mirror of
https://github.com/c64scene-ar/llvm-6502.git
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658ea60997
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@82788 91177308-0d34-0410-b5e6-96231b3b80d8
588 lines
27 KiB
TableGen
588 lines
27 KiB
TableGen
//===- ARMScheduleV7.td - ARM v7 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 v7 processors.
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//
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//===----------------------------------------------------------------------===//
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//
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// Scheduling information derived from "Cortex-A8 Technical Reference Manual".
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//
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// Dual issue pipeline represented by FU_Pipe0 | FU_Pipe1
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//
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def CortexA8Itineraries : ProcessorItineraries<[
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// Two fully-pipelined integer ALU pipelines
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//
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// No operand cycles
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InstrItinData<IIC_iALUx , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>]>,
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//
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// Binary Instructions that produce a result
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InstrItinData<IIC_iALUi , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [2, 2]>,
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InstrItinData<IIC_iALUr , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [2, 2, 2]>,
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InstrItinData<IIC_iALUsi , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [2, 2, 1]>,
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InstrItinData<IIC_iALUsr , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [2, 2, 1, 1]>,
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//
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// Unary Instructions that produce a result
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InstrItinData<IIC_iUNAr , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [2, 2]>,
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InstrItinData<IIC_iUNAsi , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [2, 1]>,
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InstrItinData<IIC_iUNAsr , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [2, 1, 1]>,
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//
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// Compare instructions
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InstrItinData<IIC_iCMPi , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [2]>,
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InstrItinData<IIC_iCMPr , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [2, 2]>,
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InstrItinData<IIC_iCMPsi , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [2, 1]>,
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InstrItinData<IIC_iCMPsr , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [2, 1, 1]>,
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//
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// Move instructions, unconditional
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InstrItinData<IIC_iMOVi , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [1]>,
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InstrItinData<IIC_iMOVr , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [1, 1]>,
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InstrItinData<IIC_iMOVsi , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [1, 1]>,
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InstrItinData<IIC_iMOVsr , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [1, 1, 1]>,
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//
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// Move instructions, conditional
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InstrItinData<IIC_iCMOVi , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [2]>,
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InstrItinData<IIC_iCMOVr , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [2, 1]>,
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InstrItinData<IIC_iCMOVsi , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [2, 1]>,
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InstrItinData<IIC_iCMOVsr , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>], [2, 1, 1]>,
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// Integer multiply pipeline
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// Result written in E5, but that is relative to the last cycle of multicycle,
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// so we use 6 for those cases
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//
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InstrItinData<IIC_iMUL16 , [InstrStage<1, [FU_Pipe0]>], [5, 1, 1]>,
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InstrItinData<IIC_iMAC16 , [InstrStage<1, [FU_Pipe1], 0>,
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InstrStage<2, [FU_Pipe0]>], [6, 1, 1, 4]>,
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InstrItinData<IIC_iMUL32 , [InstrStage<1, [FU_Pipe1], 0>,
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InstrStage<2, [FU_Pipe0]>], [6, 1, 1]>,
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InstrItinData<IIC_iMAC32 , [InstrStage<1, [FU_Pipe1], 0>,
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InstrStage<2, [FU_Pipe0]>], [6, 1, 1, 4]>,
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InstrItinData<IIC_iMUL64 , [InstrStage<2, [FU_Pipe1], 0>,
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InstrStage<3, [FU_Pipe0]>], [6, 6, 1, 1]>,
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InstrItinData<IIC_iMAC64 , [InstrStage<2, [FU_Pipe1], 0>,
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InstrStage<3, [FU_Pipe0]>], [6, 6, 1, 1]>,
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// Integer load pipeline
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//
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// loads have an extra cycle of latency, but are fully pipelined
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// use FU_Issue to enforce the 1 load/store per cycle limit
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//
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// Immediate offset
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InstrItinData<IIC_iLoadi , [InstrStage<1, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0]>], [3, 1]>,
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//
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// Register offset
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InstrItinData<IIC_iLoadr , [InstrStage<1, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0]>], [3, 1, 1]>,
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//
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// Scaled register offset, issues over 2 cycles
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InstrItinData<IIC_iLoadsi , [InstrStage<2, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0], 0>,
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InstrStage<1, [FU_Pipe1]>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0]>], [4, 1, 1]>,
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//
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// Immediate offset with update
