[thirdparty/gcc.git] / gcc / config / nds32 / nds32-n13.md

;; Pipeline descriptions of Andes NDS32 cpu for GNU compiler
;; Copyright (C) 2012-2020 Free Software Foundation, Inc.
;; Contributed by Andes Technology Corporation.
;;
;; 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 N13 pipeline settings.
;; ------------------------------------------------------------------------

(define_automaton "nds32_n13_machine")

;; ------------------------------------------------------------------------
;; Pipeline Stages
;; ------------------------------------------------------------------------
;; F1 - Instruction Fetch First
;;   Instruction Tag/Data Arrays
;;   ITLB Address Translation
;;   Branch Target Buffer Prediction
;; F2 - Instruction Fetch Second
;;   Instruction Cache Hit Detection
;;   Cache Way Selection
;;   Inustruction Alignment
;; I1 - Instruction Issue First / Instruction Decode
;;   Instruction Cache Replay Triggering
;;   32/16-Bit Instruction Decode
;;   Return Address Stack Prediction
;; I2 - Instruction Issue Second / Register File Access
;;   Instruction Issue Logic
;;   Register File Access
;; E1 - Instruction Execute First / Address Generation / MAC First
;;   Data Access Address generation
;;   Multiply Operation
;; E2 - Instruction Execute Second / Data Access First / MAC Second /
;;      ALU Execute
;;   Skewed ALU
;;   Branch/Jump/Return Resolution
;;   Data Tag/Data arrays
;;   DTLB address translation
;;   Accumulation Operation
;; E3 - Instruction Execute Third / Data Access Second
;;   Data Cache Hit Detection
;;   Cache Way Selection
;;   Data Alignment
;; E4 - Instruction Execute Fourth / Write Back
;;   Interruption Resolution
;;   Instruction Retire
;;   Register File Write Back

(define_cpu_unit "n13_i1" "nds32_n13_machine")
(define_cpu_unit "n13_i2" "nds32_n13_machine")
(define_cpu_unit "n13_e1" "nds32_n13_machine")
(define_cpu_unit "n13_e2" "nds32_n13_machine")
(define_cpu_unit "n13_e3" "nds32_n13_machine")
(define_cpu_unit "n13_e4" "nds32_n13_machine")

(define_insn_reservation "nds_n13_unknown" 1
  (and (eq_attr "type" "unknown")
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")

(define_insn_reservation "nds_n13_misc" 1
  (and (eq_attr "type" "misc")
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")

(define_insn_reservation "nds_n13_mmu" 1
  (and (eq_attr "type" "mmu")
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")

(define_insn_reservation "nds_n13_alu" 1
  (and (eq_attr "type" "alu")
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")

(define_insn_reservation "nds_n13_alu_shift" 1
  (and (eq_attr "type" "alu_shift")
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i1+n13_i2, n13_i2+n13_e1, n13_e1+n13_e2, n13_e2+n13_e3, n13_e3+n13_e4, n13_e4")

(define_insn_reservation "nds_n13_pbsad" 1
  (and (eq_attr "type" "pbsad")
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i2, n13_e1, n13_e2*2, n13_e3, n13_e4")

(define_insn_reservation "nds_n13_pbsada" 1
  (and (eq_attr "type" "pbsada")
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i2, n13_e1, n13_e2*3, n13_e3, n13_e4")

(define_insn_reservation "nds_n13_load" 1
  (and (match_test "nds32::load_single_p (insn)")
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")

(define_insn_reservation "nds_n13_store" 1
  (and (match_test "nds32::store_single_p (insn)")
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")

(define_insn_reservation "nds_n13_load_multiple_1" 1
  (and (and (eq_attr "type" "load_multiple")
	    (eq_attr "combo" "1"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")

(define_insn_reservation "nds_n13_load_multiple_2" 1
  (and (ior (and (eq_attr "type" "load_multiple")
		 (eq_attr "combo" "2"))
	    (match_test "nds32::load_double_p (insn)"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i1+n13_i2, n13_i2+n13_e1, n13_e1+n13_e2, n13_e2+n13_e3, n13_e3+n13_e4, n13_e4")

(define_insn_reservation "nds_n13_load_multiple_3" 1
  (and (and (eq_attr "type" "load_multiple")
	    (eq_attr "combo" "3"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i2+n13_i2, n13_i1+n13_i2+n13_e1, n13_i2+n13_e1+n13_e2, n13_e1+n13_e2+n13_e3, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")

(define_insn_reservation "nds_n13_load_multiple_4" 1
  (and (and (eq_attr "type" "load_multiple")
	    (eq_attr "combo" "4"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i2+n13_e1+n13_e2+n13_e3, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")

(define_insn_reservation "nds_n13_load_multiple_5" 1
  (and (and (eq_attr "type" "load_multiple")
	    (eq_attr "combo" "5"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")

(define_insn_reservation "nds_n13_load_multiple_6" 1
  (and (and (eq_attr "type" "load_multiple")
	    (eq_attr "combo" "6"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")

(define_insn_reservation "nds_n13_load_multiple_7" 1
  (and (and (eq_attr "type" "load_multiple")
	    (eq_attr "combo" "7"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, (n13_i1+n13_i2+n13_e1+n13_e2+n13_e3+n13_e4)*2, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")

(define_insn_reservation "nds_n13_load_multiple_8" 1
  (and (and (eq_attr "type" "load_multiple")
	    (eq_attr "combo" "8"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, (n13_i1+n13_i2+n13_e1+n13_e2+n13_e3+n13_e4)*3, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")

