;; Pipeline model for ST Microelectronics Loongson-2E/2F cores. ;; Copyright (C) 2008-2018 Free Software Foundation, Inc. ;; Contributed by CodeSourcery. ;; ;; 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 ;; . (define_c_enum "unspec" [ UNSPEC_LOONGSON_ALU1_TURN_ENABLED_INSN UNSPEC_LOONGSON_ALU2_TURN_ENABLED_INSN UNSPEC_LOONGSON_FALU1_TURN_ENABLED_INSN UNSPEC_LOONGSON_FALU2_TURN_ENABLED_INSN ]) ;; Automaton for integer instructions. (define_automaton "ls2_alu") ;; ALU1 and ALU2. ;; We need to query these units to adjust round-robin counter. (define_query_cpu_unit "ls2_alu1_core,ls2_alu2_core" "ls2_alu") ;; Pseudo units to help modeling of ALU1/2 round-robin dispatch strategy. (define_cpu_unit "ls2_alu1_turn,ls2_alu2_turn" "ls2_alu") ;; Pseudo units to enable/disable ls2_alu[12]_turn units. ;; ls2_alu[12]_turn unit can be subscribed only after ls2_alu[12]_turn_enabled ;; unit is subscribed. (define_cpu_unit "ls2_alu1_turn_enabled,ls2_alu2_turn_enabled" "ls2_alu") (presence_set "ls2_alu1_turn" "ls2_alu1_turn_enabled") (presence_set "ls2_alu2_turn" "ls2_alu2_turn_enabled") ;; Reservations for ALU1 (ALU2) instructions. ;; Instruction goes to ALU1 (ALU2) and makes next ALU1/2 instruction to ;; be dispatched to ALU2 (ALU1). (define_reservation "ls2_alu1" "(ls2_alu1_core+ls2_alu2_turn_enabled)|ls2_alu1_core") (define_reservation "ls2_alu2" "(ls2_alu2_core+ls2_alu1_turn_enabled)|ls2_alu2_core") ;; Reservation for ALU1/2 instructions. ;; Instruction will go to ALU1 iff ls2_alu1_turn_enabled is subscribed and ;; switch the turn to ALU2 by subscribing ls2_alu2_turn_enabled. ;; Or to ALU2 otherwise. (define_reservation "ls2_alu" "(ls2_alu1_core+ls2_alu1_turn+ls2_alu2_turn_enabled) |(ls2_alu1_core+ls2_alu1_turn) |(ls2_alu2_core+ls2_alu2_turn+ls2_alu1_turn_enabled) |(ls2_alu2_core+ls2_alu2_turn)") ;; Automaton for floating-point instructions. (define_automaton "ls2_falu") ;; FALU1 and FALU2. ;; We need to query these units to adjust round-robin counter. (define_query_cpu_unit "ls2_falu1_core,ls2_falu2_core" "ls2_falu") ;; Pseudo units to help modeling of FALU1/2 round-robin dispatch strategy. (define_cpu_unit "ls2_falu1_turn,ls2_falu2_turn" "ls2_falu") ;; Pseudo units to enable/disable ls2_falu[12]_turn units. ;; ls2_falu[12]_turn unit can be subscribed only after ;; ls2_falu[12]_turn_enabled unit is subscribed. (define_cpu_unit "ls2_falu1_turn_enabled,ls2_falu2_turn_enabled" "ls2_falu") (presence_set "ls2_falu1_turn" "ls2_falu1_turn_enabled") (presence_set "ls2_falu2_turn" "ls2_falu2_turn_enabled") ;; Reservations for FALU1 (FALU2) instructions. ;; Instruction goes to FALU1 (FALU2) and makes next FALU1/2 instruction to ;; be dispatched to FALU2 (FALU1). (define_reservation "ls2_falu1" "(ls2_falu1_core+ls2_falu2_turn_enabled)|ls2_falu1_core") (define_reservation "ls2_falu2" "(ls2_falu2_core+ls2_falu1_turn_enabled)|ls2_falu2_core") ;; Reservation for FALU1/2 instructions. ;; Instruction will go to FALU1 iff ls2_falu1_turn_enabled is subscribed and ;; switch the turn to FALU2 by subscribing ls2_falu2_turn_enabled. ;; Or to FALU2 otherwise. (define_reservation "ls2_falu" "(ls2_falu1+ls2_falu1_turn+ls2_falu2_turn_enabled) |(ls2_falu1+ls2_falu1_turn) |(ls2_falu2+ls2_falu2_turn+ls2_falu1_turn_enabled) |(ls2_falu2+ls2_falu2_turn)") ;; The following 4 instructions each subscribe one of ;; ls2_[f]alu{1,2}_turn_enabled units according to this attribute. ;; These instructions are used in mips.c: sched_ls2_dfa_post_advance_cycle. (define_attr "ls2_turn_type" "alu1,alu2,falu1,falu2,unknown,atomic,syncloop" (const_string "unknown")) ;; Subscribe ls2_alu1_turn_enabled. (define_insn "ls2_alu1_turn_enabled_insn" [(unspec [(const_int 0)] UNSPEC_LOONGSON_ALU1_TURN_ENABLED_INSN)] "TUNE_LOONGSON_2EF" { gcc_unreachable (); } [(set_attr "ls2_turn_type" "alu1")]) (define_insn_reservation "ls2_alu1_turn_enabled" 0 (eq_attr "ls2_turn_type" "alu1") "ls2_alu1_turn_enabled") ;; Subscribe ls2_alu2_turn_enabled. (define_insn "ls2_alu2_turn_enabled_insn" [(unspec [(const_int 0)] UNSPEC_LOONGSON_ALU2_TURN_ENABLED_INSN)] "TUNE_LOONGSON_2EF" { gcc_unreachable (); } [(set_attr "ls2_turn_type" "alu2")]) (define_insn_reservation "ls2_alu2_turn_enabled" 0 (eq_attr "ls2_turn_type" "alu2") "ls2_alu2_turn_enabled") ;; Subscribe ls2_falu1_turn_enabled. (define_insn "ls2_falu1_turn_enabled_insn" [(unspec [(const_int 0)] UNSPEC_LOONGSON_FALU1_TURN_ENABLED_INSN)] "TUNE_LOONGSON_2EF" { gcc_unreachable (); } [(set_attr "ls2_turn_type" "falu1")]) (define_insn_reservation "ls2_falu1_turn_enabled" 0 (eq_attr "ls2_turn_type" "falu1") "ls2_falu1_turn_enabled") ;; Subscribe ls2_falu2_turn_enabled. (define_insn "ls2_falu2_turn_enabled_insn" [(unspec [(const_int 0)] UNSPEC_LOONGSON_FALU2_TURN_ENABLED_INSN)] "TUNE_LOONGSON_2EF" { gcc_unreachable (); } [(set_attr "ls2_turn_type" "falu2")]) (define_insn_reservation "ls2_falu2_turn_enabled" 0 (eq_attr "ls2_turn_type" "falu2") "ls2_falu2_turn_enabled") ;; Automaton for memory operations. (define_automaton "ls2_mem") ;; Memory unit. (define_query_cpu_unit "ls2_mem" "ls2_mem") ;; Reservation for integer instructions. (define_insn_reservation "ls2_alu" 2 (and (eq_attr "cpu" "loongson_2e,loongson_2f") (eq_attr "type" "arith,condmove,const,logical,mfhi,mflo,move, mthi,mtlo,nop,shift,signext,slt")) "ls2_alu") ;; Reservation for branch instructions. (define_insn_reservation "ls2_branch" 2 (and (eq_attr "cpu" "loongson_2e,loongson_2f") (eq_attr "type" "branch,jump,call,trap")) "ls2_alu1") ;; Reservation for integer multiplication instructions. (define_insn_reservation "ls2_imult" 5 (and (eq_attr "cpu" "loongson_2e,loongson_2f") (eq_attr "type" "imul,imul3nc")) "ls2_alu2,ls2_alu2_core") ;; Reservation