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;; Pipeline description for Motorola PowerPC e300c3 core.;; Copyright (C) 2008, 2009 Free Software Foundation, Inc.;; Contributed by Edmar Wienskoski (edmar@freescale.com);;;; 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/>.(define_automaton "ppce300c3_most,ppce300c3_long,ppce300c3_retire")(define_cpu_unit "ppce300c3_decode_0,ppce300c3_decode_1" "ppce300c3_most");; We don't simulate general issue queue (GIC). If we have SU insn;; and then SU1 insn, they can not be issued on the same cycle;; (although SU1 insn and then SU insn can be issued) because the SU;; insn will go to SU1 from GIC0 entry. Fortunately, the first cycle;; multipass insn scheduling will find the situation and issue the SU1;; insn and then the SU insn.(define_cpu_unit "ppce300c3_issue_0,ppce300c3_issue_1" "ppce300c3_most");; We could describe completion buffers slots in combination with the;; retirement units and the order of completion but the result;; automaton would behave in the same way because we can not describe;; real latency time with taking in order completion into account.;; Actually we could define the real latency time by querying reserved;; automaton units but the current scheduler uses latency time before;; issuing insns and making any reservations.;;;; So our description is aimed to achieve a insn schedule in which the;; insns would not wait in the completion buffer.(define_cpu_unit "ppce300c3_retire_0,ppce300c3_retire_1" "ppce300c3_retire");; Branch unit:(define_cpu_unit "ppce300c3_bu" "ppce300c3_most");; IU:(define_cpu_unit "ppce300c3_iu0_stage0,ppce300c3_iu1_stage0" "ppce300c3_most");; IU: This used to describe non-pipelined division.(define_cpu_unit "ppce300c3_mu_div" "ppce300c3_long");; SRU:(define_cpu_unit "ppce300c3_sru_stage0" "ppce300c3_most");; Here we simplified LSU unit description not describing the stages.(define_cpu_unit "ppce300c3_lsu" "ppce300c3_most");; FPU:(define_cpu_unit "ppce300c3_fpu" "ppce300c3_most");; The following units are used to make automata deterministic(define_cpu_unit "present_ppce300c3_decode_0" "ppce300c3_most")(define_cpu_unit "present_ppce300c3_issue_0" "ppce300c3_most")(define_cpu_unit "present_ppce300c3_retire_0" "ppce300c3_retire")(define_cpu_unit "present_ppce300c3_iu0_stage0" "ppce300c3_most");; The following sets to make automata deterministic when option ndfa is used.(presence_set "present_ppce300c3_decode_0" "ppce300c3_decode_0")(presence_set "present_ppce300c3_issue_0" "ppce300c3_issue_0")(presence_set "present_ppce300c3_retire_0" "ppce300c3_retire_0")(presence_set "present_ppce300c3_iu0_stage0" "ppce300c3_iu0_stage0");; Some useful abbreviations.(define_reservation "ppce300c3_decode""ppce300c3_decode_0|ppce300c3_decode_1+present_ppce300c3_decode_0")(define_reservation "ppce300c3_issue""ppce300c3_issue_0|ppce300c3_issue_1+present_ppce300c3_issue_0")(define_reservation "ppce300c3_retire""ppce300c3_retire_0|ppce300c3_retire_1+present_ppce300c3_retire_0")(define_reservation "ppce300c3_iu_stage0""ppce300c3_iu0_stage0|ppce300c3_iu1_stage0+present_ppce300c3_iu0_stage0");; Compares can be executed either one of the IU or SRU(define_insn_reservation "ppce300c3_cmp" 1(and (eq_attr "type" "cmp,compare,delayed_compare,fast_compare")(ior (eq_attr "cpu" "ppce300c2") (eq_attr "cpu" "ppce300c3")))"ppce300c3_decode,ppce300c3_issue+(ppce300c3_iu_stage0|ppce300c3_sru_stage0) \+ppce300c3_retire");; Other one cycle IU insns(define_insn_reservation "ppce300c3_iu" 1(and (eq_attr "type" "integer,insert_word,isel")(ior (eq_attr "cpu" "ppce300c2") (eq_attr "cpu" "ppce300c3")))"ppce300c3_decode,ppce300c3_issue+ppce300c3_iu_stage0+ppce300c3_retire");; Branch. Actually this latency time is not used by the scheduler.