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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [config/] [rs6000/] [titan.md] - Rev 867
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;; Pipeline description for the AppliedMicro Titan core.
;; Copyright (C) 2010 Free Software Foundation, Inc.
;; Contributed by Theobroma Systems Design und Consulting GmbH
;;
;; 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/>.
;; AppliedMicro Titan core complex
(define_automaton "titan_core,titan_fpu,titan_fxu,titan_bpu,titan_lsu")
(define_cpu_unit "titan_issue_0,titan_issue_1" "titan_core")
;; Some useful abbreviations.
(define_reservation "titan_issue" "titan_issue_0|titan_issue_1")
;; === FXU scheduling ===
(define_cpu_unit "titan_fxu_sh,titan_fxu_wb" "titan_fxu")
;; The 1-cycle adder executes add, addi, subf, neg, compare and trap
;; instructions. It provides its own, dedicated result-bus, so we
;; don't need the titan_fxu_wb reservation to complete.
(define_insn_reservation "titan_fxu_adder" 1
(and (eq_attr "type" "cmp,fast_compare,trap")
(eq_attr "cpu" "titan"))
"titan_issue,titan_fxu_sh")
;; Keep the titan_imul and titan_mulhw (half-word) rules in order, to
;; ensure the proper match: the half-word instructions are tagged as
;; imul3 only, whereas regular multiplys will always carry a imul tag.
(define_insn_reservation "titan_imul" 5
(and (eq_attr "type" "imul,imul2,imul_compare")
(eq_attr "cpu" "titan"))
"titan_issue,titan_fxu_sh,nothing*5,titan_fxu_wb")
(define_insn_reservation "titan_mulhw" 4
(and (eq_attr "type" "imul3")
(eq_attr "cpu" "titan"))
"titan_issue,titan_fxu_sh,nothing*4,titan_fxu_wb")
(define_bypass 2 "titan_mulhw" "titan_mulhw")
(define_insn_reservation "titan_fxu_shift_and_rotate" 2
(and (eq_attr "type" "insert_word,shift,var_shift_rotate,cntlz")
(eq_attr "cpu" "titan"))
"titan_issue,titan_fxu_sh,nothing*2,titan_fxu_wb")
;; We model the divider for the worst-case (i.e. a full 32-bit
;; divide). To model the bypass for byte-wise completion, a
;; define_bypass with a guard-function could be used... however, this
;; would be an optimization of doubtful value, as a large number of
;; divides will operate on 32-bit variables.
;; To avoid an unmanagably large automata (generating the automata
;; would require well over 2GB in memory), we don't model the shared
;; result bus on this one. The divider-pipeline is thus modeled
;; through its latency and initial disptach bottlenecks (i.e. issue
;; slots and fxu scheduler availability)
(define_insn_reservation "titan_fxu_div" 34
(and (eq_attr "type" "idiv")
(eq_attr "cpu" "titan"))
"titan_issue,titan_fxu_sh")
(define_insn_reservation "titan_fxu_alu" 1
(and (eq_attr "type" "integer,exts")
(eq_attr "cpu" "titan"))
"titan_issue,titan_fxu_sh,nothing,titan_fxu_wb")
;; === BPU scheduling ===
(define_cpu_unit "titan_bpu_sh" "titan_bpu")
(define_insn_reservation "titan_bpu" 2
(and (eq_attr "type" "branch,jmpreg,cr_logical,delayed_cr")
(eq_attr "cpu" "titan"))
"titan_issue,titan_bpu_sh")
;; === LSU scheduling ===
(define_cpu_unit "titan_lsu_sh" "titan_lsu")
;; Loads.
(define_insn_reservation "titan_lsu_load" 3
(and (eq_attr "type" "load,load_ext,load_ext_u,load_ext_ux,load_ux,load_u,\
load_l,sync")
(eq_attr "cpu" "titan"))
"titan_issue,titan_lsu_sh")
(define_insn_reservation "titan_lsu_fpload" 12
(and (eq_attr "type" "fpload,fpload_ux,fpload_u")
(eq_attr "cpu" "titan"))
"titan_issue,titan_lsu_sh")
;; Note that the isync is not clearly placed within any execution
;; unit. We've made the assumption that it will be running out of the
;; LSU, as msync is also executed within the LSU.
(define_insn_reservation "titan_lsu_sync" 20
(and (eq_attr "type" "sync")
(eq_attr "cpu" "titan"))
"titan_issue,titan_lsu_sh*20")
;; Stores.
(define_insn_reservation "titan_lsu_store" 12
(and (eq_attr "type" "store,store_ux,store_u,store_c")
(eq_attr "cpu" "titan"))
"titan_issue,titan_lsu_sh")
(define_insn_reservation "titan_lsu_fpstore" 12
(and (eq_attr "type" "fpstore,fpstore_ux,fpstore_u")
(eq_attr "cpu" "titan"))
"titan_issue,titan_lsu_sh")
;; === FPU scheduling ===
;; In order to keep the automaton for the Titan FPU efficient and
;; maintainable, we've kept in as concise as possible and created a
;; mapping for the main "choke points" only instead of modelling the
;; overall flow of instructions through the FP-pipeline(s).
;; The key elements modelled are:
;; * each FP-instruction takes up one of the two issue slots
;; * the FPU runs at half the core frequency
;; * divides are not pipelined (but execute in a separate unit)
;; * the FPU has a shared result bus for all its units
(define_cpu_unit "titan_fp0,titan_fpdiv,titan_fpwb" "titan_fpu")
(define_insn_reservation "titan_fp_div_double" 72
(and (eq_attr "type" "ddiv")
(eq_attr "cpu" "titan"))
"titan_issue,titan_fpdiv*72,titan_fpwb")
(define_insn_reservation "titan_fp_div_single" 46
(and (eq_attr "type" "sdiv")
(eq_attr "cpu" "titan"))
"titan_issue,titan_fpdiv*46,titan_fpwb")
(define_insn_reservation "titan_fp_single" 12
(and (eq_attr "fp_type" "fp_addsub_s,fp_mul_s,fp_maddsub_s")
(eq_attr "cpu" "titan"))
"titan_issue,titan_fp0*2,nothing*10,titan_fpwb")
;; Make sure the "titan_fp" rule stays last, as it's a catch all for
;; double-precision and unclassified (e.g. fsel) FP-instructions
(define_insn_reservation "titan_fp" 10
(and (eq_attr "type" "fpcompare,fp,dmul")
(eq_attr "cpu" "titan"))
"titan_issue,titan_fp0*2,nothing*8,titan_fpwb")
;; Please note, that the non-pipelined FP-instructions "mcrfs",
;; "mtfsb0[.]", "mtfsb1[.]", "mtfsf[.]", "mtfsfi[.]" are not
;; accessible from regular language constructs (i.e. they are not used
;; by the code generator, except for special purpose sequences defined
;; in rs6000.md), no special provisions are made for these.
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