//===-- PPCScheduleP8.td - PPC P8 Scheduling Definitions ---*- tablegen -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file defines the itinerary class data for the POWER8 processor. // //===----------------------------------------------------------------------===// // Scheduling for the P8 involves tracking two types of resources: // 1. The dispatch bundle slots // 2. The functional unit resources // Dispatch units: def P8_DU1 : FuncUnit; def P8_DU2 : FuncUnit; def P8_DU3 : FuncUnit; def P8_DU4 : FuncUnit; def P8_DU5 : FuncUnit; def P8_DU6 : FuncUnit; def P8_DU7 : FuncUnit; // Only branch instructions will use DU7,DU8 def P8_DU8 : FuncUnit; // 10 insns per cycle (2-LU, 2-LSU, 2-FXU, 2-FPU, 1-CRU, 1-BRU). def P8_LU1 : FuncUnit; // Loads or fixed-point operations 1 def P8_LU2 : FuncUnit; // Loads or fixed-point operations 2 // Load/Store pipelines can handle Stores, fixed-point loads, and simple // fixed-point operations. def P8_LSU1 : FuncUnit; // Load/Store pipeline 1 def P8_LSU2 : FuncUnit; // Load/Store pipeline 2 // Fixed Point unit def P8_FXU1 : FuncUnit; // FX pipeline 1 def P8_FXU2 : FuncUnit; // FX pipeline 2 // The Floating-Point Unit (FPU) and Vector Media Extension (VMX) units // are combined on P7 and newer into a Vector Scalar Unit (VSU). // The P8 Instruction latency documents still refers to the unit as the // FPU, so keep in mind that FPU==VSU. // In contrast to the P7, the VMX units on P8 are symmetric, so no need to // split vector integer ops or 128-bit load/store/perms to the specific units. def P8_FPU1 : FuncUnit; // VS pipeline 1 def P8_FPU2 : FuncUnit; // VS pipeline 2 def P8_CRU : FuncUnit; // CR unit (CR logicals and move-from-SPRs) def P8_BRU : FuncUnit; // BR unit def P8Itineraries : ProcessorItineraries< [P8_DU1, P8_DU2, P8_DU3, P8_DU4, P8_DU5, P8_DU6, P8_DU7, P8_DU8, P8_LU1, P8_LU2, P8_LSU1, P8_LSU2, P8_FXU1, P8_FXU2, P8_FPU1, P8_FPU2, P8_CRU, P8_BRU], [], [ InstrItinData, InstrStage<1, [P8_FXU1, P8_FXU2, P8_LU1, P8_LU2, P8_LSU1, P8_LSU2]>], [1, 1, 1]>, InstrItinData, InstrStage<1, [P8_FXU1, P8_FXU2, P8_LU1, P8_LU2, P8_LSU1, P8_LSU2]>], [1, 1, 1]>, InstrItinData, InstrStage<1, [P8_FXU1, P8_FXU2], 0>, InstrStage<1, [P8_BRU]>], [1, 1, 1, 1]>, InstrItinData, InstrStage<1, [P8_FXU1, P8_FXU2]>], [1, 1, 1]>, InstrItinData, InstrStage<15, [P8_FXU1, P8_FXU2]>], [15, 1, 1]>, InstrItinData, InstrStage<23, [P8_FXU1, P8_FXU2]>], [23, 1, 1]>, InstrItinData, InstrStage<1, [P8_FXU1, P8_FXU2]>], [4, 1, 