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InstrItinData<IIC_iLoadiu , [InstrStage<1, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0]>], [3, 2, 1]>,
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//
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// Register offset with update
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InstrItinData<IIC_iLoadru , [InstrStage<1, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0]>], [3, 2, 1, 1]>,
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//
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// Scaled register offset with update, issues over 2 cycles
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InstrItinData<IIC_iLoadsiu , [InstrStage<2, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0], 0>,
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InstrStage<1, [FU_Pipe1]>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0]>], [4, 3, 1, 1]>,
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//
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// Load multiple
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InstrItinData<IIC_iLoadm , [InstrStage<2, [FU_Issue], 0>,
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InstrStage<2, [FU_Pipe0], 0>,
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InstrStage<2, [FU_Pipe1]>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0]>]>,
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// Integer store pipeline
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//
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// use FU_Issue to enforce the 1 load/store per cycle limit
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//
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// Immediate offset
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InstrItinData<IIC_iStorei , [InstrStage<1, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0]>], [3, 1]>,
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//
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// Register offset
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InstrItinData<IIC_iStorer , [InstrStage<1, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0]>], [3, 1, 1]>,
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//
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// Scaled register offset, issues over 2 cycles
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InstrItinData<IIC_iStoresi , [InstrStage<2, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0], 0>,
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InstrStage<1, [FU_Pipe1]>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0]>], [3, 1, 1]>,
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//
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// Immediate offset with update
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InstrItinData<IIC_iStoreiu , [InstrStage<1, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0]>], [2, 3, 1]>,
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//
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// Register offset with update
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InstrItinData<IIC_iStoreru , [InstrStage<1, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0]>], [2, 3, 1, 1]>,
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//
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// Scaled register offset with update, issues over 2 cycles
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InstrItinData<IIC_iStoresiu, [InstrStage<2, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0], 0>,
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InstrStage<1, [FU_Pipe1]>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0]>], [3, 3, 1, 1]>,
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//
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// Store multiple
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InstrItinData<IIC_iStorem , [InstrStage<2, [FU_Issue], 0>,
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InstrStage<2, [FU_Pipe0], 0>,
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InstrStage<2, [FU_Pipe1]>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0]>]>,
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// Branch
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//
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// no delay slots, so the latency of a branch is unimportant
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InstrItinData<IIC_Br , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>]>,
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// VFP
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// Issue through integer pipeline, and execute in NEON unit. We assume
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// RunFast mode so that NFP pipeline is used for single-precision when
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// possible.
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//
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// FP Special Register to Integer Register File Move
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InstrItinData<IIC_fpSTAT , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_NLSPipe]>]>,
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//
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// Single-precision FP Unary
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InstrItinData<IIC_fpUNA32 , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_NPipe]>], [7, 1]>,
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//
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// Double-precision FP Unary
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InstrItinData<IIC_fpUNA64 , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<4, [FU_NPipe], 0>,
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InstrStage<4, [FU_NLSPipe]>]>,
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//
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// Single-precision FP Compare
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InstrItinData<IIC_fpCMP32 , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_NPipe]>], [7, 1]>,
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//
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// Double-precision FP Compare
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InstrItinData<IIC_fpCMP64 , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<4, [FU_NPipe], 0>,
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InstrStage<4, [FU_NLSPipe]>]>,
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//
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// Single to Double FP Convert
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InstrItinData<IIC_fpCVTSD , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<7, [FU_NPipe], 0>,
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InstrStage<7, [FU_NLSPipe]>]>,
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//
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// Double to Single FP Convert
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InstrItinData<IIC_fpCVTDS , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<5, [FU_NPipe], 0>,
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InstrStage<5, [FU_NLSPipe]>]>,
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//
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// Single-Precision FP to Integer Convert
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InstrItinData<IIC_fpCVTSI , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_NPipe]>], [7, 1]>,
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//
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// Double-Precision FP to Integer Convert
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InstrItinData<IIC_fpCVTDI , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<8, [FU_NPipe], 0>,