(define_insn_reservation "nds_n13_load_multiple_12" 1
  (and (and (eq_attr "type" "load_multiple")
	    (eq_attr "combo" "12"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, (n13_i1+n13_i2+n13_e1+n13_e2+n13_e3+n13_e4)*7, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")

(define_insn_reservation "nds_n13_store_multiple_1" 1
  (and (and (eq_attr "type" "store_multiple")
	    (eq_attr "combo" "1"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")

(define_insn_reservation "nds_n13_store_multiple_2" 1
  (and (ior (and (eq_attr "type" "store_multiple")
		 (eq_attr "combo" "2"))
	    (match_test "nds32::store_double_p (insn)"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i1+n13_i2, n13_i2+n13_e1, n13_e1+n13_e2, n13_e2+n13_e3, n13_e3+n13_e4, n13_e4")

(define_insn_reservation "nds_n13_store_multiple_3" 1
  (and (and (eq_attr "type" "store_multiple")
	    (eq_attr "combo" "3"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i2+n13_i2, n13_i1+n13_i2+n13_e1, n13_i2+n13_e1+n13_e2, n13_e1+n13_e2+n13_e3, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")

(define_insn_reservation "nds_n13_store_multiple_4" 1
  (and (and (eq_attr "type" "store_multiple")
	    (eq_attr "combo" "4"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i2+n13_e1+n13_e2+n13_e3, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")

(define_insn_reservation "nds_n13_store_multiple_5" 1
  (and (and (eq_attr "type" "store_multiple")
	    (eq_attr "combo" "5"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")

(define_insn_reservation "nds_n13_store_multiple_6" 1
  (and (and (eq_attr "type" "store_multiple")
	    (eq_attr "combo" "6"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")

(define_insn_reservation "nds_n13_store_multiple_7" 1
  (and (and (eq_attr "type" "store_multiple")
	    (eq_attr "combo" "7"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, (n13_i1+n13_i2+n13_e1+n13_e2+n13_e3+n13_e4)*2, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")

(define_insn_reservation "nds_n13_store_multiple_8" 1
  (and (and (eq_attr "type" "store_multiple")
	    (eq_attr "combo" "8"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, (n13_i1+n13_i2+n13_e1+n13_e2+n13_e3+n13_e4)*3, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")

(define_insn_reservation "nds_n13_store_multiple_12" 1
  (and (and (eq_attr "type" "store_multiple")
	    (eq_attr "combo" "12"))
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, (n13_i1+n13_i2+n13_e1+n13_e2+n13_e3+n13_e4)*7, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")

;; The multiplier at E1 takes two cycles.
(define_insn_reservation "nds_n13_mul" 1
  (and (eq_attr "type" "mul")
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i2, n13_e1*2, n13_e2, n13_e3, n13_e4")

(define_insn_reservation "nds_n13_mac" 1
  (and (eq_attr "type" "mac")
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i2, n13_e1*2, n13_e2, n13_e3, n13_e4")

;; The cycles consumed at E2 are 32 - CLZ(abs(Ra)) + 2,
;; so the worst case is 34.
(define_insn_reservation "nds_n13_div" 1
  (and (eq_attr "type" "div")
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i2, n13_e1, n13_e2*34, n13_e3, n13_e4")

(define_insn_reservation "nds_n13_branch" 1
  (and (eq_attr "type" "branch")
       (eq_attr "pipeline_model" "n13"))
  "n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")

;; ------------------------------------------------------------------------
;; Comment Notations and Bypass Rules
;; ------------------------------------------------------------------------
;; Producers (LHS)
;;   LD
;;     Load data from the memory and produce the loaded data. The result is
;;     ready at E3.
;;   LMW(N, M)
;;     There are N micro-operations within an instruction that loads multiple
;;     words. The result produced by the M-th micro-operation is sent to
;;     consumers. The result is ready at E3.
;;   ADDR_OUT
;;     Most load/store instructions can produce an address output if updating
;;     the base register is required. The result is ready at E2, which is
;;     produced by ALU.
;;   ALU, ALU_SHIFT, SIMD
;;     Compute data in ALU and produce the data. The result is ready at E2.
;;   MUL, MAC
;;     Compute data in the multiply-adder and produce the data. The result
;;     is ready at E2.
;;   DIV
;;     Compute data in the divider and produce the data. The result is ready
;;     at E2.
;;   BR
;;     Branch-with-link instructions produces a result containing the return
;;     address. The result is ready at E2.
;;
;; Consumers (RHS)
;;   ALU
;;     General ALU instructions require operands at E2.
;;   ALU_E1
;;     Some special ALU instructions, such as BSE, BSP and MOVD44, require
;;     operand at E1.
;;   MUL, DIV, PBSAD, MMU
;;     Operands are required at E1.
;;   PBSADA_Rt, PBSADA_RaRb
;;     Operands Ra and Rb are required at E1, and the operand Rt is required
;;     at E2.
;;   ALU_SHIFT_Rb
;;     An ALU-SHIFT instruction consists of a shift micro-operation followed
;;     by an arithmetic micro-operation. The operand Rb is used by the first
;;     micro-operation, and there are some latencies if data dependency occurs.
;;   MAC_RaRb
;;     A MAC instruction does multiplication at E1 and does accumulation at E2,
;;     so the operand Rt is required at E2, and operands Ra and Rb are required
;;     at E1.
;;   ADDR_IN
;;     If an instruction requires an address as its input operand, the address
;;     is required at E1.
;;   ST
;;     A store instruction requires its data at E2.
;;   SMW(N, M)
;;     There are N micro-operations within an instruction that stores multiple
;;     words. Each M-th micro-operation requires its data at E2.
;;   BR
;;     If a branch instruction is conditional, its input data is required at E2.

