//===--- PPCScheduleP10.td - P10 Scheduling Definitions -*- tablegen -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // Automatically generated file, do not edit! // // This file defines the resources required by P10 instructions. //===----------------------------------------------------------------------===// // Modeling pipeline forwarding logic. def P10BR_Read : SchedRead; def P10DF_Read : SchedRead; def P10DV_Read : SchedRead; def P10DX_Read : SchedRead; def P10F2_Read : SchedRead; def P10FX_Read : SchedRead; def P10LD_Read : SchedRead; def P10MU_Read : SchedRead; def P10PM_Read : SchedRead; def P10ST_Read : SchedRead; def P10SX_Read : SchedRead; def P10vMU_Read : SchedRead; def P10Model : SchedMachineModel { let IssueWidth = 8; let MicroOpBufferSize = 44; let LoopMicroOpBufferSize = 60; let CompleteModel = 1; // Do not support SPE (Signal Procesing Engine) on Power 10. let UnsupportedFeatures = [HasSPE, IsE500, IsBookE, IsISAFuture]; } let SchedModel = P10Model in { // ***************** Processor Resources ***************** // Pipeline Groups def P10_BF : ProcResource<4>; // Four Binary Floating Point pipelines. def P10_BR : ProcResource<2>; // Two Branch pipelines. def P10_CY : ProcResource<4>; // Four Crypto pipelines. def P10_DF : ProcResource<1>; // One Decimal Floating Point pipelines. def P10_DV : ProcResource<2>; // Two Fixed-point divide (DIV) pipelines. def P10_DX : ProcResource<2>; // Two 128-bit fixed-point and BCD pipelines. def P10_FX : ProcResource<4>; // Four ALU pipelines. def P10_LD : ProcResource<2>; // Two Load pipelines. def P10_MM : ProcResource<2>; // Two 512-bit SIMD matrix multiply engine pipelines. def P10_PM : ProcResource<4>; // Four 128-bit permute (PM) pipelines. def P10_ST : ProcResource<2>; // Two ST-D pipelines. def P10_SX : ProcResource<2>; // Two Simple Fixed-point (SFX) pipelines. // Dispatch Groups // Dispatch to any slots def P10_ANY_SLOT : ProcResource<8>; let Super = P10_ANY_SLOT in { // Dispatch to even slots def P10_EVEN_SLOT : ProcResource<4>; // Dispatch to odd slots def P10_ODD_SLOT : ProcResource<4>; } // Dispatch Rules let NumMicroOps = 0, Latency = 1 in { // Dispatch Rule '-' def P10W_DISP_ANY : SchedWriteRes<[P10_ANY_SLOT]>; // Dispatch Rule '-', even slot def P10W_DISP_EVEN : SchedWriteRes<[P10_EVEN_SLOT]>; // Dispatch Rule 'P' def P10W_DISP_PAIR : SchedWriteRes<[P10_EVEN_SLOT, P10_ODD_SLOT]>; } // ***************** SchedWriteRes Definitions ***************** // A BF pipeline may take from 7 to 36 cycles to complete. // Some BF operations may keep the pipeline busy for up to 10 cycles. def P10W_BF_7C : SchedWriteRes<[P10_BF]> { let Latency = 7; } def P10W_BF_22C : SchedWriteRes<[P10_BF]> { let ResourceCycles = [ 5 ]; let Latency = 22; } def P10W_BF_24C : SchedWriteRes<[P10_BF]> { let ResourceCycles = [ 8 ]; let Latency = 24; } def