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InstrStage<8, [FU_NLSPipe]>]>,
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//
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// Integer to Single-Precision FP Convert
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InstrItinData<IIC_fpCVTIS , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_NPipe]>], [7, 1]>,
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//
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// Integer to Double-Precision FP Convert
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InstrItinData<IIC_fpCVTID , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<8, [FU_NPipe], 0>,
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InstrStage<8, [FU_NLSPipe]>]>,
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//
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// Single-precision FP ALU
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InstrItinData<IIC_fpALU32 , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_NPipe]>], [7, 1]>,
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//
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// Double-precision FP ALU
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InstrItinData<IIC_fpALU64 , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<9, [FU_NPipe], 0>,
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InstrStage<9, [FU_NLSPipe]>]>,
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//
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// Single-precision FP Multiply
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InstrItinData<IIC_fpMUL32 , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_NPipe]>], [7, 1]>,
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//
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// Double-precision FP Multiply
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InstrItinData<IIC_fpMUL64 , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<11, [FU_NPipe], 0>,
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InstrStage<11, [FU_NLSPipe]>]>,
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//
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// Single-precision FP MAC
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InstrItinData<IIC_fpMAC32 , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_NPipe]>], [7, 1]>,
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//
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// Double-precision FP MAC
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InstrItinData<IIC_fpMAC64 , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<19, [FU_NPipe], 0>,
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InstrStage<19, [FU_NLSPipe]>]>,
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//
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// Single-precision FP DIV
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InstrItinData<IIC_fpDIV32 , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<20, [FU_NPipe], 0>,
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InstrStage<20, [FU_NLSPipe]>]>,
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//
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// Double-precision FP DIV
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InstrItinData<IIC_fpDIV64 , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<29, [FU_NPipe], 0>,
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InstrStage<29, [FU_NLSPipe]>]>,
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//
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// Single-precision FP SQRT
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InstrItinData<IIC_fpSQRT32, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<19, [FU_NPipe], 0>,
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InstrStage<19, [FU_NLSPipe]>]>,
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//
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// Double-precision FP SQRT
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InstrItinData<IIC_fpSQRT64, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<29, [FU_NPipe], 0>,
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InstrStage<29, [FU_NLSPipe]>]>,
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//
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// Single-precision FP Load
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// use FU_Issue to enforce the 1 load/store per cycle limit
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InstrItinData<IIC_fpLoad32, [InstrStage<1, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0], 0>,
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InstrStage<1, [FU_NLSPipe]>]>,
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//
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// Double-precision FP Load
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// use FU_Issue to enforce the 1 load/store per cycle limit
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InstrItinData<IIC_fpLoad64, [InstrStage<2, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0], 0>,
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InstrStage<1, [FU_Pipe1]>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0], 0>,
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InstrStage<1, [FU_NLSPipe]>]>,
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//
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// FP Load Multiple
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// use FU_Issue to enforce the 1 load/store per cycle limit
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InstrItinData<IIC_fpLoadm, [InstrStage<3, [FU_Issue], 0>,
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InstrStage<2, [FU_Pipe0], 0>,
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InstrStage<2, [FU_Pipe1]>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0], 0>,
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InstrStage<1, [FU_NLSPipe]>]>,
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//
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// Single-precision FP Store
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// use FU_Issue to enforce the 1 load/store per cycle limit
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InstrItinData<IIC_fpStore32,[InstrStage<1, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0], 0>,
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InstrStage<1, [FU_NLSPipe]>]>,
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//
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// Double-precision FP Store
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// use FU_Issue to enforce the 1 load/store per cycle limit
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InstrItinData<IIC_fpStore64,[InstrStage<2, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0], 0>,
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InstrStage<1, [FU_Pipe1]>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0], 0>,
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InstrStage<1, [FU_NLSPipe]>]>,
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//
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// FP Store Multiple
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// use FU_Issue to enforce the 1 load/store per cycle limit
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InstrItinData<IIC_fpStorem, [InstrStage<3, [FU_Issue], 0>,
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InstrStage<2, [FU_Pipe0], 0>,
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InstrStage<2, [FU_Pipe1]>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0], 0>,
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InstrStage<1, [FU_NLSPipe]>]>,
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// NEON
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// Issue through integer pipeline, and execute in NEON unit.