for integer division / remainder instructions. ;; These instructions use the SRT algorithm and hence take 2-38 cycles. (define_insn_reservation "ls2_idiv" 20 (and (eq_attr "cpu" "loongson_2e,loongson_2f") (eq_attr "type" "idiv,idiv3")) "ls2_alu2,ls2_alu2_core*18") ;; Reservation for memory load instructions. (define_insn_reservation "ls2_load" 5 (and (eq_attr "cpu" "loongson_2e,loongson_2f") (eq_attr "type" "load,fpload,mfc,mtc")) "ls2_mem") (define_insn_reservation "ls2_prefetch" 0 (and (eq_attr "cpu" "loongson_2e,loongson_2f") (eq_attr "type" "prefetch,prefetchx")) "ls2_mem") ;; Reservation for memory store instructions. ;; With stores we assume they don't alias with dependent loads. ;; Therefore we set the latency to zero. (define_insn_reservation "ls2_store" 0 (and (eq_attr "cpu" "loongson_2e,loongson_2f") (eq_attr "type" "store,fpstore")) "ls2_mem") ;; Reservation for floating-point instructions of latency 3. (define_insn_reservation "ls2_fp3" 3 (and (eq_attr "cpu" "loongson_2e,loongson_2f") (eq_attr "type" "fabs,fneg,fcmp,fmove")) "ls2_falu1") ;; Reservation for floating-point instructions of latency 5. (define_insn_reservation "ls2_fp5" 5 (and (eq_attr "cpu" "loongson_2e,loongson_2f") (eq_attr "type" "fcvt")) "ls2_falu1") ;; Reservation for floating-point instructions that can go ;; to either of FALU1/2 units. (define_insn_reservation "ls2_falu" 7 (and (eq_attr "cpu" "loongson_2e,loongson_2f") (eq_attr "type" "fadd,fmul,fmadd")) "ls2_falu") ;; Reservation for floating-point division / remainder instructions. ;; These instructions use the SRT algorithm and hence take a variable amount ;; of cycles: ;; div.s takes 5-11 cycles ;; div.d takes 5-18 cycles (define_insn_reservation "ls2_fdiv" 9 (and (eq_attr "cpu" "loongson_2e,loongson_2f") (eq_attr "type" "fdiv")) "ls2_falu2,ls2_falu2_core*7") ;; Reservation for floating-point sqrt instructions. ;; These instructions use the SRT algorithm and hence take a variable amount ;; of cycles: ;; sqrt.s takes 5-17 cycles ;; sqrt.d takes 5-32 cycles (define_insn_reservation "ls2_fsqrt" 15 (and (eq_attr "cpu" "loongson_2e,loongson_2f") (eq_attr "type" "fsqrt")) "ls2_falu2,ls2_falu2_core*13") ;; Two consecutive ALU instructions. (define_insn_reservation "ls2_multi" 4 (and (eq_attr "cpu" "loongson_2e,loongson_2f") (eq_attr "type" "multi")) "(ls2_alu1,ls2_alu2_core)|(ls2_alu2,ls2_alu1_core)") ;; Reservation for everything else. Normally, this reservation ;; will only be used to handle cases like compiling for non-loongson ;; CPUs with -mtune=loongson2?. ;; ;; This reservation depends upon the fact that DFA will check ;; reservations in the same order as they appear in the file. (define_insn_reservation "ls2_unknown" 1 (eq_attr "cpu" "loongson_2e,loongson_2f") "ls2_alu1_core+ls2_alu2_core+ls2_falu1_core+ls2_falu2_core+ls2_mem")