//===-- PPCSchedule440.td - PPC 440 Scheduling Definitions -*- tablegen -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // Primary reference: // PowerPC 440x6 Embedded Processor Core User's Manual. // IBM (as updated in) 2010. // The basic PPC 440 does not include a floating-point unit; the pipeline // timings here are constructed to match the FP2 unit shipped with the // PPC-440- and PPC-450-based Blue Gene (L and P) supercomputers. // References: // S. Chatterjee, et al. Design and exploitation of a high-performance // SIMD floating-point unit for Blue Gene/L. // IBM J. Res. & Dev. 49 (2/3) March/May 2005. // also: // Carlos Sosa and Brant Knudson. IBM System Blue Gene Solution: // Blue Gene/P Application Development. // IBM (as updated in) 2009. //===----------------------------------------------------------------------===// // Functional units on the PowerPC 440/450 chip sets // def P440_DISS1 : FuncUnit; // Issue unit 1 def P440_DISS2 : FuncUnit; // Issue unit 2 def P440_LRACC : FuncUnit; // Register access and dispatch for // the simple integer (J-pipe) and // load/store (L-pipe) pipelines def P440_IRACC : FuncUnit; // Register access and dispatch for // the complex integer (I-pipe) pipeline def P440_FRACC : FuncUnit; // Register access and dispatch for // the floating-point execution (F-pipe) pipeline def P440_IEXE1 : FuncUnit; // Execution stage 1 for the I pipeline def P440_IEXE2 : FuncUnit; // Execution stage 2 for the I pipeline def P440_IWB : FuncUnit; // Write-back unit for the I pipeline def P440_JEXE1 : FuncUnit; // Execution stage 1 for the J pipeline def P440_JEXE2 : FuncUnit; // Execution stage 2 for the J pipeline def P440_JWB : FuncUnit; // Write-back unit for the J pipeline def P440_AGEN : FuncUnit; // Address generation for the L pipeline def P440_CRD : FuncUnit; // D-cache access for the L pipeline def P440_LWB : FuncUnit; // Write-back unit for the L pipeline def P440_FEXE1 : FuncUnit; // Execution stage 1 for the F pipeline def P440_FEXE2 : FuncUnit; // Execution stage 2 for the F pipeline def P440_FEXE3 : FuncUnit; // Execution stage 3 for the F pipeline def P440_FEXE4 : FuncUnit; // Execution stage 4 for the F pipeline def P440_FEXE5 : FuncUnit; // Execution stage 5 for the F pipeline def P440_FEXE6 : FuncUnit; // Execution stage 6 for the F pipeline def P440_FWB : FuncUnit; // Write-back unit for the F pipeline def P440_LWARX_Hold : FuncUnit; // This is a pseudo-unit which is used // to make sure that no lwarx/stwcx. // instructions are issued while another // lwarx/stwcx. is in the L pipe. def P440_GPR_Bypass : Bypass; // The bypass for general-purpose regs. def P440_FPR_Bypass : Bypass; // The bypass for floating-point regs. // Notes: // Instructions are held in the FRACC, LRACC and IRACC pipeline // stages until their source operands become ready. Exceptions: // - Store instructions will hold in the AGEN stage // - The integer multiply-accumulate instruction will hold in // the IEXE1 stage // // For most I-pipe operations, the result is available at the end of // the IEXE1 stage. Operations such as multiply and divide must // continue to execute in IEXE2 and IWB. Divide resides in IWB for // 33 cycles (multiply also calculates its result in IWB). For all // J-pipe instructions, the result is available // at the end of the JEXE1 stage. Loads have a 3-cycle latency // (data is not available until after the LWB stage). // // The L1 cache hit latency is four cycles for floating point loads // and three cycles for integer loads. // // The stwcx. instruction requires both the LRACC and the IRACC // dispatch stages. It must be issued from DISS0. // // All lwarx/stwcx. instructions hold in LRACC if another // uncommitted lwarx/stwcx. is in AGEN, CRD, or LWB. // // msync (a.k.a. sync) and mbar will hold in LWB until all load/store // resources are empty. AGEN and CRD are held empty until the msync/mbar // commits. // // Most floating-point instructions, computational and move, // have a 5-cycle latency. Divide takes longer (30 cycles). Instructions that // update the CR take 2 cycles. Stores take 3 cycles and, as mentioned above, // loads take 4 cycles (for L1 hit). // // This file defines the itinerary class data for the PPC 440 processor. // //===----------------------------------------------------------------------===// def PPC440Itineraries : ProcessorItineraries< [P440_DISS1, P440_DISS2, P440_FRACC, P440_IRACC, P440_IEXE1, P440_IEXE2, P440_IWB, P440_LRACC, P440_JEXE1, P440_JEXE2, P440_JWB, P440_AGEN, P440_CRD, P440_LWB, P440_FEXE1, P440_FEXE2, P440_FEXE3, P440_FEXE4, P440_FEXE5, P440_FEXE6, P440_FWB, P440_LWARX_Hold], [P440_GPR_Bypass, P440_FPR_Bypass], [ InstrItinData, InstrStage<1, [P440_IRACC, P440_LRACC]>, InstrStage<1, [P440_IEXE1, P440_JEXE1]>, InstrStage<1, [P440_IEXE2, P440_JEXE2]>, InstrStage<1, [P440_IWB, P440_JWB]>], [2, 0, 0], [P440_GPR_Bypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC, P440_LRACC]>, InstrStage<1, [P440_IEXE1, P440_JEXE1]>, InstrStage<1, [P440_IEXE2, P440_JEXE2]>, InstrStage<1, [P440_IWB, P440_JWB]>], [2, 0, 0], [P440_GPR_Bypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC, P440_LRACC]>, InstrStage<1, [P440_IEXE1, P440_JEXE1]>, InstrStage<1, [P440_IEXE2, P440_JEXE2]>, InstrStage<1, [P440_IWB, P440_JWB]>], [2, 0, 0], [NoBypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<33, [P440_IWB]>], [36, 0, 0], [NoBypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<1, [P440_IWB]>], [3, 0, 0], [P440_GPR_Bypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<1, [P440_IWB]>], [3, 0, 0], [P440_GPR_Bypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<1, [P440_IWB]>], [4, 0, 0], [NoBypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<1, [P440_IWB]>], [4, 0, 0], [NoBypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<1, [P440_IWB]>], [4, 0, 0], [NoBypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC, P440_LRACC]>, InstrStage<1, [P440_IEXE1, P440_JEXE1]>, InstrStage<1, [P440_IEXE2, P440_JEXE2]>, InstrStage<1, [P440_IWB, P440_JWB]>], [2, 0, 0], [P440_GPR_Bypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC, P440_LRACC]>, InstrStage<1, [P440_IEXE1, P440_JEXE1]>, InstrStage<1, [P440_IEXE2, P440_JEXE2]>, InstrStage<1, [P440_IWB, P440_JWB]>], [2, 0, 0], [P440_GPR_Bypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<1, [P440_IWB]>], [2, 0], [P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<1, [P440_IWB]>], [4, 0], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<1, [P440_IWB]>], [4, 0, 0], [NoBypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<1, [P440_IWB]>], [4, 0, 0], [NoBypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<1, [P440_IWB]>], [4, 0, 0], [NoBypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<1, [P440_LWB]>], [1, 1], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<1, [P440_LWB]>], [1, 1], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<1, [P440_LWB]>], [1, 1], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<2, [P440_LWB]>], [5, 1, 1], [P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<2, [P440_LWB]>], [5, 2, 1, 1], [P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<2, [P440_LWB]>], [5, 2, 1, 1], [P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<2, [P440_LWB]>], [1, 1, 1], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<2, [P440_LWB]>], [2, 1, 1, 1], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<1, [P440_LWB]>], [4, 1, 1], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<1, [P440_LWB]>], [1, 1, 1], [NoBypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<1, [P440_LWB]>], [2, 1, 1, 1], [NoBypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<2, [P440_LWB]>], [5, 1, 1], [NoBypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<1, [P440_LWB]>], [5, 2, 1, 1], [NoBypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<1, [P440_LWB]>], [5, 2, 1, 1], [NoBypass, P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<1, [P440_LWB]>], [4, 1, 1], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<1, [P440_LWB]>], [4, 1, 1], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<1, [P440_LWB]>], [4, 1, 1], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<1, [P440_LWB]>], [4, 1, 1], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC], 0>, InstrStage<4, [P440_LWARX_Hold], 0>, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<1, [P440_LWB]>], [4, 1, 1], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<2, [P440_LWB]>], [4, 1, 1], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<2, [P440_LWB]>], [2, 1, 1, 1], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<2, [P440_LWB]>], [2, 1, 1, 1], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC], 0>, InstrStage<4, [P440_LWARX_Hold], 0>, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<1, [P440_LWB]>], [4, 1, 1], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC], 0>, InstrStage<4, [P440_LWARX_Hold], 