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;; Copyright (C) 2002, 2003, 2004, 2005, 2007 Free Software Foundation, Inc.;;;; This file is part of GCC.;;;; GCC is free software; you can redistribute it and/or modify;; it under the terms of the GNU General Public License as published by;; the Free Software Foundation; either version 3, or (at your option);; any later version.;;;; GCC is distributed in the hope that it will be useful,;; but WITHOUT ANY WARRANTY; without even the implied warranty of;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the;; GNU General Public License for more details.;;;; You should have received a copy of the GNU General Public License;; along with GCC; see the file COPYING3. If not see;; <http://www.gnu.org/licenses/>.;;;; .........................;;;; DFA-based pipeline description for Sandcraft SR3 (MIPS64 based);;;; The SR3 is described as:;; - nine-stage pipeline, insn buffering with out-of-order issue to;; multiple function units, with an average dispatch rate of 2;; insn.s per cycle (max 6 insns: 2 fpu, 4 cpu).;;;; The details on this are scant except for a diagram in;; Chap. 6 of Rev. 1.0 SR3 Spec.;;;; The model employed below is designed to closely approximate the;; published latencies. Emulation of out-of-order issue and the insn;; buffering is done via a VLIW dispatch style (with a packing of 6 insns);;; the function unit reservations restrictions (define_*_set) are;; contrived to support published timings.;;;; Reference:;; "SR3 Microprocessor Specification, System development information,";; Revision 1.0, 13 December 2000.;;;;;; Reservation model is based on:;; 1) Figure 6-1, from the 1.0 specification.;; 2) Chapter 19, from the 1.0 specification.;; 3) following questions(Red Hat)/answers(Sandcraft):;; RH> From Section 19.1;; RH> 1) In terms of figure 6-1, are all the instructions in;; RH> table 19-1 restricted;; RH> to ALUx? When ALUx is not in use for an instruction in table;; RH> 19-1 is;; RH> it fully compatible with all insns that issue to ALUy?;;;; Yes, all the instructions in Table 19-1 only go to ALUX, and all the;; instructions that can be issued to ALUY can also be issued to ALUX.;;;;;; RH> From Section 19.2;; RH> 2) Explain conditional moves execution path (in terms of;; RH> figure 6-1);;;; Conditional move of integer registers (based on floating point condition;; codes or integer register value) go to ALUX or ALUY.;;;; RH> 3) Explain floating point store execution path (in terms of;; RH> figure 6-1);;;; Floating point stores go to Ld/St and go to MOV in the floating point;; pipeline.;;;; Floating point loads go to Ld/St and go to LOAD in the floating point;; pipeline.;;;; RH> 4) Explain branch on floating condition (in terms of figure 6-1);;;; Branch on floating condition go to BRU.;;;; RH> 5) Is the column for single RECIP instruction latency correct?;; RH> What about for RSQRT single and double?;;;; The latency/repeat for RECIP and RSQRT are correct.;;;;;; Use four automata to isolate long latency operations, and to;; reduce the complexity of cpu+fpu, reducing space.;;(define_automaton "sr71_cpu, sr71_cpu1, sr71_cp1, sr71_cp2, sr71_fextra, sr71_imacc");; feeders for CPU function units and feeders for fpu (CP1 interface)(define_cpu_unit "sr_iss0,sr_iss1,sr_iss2,sr_iss3,sr_iss4,sr_iss5" "sr71_cpu");; CPU function units(define_cpu_unit "ipu_bru" "sr71_cpu1")(define_cpu_unit "ipu_alux" "sr71_cpu1")(define_cpu_unit "ipu_aluy" "sr71_cpu1")(define_cpu_unit "ipu_ldst" "sr71_cpu1")(define_cpu_unit "ipu_macc_iter" "sr71_imacc");; Floating-point unit (Co-processor interface 1).