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//
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// VLD1
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InstrItinData<IIC_VLD1, [InstrStage<1, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0], 0>,
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InstrStage<1, [FU_NLSPipe]>]>,
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//
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// VLD2
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InstrItinData<IIC_VLD2, [InstrStage<1, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0], 0>,
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InstrStage<1, [FU_NLSPipe]>], [2, 2, 1]>,
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//
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// VLD3
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InstrItinData<IIC_VLD3, [InstrStage<1, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0], 0>,
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InstrStage<1, [FU_NLSPipe]>], [2, 2, 2, 1]>,
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//
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// VLD4
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InstrItinData<IIC_VLD4, [InstrStage<1, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0], 0>,
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InstrStage<1, [FU_NLSPipe]>], [2, 2, 2, 2, 1]>,
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//
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// VST
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InstrItinData<IIC_VST, [InstrStage<1, [FU_Issue], 0>,
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InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_LdSt0], 0>,
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InstrStage<1, [FU_NLSPipe]>]>,
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//
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// Double-register FP Unary
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InstrItinData<IIC_VUNAD, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
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InstrStage<1, [FU_NPipe]>], [5, 2]>,
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//
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// Quad-register FP Unary
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// Result written in N5, but that is relative to the last cycle of multicycle,
|
|
// so we use 6 for those cases
|
|
InstrItinData<IIC_VUNAQ, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NPipe]>], [6, 2]>,
|
|
//
|
|
// Double-register FP Binary
|
|
InstrItinData<IIC_VBIND, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [5, 2, 2]>,
|
|
//
|
|
// Quad-register FP Binary
|
|
// Result written in N5, but that is relative to the last cycle of multicycle,
|
|
// so we use 6 for those cases
|
|
InstrItinData<IIC_VBINQ, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NPipe]>], [6, 2, 2]>,
|
|
//
|
|
// Move Immediate
|
|
InstrItinData<IIC_VMOVImm, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [3]>,
|
|
//
|
|
// Double-register Permute Move
|
|
InstrItinData<IIC_VMOVD, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NLSPipe]>], [2, 1]>,
|
|
//
|
|
// Quad-register Permute Move
|
|
// Result written in N2, but that is relative to the last cycle of multicycle,
|
|
// so we use 3 for those cases
|
|
InstrItinData<IIC_VMOVQ, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NLSPipe]>], [3, 1]>,
|
|
//
|
|
// Integer to Single-precision Move
|
|
InstrItinData<IIC_VMOVIS , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NLSPipe]>], [2, 1]>,
|
|
//
|
|
// Integer to Double-precision Move
|
|