1]>, InstrItinData, InstrStage<1, [P8_FXU1, P8_FXU2]>], [4, 1, 1]>, InstrItinData, InstrStage<1, [P8_FXU1, P8_FXU2]>], [4, 1, 1]>, InstrItinData, InstrStage<1, [P8_FXU1, P8_FXU2]>], [1, 1, 1]>, InstrItinData, InstrStage<1, [P8_FXU1, P8_FXU2]>], [1, 1, 1]>, InstrItinData, InstrStage<1, [P8_FXU1, P8_FXU2]>], [1, 1, 1]>, InstrItinData, InstrStage<1, [P8_FXU1, P8_FXU2]>], [1, 1]>, InstrItinData, InstrStage<1, [P8_FXU1, P8_FXU2]>], [1, 1]>, InstrItinData, InstrStage<1, [P8_BRU]>], [3, 1, 1]>, // FIXME - the Br* groups below are not branch related, so should probably // be renamed. // IIC_BrCR consists of the cr* instructions. (crand,crnor,creqv, etc). // and should be 'First' in dispatch. InstrItinData, InstrStage<1, [P8_CRU]>], [3, 1, 1]>, // IIC_BrMCR consists of the mcrf instruction. InstrItinData, InstrStage<1, [P8_CRU]>], [3, 1, 1]>, // IIC_BrMCRX consists of mcrxr (obsolete instruction) and mtcrf, which // should be first in the dispatch group. InstrItinData, InstrStage<1, [P8_FXU1, P8_FXU2]>], [3, 1, 1]>, InstrItinData, InstrStage<1, [P8_FXU1, P8_FXU2]>], [3, 1]>, InstrItinData, InstrStage<1, [P8_LSU1, P8_LSU2, P8_LU1, P8_LU2]>], [2, 1, 1]>, InstrItinData, InstrStage<1, [P8_DU2], 0>, InstrStage<1, [P8_LSU1, P8_LSU2, P8_LU1, P8_LU2 ], 0>, InstrStage<1, [P8_FXU1, P8_FXU2]>], [2, 2, 1, 1]>, // Update-Indexed form loads/stores are no longer first and last in the // dispatch group. They are simply cracked, so require DU1,DU2. InstrItinData, InstrStage<1, [P8_DU2], 0>, InstrStage<1, [P8_LSU1, P8_LSU2, P8_LU1, P8_LU2], 0>, InstrStage<1, [P8_FXU1, P8_FXU2]>], [3, 3, 1, 1]>, InstrItinData, InstrStage<1, [P8_LSU1, P8_LSU2, P8_LU1, P8_LU2]>], [2, 1, 1]>, InstrItinData, InstrStage<1, [P8_DU2], 0>, InstrStage<1, [P8_LSU1, P8_LSU2, P8_LU1, P8_LU2], 0>, InstrStage<1, [P8_FXU1, P8_FXU2]>], [2, 2, 1, 1]>, InstrItinData, InstrStage<1, [P8_DU2], 0>, InstrStage<1, [P8_LSU1, P8_LSU2, P8_LU1, P8_LU2], 0>, InstrStage<1, [P8_FXU1, P8_FXU2]>], [3, 3, 1, 1]>, InstrItinData, InstrStage<1, [P8_LU1, P8_LU2]>], [3, 1, 1]>, InstrItinData, InstrStage<1, [P8_LU1, P8_LU2]>], [3, 1, 1]>, InstrItinData, InstrStage<1, [P8_DU2], 0>, InstrStage<1, [P8_LU1, P8_LU2], 0>, InstrStage<1, [P8_FXU1, P8_FXU2]>], [3, 3, 1, 1]>, InstrItinData, InstrStage<1, [P8_DU2], 0>, InstrStage<1, [P8_LU1, P8_LU2], 0>, InstrStage<1, [P8_FXU1, P8_FXU2]>], [3, 3, 1, 1]>, InstrItinData, InstrStage<1, [P8_DU2], 0>, InstrStage<1, [P8_LSU1, P8_LSU2, P8_LU1, P8_LU2], 0>, InstrStage<1, [P8_FXU1, P8_FXU2, P8_LU1, P8_LU2]>], [3, 