1 ;; Pipeline descriptions of Andes NDS32 cpu for GNU compiler
2 ;; Copyright (C) 2012-2018 Free Software Foundation, Inc.
3 ;; Contributed by Andes Technology Corporation.
5 ;; This file is part of GCC.
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.
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.
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/>.
22 ;; ------------------------------------------------------------------------
23 ;; Define N8 pipeline settings.
24 ;; ------------------------------------------------------------------------
26 (define_automaton "nds32_n7_machine")
28 ;; ------------------------------------------------------------------------
30 ;; ------------------------------------------------------------------------
31 ;; IF - Instruction Fetch
32 ;; Instruction Alignment
33 ;; Instruction Pre-decode
34 ;; II - Instruction Issue
36 ;; Register File Access
37 ;; Instruction Execution
40 ;; Load Data Completion
42 (define_cpu_unit "n7_ii" "nds32_n7_machine")
44 (define_insn_reservation "nds_n7_unknown" 1
45 (and (eq_attr "type" "unknown")
46 (eq_attr "pipeline_model" "n7"))
49 (define_insn_reservation "nds_n7_misc" 1
50 (and (eq_attr "type" "misc")
51 (eq_attr "pipeline_model" "n7"))
54 (define_insn_reservation "nds_n7_alu" 1
55 (and (eq_attr "type" "alu")
56 (eq_attr "pipeline_model" "n7"))
59 (define_insn_reservation "nds_n7_load" 1
60 (and (match_test "nds32::load_single_p (insn)")
61 (eq_attr "pipeline_model" "n7"))
64 (define_insn_reservation "nds_n7_store" 1
65 (and (match_test "nds32::store_single_p (insn)")
66 (eq_attr "pipeline_model" "n7"))
69 (define_insn_reservation "nds_n7_load_multiple_1" 1
70 (and (and (eq_attr "type" "load_multiple")
71 (eq_attr "combo" "1"))
72 (eq_attr "pipeline_model" "n7"))
75 (define_insn_reservation "nds_n7_load_multiple_2" 1
76 (and (ior (and (eq_attr "type" "load_multiple")
77 (eq_attr "combo" "2"))
78 (match_test "nds32::load_double_p (insn)"))
79 (eq_attr "pipeline_model" "n7"))
82 (define_insn_reservation "nds_n7_load_multiple_3" 1
83 (and (and (eq_attr "type" "load_multiple")
84 (eq_attr "combo" "3"))
85 (eq_attr "pipeline_model" "n7"))
88 (define_insn_reservation "nds_n7_load_multiple_4" 1
89 (and (and (eq_attr "type" "load_multiple")
90 (eq_attr "combo" "4"))
91 (eq_attr "pipeline_model" "n7"))
94 (define_insn_reservation "nds_n7_load_multiple_5" 1
95 (and (and (eq_attr "type" "load_multiple")
96 (eq_attr "combo" "5"))
97 (eq_attr "pipeline_model" "n7"))
100 (define_insn_reservation "nds_n7_load_multiple_6" 1
101 (and (and (eq_attr "type" "load_multiple")
102 (eq_attr "combo" "6"))
103 (eq_attr "pipeline_model" "n7"))
106 (define_insn_reservation "nds_n7_load_multiple_7" 1
107 (and (and (eq_attr "type" "load_multiple")
108 (eq_attr "combo" "7"))
109 (eq_attr "pipeline_model" "n7"))
112 (define_insn_reservation "nds_n7_load_multiple_8" 1
113 (and (and (eq_attr "type" "load_multiple")
114 (eq_attr "combo" "8"))
115 (eq_attr "pipeline_model" "n7"))
118 (define_insn_reservation "nds_n7_load_multiple_12" 1
119 (and (and (eq_attr "type" "load_multiple")
120 (eq_attr "combo" "12"))
121 (eq_attr "pipeline_model" "n7"))