(define_cpu_unit "fpu_mov" "sr71_cp1")(define_cpu_unit "fpu_load" "sr71_cp1")(define_cpu_unit "fpu_fpu" "sr71_cp2");; fictitous unit to track long float insns with separate automaton(define_cpu_unit "fpu_iter" "sr71_fextra");;;; Define common execution path (reservation) combinations;;;;(define_reservation "cpu_iss" "sr_iss0|sr_iss1|sr_iss2|sr_iss3");; two cycles are used for instruction using the fpu as it runs;; at half the clock speed of the cpu. By adding an extra cycle;; to the issue units, the default/minimum "repeat" dispatch delay is;; accounted for all insn.s(define_reservation "cp1_iss" "(sr_iss4*2)|(sr_iss5*2)")(define_reservation "serial_dispatch" "sr_iss0+sr_iss1+sr_iss2+sr_iss3+sr_iss4+sr_iss5");; Simulate a 6 insn VLIW dispatch, 1 cycle in dispatch followed by;; reservation of function unit.(define_reservation "ri_insns" "cpu_iss,(ipu_alux|ipu_aluy)")(define_reservation "ri_mem" "cpu_iss,ipu_ldst")(define_reservation "ri_alux" "cpu_iss,ipu_alux")(define_reservation "ri_branch" "cpu_iss,ipu_bru")(define_reservation "rf_insn" "cp1_iss,fpu_fpu")(define_reservation "rf_ldmem" "cp1_iss,fpu_load"); simultaneous reservation of pseudo-unit keeps cp1 fpu tied; up until long cycle insn is finished...(define_reservation "rf_multi1" "rf_insn+fpu_iter");;;; The ordering of the instruction-execution-path/resource-usage;; descriptions (also known as reservation RTL) is roughly ordered;; based on the define attribute RTL for the "type" classification.;; When modifying, remember that the first test that matches is the;; reservation used!;;(define_insn_reservation "ir_sr70_unknown" 1(and (eq_attr "cpu" "sr71000")(eq_attr "type" "unknown"))"serial_dispatch");; Assume prediction fails.(define_insn_reservation "ir_sr70_branch" 6(and (eq_attr "cpu" "sr71000")(eq_attr "type" "branch,jump,call"))"ri_branch")(define_insn_reservation "ir_sr70_load" 2(and (eq_attr "cpu" "sr71000")(eq_attr "type" "load"))"ri_mem")(define_insn_reservation "ir_sr70_store" 1(and (eq_attr "cpu" "sr71000")(eq_attr "type" "store"))"ri_mem");;;; float loads/stores flow through both cpu and cp1...;;(define_insn_reservation "ir_sr70_fload" 9(and (eq_attr "cpu" "sr71000")(eq_attr "type" "fpload,fpidxload"))"(cpu_iss+cp1_iss),(ri_mem+rf_ldmem)")(define_insn_reservation "ir_sr70_fstore" 1(and (eq_attr "cpu" "sr71000")(eq_attr "type" "fpstore,fpidxstore"))"(cpu_iss+cp1_iss),(fpu_mov+ri_mem)");; This reservation is for conditional move based on integer;; or floating point CC.(define_insn_reservation "ir_sr70_condmove" 4(and (eq_attr "cpu" "sr71000")(eq_attr "type" "condmove"))"ri_insns");; Try to discriminate move-from-cp1 versus move-to-cp1 as latencies;; are different. Like float load/store, these insns use multiple;; resources simultaneously(define_insn_reservation "ir_sr70_xfer_from" 6(and (eq_attr "cpu" "sr71000")(eq_attr "type" "mfc"))"(cpu_iss+cp1_iss),(fpu_mov+ri_mem)")(define_insn_reservation "ir_sr70_xfer_to" 9(and (eq_attr "cpu" "sr71000")(eq_attr "type" "mtc"))"(cpu_iss+cp1_iss),(ri_mem+rf_ldmem)")(define_insn_reservation "ir_sr70_hilo" 1(and (eq_attr "cpu" "sr71000")(eq_attr "type" "mthilo,mfhilo"))"ri_insns")(define_insn_reservation "ir_sr70_arith" 1(and (eq_attr "cpu" "sr71000")(eq_attr "type" "arith,shift,signext,slt,clz,const,logical,move,trap"))"ri_insns");; emulate repeat (dispatch stall) by spending extra cycle(s) in;; in iter unit(define_insn_reservation "ir_sr70_imul_si" 4(and (eq_attr "cpu" "sr71000")(and (eq_attr "type" "imul,imul3,imadd")(eq_attr "mode" "SI")))"ri_alux,ipu_alux,ipu_macc_iter")(define_insn_reservation "ir_sr70_imul_di" 6(and (eq_attr "cpu" "sr71000")(and (eq_attr "type" "imul,imul3,imadd")(eq_attr "mode" "DI")))"ri_alux,ipu_alux,(ipu_macc_iter*3)");; Divide algorithm is early out with best latency of 7 pcycles.;; Use worst case for scheduling purposes.