InstrItinData<IIC_VMOVID , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NLSPipe]>], [2, 1, 1]>,
|
|
//
|
|
// Single-precision to Integer Move
|
|
InstrItinData<IIC_VMOVSI , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NLSPipe]>], [20, 1]>,
|
|
//
|
|
// Double-precision to Integer Move
|
|
InstrItinData<IIC_VMOVDI , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NLSPipe]>], [20, 20, 1]>,
|
|
//
|
|
// Integer to Lane Move
|
|
InstrItinData<IIC_VMOVISL , [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NLSPipe]>], [3, 1, 1]>,
|
|
//
|
|
// Double-register Permute
|
|
InstrItinData<IIC_VPERMD, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NLSPipe]>], [2, 2, 1, 1]>,
|
|
//
|
|
// Quad-register Permute
|
|
// Result written in N2, but that is relative to the last cycle of multicycle,
|
|
// so we use 3 for those cases
|
|
InstrItinData<IIC_VPERMQ, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NLSPipe]>], [3, 3, 1, 1]>,
|
|
//
|
|
// Quad-register Permute (3 cycle issue)
|
|
// Result written in N2, but that is relative to the last cycle of multicycle,
|
|
// so we use 4 for those cases
|
|
InstrItinData<IIC_VPERMQ3, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NLSPipe]>,
|
|
InstrStage<1, [FU_NPipe], 0>,
|
|
InstrStage<2, [FU_NLSPipe]>], [4, 4, 1, 1]>,
|
|
//
|
|
// Double-register FP Multiple-Accumulate
|
|
InstrItinData<IIC_VMACD, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [9, 2, 2, 3]>,
|
|
//
|
|
// Quad-register FP Multiple-Accumulate
|
|
// Result written in N9, but that is relative to the last cycle of multicycle,
|
|
// so we use 10 for those cases
|
|
InstrItinData<IIC_VMACQ, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NPipe]>], [10, 2, 2, 3]>,
|
|
//
|
|
// Double-register Reciprical Step
|
|
InstrItinData<IIC_VRECSD, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [9, 2, 2]>,
|
|
//
|
|
// Quad-register Reciprical Step
|
|
InstrItinData<IIC_VRECSQ, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NPipe]>], [10, 2, 2]>,
|
|
//
|
|
// Double-register Integer Count
|
|
InstrItinData<IIC_VCNTiD, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [3, 2, 2]>,
|
|
//
|
|
// Quad-register Integer Count
|
|
// Result written in N3, but that is relative to the last cycle of multicycle,
|
|
// so we use 4 for those cases
|
|
InstrItinData<IIC_VCNTiQ, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NPipe]>], [4, 2, 2]>,
|
|
//
|
|
// Double-register Integer Unary
|
|
InstrItinData<IIC_VUNAiD, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [4, 2]>,
|
|
//
|
|
// Quad-register Integer Unary
|
|
InstrItinData<IIC_VUNAiQ, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [4, 2]>,
|
|
//
|
|
// Double-register Integer Q-Unary
|
|
InstrItinData<IIC_VQUNAiD, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [4, 1]>,
|
|
//
|
|
// Quad-register Integer CountQ-Unary
|
|
InstrItinData<IIC_VQUNAiQ, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [4, 1]>,
|
|
//
|
|
// Double-register Integer Binary
|
|
InstrItinData<IIC_VBINiD, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [3, 2, 2]>,
|
|
//
|
|
// Quad-register Integer Binary
|
|
InstrItinData<IIC_VBINiQ, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [3, 2, 2]>,
|
|
//
|
|
// Double-register Integer Binary (4 cycle)
|
|
InstrItinData<IIC_VBINi4D, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [4, 2, 1]>,
|
|
//
|
|
// Quad-register Integer Binary (4 cycle)
|
|
InstrItinData<IIC_VBINi4Q, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [4, 2, 1]>,
|
|
//
|
|
// Double-register Integer Subtract
|
|
InstrItinData<IIC_VSUBiD, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [3, 2, 1]>,
|
|
//
|
|
// Quad-register Integer Subtract
|
|
InstrItinData<IIC_VSUBiQ, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [3, 2, 1]>,
|
|
//
|
|