1, 1]>, InstrItinData, InstrStage<1, [P8_DU2], 0>, InstrStage<1, [P8_LSU1, P8_LSU2, P8_LU1, P8_LU2], 0>, InstrStage<1, [P8_FXU1, P8_FXU2]>, InstrStage<1, [P8_FXU1, P8_FXU2]>], [4, 4, 1, 1]>, // first+last in dispatch group. InstrItinData, InstrStage<1, [P8_DU2], 0>, InstrStage<1, [P8_DU3], 0>, InstrStage<1, [P8_DU4], 0>, InstrStage<1, [P8_DU5], 0>, InstrStage<1, [P8_DU6], 0>, InstrStage<1, [P8_LSU1, P8_LSU2, P8_LU1, P8_LU2], 0>, InstrStage<1, [P8_FXU1, P8_FXU2]>, InstrStage<1, [P8_FXU1, P8_FXU2]>], [4, 4, 1, 1]>, InstrItinData, InstrStage<1, [P8_DU2], 0>, InstrStage<1, [P8_LSU1, P8_LSU2, P8_LU1, P8_LU2]>, InstrStage<1, [P8_FXU1, P8_FXU2]>], [3, 1, 1]>, InstrItinData, InstrStage<1, [P8_DU2], 0>, InstrStage<1, [P8_DU3], 0>, InstrStage<1, [P8_DU4], 0>, InstrStage<1, [P8_LSU1, P8_LSU2, P8_LU1, P8_LU2]>], [3, 1, 1]>, // first+last InstrItinData, InstrStage<1, [P8_DU2], 0>, InstrStage<1, [P8_DU3], 0>, InstrStage<1, [P8_DU4], 0>, InstrStage<1, [P8_DU5], 0>, InstrStage<1, [P8_DU6], 0>, InstrStage<1, [P8_LSU1, P8_LSU2, P8_LU1, P8_LU2]>], [3, 1, 1]>, InstrItinData, InstrStage<1, [P8_LSU1, P8_LSU2, P8_LU1, P8_LU2]>], [2, 1, 1]>, // Stores are dual-issued from the issue queue, so may only take up one // dispatch slot. The instruction will be broken into two IOPS. The agen // op is issued to the LSU, and the data op (register fetch) is issued // to either the LU (GPR store) or the VSU (FPR store). InstrItinData, InstrStage<1, [P8_LSU1, P8_LSU2]>, InstrStage<1, [P8_LU1, P8_LU2]>], [1, 1, 1]>, InstrItinData, InstrStage<1, [P8_LU1, P8_LU2, P8_LSU1, P8_LSU2]>] [1, 1, 1]>, InstrItinData, InstrStage<1, [P8_DU2], 0>, InstrStage<1, [P8_LU1, P8_LU2, P8_LSU1, P8_LSU2], 0>, InstrStage<1, [P8_FXU1, P8_FXU2]>], [2, 1, 1, 1]>, // First+last InstrItinData, InstrStage<1, [P8_DU2], 0>, InstrStage<1, [P8_DU3], 0>, InstrStage<1, [P8_DU4], 0>, InstrStage<1, [P8_DU5], 0>, InstrStage<1, [P8_DU6], 0>, InstrStage<1, [P8_LSU1, P8_LSU2], 0>, InstrStage<1, [P8_FXU1, P8_FXU2]>, InstrStage<1, [P8_FXU1, P8_FXU2]>], [2, 1, 1, 1]>, InstrItinData, InstrStage<1, [P8_LSU1, P8_LSU2], 0>, InstrStage<1, [P8_FPU1, P8_FPU2]>], [1, 1, 1]>, InstrItinData, InstrStage<1, [P8_DU2], 0>, InstrStage<1, [P8_LSU1, P8_LSU2], 0>, InstrStage<1, [P8_FXU1, P8_FXU2], 0>, InstrStage<1, [P8_FPU1, P8_FPU2]>], [2, 1, 1, 1]>, InstrItinData, InstrStage<1, [P8_LSU1, P8_LSU2], 0>, InstrStage<1, [P8_FPU1, P8_FPU2]>], [1, 1, 1]>, InstrItinData, InstrStage<1, [P8_DU2], 0>, InstrStage<1, [P8_DU3], 