;; LD -> ALU_E1, PBSAD, PBSADA_RaRb, MUL, MAC_RaRb, DIV, MMU, ADDR_IN
(define_bypass 3
  "nds_n13_load"
  "nds_n13_alu, nds_n13_pbsad, nds_n13_pbsada,\
   nds_n13_mul, nds_n13_mac, nds_n13_div,\
   nds_n13_mmu,\
   nds_n13_load, nds_n13_store,\
   nds_n13_load_multiple_1,nds_n13_load_multiple_2, nds_n13_load_multiple_3,\
   nds_n13_load_multiple_4,nds_n13_load_multiple_5, nds_n13_load_multiple_6,\
   nds_n13_load_multiple_7,nds_n13_load_multiple_8, nds_n13_load_multiple_12,\
   nds_n13_store_multiple_1,nds_n13_store_multiple_2, nds_n13_store_multiple_3,\
   nds_n13_store_multiple_4,nds_n13_store_multiple_5, nds_n13_store_multiple_6,\
   nds_n13_store_multiple_7,nds_n13_store_multiple_8, nds_n13_store_multiple_12"
  "nds32_n13_load_to_e1_p"
)

;; LD -> ALU, ALU_SHIFT_Rb, PBSADA_Rt, BR, ST, SMW(N, 1)
(define_bypass 2
  "nds_n13_load"
  "nds_n13_alu, nds_n13_alu_shift, nds_n13_pbsada, nds_n13_branch, nds_n13_store,\
   nds_n13_store_multiple_1,nds_n13_store_multiple_2, nds_n13_store_multiple_3,\
   nds_n13_store_multiple_4,nds_n13_store_multiple_5, nds_n13_store_multiple_6,\
   nds_n13_store_multiple_7,nds_n13_store_multiple_8, nds_n13_store_multiple_12"
  "nds32_n13_load_to_e2_p"
)

;; LMW(N, N) -> ALU_E1, PBSAD, PBSADA_RaRb, MUL, MAC_RaRb, DIV, MMU, ADDR_IN
(define_bypass 3
  "nds_n13_load_multiple_1,nds_n13_load_multiple_2, nds_n13_load_multiple_3,\
   nds_n13_load_multiple_4,nds_n13_load_multiple_5, nds_n13_load_multiple_6,\
   nds_n13_load_multiple_7,nds_n13_load_multiple_8, nds_n13_load_multiple_12"
  "nds_n13_alu, nds_n13_pbsad, nds_n13_pbsada,\
   nds_n13_mul, nds_n13_mac, nds_n13_div,\
   nds_n13_mmu,\
   nds_n13_load, nds_n13_store,\
   nds_n13_load_multiple_1,nds_n13_load_multiple_2, nds_n13_load_multiple_3,\
   nds_n13_load_multiple_4,nds_n13_load_multiple_5, nds_n13_load_multiple_6,\
   nds_n13_load_multiple_7,nds_n13_load_multiple_8, nds_n13_load_multiple_12,\
   nds_n13_store_multiple_1,nds_n13_store_multiple_2, nds_n13_store_multiple_3,\
   nds_n13_store_multiple_4,nds_n13_store_multiple_5, nds_n13_store_multiple_6,\
   nds_n13_store_multiple_7,nds_n13_store_multiple_8, nds_n13_store_multiple_12"
  "nds32_n13_last_load_to_e1_p")

;; LMW(N, N) -> ALU, ALU_SHIFT_Rb, PBSADA_Rt, BR, ST, SMW(N, 1)
(define_bypass 2
  "nds_n13_load_multiple_1,nds_n13_load_multiple_2, nds_n13_load_multiple_3,\
   nds_n13_load_multiple_4,nds_n13_load_multiple_5, nds_n13_load_multiple_6,\
   nds_n13_load_multiple_7,nds_n13_load_multiple_8, nds_n13_load_multiple_12"
  "nds_n13_alu, nds_n13_alu_shift, nds_n13_pbsada, nds_n13_branch, nds_n13_store,\
   nds_n13_store_multiple_1,nds_n13_store_multiple_2, nds_n13_store_multiple_3,\
   nds_n13_store_multiple_4,nds_n13_store_multiple_5, nds_n13_store_multiple_6,\
   nds_n13_store_multiple_7,nds_n13_store_multiple_8, nds_n13_store_multiple_12"
  "nds32_n13_last_load_to_e2_p"
)