(define_insn_reservation "ir_sr70_idiv_si" 41(and (eq_attr "cpu" "sr71000")(and (eq_attr "type" "idiv")(eq_attr "mode" "SI")))"ri_alux,ipu_alux,(ipu_macc_iter*38)")(define_insn_reservation "ir_sr70_idiv_di" 73(and (eq_attr "cpu" "sr71000")(and (eq_attr "type" "idiv")(eq_attr "mode" "DI")))"ri_alux,ipu_alux,(ipu_macc_iter*70)");; extra reservations of fpu_fpu are for repeat latency(define_insn_reservation "ir_sr70_fadd_sf" 8(and (eq_attr "cpu" "sr71000")(and (eq_attr "type" "fadd")(eq_attr "mode" "SF")))"rf_insn,fpu_fpu")(define_insn_reservation "ir_sr70_fadd_df" 10(and (eq_attr "cpu" "sr71000")(and (eq_attr "type" "fadd")(eq_attr "mode" "DF")))"rf_insn,fpu_fpu");; Latencies for MADD,MSUB, NMADD, NMSUB assume the Multiply is fused;; with the sub or add.(define_insn_reservation "ir_sr70_fmul_sf" 8(and (eq_attr "cpu" "sr71000")(and (eq_attr "type" "fmul,fmadd")(eq_attr "mode" "SF")))"rf_insn,fpu_fpu");; tie up the fpu unit to emulate the balance for the "repeat;; rate" of 8 (2 are spent in the iss unit)(define_insn_reservation "ir_sr70_fmul_df" 16(and (eq_attr "cpu" "sr71000")(and (eq_attr "type" "fmul,fmadd")(eq_attr "mode" "DF")))"rf_insn,fpu_fpu*6");; RECIP insn uses same type attr as div, and for SR3, has same;; timings for double. However, single RECIP has a latency of;; 28 -- only way to fix this is to introduce new insn attrs.;; cycles spent in iter unit are designed to satisfy balance;; of "repeat" latency after insn uses up rf_multi1 reservation(define_insn_reservation "ir_sr70_fdiv_sf" 60(and (eq_attr "cpu" "sr71000")(and (eq_attr "type" "fdiv,frdiv")(eq_attr "mode" "SF")))"rf_multi1+(fpu_iter*51)")(define_insn_reservation "ir_sr70_fdiv_df" 120(and (eq_attr "cpu" "sr71000")(and (eq_attr "type" "fdiv,frdiv")(eq_attr "mode" "DF")))"rf_multi1+(fpu_iter*109)")(define_insn_reservation "ir_sr70_fabs" 4(and (eq_attr "cpu" "sr71000")(eq_attr "type" "fabs,fneg,fmove"))"rf_insn,fpu_fpu")(define_insn_reservation "ir_sr70_fcmp" 10(and (eq_attr "cpu" "sr71000")(eq_attr "type" "fcmp"))"rf_insn,fpu_fpu");; "fcvt" type attribute covers a number of diff insns, most have the same;; latency descriptions, a few vary. We use the;; most common timing (which is also worst case).(define_insn_reservation "ir_sr70_fcvt" 12(and (eq_attr "cpu" "sr71000")(eq_attr "type" "fcvt"))"rf_insn,fpu_fpu*4")(define_insn_reservation "ir_sr70_fsqrt_sf" 62(and (eq_attr "cpu" "sr71000")(and (eq_attr "type" "fsqrt")(eq_attr "mode" "SF")))"rf_multi1+(fpu_iter*53)")(define_insn_reservation "ir_sr70_fsqrt_df" 122(and (eq_attr "cpu" "sr71000")(and (eq_attr "type" "fsqrt")(eq_attr "mode" "DF")))"rf_multi1+(fpu_iter*111)")(define_insn_reservation "ir_sr70_frsqrt_sf" 48(and (eq_attr "cpu" "sr71000")(and (eq_attr "type" "frsqrt")(eq_attr "mode" "SF")))"rf_multi1+(fpu_iter*39)")(define_insn_reservation "ir_sr70_frsqrt_df" 240(and (eq_attr "cpu" "sr71000")(and (eq_attr "type" "frsqrt")(eq_attr "mode" "DF")))"rf_multi1+(fpu_iter*229)")(define_insn_reservation "ir_sr70_multi" 1(and (eq_attr "cpu" "sr71000")(eq_attr "type" "multi"))"serial_dispatch")(define_insn_reservation "ir_sr70_nop" 1(and (eq_attr "cpu" "sr71000")(eq_attr "type" "nop"))"ri_insns")