;; Pipeline descriptions of Andes NDS32 cpu for GNU compiler ;; Copyright (C) 2012-2022 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 ;; . ;; ------------------------------------------------------------------------ ;; 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")