;; LMW(N, N - 1) -> ALU_E1, PBSAD, PBSADA_RaRb, MUL, MAC_RaRb, DIV, MMU, ADDR_IN
(define_bypass 2
  "nds_n13_load_multiple_1,nds_n13_load_multiple_2, nds_n13_load_multiple_3,\
   nds_n13_load_multiple_4,nds_n13_load_multiple_5, nds_n13_load_multiple_6,\
   nds_n13_load_multiple_7,nds_n13_load_multiple_8, nds_n13_load_multiple_12"
  "nds_n13_alu, nds_n13_pbsad, nds_n13_pbsada,\
   nds_n13_mul, nds_n13_mac, nds_n13_div,\
   nds_n13_mmu,\
   nds_n13_load, nds_n13_store,\
   nds_n13_load_multiple_1,nds_n13_load_multiple_2, nds_n13_load_multiple_3,\
   nds_n13_load_multiple_4,nds_n13_load_multiple_5, nds_n13_load_multiple_6,\
   nds_n13_load_multiple_7,nds_n13_load_multiple_8, nds_n13_load_multiple_12,\
   nds_n13_store_multiple_1,nds_n13_store_multiple_2, nds_n13_store_multiple_3,\
   nds_n13_store_multiple_4,nds_n13_store_multiple_5, nds_n13_store_multiple_6,\
   nds_n13_store_multiple_7,nds_n13_store_multiple_8, nds_n13_store_multiple_12"
  "nds32_n13_last_two_load_to_e1_p")

