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;; Scheduling description for z990 (cpu 2084).;; Copyright (C) 2003, 2004, 2005, 2006, 2007, 2008, 2010;; Free Software Foundation, Inc.;; Contributed by Hartmut Penner (hpenner@de.ibm.com) and;; Ulrich Weigand (uweigand@de.ibm.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 "x_ipu")(define_cpu_unit "x_e1_r,x_e1_s,x_e1_t" "x_ipu")(define_cpu_unit "x_wr_r,x_wr_s,x_wr_t,x_wr_fp" "x_ipu")(define_cpu_unit "x_s1,x_s2,x_s3,x_s4" "x_ipu")(define_cpu_unit "x_t1,x_t2,x_t3,x_t4" "x_ipu")(define_cpu_unit "x_f1,x_f2,x_f3,x_f4,x_f5,x_f6" "x_ipu")(define_cpu_unit "x_store_tok" "x_ipu")(define_cpu_unit "x_ms,x_mt" "x_ipu")(define_reservation "x-e1-st" "(x_e1_s | x_e1_t)")(define_reservation "x-e1-np" "(x_e1_r + x_e1_s + x_e1_t)")(absence_set "x_e1_r" "x_e1_s,x_e1_t")(absence_set "x_e1_s" "x_e1_t");; Try to avoid int <-> fp transitions.(define_reservation "x-x" "x_s1|x_t1,x_s2|x_t2,x_s3|x_t3,x_s4|x_t4")(define_reservation "x-f" "x_f1,x_f2,x_f3,x_f4,x_f5,x_f6")(define_reservation "x-wr-st" "((x_wr_s | x_wr_t),x-x)")(define_reservation "x-wr-np" "((x_wr_r + x_wr_s + x_wr_t),x-x)")(define_reservation "x-wr-fp" "x_wr_fp,x-f")(define_reservation "x-mem" "x_ms|x_mt")(absence_set "x_wr_fp""x_s1,x_s2,x_s3,x_s4,x_t1,x_t2,x_t3,x_t4,x_wr_s,x_wr_t")(absence_set "x_e1_r,x_wr_r,x_wr_s,x_wr_t""x_f1,x_f2,x_f3,x_f4,x_f5,x_f6,x_wr_fp");; Don't have any load type insn in same group as store(absence_set "x_ms,x_mt" "x_store_tok");;;; Simple insns;;(define_insn_reservation "x_int" 1(and (eq_attr "cpu" "z990,z9_109,z9_ec")(and (eq_attr "type" "integer")(eq_attr "atype" "reg")))"x-e1-st,x-wr-st")(define_insn_reservation "x_agen" 1(and (eq_attr "cpu" "z990,z9_109,z9_ec")(and (eq_attr "type" "integer")(eq_attr "atype" "agen")))"x-e1-st,x-wr-st")(define_insn_reservation "x_lr" 1(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "lr"))"x-e1-st,x-wr-st")(define_insn_reservation "x_la" 1(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "la"))"x-e1-st,x-wr-st")(define_insn_reservation "x_larl" 1(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "larl"))"x-e1-st,x-wr-st")(define_insn_reservation "x_load" 1(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "load"))"x-e1-st+x-mem,x-wr-st")(define_insn_reservation "x_store" 1(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "store"))"x-e1-st+x_store_tok,x-wr-st")(define_insn_reservation "x_branch" 1(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "branch"))"x_e1_r,x_wr_r")(define_insn_reservation "x_call" 5(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "jsr"))"x-e1-np*5,x-wr-np")(define_insn_reservation "x_mul_hi" 2(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "imulhi"))"x-e1-np*2,x-wr-np")(define_insn_reservation "x_mul_sidi" 4(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "imulsi,imuldi"))"x-e1-np*4,x-wr-np")(define_insn_reservation "x_div" 10(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "idiv"))"x-e1-np*10,x-wr-np")(define_insn_reservation "x_sem" 17(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "sem"))"x-e1-np+x-mem,x-e1-np*16,x-wr-st");;;; Multicycle insns;;(define_insn_reservation "x_cs" 1(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "cs"))"x-e1-np,x-wr-np")(define_insn_reservation "x_vs" 1(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "vs"))"x-e1-np*10,x-wr-np")(define_insn_reservation "x_stm" 1(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "stm"))"(x-e1-np+x_store_tok)*10,x-wr-np")(define_insn_reservation "x_lm" 1(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "lm"))"x-e1-np*10,x-wr-np")(define_insn_reservation "x_other" 