0>, InstrStage<1, [P8_DU4], 0>, InstrStage<1, [P8_DU5], 0>, InstrStage<1, [P8_DU6], 0>, InstrStage<1, [P8_LSU1, P8_LSU2], 0>, InstrStage<1, [P8_LU1, P8_LU2]>], [1, 1, 1]>, InstrItinData, InstrStage<1, [P8_DU2], 0>, InstrStage<1, [P8_DU3], 0>, InstrStage<1, [P8_DU4], 0>, InstrStage<1, [P8_DU5], 0>, InstrStage<1, [P8_DU6], 0>, InstrStage<1, [P8_LSU1, P8_LSU2], 0>, InstrStage<1, [P8_LU1, P8_LU2]>], [1, 1, 1]>, InstrItinData, InstrStage<1, [P8_CRU]>], [6, 1]>, InstrItinData, InstrStage<1, [P8_CRU]>], [3, 1]>, InstrItinData, InstrStage<1, [P8_FXU1, P8_FXU2]>], [4, 1]>, // mtctr InstrItinData, InstrStage<1, [P8_FPU1, P8_FPU2]>], [5, 1, 1]>, InstrItinData, InstrStage<1, [P8_FPU1, P8_FPU2]>], [5, 1, 1]>, InstrItinData, InstrStage<1, [P8_FPU1, P8_FPU2]>], [8, 1, 1]>, InstrItinData, InstrStage<1, [P8_FPU1, P8_FPU2]>], [33, 1, 1]>, InstrItinData, InstrStage<1, [P8_FPU1, P8_FPU2]>], [27, 1, 1]>, InstrItinData, InstrStage<1, [P8_FPU1, P8_FPU2]>], [44, 1, 1]>, InstrItinData, InstrStage<1, [P8_FPU1, P8_FPU2]>], [32, 1, 1]>, InstrItinData, InstrStage<1, [P8_FPU1, P8_FPU2]>], [5, 1, 1, 1]>, InstrItinData, InstrStage<1, [P8_FPU1, P8_FPU2]>], [5, 1, 1]>, InstrItinData, InstrStage<1, [P8_FPU1, P8_FPU2]>], [2, 1, 1]>, InstrItinData, InstrStage<1, [P8_FPU1, P8_FPU2]>], [2, 1, 1]>, InstrItinData, InstrStage<1, [P8_FPU1, P8_FPU2]>], [2, 1, 1]>, InstrItinData, InstrStage<1, [P8_FPU1, P8_FPU2]>], [6, 1, 1]>, InstrItinData, InstrStage<1, [P8_FPU1, P8_FPU2]>], [6, 1, 1]>, InstrItinData, InstrStage<1, [P8_FPU1, P8_FPU2]>], [6, 1, 1]>, InstrItinData, InstrStage<1, [P8_FPU1, P8_FPU2]>], [7, 1, 1]>, InstrItinData, InstrStage<1, [P8_FPU1, P8_FPU2]>], [3, 1, 1]> ]>; // ===---------------------------------------------------------------------===// // P8 machine model for scheduling and other instruction cost heuristics. // P8 has an 8 insn dispatch group (6 non-branch, 2 branch) and can issue up // to 10 insns per cycle (2-LU, 2-LSU, 2-FXU, 2-FPU, 1-CRU, 1-BRU). def P8Model : SchedMachineModel { let IssueWidth = 8; // up to 8 instructions dispatched per cycle. // up to six non-branch instructions. // up to two branches in a dispatch group. let LoadLatency = 3; // Optimistic load latency assuming bypass. // This is overriden by OperandCycles if the // Itineraries are queried instead. let MispredictPenalty = 16; // Try to make sure we have at least 10 dispatch groups in a loop. let LoopMicroOpBufferSize = 60; let CompleteModel = 0; let Itineraries = P8Itineraries; }