;; ALU, ALU_SHIFT, SIMD, BR, MUL, MAC, DIV, ADDR_OUT
;;   ->  ALU_E1, PBSAD, PBSADA_RaRb, MUL, MAC_RaRb, DIV, MMU, ADDR_IN
(define_bypass 2
  "nds_n13_alu, nds_n13_alu_shift, nds_n13_pbsad, nds_n13_pbsada, nds_n13_branch,\
   nds_n13_mul, nds_n13_mac, nds_n13_div,\
   nds_n13_load, nds_n13_store,\
   nds_n13_load_multiple_1,nds_n13_load_multiple_2, nds_n13_load_multiple_3,\
   nds_n13_load_multiple_4,nds_n13_load_multiple_5, nds_n13_load_multiple_6,\
   nds_n13_load_multiple_7,nds_n13_load_multiple_8, nds_n13_load_multiple_12,\
   nds_n13_store_multiple_1,nds_n13_store_multiple_2, nds_n13_store_multiple_3,\
   nds_n13_store_multiple_4,nds_n13_store_multiple_5, nds_n13_store_multiple_6,\
   nds_n13_store_multiple_7,nds_n13_store_multiple_8, nds_n13_store_multiple_12"
  "nds_n13_alu, nds_n13_pbsad, nds_n13_pbsada,\
   nds_n13_mul, nds_n13_mac, nds_n13_div,\
   nds_n13_mmu,\
   nds_n13_load, nds_n13_store,\
   nds_n13_load_multiple_1,nds_n13_load_multiple_2, nds_n13_load_multiple_3,\
   nds_n13_load_multiple_4,nds_n13_load_multiple_5, nds_n13_load_multiple_6,\
   nds_n13_load_multiple_7,nds_n13_load_multiple_8, nds_n13_load_multiple_12,\
   nds_n13_store_multiple_1,nds_n13_store_multiple_2, nds_n13_store_multiple_3,\
   nds_n13_store_multiple_4,nds_n13_store_multiple_5, nds_n13_store_multiple_6,\
   nds_n13_store_multiple_7,nds_n13_store_multiple_8, nds_n13_store_multiple_12"
  "nds32_n13_e2_to_e1_p")
Commit	Line	Data
96b07b10	1	;; Pipeline descriptions of Andes NDS32 cpu for GNU compiler
8d9254fc	2	;; Copyright (C) 2012-2020 Free Software Foundation, Inc.
96b07b10 KC	3	;; Contributed by Andes Technology Corporation.
	4	;;
	5	;; This file is part of GCC.
	6	;;
	7	;; GCC is free software; you can redistribute it and/or modify it
	8	;; under the terms of the GNU General Public License as published
	9	;; by the Free Software Foundation; either version 3, or (at your
	10	;; option) any later version.
	11	;;
	12	;; GCC is distributed in the hope that it will be useful, but WITHOUT
	13	;; ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
	14	;; or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
	15	;; License for more details.
	16	;;
	17	;; You should have received a copy of the GNU General Public License
	18	;; along with GCC; see the file COPYING3. If not see
	19	;; <http://www.gnu.org/licenses/>.
	20
	21
	22	;; ------------------------------------------------------------------------
	23	;; Define N13 pipeline settings.
	24	;; ------------------------------------------------------------------------
	25
	26	(define_automaton "nds32_n13_machine")
	27
	28	;; ------------------------------------------------------------------------
	29	;; Pipeline Stages
	30	;; ------------------------------------------------------------------------
	31	;; F1 - Instruction Fetch First
	32	;; Instruction Tag/Data Arrays
	33	;; ITLB Address Translation
	34	;; Branch Target Buffer Prediction
	35	;; F2 - Instruction Fetch Second
	36	;; Instruction Cache Hit Detection
	37	;; Cache Way Selection
	38	;; Inustruction Alignment
	39	;; I1 - Instruction Issue First / Instruction Decode
	40	;; Instruction Cache Replay Triggering
	41	;; 32/16-Bit Instruction Decode
	42	;; Return Address Stack Prediction
	43	;; I2 - Instruction Issue Second / Register File Access
	44	;; Instruction Issue Logic
	45	;; Register File Access
	46	;; E1 - Instruction Execute First / Address Generation / MAC First
	47	;; Data Access Address generation
	48	;; Multiply Operation
	49	;; E2 - Instruction Execute Second / Data Access First / MAC Second /
	50	;; ALU Execute
	51	;; Skewed ALU
	52	;; Branch/Jump/Return Resolution
	53	;; Data Tag/Data arrays
	54	;; DTLB address translation
	55	;; Accumulation Operation
	56	;; E3 - Instruction Execute Third / Data Access Second
	57	;; Data Cache Hit Detection
	58	;; Cache Way Selection
	59	;; Data Alignment
	60	;; E4 - Instruction Execute Fourth / Write Back
	61	;; Interruption Resolution
	62	;; Instruction Retire
	63	;; Register File Write Back
	64
	65	(define_cpu_unit "n13_i1" "nds32_n13_machine")
	66	(define_cpu_unit "n13_i2" "nds32_n13_machine")
67	(define_cpu_unit "n13_e1" "nds32_n13_machine")
68	(define_cpu_unit "n13_e2" "nds32_n13_machine")
69	(define_cpu_unit "n13_e3" "nds32_n13_machine")
70	(define_cpu_unit "n13_e4" "nds32_n13_machine")
71
72	(define_insn_reservation "nds_n13_unknown" 1
73	(and (eq_attr "type" "unknown")
74	(eq_attr "pipeline_model" "n13"))
75	"n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")
76
77	(define_insn_reservation "nds_n13_misc" 1
78	(and (eq_attr "type" "misc")
79	(eq_attr "pipeline_model" "n13"))
80	"n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")
81
82	(define_insn_reservation "nds_n13_mmu" 1
83	(and (eq_attr "type" "mmu")
84	(eq_attr "pipeline_model" "n13"))
85	"n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")
86
87	(define_insn_reservation "nds_n13_alu" 1
88	(and (eq_attr "type" "alu")
89	(eq_attr "pipeline_model" "n13"))
90	"n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")
91
92	(define_insn_reservation "nds_n13_alu_shift" 1