124 (define_insn_reservation "nds_n7_store_multiple_1" 1
125 (and (and (eq_attr "type" "store_multiple")
126 (eq_attr "combo" "1"))
127 (eq_attr "pipeline_model" "n7"))
130 (define_insn_reservation "nds_n7_store_multiple_2" 1
131 (and (ior (and (eq_attr "type" "store_multiple")
132 (eq_attr "combo" "2"))
133 (match_test "nds32::store_double_p (insn)"))
134 (eq_attr "pipeline_model" "n7"))
137 (define_insn_reservation "nds_n7_store_multiple_3" 1
138 (and (and (eq_attr "type" "store_multiple")
139 (eq_attr "combo" "3"))
140 (eq_attr "pipeline_model" "n7"))
143 (define_insn_reservation "nds_n7_store_multiple_4" 1
144 (and (and (eq_attr "type" "store_multiple")
145 (eq_attr "combo" "4"))
146 (eq_attr "pipeline_model" "n7"))
149 (define_insn_reservation "nds_n7_store_multiple_5" 1
150 (and (and (eq_attr "type" "store_multiple")
151 (eq_attr "combo" "5"))
152 (eq_attr "pipeline_model" "n7"))
155 (define_insn_reservation "nds_n7_store_multiple_6" 1
156 (and (and (eq_attr "type" "store_multiple")
157 (eq_attr "combo" "6"))
158 (eq_attr "pipeline_model" "n7"))
161 (define_insn_reservation "nds_n7_store_multiple_7" 1
162 (and (and (eq_attr "type" "store_multiple")
163 (eq_attr "combo" "7"))
164 (eq_attr "pipeline_model" "n7"))
167 (define_insn_reservation "nds_n7_store_multiple_8" 1
168 (and (and (eq_attr "type" "store_multiple")
169 (eq_attr "combo" "8"))
170 (eq_attr "pipeline_model" "n7"))
173 (define_insn_reservation "nds_n7_store_multiple_12" 1
174 (and (and (eq_attr "type" "store_multiple")
175 (eq_attr "combo" "12"))
176 (eq_attr "pipeline_model" "n7"))
179 (define_insn_reservation "nds_n7_mul_fast" 1
180 (and (match_test "nds32_mul_config != MUL_TYPE_SLOW")
181 (and (eq_attr "type" "mul")
182 (eq_attr "pipeline_model" "n7")))
185 (define_insn_reservation "nds_n7_mul_slow" 1
186 (and (match_test "nds32_mul_config == MUL_TYPE_SLOW")
187 (and (eq_attr "type" "mul")
188 (eq_attr "pipeline_model" "n7")))
191 (define_insn_reservation "nds_n7_mac_fast" 1
192 (and (match_test "nds32_mul_config != MUL_TYPE_SLOW")
193 (and (eq_attr "type" "mac")
194 (eq_attr "pipeline_model" "n7")))
197 (define_insn_reservation "nds_n7_mac_slow" 1
198 (and (match_test "nds32_mul_config == MUL_TYPE_SLOW")
199 (and (eq_attr "type" "mac")
200 (eq_attr "pipeline_model" "n7")))
203 (define_insn_reservation "nds_n7_div" 1
204 (and (eq_attr "type" "div")
205 (eq_attr "pipeline_model" "n7"))
208 (define_insn_reservation "nds_n7_branch" 1
209 (and (eq_attr "type" "branch")
210 (eq_attr "pipeline_model" "n7"))
213 ;; ------------------------------------------------------------------------
214 ;; Comment Notations and Bypass Rules
215 ;; ------------------------------------------------------------------------
218 ;; Load data from the memory (without updating the base register) and
219 ;; produce the loaded data. The result is ready at EXD.
221 ;; There are N micro-operations within an instruction that loads multiple
222 ;; words. The result produced by the M-th micro-operation is sent to
223 ;; consumers. The result is ready at EXD. If the base register should be
224 ;; updated, an extra micro-operation is inserted to the sequence, and the
225 ;; result is ready at II.
