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;; ARM 926EJ-S Pipeline Description
;; Copyright (C) 2003, 2007 Free Software Foundation, Inc.
;; Written by CodeSourcery, LLC.
;;
;; 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/>. */
;; These descriptions are based on the information contained in the
;; ARM926EJ-S Technical Reference Manual, Copyright (c) 2002 ARM
;; Limited.
;;
;; This automaton provides a pipeline description for the ARM
;; 926EJ-S core.
;;
;; The model given here assumes that the condition for all conditional
;; instructions is "true", i.e., that all of the instructions are
;; actually executed.
(define_automaton "arm926ejs")
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; Pipelines
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; There is a single pipeline
;;
;; The ALU pipeline has fetch, decode, execute, memory, and
;; write stages. We only need to model the execute, memory and write
;; stages.
(define_cpu_unit "e,m,w" "arm926ejs")
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ALU Instructions
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ALU instructions require three cycles to execute, and use the ALU
;; pipeline in each of the three stages. The results are available
;; after the execute stage stage has finished.
;;
;; If the destination register is the PC, the pipelines are stalled
;; for several cycles. That case is not modeled here.
;; ALU operations with no shifted operand
(define_insn_reservation "9_alu_op" 1
(and (eq_attr "tune" "arm926ejs")
(eq_attr "type" "alu,alu_shift"))
"e,m,w")
;; ALU operations with a shift-by-register operand
;; These really stall in the decoder, in order to read
;; the shift value in a second cycle. Pretend we take two cycles in
;; the execute stage.
(define_insn_reservation "9_alu_shift_reg_op" 2
(and (eq_attr "tune" "arm926ejs")
(eq_attr "type" "alu_shift_reg"))
"e*2,m,w")
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; Multiplication Instructions
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; Multiplication instructions loop in the execute stage until the
;; instruction has been passed through the multiplier array enough
;; times. Multiply operations occur in both the execute and memory
;; stages of the pipeline
(define_insn_reservation "9_mult1" 3
(and (eq_attr "tune" "arm926ejs")
(eq_attr "insn" "smlalxy,mul,mla"))
"e*2,m,w")
(define_insn_reservation "9_mult2" 4
(and (eq_attr "tune" "arm926ejs")
(eq_attr "insn" "muls,mlas"))
"e*3,m,w")
(define_insn_reservation "9_mult3" 4
(and (eq_attr "tune" "arm926ejs")
(eq_attr "insn" "umull,umlal,smull,smlal"))
"e*3,m,w")
(define_insn_reservation "9_mult4" 5
(and (eq_attr "tune" "arm926ejs")
(eq_attr "insn" "umulls,umlals,smulls,smlals"))
"e*4,m,w")
(define_insn_reservation "9_mult5" 2
(and (eq_attr "tune" "arm926ejs")
(eq_attr "insn" "smulxy,smlaxy,smlawx"))
"e,m,w")
(define_insn_reservation "9_mult6" 3
(and (eq_attr "tune" "arm926ejs")
(eq_attr "insn" "smlalxy"))
"e*2,m,w")
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; Load/Store Instructions
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; The models for load/store instructions do not accurately describe
;; the difference between operations with a base register writeback
;; (such as "ldm!"). These models assume that all memory references
;; hit in dcache.
;; Loads with a shifted offset take 3 cycles, and are (a) probably the
;; most common and (b) the pessimistic assumption will lead to fewer stalls.
(define_insn_reservation "9_load1_op" 3
(and (eq_attr "tune" "arm926ejs")
(eq_attr "type" "load1,load_byte"))
"e*2,m,w")
(define_insn_reservation "9_store1_op" 0
(and (eq_attr "tune" "arm926ejs")
(eq_attr "type" "store1"))
"e,m,w")
;; multiple word loads and stores
(define_insn_reservation "9_load2_op" 3
(and (eq_attr "tune" "arm926ejs")
(eq_attr "type" "load2"))
"e,m*2,w")
(define_insn_reservation "9_load3_op" 4
(and (eq_attr "tune" "arm926ejs")
(eq_attr "type" "load3"))
"e,m*3,w")
(define_insn_reservation "9_load4_op" 5
(and (eq_attr "tune" "arm926ejs")
(eq_attr "type" "load4"))
"e,m*4,w")
(define_insn_reservation "9_store2_op" 0
(and (eq_attr "tune" "arm926ejs")
(eq_attr "type" "store2"))
"e,m*2,w")
(define_insn_reservation "9_store3_op" 0
(and (eq_attr "tune" "arm926ejs")
(eq_attr "type" "store3"))
"e,m*3,w")
(define_insn_reservation "9_store4_op" 0
(and (eq_attr "tune" "arm926ejs")
(eq_attr "type" "store4"))
"e,m*4,w")
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; Branch and Call Instructions
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; Branch instructions are difficult to model accurately. The ARM
;; core can predict most branches. If the branch is predicted
;; correctly, and predicted early enough, the branch can be completely
;; eliminated from the instruction stream. Some branches can
;; therefore appear to require zero cycles to execute. We assume that
;; all branches are predicted correctly, and that the latency is
;; therefore the minimum value.
(define_insn_reservation "9_branch_op" 0
(and (eq_attr "tune" "arm926ejs")
(eq_attr "type" "branch"))
"nothing")
;; The latency for a call is not predictable. Therefore, we use 32 as
;; roughly equivalent to positive infinity.
(define_insn_reservation "9_call_op" 32
(and (eq_attr "tune" "arm926ejs")
(eq_attr "type" "call"))
"nothing")
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