93	(and (eq_attr "type" "alu_shift")
94	(eq_attr "pipeline_model" "n13"))
95	"n13_i1, n13_i1+n13_i2, n13_i2+n13_e1, n13_e1+n13_e2, n13_e2+n13_e3, n13_e3+n13_e4, n13_e4")
96
97	(define_insn_reservation "nds_n13_pbsad" 1
98	(and (eq_attr "type" "pbsad")
99	(eq_attr "pipeline_model" "n13"))
100	"n13_i1, n13_i2, n13_e1, n13_e2*2, n13_e3, n13_e4")
101
102	(define_insn_reservation "nds_n13_pbsada" 1
103	(and (eq_attr "type" "pbsada")
104	(eq_attr "pipeline_model" "n13"))
105	"n13_i1, n13_i2, n13_e1, n13_e2*3, n13_e3, n13_e4")
106
107	(define_insn_reservation "nds_n13_load" 1
108	(and (match_test "nds32::load_single_p (insn)")
109	(eq_attr "pipeline_model" "n13"))
110	"n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")
111
112	(define_insn_reservation "nds_n13_store" 1
113	(and (match_test "nds32::store_single_p (insn)")
114	(eq_attr "pipeline_model" "n13"))
115	"n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")
116
117	(define_insn_reservation "nds_n13_load_multiple_1" 1
118	(and (and (eq_attr "type" "load_multiple")
119	(eq_attr "combo" "1"))
120	(eq_attr "pipeline_model" "n13"))
121	"n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")
122
123	(define_insn_reservation "nds_n13_load_multiple_2" 1
124	(and (ior (and (eq_attr "type" "load_multiple")
125	(eq_attr "combo" "2"))
126	(match_test "nds32::load_double_p (insn)"))
127	(eq_attr "pipeline_model" "n13"))
128	"n13_i1, n13_i1+n13_i2, n13_i2+n13_e1, n13_e1+n13_e2, n13_e2+n13_e3, n13_e3+n13_e4, n13_e4")
129
130	(define_insn_reservation "nds_n13_load_multiple_3" 1
131	(and (and (eq_attr "type" "load_multiple")
132	(eq_attr "combo" "3"))
133	(eq_attr "pipeline_model" "n13"))
134	"n13_i1, n13_i2+n13_i2, n13_i1+n13_i2+n13_e1, n13_i2+n13_e1+n13_e2, n13_e1+n13_e2+n13_e3, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")
135
136	(define_insn_reservation "nds_n13_load_multiple_4" 1
137	(and (and (eq_attr "type" "load_multiple")
138	(eq_attr "combo" "4"))
139	(eq_attr "pipeline_model" "n13"))
140	"n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i2+n13_e1+n13_e2+n13_e3, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")
141
142	(define_insn_reservation "nds_n13_load_multiple_5" 1
143	(and (and (eq_attr "type" "load_multiple")
144	(eq_attr "combo" "5"))
145	(eq_attr "pipeline_model" "n13"))
146	"n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")
147
148	(define_insn_reservation "nds_n13_load_multiple_6" 1
149	(and (and (eq_attr "type" "load_multiple")
150	(eq_attr "combo" "6"))
151	(eq_attr "pipeline_model" "n13"))
152	"n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")
153
154	(define_insn_reservation "nds_n13_load_multiple_7" 1
155	(and (and (eq_attr "type" "load_multiple")
156	(eq_attr "combo" "7"))
157	(eq_attr "pipeline_model" "n13"))
158	"n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, (n13_i1+n13_i2+n13_e1+n13_e2+n13_e3+n13_e4)*2, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")
159
160	(define_insn_reservation "nds_n13_load_multiple_8" 1
161	(and (and (eq_attr "type" "load_multiple")
162	(eq_attr "combo" "8"))
163	(eq_attr "pipeline_model" "n13"))
164	"n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, (n13_i1+n13_i2+n13_e1+n13_e2+n13_e3+n13_e4)*3, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")
165
166	(define_insn_reservation "nds_n13_load_multiple_12" 1
167	(and (and (eq_attr "type" "load_multiple")
168	(eq_attr "combo" "12"))
169	(eq_attr "pipeline_model" "n13"))
170	"n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, (n13_i1+n13_i2+n13_e1+n13_e2+n13_e3+n13_e4)*7, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")
171
172	(define_insn_reservation "nds_n13_store_multiple_1" 1
173	(and (and (eq_attr "type" "store_multiple")
174	(eq_attr "combo" "1"))
175	(eq_attr "pipeline_model" "n13"))
176	"n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")
177
178	(define_insn_reservation "nds_n13_store_multiple_2" 1
179	(and (ior (and (eq_attr "type" "store_multiple")
180	(eq_attr "combo" "2"))
181	(match_test "nds32::store_double_p (insn)"))
182	(eq_attr "pipeline_model" "n13"))
183	"n13_i1, n13_i1+n13_i2, n13_i2+n13_e1, n13_e1+n13_e2, n13_e2+n13_e3, n13_e3+n13_e4, n13_e4")
184
185	(define_insn_reservation "nds_n13_store_multiple_3" 1
186	(and (and (eq_attr "type" "store_multiple")
187	(eq_attr "combo" "3"))
188	(eq_attr "pipeline_model" "n13"))
189	"n13_i1, n13_i2+n13_i2, n13_i1+n13_i2+n13_e1, n13_i2+n13_e1+n13_e2, n13_e1+n13_e2+n13_e3, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")
190
191	(define_insn_reservation "nds_n13_store_multiple_4" 1
192	(and (and (eq_attr "type" "store_multiple")
193	(eq_attr "combo" "4"))
194	(eq_attr "pipeline_model" "n13"))
195	"n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i2+n13_e1+n13_e2+n13_e3, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")
196
197	(define_insn_reservation "nds_n13_store_multiple_5" 1
198	(and (and (eq_attr "type" "store_multiple")
199	(eq_attr "combo" "5"))
200	(eq_attr "pipeline_model" "n13"))
201	"n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")