229 ;; Require operands at II.
231 ;; A double-word move instruction needs two micro-operations because the
232 ;; reigster ports is 2R1W. The first micro-operation writes an even number
233 ;; register, and the second micro-operation writes an odd number register.
234 ;; Each input operand is required at II for each micro-operation. The letter
235 ;; 'E' stands for even.
237 ;; A MAC instruction is separated into two micro-operations. The first
238 ;; micro-operation does the multiplication, which requires operands Ra
239 ;; and Rb at II. The second micro-options does the accumulation, which
240 ;; requires the operand Rt at II.
242 ;; Because the reigster port is 2R1W, some load/store instructions are
243 ;; separated into many micro-operations. N denotes the address input is
244 ;; required by the N-th micro-operation. Such operand is required at II.
246 ;; A post-increment store instruction requires its data at II.
248 ;; A store instruction with an immediate offset requires its data at II.
249 ;; If the offset field is a register (ST_!bi_RR), the instruction will be
250 ;; separated into two micro-operations, and the second one requires the
251 ;; input operand at II in order to store it to the memory.
253 ;; There are N micro-operations within an instruction that stores multiple
254 ;; words. Each M-th micro-operation requires its data at II. If the base
255 ;; register should be updated, an extra micro-operation is inserted to the
258 ;; If a branch instruction is conditional, its input data is required at II.
261 ;; -> ALU, MOVD44_E, MUL, MAC_RaRb, DIV, BR, ADDR_IN_MOP(1), ST_bi, ST_!bi_RI, SMW(N, 1)
265 nds_n7_mul_fast, nds_n7_mul_slow,\
266 nds_n7_mac_fast, nds_n7_mac_slow,\
269 nds_n7_load, nds_n7_store,\
270 nds_n7_load_multiple_1,nds_n7_load_multiple_2, nds_n7_load_multiple_3,\
271 nds_n7_load_multiple_4,nds_n7_load_multiple_5, nds_n7_load_multiple_6,\
272 nds_n7_load_multiple_7,nds_n7_load_multiple_8, nds_n7_load_multiple_12,\
273 nds_n7_store_multiple_1,nds_n7_store_multiple_2, nds_n7_store_multiple_3,\
274 nds_n7_store_multiple_4,nds_n7_store_multiple_5, nds_n7_store_multiple_6,\
275 nds_n7_store_multiple_7,nds_n7_store_multiple_8, nds_n7_store_multiple_12"
276 "nds32_n7_load_to_ii_p"
280 ;; -> ALU, MOVD44_E, MUL, MAC_RaRb, DIV, BR, AADR_IN_MOP(1), ST_bi, ST_!bi_RI, SMW(N, 1)
282 "nds_n7_load_multiple_1,nds_n7_load_multiple_2, nds_n7_load_multiple_3,\
283 nds_n7_load_multiple_4,nds_n7_load_multiple_5, nds_n7_load_multiple_6,\
284 nds_n7_load_multiple_7,nds_n7_load_multiple_8, nds_n7_load_multiple_12"
286 nds_n7_mul_fast, nds_n7_mul_slow,\
287 nds_n7_mac_fast, nds_n7_mac_slow,\
290 nds_n7_load, nds_n7_store,\
291 nds_n7_load_multiple_1,nds_n7_load_multiple_2, nds_n7_load_multiple_3,\
292 nds_n7_load_multiple_4,nds_n7_load_multiple_5, nds_n7_load_multiple_6,\
293 nds_n7_load_multiple_7,nds_n7_load_multiple_8, nds_n7_load_multiple_12,\
294 nds_n7_store_multiple_1,nds_n7_store_multiple_2, nds_n7_store_multiple_3,\
295 nds_n7_store_multiple_4,nds_n7_store_multiple_5, nds_n7_store_multiple_6,\
296 nds_n7_store_multiple_7,nds_n7_store_multiple_8, nds_n7_store_multiple_12"
297 "nds32_n7_last_load_to_ii_p"