(define_insn_reservation "ppce300c3_branch" 1(and (eq_attr "type" "jmpreg,branch")(ior (eq_attr "cpu" "ppce300c2") (eq_attr "cpu" "ppce300c3")))"ppce300c3_decode,ppce300c3_bu,ppce300c3_retire");; Multiply is non-pipelined but can be executed in any IU(define_insn_reservation "ppce300c3_multiply" 2(and (eq_attr "type" "imul,imul2,imul3,imul_compare")(ior (eq_attr "cpu" "ppce300c2") (eq_attr "cpu" "ppce300c3")))"ppce300c3_decode,ppce300c3_issue+ppce300c3_iu_stage0, \ppce300c3_iu_stage0+ppce300c3_retire");; Divide. We use the average latency time here. We omit reserving a;; retire unit because of the result automata will be huge.(define_insn_reservation "ppce300c3_divide" 20(and (eq_attr "type" "idiv")(ior (eq_attr "cpu" "ppce300c2") (eq_attr "cpu" "ppce300c3")))"ppce300c3_decode,ppce300c3_issue+ppce300c3_iu_stage0+ppce300c3_mu_div,\ppce300c3_mu_div*19");; CR logical(define_insn_reservation "ppce300c3_cr_logical" 1(and (eq_attr "type" "cr_logical,delayed_cr")(ior (eq_attr "cpu" "ppce300c2") (eq_attr "cpu" "ppce300c3")))"ppce300c3_decode,ppce300c3_issue+ppce300c3_sru_stage0+ppce300c3_retire");; Mfcr(define_insn_reservation "ppce300c3_mfcr" 1(and (eq_attr "type" "mfcr")(ior (eq_attr "cpu" "ppce300c2") (eq_attr "cpu" "ppce300c3")))"ppce300c3_decode,ppce300c3_issue+ppce300c3_sru_stage0+ppce300c3_retire");; Mtcrf(define_insn_reservation "ppce300c3_mtcrf" 1(and (eq_attr "type" "mtcr")(ior (eq_attr "cpu" "ppce300c2") (eq_attr "cpu" "ppce300c3")))"ppce300c3_decode,ppce300c3_issue+ppce300c3_sru_stage0+ppce300c3_retire");; Mtjmpr(define_insn_reservation "ppce300c3_mtjmpr" 1(and (eq_attr "type" "mtjmpr,mfjmpr")(ior (eq_attr "cpu" "ppce300c2") (eq_attr "cpu" "ppce300c3")))"ppce300c3_decode,ppce300c3_issue+ppce300c3_sru_stage0+ppce300c3_retire");; Float point instructions(define_insn_reservation "ppce300c3_fpcompare" 3(and (eq_attr "type" "fpcompare")(eq_attr "cpu" "ppce300c3"))"ppce300c3_decode,ppce300c3_issue+ppce300c3_fpu,nothing,ppce300c3_retire")(define_insn_reservation "ppce300c3_fp" 3(and (eq_attr "type" "fp")(eq_attr "cpu" "ppce300c3"))"ppce300c3_decode,ppce300c3_issue+ppce300c3_fpu,nothing,ppce300c3_retire")(define_insn_reservation "ppce300c3_dmul" 4(and (eq_attr "type" "dmul")(eq_attr "cpu" "ppce300c3"))"ppce300c3_decode,ppce300c3_issue+ppce300c3_fpu,ppce300c3_fpu,nothing,ppce300c3_retire"); Divides are not pipelined(define_insn_reservation "ppce300c3_sdiv" 18(and (eq_attr "type" "sdiv")(eq_attr "cpu" "ppce300c3"))"ppce300c3_decode,ppce300c3_issue+ppce300c3_fpu,ppce300c3_fpu*17")(define_insn_reservation "ppce300c3_ddiv" 33(and (eq_attr "type" "ddiv")(eq_attr "cpu" "ppce300c3"))"ppce300c3_decode,ppce300c3_issue+ppce300c3_fpu,ppce300c3_fpu*32");; Loads(define_insn_reservation "ppce300c3_load" 2(and (eq_attr "type" "load,load_ext,load_ext_u,load_ext_ux,load_ux,load_u")(ior (eq_attr "cpu" "ppce300c2") (eq_attr "cpu" "ppce300c3")))"ppce300c3_decode,ppce300c3_issue+ppce300c3_lsu,ppce300c3_retire")(define_insn_reservation "ppce300c3_fpload" 2(and (eq_attr "type" "fpload,fpload_ux,fpload_u")(eq_attr "cpu" "ppce300c3"))"ppce300c3_decode,ppce300c3_issue+ppce300c3_lsu,ppce300c3_retire");; Stores.(define_insn_reservation "ppce300c3_store" 2(and (eq_attr "type" "store,store_ux,store_u")(ior (eq_attr "cpu" "ppce300c2") (eq_attr "cpu" "ppce300c3")))"ppce300c3_decode,ppce300c3_issue+ppce300c3_lsu,ppce300c3_retire")(define_insn_reservation "ppce300c3_fpstore" 2(and (eq_attr "type" "fpstore,fpstore_ux,fpstore_u")(eq_attr "cpu" "ppce300c3"))"ppce300c3_decode,ppce300c3_issue+ppce300c3_lsu,ppce300c3_retire")