P10W_BF_26C : SchedWriteRes<[P10_BF]> { let ResourceCycles = [ 5 ]; let Latency = 26; } def P10W_BF_27C : SchedWriteRes<[P10_BF]> { let ResourceCycles = [ 7 ]; let Latency = 27; } def P10W_BF_36C : SchedWriteRes<[P10_BF]> { let ResourceCycles = [ 10 ]; let Latency = 36; } // A BR pipeline may take 2 cycles to complete. def P10W_BR_2C : SchedWriteRes<[P10_BR]> { let Latency = 2; } // A CY pipeline may take 7 cycles to complete. def P10W_CY_7C : SchedWriteRes<[P10_CY]> { let Latency = 7; } // A DF pipeline may take from 13 to 174 cycles to complete. // Some DF operations may keep the pipeline busy for up to 67 cycles. def P10W_DF_13C : SchedWriteRes<[P10_DF]> { let Latency = 13; } def P10W_DF_24C : SchedWriteRes<[P10_DF]> { let ResourceCycles = [ 16 ]; let Latency = 24; } def P10W_DF_25C : SchedWriteRes<[P10_DF]> { let ResourceCycles = [ 17 ]; let Latency = 25; } def P10W_DF_26C : SchedWriteRes<[P10_DF]> { let ResourceCycles = [ 18 ]; let Latency = 26; } def P10W_DF_32C : SchedWriteRes<[P10_DF]> { let ResourceCycles = [ 22 ]; let Latency = 32; } def P10W_DF_33C : SchedWriteRes<[P10_DF]> { let ResourceCycles = [ 25 ]; let Latency = 33; } def P10W_DF_34C : SchedWriteRes<[P10_DF]> { let ResourceCycles = [ 25 ]; let Latency = 34; } def P10W_DF_38C : SchedWriteRes<[P10_DF]> { let ResourceCycles = [ 30 ]; let Latency = 38; } def P10W_DF_40C : SchedWriteRes<[P10_DF]> { let ResourceCycles = [ 17 ]; let Latency = 40; } def P10W_DF_43C : SchedWriteRes<[P10_DF]> { let ResourceCycles = [ 34 ]; let Latency = 43; } def P10W_DF_59C : SchedWriteRes<[P10_DF]> { let ResourceCycles = [ 49 ]; let Latency = 59; } def P10W_DF_61C : SchedWriteRes<[P10_DF]> { let ResourceCycles = [ 12 ]; let Latency = 61; } def P10W_DF_68C : SchedWriteRes<[P10_DF]> { let ResourceCycles = [ 15 ]; let Latency = 68; } def P10W_DF_77C : SchedWriteRes<[P10_DF]> { let ResourceCycles = [ 67 ]; let Latency = 77; } def P10W_DF_87C : SchedWriteRes<[P10_DF]> { let ResourceCycles = [ 12 ]; let Latency = 87; } def P10W_DF_100C : SchedWriteRes<[P10_DF]> { let ResourceCycles = [ 32 ]; let Latency = 100; } def P10W_DF_174C : SchedWriteRes<[P10_DF]> { let ResourceCycles = [ 33 ]; let Latency = 174; } // A DV pipeline may take from 20 to 83 cycles to complete. // Some DV operations may keep the pipeline busy for up to 33 cycles. def P10W_DV_20C : SchedWriteRes<[P10_DV]> { let ResourceCycles = [ 10 ]; let Latency = 20; } def P10W_DV_25C : SchedWriteRes<[P10_DV]> { let ResourceCycles = [ 10 ]; let Latency = 25; } def P10W_DV_27C : SchedWriteRes<[P10_DV]> { let ResourceCycles = [ 10 ]; let Latency = 27; } def P10W_DV_41C : SchedWriteRes<[P10_DV]> { let ResourceCycles = [ 10 ]; let Latency = 41; } def P10W_DV_43C : SchedWriteRes<[P10_DV]> { let ResourceCycles = [ 21 ]; let Latency = 43; } def P10W_DV_47C : SchedWriteRes<[P10_DV]> { let ResourceCycles = [ 21 ]; let Latency = 47; } def P10W_DV_54C : SchedWriteRes<[P10_DV]> { let ResourceCycles = [ 33 ]; let Latency = 54; } def P10W_DV_60C : SchedWriteRes<[P10_DV]> { let ResourceCycles = [ 33 ]; let Latency = 60; } def P10W_DV_75C : SchedWriteRes<[P10_DV]> { let ResourceCycles = [ 21 ]; let Latency = 75; } def P10W_DV_83C : SchedWriteRes<[P10_DV]> { let ResourceCycles = [ 33 ]; let Latency = 83; } // A DX pipeline may take 5 cycles to complete. def P10W_DX_5C : SchedWriteRes<[P10_DX]> { let Latency = 5; } // A F2 pipeline may take 4 cycles to complete. def P10W_F2_4C : SchedWriteRes<[P10_FX]> { let Latency = 4; } // A FX pipeline may take from 2 to 3 cycles to complete. def P10W_FX_2C : SchedWriteRes<[P10_FX]> { let Latency = 2; } def P10W_FX_3C : SchedWriteRes<[P10_FX]> { let Latency = 3; } // A LD pipeline may take 6 cycles to complete. def P10W_LD_6C : SchedWriteRes<[P10_LD]> { let Latency = 6; } // A MF pipeline may take 13 cycles to complete. def P10W_MF_13C : SchedWriteRes<[P10_SX]> { let Latency = 13; } // A MFL pipeline may take 13 cycles to complete. def P10W_MFL_13C : SchedWriteRes<[P10_SX]> { let Latency = 13; } // A MM pipeline may take 10 cycles to complete. def P10W_MM_10C : SchedWriteRes<[P10_MM]> { let Latency = 10; } // A MU pipeline may take 5 cycles to complete. def P10W_MU_5C : SchedWriteRes<[P10_BF]> { let Latency = 5; } // A PM pipeline may take 4 cycles to complete. def P10W_PM_4C : SchedWriteRes<[P10_PM]> { let Latency = 4; } // A ST pipeline may take 3 cycles to complete. def P10W_ST_3C : SchedWriteRes<[P10_ST]> { let Latency = 3; } // A SX pipeline may take from 0 to 3 cycles to complete. def P10W_SX : SchedWriteRes<[P10_SX]> { let Latency = 0; } def P10W_SX_3C : SchedWriteRes<[P10_SX]> { let Latency = 3; } // A vMU pipeline may take 7 cycles to complete. def P10W_vMU_7C : SchedWriteRes<[P10_BF]> { let Latency = 7; } // ***************** Read Advance Definitions ***************** // Modeling pipeline forwarding logic. def P10BF_Read_1C : SchedReadAdvance<1, [P10W_DX_5C, P10W_MU_5C, P10W_vMU_7C, P10W_CY_7C, P10W_DF_13C, P10W_MM_10C]>; def P10BF_Read_2C : SchedReadAdvance<2, [P10W_BF_7C]>; def P10BR_Read_1C : SchedReadAdvance<1, [P10W_FX_3C, P10W_F2_4C]>; def P10CY_Read_1C : SchedReadAdvance<1, [P10W_DX_5C, P10W_MU_5C, P10W_vMU_7C, P10W_BF_7C, P10W_DF_13C, P10W_MM_10C]>; def P10CY_Read_3C : SchedReadAdvance<3, [P10W_CY_7C]>; def P10DF_Read_1C : SchedReadAdvance<1, [P10W_DX_5C, P10W_MU_5C, P10W_vMU_7C, P10W_BF_7C, P10W_CY_7C, P10W_DF_13C, P10W_MM_10C]>; def P10DV_Read_1C : SchedReadAdvance<1, [P10W_DX_5C, P10W_MU_5C, P10W_vMU_7C, P10W_BF_7C, P10W_CY_7C, P10W_DF_13C, P10W_MM_10C]>; def P10DX_Read_1C : SchedReadAdvance<1, [P10W_DX_5C, P10W_MU_5C, P10W_vMU_7C, P10W_BF_7C, P10W_CY_7C, P10W_DF_13C, P10W_MM_10C]>; def P10F2_Read_1C : SchedReadAdvance<1, [P10W_ST_3C, P10W_SX_3C, P10W_FX_3C, P10W_F2_4C, P10W_PM_4C]>; def P10FX_Read_1C : SchedReadAdvance<1, [P10W_ST_3C, P10W_SX_3C, P10W_FX_3C, P10W_F2_4C, P10W_PM_4C]>; def P10LD_Read_1C : SchedReadAdvance<1, [P10W_ST_3C, P10W_SX_3C, P10W_FX_3C, P10W_F2_4C]>; def P10MM_Read_1C : SchedReadAdvance<1, [P10W_DX_5C, P10W_MU_5C, P10W_vMU_7C, P10W_BF_7C, P10W_CY_7C, P10W_DF_13C]>; def P10MM_Read_6C : SchedReadAdvance<6, [P10W_MM_10C]>; def P10MU_Read_1C : SchedReadAdvance<1, [P10W_DX_5C, P10W_MU_5C, P10W_DF_13C]>; def P10PM_Read_1C : SchedReadAdvance<1, [P10W_ST_3C, P10W_SX_3C, P10W_FX_3C, P10W_F2_4C, P10W_PM_4C]>; def P10ST_Read_1C : SchedReadAdvance<1, [P10W_ST_3C, P10W_SX_3C, P10W_FX_3C, P10W_F2_4C, P10W_PM_4C]>; def P10SX_Read_1C : SchedReadAdvance<1, [P10W_ST_3C, P10W_SX_3C, P10W_FX_3C, P10W_F2_4C, P10W_PM_4C, P10W_MM_10C]>; def P10vMU_Read_1C : SchedReadAdvance<1, [P10W_DX_5C, P10W_MU_5C, P10W_vMU_7C, P10W_BF_7C, P10W_CY_7C, P10W_DF_13C, P10W_MM_10C]>; // Save 1 cycles if pipeline BF reads the data from pipelines DX, MU, vMU, CY, DF, MM. // Save 2 cycles if pipeline BF reads the data from pipelines BF. def P10BF_Read : SchedReadVariant<[ SchedVar, SchedVar ]>; // Save 1 cycles if pipeline CY reads the data from pipelines DX, MU, vMU, BF, DF, MM. // Save 3 cycles if pipeline CY reads the data from pipelines CY. def P10CY_Read : SchedReadVariant<[ SchedVar, SchedVar ]>; // Save 1 cycles if pipeline MM reads the data from pipelines DX, MU, vMU, BF, CY, DF. // Save 6 cycles if pipeline MM reads the data from pipelines MM. def P10MM_Read : SchedReadVariant<[ SchedVar, SchedVar ]>; // Save 1 cycles if pipeline BR reads the data from pipelines FX, F2. def : SchedAlias; // Save 1 cycles if pipeline DF reads the data from pipelines DX, MU, vMU, BF, CY, DF, MM. def : SchedAlias; // Save 1 cycles if pipeline DV reads the data from pipelines DX, MU, vMU, BF, CY, DF, MM. def : SchedAlias; // Save 1 cycles if pipeline DX reads the data from pipelines DX, MU, vMU, BF, CY, DF, MM. def : SchedAlias; // Save 1 cycles if pipeline F2 reads the data from pipelines ST, SX, FX, F2, PM. def : SchedAlias; // Save 1 cycles if pipeline FX reads the data from pipelines ST, SX, FX, F2, PM. def : SchedAlias; // Save 1 cycles if pipeline LD reads the data from pipelines ST, SX, FX, F2. def : SchedAlias; // Save 1 cycles if pipeline MU reads the data from pipelines DX, MU, DF. def : SchedAlias; // Save 1 cycles if pipeline PM reads the data from pipelines ST, SX, FX, F2, PM. def : SchedAlias; // Save 1 cycles if pipeline ST reads the data from pipelines ST, SX, FX, F2, PM. def : SchedAlias; // Save 1 cycles if pipeline SX reads the data from pipelines ST, SX, FX, F2, PM, MM. def : SchedAlias; // Save 1 cycles if pipeline vMU reads the data from pipelines DX, MU, vMU, BF, CY, DF, MM. def : SchedAlias; include "P10InstrResources.td" }