0>, InstrStage<1, [P440_LRACC]>, InstrStage<1, [P440_AGEN]>, InstrStage<1, [P440_CRD]>, InstrStage<1, [P440_LWB]>], [4, 1, 1], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_LRACC]>, InstrStage<3, [P440_AGEN], 1>, InstrStage<2, [P440_CRD], 1>, InstrStage<1, [P440_LWB]>]>, InstrItinData, InstrStage<1, [P440_FRACC], 0>, InstrStage<1, [P440_LRACC], 0>, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_FEXE1], 0>, InstrStage<1, [P440_AGEN], 0>, InstrStage<1, [P440_JEXE1], 0>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_FEXE2], 0>, InstrStage<1, [P440_CRD], 0>, InstrStage<1, [P440_JEXE2], 0>, InstrStage<1, [P440_IEXE2]>, InstrStage<6, [P440_FEXE3], 0>, InstrStage<6, [P440_LWB], 0>, InstrStage<6, [P440_JWB], 0>, InstrStage<6, [P440_IWB]>]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<1, [P440_IWB]>], [2, 0], [P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<1, [P440_IWB]>], [2, 0], [P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<3, [P440_IWB]>], [5, 0], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<1, [P440_IWB]>]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<1, [P440_IWB]>], [4, 0], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<1, [P440_IWB]>], [3, 0], [P440_GPR_Bypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<3, [P440_IWB]>], [6, 0], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<3, [P440_IWB]>], [6, 0], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<3, [P440_IWB]>], [6, 0], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<3, [P440_IWB]>], [6, 0], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<1, [P440_IWB]>], [4, 0], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_IRACC]>, InstrStage<1, [P440_IEXE1]>, InstrStage<1, [P440_IEXE2]>, InstrStage<1, [P440_IWB]>], [4, 0], [NoBypass, P440_GPR_Bypass]>, InstrItinData, InstrStage<1, [P440_FRACC]>, InstrStage<1, [P440_FEXE1]>, InstrStage<1, [P440_FEXE2]>, InstrStage<1, [P440_FEXE3]>, InstrStage<1, [P440_FEXE4]>, InstrStage<1, [P440_FEXE5]>, InstrStage<1, [P440_FEXE6]>, InstrStage<1, [P440_FWB]>], [6, 0, 0], [P440_FPR_Bypass, P440_FPR_Bypass, P440_FPR_Bypass]>, InstrItinData, InstrStage<1, [P440_FRACC]>, InstrStage<1, [P440_FEXE1]>, InstrStage<1, [P440_FEXE2]>, InstrStage<1, [P440_FEXE3]>, InstrStage<1, [P440_FEXE4]>, InstrStage<1, [P440_FEXE5]>, InstrStage<1, [P440_FEXE6]>, InstrStage<1, [P440_FWB]>], [6, 0, 0], [P440_FPR_Bypass, P440_FPR_Bypass, P440_FPR_Bypass]>, InstrItinData, InstrStage<1, [P440_FRACC]>, InstrStage<1, [P440_FEXE1]>, InstrStage<1, [P440_FEXE2]>, InstrStage<1, [P440_FEXE3]>, InstrStage<1, [P440_FEXE4]>, InstrStage<1, [P440_FEXE5]>, InstrStage<1, [P440_FEXE6]>, InstrStage<1, [P440_FWB]>], [6, 0, 0], [P440_FPR_Bypass, P440_FPR_Bypass, P440_FPR_Bypass]>, InstrItinData, InstrStage<1, [P440_FRACC]>, InstrStage<1, [P440_FEXE1]>, InstrStage<1, [P440_FEXE2]>, InstrStage<1, [P440_FEXE3]>, InstrStage<1, [P440_FEXE4]>, InstrStage<1, [P440_FEXE5]>, InstrStage<1, [P440_FEXE6]>, InstrStage<25, [P440_FWB]>], [31, 0, 0], [NoBypass, P440_FPR_Bypass, P440_FPR_Bypass]>, InstrItinData, InstrStage<1, [P440_FRACC]>, InstrStage<1, [P440_FEXE1]>, InstrStage<1, [P440_FEXE2]>, InstrStage<1, [P440_FEXE3]>, InstrStage<1, [P440_FEXE4]>, InstrStage<1, [P440_FEXE5]>, InstrStage<1, [P440_FEXE6]>, InstrStage<13, [P440_FWB]>], [19, 0, 0], [NoBypass, P440_FPR_Bypass, P440_FPR_Bypass]>, InstrItinData, InstrStage<1, [P440_FRACC]>, InstrStage<1, [P440_FEXE1]>, InstrStage<1, [P440_FEXE2]>, InstrStage<1, [P440_FEXE3]>, InstrStage<1, [P440_FEXE4]>, InstrStage<1, [P440_FEXE5]>, InstrStage<1, [P440_FEXE6]>, InstrStage<1, [P440_FWB]>], [6, 0, 0, 0], [P440_FPR_Bypass, P440_FPR_Bypass, P440_FPR_Bypass, P440_FPR_Bypass]>, InstrItinData, InstrStage<1, [P440_FRACC]>, InstrStage<1, [P440_FEXE1]>, InstrStage<1, [P440_FEXE2]>, InstrStage<1, [P440_FEXE3]>, InstrStage<1, [P440_FEXE4]>, InstrStage<1, [P440_FEXE5]>, InstrStage<1, [P440_FEXE6]>, InstrStage<1, [P440_FWB]>], [6, 0], [P440_FPR_Bypass, P440_FPR_Bypass]> ]>; // ===---------------------------------------------------------------------===// // PPC440 machine model for scheduling and other instruction cost heuristics. def PPC440Model : SchedMachineModel { let IssueWidth = 2; // 2 instructions are dispatched per cycle. let MinLatency = -1; // OperandCycles are interpreted as MinLatency. let LoadLatency = 5; // Optimistic load latency assuming bypass. // This is overriden by OperandCycles if the // Itineraries are queried instead. let Itineraries = PPC440Itineraries; }