1(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "other"))"x-e1-np,x-wr-np");;;; Floating point insns;;(define_insn_reservation "x_fsimptf" 7(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "fsimptf,fhex"))"x_e1_t*2,x-wr-fp")(define_insn_reservation "x_fsimpdf" 6(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "fsimpdf,fmuldf,fmadddf,fhex"))"x_e1_t,x-wr-fp")(define_insn_reservation "x_fsimpsf" 6(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "fsimpsf,fmulsf,fmaddsf,fhex"))"x_e1_t,x-wr-fp")(define_insn_reservation "x_fmultf" 33(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "fmultf"))"x_e1_t*27,x-wr-fp")(define_insn_reservation "x_fdivtf" 82(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "fdivtf,fsqrttf"))"x_e1_t*76,x-wr-fp")(define_insn_reservation "x_fdivdf" 36(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "fdivdf,fsqrtdf"))"x_e1_t*30,x-wr-fp")(define_insn_reservation "x_fdivsf" 36(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "fdivsf,fsqrtsf"))"x_e1_t*30,x-wr-fp")(define_insn_reservation "x_floadtf" 6(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "floadtf"))"x_e1_t,x-wr-fp")(define_insn_reservation "x_floaddf" 6(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "floaddf"))"x_e1_t,x-wr-fp")(define_insn_reservation "x_floadsf" 6(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "floadsf"))"x_e1_t,x-wr-fp")(define_insn_reservation "x_fstoredf" 1(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "fstoredf"))"x_e1_t,x-wr-fp")(define_insn_reservation "x_fstoresf" 1(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "fstoresf"))"x_e1_t,x-wr-fp")(define_insn_reservation "x_ftrunctf" 16(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "ftrunctf"))"x_e1_t*10,x-wr-fp")(define_insn_reservation "x_ftruncdf" 11(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "ftruncdf"))"x_e1_t*5,x-wr-fp")(define_insn_reservation "x_ftoi" 1(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "ftoi"))"x_e1_t*3,x-wr-fp")(define_insn_reservation "x_itof" 7(and (eq_attr "cpu" "z990,z9_109,z9_ec")(eq_attr "type" "itoftf,itofdf,itofsf"))"x_e1_t*3,x-wr-fp")(define_bypass 1 "x_fsimpdf" "x_fstoredf")(define_bypass 1 "x_fsimpsf" "x_fstoresf")(define_bypass 1 "x_floaddf" "x_fsimpdf,x_fstoredf,x_floaddf")(define_bypass 1 "x_floadsf" "x_fsimpsf,x_fstoresf,x_floadsf");;;; s390_agen_dep_p returns 1, if a register is set in the;; first insn and used in the dependent insn to form a address.;;;;;; If an instruction uses a register to address memory, it needs;; to be set 5 cycles in advance.;;(define_bypass 5 "x_int,x_agen,x_lr""x_agen,x_la,x_branch,x_call,x_load,x_store,x_cs,x_stm,x_lm,x_other""s390_agen_dep_p")(define_bypass 9 "x_int,x_agen,x_lr""x_floadtf, x_floaddf, x_floadsf, x_fstoredf, x_fstoresf,\x_fsimpdf, x_fsimpsf, x_fdivdf, x_fdivsf""s390_agen_dep_p");;;; A load type instruction uses a bypass to feed the result back;; to the address generation pipeline stage.;;(define_bypass 4 "x_load""x_agen,x_la,x_branch,x_call,x_load,x_store,x_cs,x_stm,x_lm,x_other""s390_agen_dep_p")(define_bypass 5 "x_load""x_floadtf, x_floaddf, x_floadsf, x_fstoredf, x_fstoresf,\x_fsimpdf, x_fsimpsf, x_fdivdf, x_fdivsf""s390_agen_dep_p");;;; A load address type instruction uses a bypass to feed the;; result back to the address generation pipeline stage.;;(define_bypass 3 "x_larl,x_la""x_agen,x_la,x_branch,x_call,x_load,x_store,x_cs,x_stm,x_lm,x_other""s390_agen_dep_p")(define_bypass 5 "x_larl, x_la""x_floadtf, x_floaddf, x_floadsf, x_fstoredf, x_fstoresf,\x_fsimpdf, x_fsimpsf, x_fdivdf, x_fdivsf""s390_agen_dep_p");;;; Operand forwarding;;(define_bypass 0 "x_lr,x_la,x_load" "x_int,x_lr")