// Double-register Integer Shift
|
|
InstrItinData<IIC_VSHLiD, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [3, 1, 1]>,
|
|
//
|
|
// Quad-register Integer Shift
|
|
InstrItinData<IIC_VSHLiQ, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NPipe]>], [4, 1, 1]>,
|
|
//
|
|
// Double-register Integer Shift (4 cycle)
|
|
InstrItinData<IIC_VSHLi4D, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [4, 1, 1]>,
|
|
//
|
|
// Quad-register Integer Shift (4 cycle)
|
|
InstrItinData<IIC_VSHLi4Q, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NPipe]>], [5, 1, 1]>,
|
|
//
|
|
// Double-register Integer Pair Add Long
|
|
InstrItinData<IIC_VPALiD, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [6, 3, 2, 1]>,
|
|
//
|
|
// Quad-register Integer Pair Add Long
|
|
InstrItinData<IIC_VPALiQ, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NPipe]>], [7, 3, 2, 1]>,
|
|
//
|
|
// Double-register Integer Multiply (.8, .16)
|
|
InstrItinData<IIC_VMULi16D, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [6, 2, 2]>,
|
|
//
|
|
// Double-register Integer Multiply (.32)
|
|
InstrItinData<IIC_VMULi32D, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NPipe]>], [7, 2, 1]>,
|
|
//
|
|
// Quad-register Integer Multiply (.8, .16)
|
|
InstrItinData<IIC_VMULi16Q, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NPipe]>], [7, 2, 2]>,
|
|
//
|
|
// Quad-register Integer Multiply (.32)
|
|
InstrItinData<IIC_VMULi32Q, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>,
|
|
InstrStage<2, [FU_NLSPipe], 0>,
|
|
InstrStage<3, [FU_NPipe]>], [9, 2, 1]>,
|
|
//
|
|
// Double-register Integer Multiply-Accumulate (.8, .16)
|
|
InstrItinData<IIC_VMACi16D, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>], [6, 2, 2, 3]>,
|
|
//
|
|
// Double-register Integer Multiply-Accumulate (.32)
|
|
InstrItinData<IIC_VMACi32D, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NPipe]>], [7, 2, 1, 3]>,
|
|
//
|
|
// Quad-register Integer Multiply-Accumulate (.8, .16)
|
|
InstrItinData<IIC_VMACi16Q, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NPipe]>], [7, 2, 2, 3]>,
|
|
//
|
|
// Quad-register Integer Multiply-Accumulate (.32)
|
|
InstrItinData<IIC_VMACi32Q, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NPipe]>,
|
|
InstrStage<2, [FU_NLSPipe], 0>,
|
|
InstrStage<3, [FU_NPipe]>], [9, 2, 1, 3]>,
|
|
//
|
|
// Double-register VEXT
|
|
InstrItinData<IIC_VEXTD, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NLSPipe]>], [2, 1, 1]>,
|
|
//
|
|
// Quad-register VEXT
|
|
InstrItinData<IIC_VEXTQ, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NLSPipe]>], [3, 1, 1]>,
|
|
//
|
|
// VTB
|
|
InstrItinData<IIC_VTB1, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NLSPipe]>], [3, 2, 1]>,
|
|
InstrItinData<IIC_VTB2, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NLSPipe]>], [3, 2, 2, 1]>,
|
|
InstrItinData<IIC_VTB3, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NLSPipe]>,
|
|
InstrStage<1, [FU_NPipe], 0>,
|
|
InstrStage<2, [FU_NLSPipe]>], [4, 2, 2, 3, 1]>,
|
|
InstrItinData<IIC_VTB4, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NLSPipe]>,
|
|
InstrStage<1, [FU_NPipe], 0>,
|
|
InstrStage<2, [FU_NLSPipe]>], [4, 2, 2, 3, 3, 1]>,
|
|
//
|
|
// VTBX
|
|
InstrItinData<IIC_VTBX1, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NLSPipe]>], [3, 1, 2, 1]>,
|
|
InstrItinData<IIC_VTBX2, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<2, [FU_NLSPipe]>], [3, 1, 2, 2, 1]>,
|
|
InstrItinData<IIC_VTBX3, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NLSPipe]>,
|
|
InstrStage<1, [FU_NPipe], 0>,
|
|
InstrStage<2, [FU_NLSPipe]>], [4, 1, 2, 2, 3, 1]>,
|
|
InstrItinData<IIC_VTBX4, [InstrStage<1, [FU_Pipe0, FU_Pipe1]>,
|
|
InstrStage<1, [FU_NLSPipe]>,
|
|
InstrStage<1, [FU_NPipe], 0>,
|
|
InstrStage<2, [FU_NLSPipe]>], [4, 1, 2, 2, 3, 3, 1]>
|
|
]>;
|