202
203	(define_insn_reservation "nds_n13_store_multiple_6" 1
204	(and (and (eq_attr "type" "store_multiple")
205	(eq_attr "combo" "6"))
206	(eq_attr "pipeline_model" "n13"))
207	"n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")
208
209	(define_insn_reservation "nds_n13_store_multiple_7" 1
210	(and (and (eq_attr "type" "store_multiple")
211	(eq_attr "combo" "7"))
212	(eq_attr "pipeline_model" "n13"))
213	"n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, (n13_i1+n13_i2+n13_e1+n13_e2+n13_e3+n13_e4)*2, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")
214
215	(define_insn_reservation "nds_n13_store_multiple_8" 1
216	(and (and (eq_attr "type" "store_multiple")
217	(eq_attr "combo" "8"))
218	(eq_attr "pipeline_model" "n13"))
219	"n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, (n13_i1+n13_i2+n13_e1+n13_e2+n13_e3+n13_e4)*3, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")
220
221	(define_insn_reservation "nds_n13_store_multiple_12" 1
222	(and (and (eq_attr "type" "store_multiple")
223	(eq_attr "combo" "12"))
224	(eq_attr "pipeline_model" "n13"))
225	"n13_i1, n13_i1+n13_i2, n13_i1+n13_i2+n13_e1, n13_i1+n13_i2+n13_e1+n13_e2, n13_i1+n13_i2+n13_e1+n13_e2+n13_e3, (n13_i1+n13_i2+n13_e1+n13_e2+n13_e3+n13_e4)*7, n13_i2+n13_e1+n13_e2+n13_e3+n13_e4, n13_e1+n13_e2+n13_e3+n13_e4, n13_e2+n13_e3+n13_e4, n13_e3+n13_e4, n13_e4")
226
227	;; The multiplier at E1 takes two cycles.
228	(define_insn_reservation "nds_n13_mul" 1
229	(and (eq_attr "type" "mul")
230	(eq_attr "pipeline_model" "n13"))
231	"n13_i1, n13_i2, n13_e1*2, n13_e2, n13_e3, n13_e4")
232
233	(define_insn_reservation "nds_n13_mac" 1
234	(and (eq_attr "type" "mac")
235	(eq_attr "pipeline_model" "n13"))
236	"n13_i1, n13_i2, n13_e1*2, n13_e2, n13_e3, n13_e4")
237
238	;; The cycles consumed at E2 are 32 - CLZ(abs(Ra)) + 2,
239	;; so the worst case is 34.
240	(define_insn_reservation "nds_n13_div" 1
241	(and (eq_attr "type" "div")
242	(eq_attr "pipeline_model" "n13"))
243	"n13_i1, n13_i2, n13_e1, n13_e2*34, n13_e3, n13_e4")
244
245	(define_insn_reservation "nds_n13_branch" 1
246	(and (eq_attr "type" "branch")
247	(eq_attr "pipeline_model" "n13"))
248	"n13_i1, n13_i2, n13_e1, n13_e2, n13_e3, n13_e4")
249
250	;; ------------------------------------------------------------------------
251	;; Comment Notations and Bypass Rules
252	;; ------------------------------------------------------------------------
253	;; Producers (LHS)
254	;; LD
255	;; Load data from the memory and produce the loaded data. The result is
256	;; ready at E3.
257	;; LMW(N, M)
258	;; There are N micro-operations within an instruction that loads multiple
259	;; words. The result produced by the M-th micro-operation is sent to
260	;; consumers. The result is ready at E3.
261	;; ADDR_OUT
262	;; Most load/store instructions can produce an address output if updating
263	;; the base register is required. The result is ready at E2, which is
264	;; produced by ALU.
265	;; ALU, ALU_SHIFT, SIMD
266	;; Compute data in ALU and produce the data. The result is ready at E2.
267	;; MUL, MAC
268	;; Compute data in the multiply-adder and produce the data. The result
269	;; is ready at E2.
270	;; DIV
271	;; Compute data in the divider and produce the data. The result is ready
272	;; at E2.
273	;; BR
274	;; Branch-with-link instructions produces a result containing the return
275	;; address. The result is ready at E2.
276	;;
277	;; Consumers (RHS)
278	;; ALU
279	;; General ALU instructions require operands at E2.
280	;; ALU_E1
281	;; Some special ALU instructions, such as BSE, BSP and MOVD44, require
282	;; operand at E1.
283	;; MUL, DIV, PBSAD, MMU
284	;; Operands are required at E1.
285	;; PBSADA_Rt, PBSADA_RaRb
286	;; Operands Ra and Rb are required at E1, and the operand Rt is required
287	;; at E2.
288	;; ALU_SHIFT_Rb
289	;; An ALU-SHIFT instruction consists of a shift micro-operation followed
290	;; by an arithmetic micro-operation. The operand Rb is used by the first
291	;; micro-operation, and there are some latencies if data dependency occurs.
292	;; MAC_RaRb
293	;; A MAC instruction does multiplication at E1 and does accumulation at E2,
294	;; so the operand Rt is required at E2, and operands Ra and Rb are required
295	;; at E1.
296	;; ADDR_IN
297	;; If an instruction requires an address as its input operand, the address
298	;; is required at E1.
299	;; ST
300	;; A store instruction requires its data at E2.
301	;; SMW(N, M)
302	;; There are N micro-operations within an instruction that stores multiple
303	;; words. Each M-th micro-operation requires its data at E2.
304	;; BR
305	;; If a branch instruction is conditional, its input data is required at E2.
306
307	;; LD -> ALU_E1, PBSAD, PBSADA_RaRb, MUL, MAC_RaRb, DIV, MMU, ADDR_IN
308	(define_bypass 3
309	"nds_n13_load"
310	"nds_n13_alu, nds_n13_pbsad, nds_n13_pbsada,\
311	nds_n13_mul, nds_n13_mac, nds_n13_div,\
312	nds_n13_mmu,\
313	nds_n13_load, nds_n13_store,\
314	nds_n13_load_multiple_1,nds_n13_load_multiple_2, nds_n13_load_multiple_3,\
315	nds_n13_load_multiple_4,nds_n13_load_multiple_5, nds_n13_load_multiple_6,\
