.
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let LoadLatency = 2; // Optimistic load latency assuming bypass.
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// This is overriden by OperandCycles if the
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// Itineraries are queried instead.
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let MispredictPenalty = 9; // Based on "Cortex-A53 Software Optimisation
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// Specification - Instruction Timings"
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// v 1.0 Spreadsheet
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}
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//===----------------------------------------------------------------------===//
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// Define each kind of processor resource and number available.
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// Modeling each pipeline as a ProcResource using the BufferSize = 0 since
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// Cortex-A53 is in-order.
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def A53UnitALU : ProcResource<2> { let BufferSize = 0; } // Int ALU
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def A53UnitMAC : ProcResource<1> { let BufferSize = 0; } // Int MAC
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def A53UnitDiv : ProcResource<1> { let BufferSize = 0; } // Int Division
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def A53UnitLdSt : ProcResource<1> { let BufferSize = 0; } // Load/Store
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def A53UnitB : ProcResource<1> { let BufferSize = 0; } // Branch
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def A53UnitFPALU : ProcResource<1> { let BufferSize = 0; } // FP ALU
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def A53UnitFPMDS : ProcResource<1> { let BufferSize = 0; } // FP Mult/Div/Sqrt
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//===----------------------------------------------------------------------===//
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// Subtarget-specific SchedWrite types which both map the ProcResources and
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// set the latency.
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let SchedModel = CortexA53Model in {
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// ALU - These are reduced to 1 despite a true latency of 4 in order to easily
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// model forwarding logic. Once forwarding is properly modelled, then
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// they'll be corrected.
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def : WriteRes<WriteImm, [A53UnitALU]> { let Latency = 1; }
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def : WriteRes<WriteI, [A53UnitALU]> { let Latency = 1; }
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def : WriteRes<WriteISReg, [A53UnitALU]> { let Latency = 1; }
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def : WriteRes<WriteIEReg, [A53UnitALU]> { let Latency = 1; }
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def : WriteRes<WriteExtr, [A53UnitALU]> { let Latency = 1; }
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def : WriteRes<WriteIS, [A53UnitALU]> { let Latency = 1; }
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def : WriteRes<WriteAdr, [A53UnitALU]> { let Latency = 1; }
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// MAC
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def : WriteRes<WriteIM32, [A53UnitMAC]> { let Latency = 4; }
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def : WriteRes<WriteIM64, [A53UnitMAC]> { let Latency = 4; }
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// Div
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def : WriteRes<WriteID32, [A53UnitDiv]> { let Latency = 4; }
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def : WriteRes<WriteID64, [A53UnitDiv]> { let Latency = 4; }
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// Load
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def : WriteRes<WriteLD, [A53UnitLdSt]> { let Latency = 4; }
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def : WriteRes<WriteLDIdx, [A53UnitLdSt]> { let Latency = 4; }
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def : WriteRes<WriteLDHi, [A53UnitLdSt]> { let Latency = 4; }
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def : WriteRes<WriteVLD, [A53UnitLdSt]> { let Latency = 4; }
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// Store
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def : WriteRes<WriteST, [A53UnitLdSt]> { let Latency = 4; }
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def : WriteRes<WriteSTP, [A53UnitLdSt]> { let Latency = 4; }
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def : WriteRes<WriteSTIdx, [A53UnitLdSt]> { let Latency = 4; }
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def : WriteRes<WriteSTX, [A53UnitLdSt]> { let Latency = 4; }
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def : WriteRes<WriteVST, [A53UnitLdSt]> { let Latency = 4; }
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// Branch
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def : WriteRes<WriteBr, [A53UnitB]>;
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def : WriteRes<WriteBrReg, [A53UnitB]>;
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def : WriteRes<WriteSys, [A53UnitB]>;
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def : WriteRes<WriteBarrier, [A53UnitB]>;
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def : WriteRes<WriteHint, [A53UnitB]>;
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// FP ALU
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def : WriteRes<WriteF, [A53UnitFPALU]> { let Latency = 6; }
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def : WriteRes<WriteFCmp, [A53UnitFPALU]> { let Latency = 6; }
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def : WriteRes<WriteFCvt, [A53UnitFPALU]> { let Latency = 6; }
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def : WriteRes<WriteFCopy, [A53UnitFPALU]> { let Latency = 6; }
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def : WriteRes<WriteFImm, [A53UnitFPALU]> { let Latency = 6; }
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def : WriteRes<WriteV, [A53UnitFPALU]> { let Latency = 6; }
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// FP Mul, Div, Sqrt
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def : WriteRes<WriteFMul, [A53UnitFPMDS]> { let Latency = 6; }
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def : WriteRes<WriteFDiv, [A53UnitFPMDS]> { let Latency = 33;
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let ResourceCycles = [29]; }
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def A53WriteFDiv : SchedWriteRes<[A53UnitFPMDS]> { let Latency = 33;
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let ResourceCycles = [29]; }
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def A53WriteFSqrt : SchedWriteRes<[A53UnitFPMDS]> { let Latency = 32;
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let ResourceCycles = [28]; }
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//===----------------------------------------------------------------------===//
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// Subtarget-specific SchedRead types.
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// While there is no forwarding information defined for these SchedRead types,
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// they are still used by some instruction via a SchedRW list and so these zero
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// SchedReadAdvances are required.
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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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// Subtarget-specific InstRWs.
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def : InstRW<[WriteI], (instrs COPY)>;
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def : InstRW<[WriteLD], (instregex "LD[1-4]")>;
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def : InstRW<[WriteST], (instregex "ST[1-4]")>;
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def : InstRW<[A53WriteFDiv], (instregex "^FDIV")>;
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def : InstRW<[A53WriteFSqrt], (instregex ".*SQRT.*")>;
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}
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