316	nds_n13_load_multiple_7,nds_n13_load_multiple_8, nds_n13_load_multiple_12,\
317	nds_n13_store_multiple_1,nds_n13_store_multiple_2, nds_n13_store_multiple_3,\
318	nds_n13_store_multiple_4,nds_n13_store_multiple_5, nds_n13_store_multiple_6,\
319	nds_n13_store_multiple_7,nds_n13_store_multiple_8, nds_n13_store_multiple_12"
320	"nds32_n13_load_to_e1_p"
321	)
322
323	;; LD -> ALU, ALU_SHIFT_Rb, PBSADA_Rt, BR, ST, SMW(N, 1)
324	(define_bypass 2
325	"nds_n13_load"
326	"nds_n13_alu, nds_n13_alu_shift, nds_n13_pbsada, nds_n13_branch, nds_n13_store,\
327	nds_n13_store_multiple_1,nds_n13_store_multiple_2, nds_n13_store_multiple_3,\
328	nds_n13_store_multiple_4,nds_n13_store_multiple_5, nds_n13_store_multiple_6,\
329	nds_n13_store_multiple_7,nds_n13_store_multiple_8, nds_n13_store_multiple_12"
330	"nds32_n13_load_to_e2_p"
331	)
332
333	;; LMW(N, N) -> ALU_E1, PBSAD, PBSADA_RaRb, MUL, MAC_RaRb, DIV, MMU, ADDR_IN
334	(define_bypass 3
335	"nds_n13_load_multiple_1,nds_n13_load_multiple_2, nds_n13_load_multiple_3,\
336	nds_n13_load_multiple_4,nds_n13_load_multiple_5, nds_n13_load_multiple_6,\
337	nds_n13_load_multiple_7,nds_n13_load_multiple_8, nds_n13_load_multiple_12"
338	"nds_n13_alu, nds_n13_pbsad, nds_n13_pbsada,\
339	nds_n13_mul, nds_n13_mac, nds_n13_div,\
340	nds_n13_mmu,\
341	nds_n13_load, nds_n13_store,\
342	nds_n13_load_multiple_1,nds_n13_load_multiple_2, nds_n13_load_multiple_3,\
343	nds_n13_load_multiple_4,nds_n13_load_multiple_5, nds_n13_load_multiple_6,\
344	nds_n13_load_multiple_7,nds_n13_load_multiple_8, nds_n13_load_multiple_12,\
345	nds_n13_store_multiple_1,nds_n13_store_multiple_2, nds_n13_store_multiple_3,\
346	nds_n13_store_multiple_4,nds_n13_store_multiple_5, nds_n13_store_multiple_6,\
347	nds_n13_store_multiple_7,nds_n13_store_multiple_8, nds_n13_store_multiple_12"
348	"nds32_n13_last_load_to_e1_p")
349
350	;; LMW(N, N) -> ALU, ALU_SHIFT_Rb, PBSADA_Rt, BR, ST, SMW(N, 1)
351	(define_bypass 2
352	"nds_n13_load_multiple_1,nds_n13_load_multiple_2, nds_n13_load_multiple_3,\
353	nds_n13_load_multiple_4,nds_n13_load_multiple_5, nds_n13_load_multiple_6,\
354	nds_n13_load_multiple_7,nds_n13_load_multiple_8, nds_n13_load_multiple_12"
355	"nds_n13_alu, nds_n13_alu_shift, nds_n13_pbsada, nds_n13_branch, nds_n13_store,\
356	nds_n13_store_multiple_1,nds_n13_store_multiple_2, nds_n13_store_multiple_3,\
357	nds_n13_store_multiple_4,nds_n13_store_multiple_5, nds_n13_store_multiple_6,\
358	nds_n13_store_multiple_7,nds_n13_store_multiple_8, nds_n13_store_multiple_12"
359	"nds32_n13_last_load_to_e2_p"
360	)
361
362	;; LMW(N, N - 1) -> ALU_E1, PBSAD, PBSADA_RaRb, MUL, MAC_RaRb, DIV, MMU, ADDR_IN
363	(define_bypass 2
364	"nds_n13_load_multiple_1,nds_n13_load_multiple_2, nds_n13_load_multiple_3,\
365	nds_n13_load_multiple_4,nds_n13_load_multiple_5, nds_n13_load_multiple_6,\
366	nds_n13_load_multiple_7,nds_n13_load_multiple_8, nds_n13_load_multiple_12"
367	"nds_n13_alu, nds_n13_pbsad, nds_n13_pbsada,\
368	nds_n13_mul, nds_n13_mac, nds_n13_div,\
369	nds_n13_mmu,\
370	nds_n13_load, nds_n13_store,\
371	nds_n13_load_multiple_1,nds_n13_load_multiple_2, nds_n13_load_multiple_3,\
372	nds_n13_load_multiple_4,nds_n13_load_multiple_5, nds_n13_load_multiple_6,\
373	nds_n13_load_multiple_7,nds_n13_load_multiple_8, nds_n13_load_multiple_12,\
374	nds_n13_store_multiple_1,nds_n13_store_multiple_2, nds_n13_store_multiple_3,\
375	nds_n13_store_multiple_4,nds_n13_store_multiple_5, nds_n13_store_multiple_6,\
376	nds_n13_store_multiple_7,nds_n13_store_multiple_8, nds_n13_store_multiple_12"
377	"nds32_n13_last_two_load_to_e1_p")
378
379	;; ALU, ALU_SHIFT, SIMD, BR, MUL, MAC, DIV, ADDR_OUT
380	;; -> ALU_E1, PBSAD, PBSADA_RaRb, MUL, MAC_RaRb, DIV, MMU, ADDR_IN
381	(define_bypass 2
382	"nds_n13_alu, nds_n13_alu_shift, nds_n13_pbsad, nds_n13_pbsada, nds_n13_branch,\
383	nds_n13_mul, nds_n13_mac, nds_n13_div,\
384	nds_n13_load, nds_n13_store,\
385	nds_n13_load_multiple_1,nds_n13_load_multiple_2, nds_n13_load_multiple_3,\
386	nds_n13_load_multiple_4,nds_n13_load_multiple_5, nds_n13_load_multiple_6,\
387	nds_n13_load_multiple_7,nds_n13_load_multiple_8, nds_n13_load_multiple_12,\
388	nds_n13_store_multiple_1,nds_n13_store_multiple_2, nds_n13_store_multiple_3,\
389	nds_n13_store_multiple_4,nds_n13_store_multiple_5, nds_n13_store_multiple_6,\
390	nds_n13_store_multiple_7,nds_n13_store_multiple_8, nds_n13_store_multiple_12"
391	"nds_n13_alu, nds_n13_pbsad, nds_n13_pbsada,\
392	nds_n13_mul, nds_n13_mac, nds_n13_div,\
393	nds_n13_mmu,\
394	nds_n13_load, nds_n13_store,\
395	nds_n13_load_multiple_1,nds_n13_load_multiple_2, nds_n13_load_multiple_3,\
396	nds_n13_load_multiple_4,nds_n13_load_multiple_5, nds_n13_load_multiple_6,\
397	nds_n13_load_multiple_7,nds_n13_load_multiple_8, nds_n13_load_multiple_12,\
398	nds_n13_store_multiple_1,nds_n13_store_multiple_2, nds_n13_store_multiple_3,\
399	nds_n13_store_multiple_4,nds_n13_store_multiple_5, nds_n13_store_multiple_6,\
400	nds_n13_store_multiple_7,nds_n13_store_multiple_8, nds_n13_store_multiple_12"
401	"nds32_n13_e2_to_e1_p")