1 //=- ARMScheduleA8.td - ARM Cortex-A8 Scheduling Definitions -*- tablegen -*-=//
3 // The LLVM Compiler Infrastructure
5 // This file is distributed under the University of Illinois Open Source
6 // License. See LICENSE.TXT for details.
8 //===----------------------------------------------------------------------===//
10 // This file defines the itinerary class data for the ARM Cortex A8 processors.
12 //===----------------------------------------------------------------------===//
15 // Scheduling information derived from "Cortex-A8 Technical Reference Manual".
17 def A8_Pipe0 : FuncUnit; // pipeline 0
18 def A8_Pipe1 : FuncUnit; // pipeline 1
19 def A8_LSPipe : FuncUnit; // Load / store pipeline
20 def A8_NPipe : FuncUnit; // NEON ALU/MUL pipe
21 def A8_NLSPipe : FuncUnit; // NEON LS pipe
23 // Dual issue pipeline represented by A8_Pipe0 | A8_Pipe1
25 def CortexA8Itineraries : ProcessorItineraries<
26 [A8_Pipe0, A8_Pipe1, A8_LSPipe, A8_NPipe, A8_NLSPipe],
28 // Two fully-pipelined integer ALU pipelines
31 InstrItinData<IIC_iALUx , [InstrStage<1, [A8_Pipe0, A8_Pipe1]>]>,
33 // Binary Instructions that produce a result
34 InstrItinData<IIC_iALUi ,[InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 2]>,
35 InstrItinData<IIC_iALUr ,[InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 2, 2]>,
36 InstrItinData<IIC_iALUsi,[InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 2, 1]>,
37 InstrItinData<IIC_iALUsir,[InstrStage<1,[A8_Pipe0, A8_Pipe1]>], [2, 1, 2]>,
38 InstrItinData<IIC_iALUsr,[InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 2, 1, 1]>,
40 // Bitwise Instructions that produce a result
41 InstrItinData<IIC_iBITi ,[InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 2]>,
42 InstrItinData<IIC_iBITr ,[InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 2, 2]>,
43 InstrItinData<IIC_iBITsi,[InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 2, 1]>,
44 InstrItinData<IIC_iBITsr,[InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 2, 1, 1]>,
46 // Unary Instructions that produce a result
47 InstrItinData<IIC_iUNAr , [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 2]>,
48 InstrItinData<IIC_iUNAsi, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 1]>,
50 // Zero and sign extension instructions
51 InstrItinData<IIC_iEXTr , [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [1, 1]>,
52 InstrItinData<IIC_iEXTAr, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 2, 1]>,
53 InstrItinData<IIC_iEXTAsr,[InstrStage<1, [A8_Pipe0, A8_Pipe1]>],[2, 2, 1, 1]>,
55 // Compare instructions
56 InstrItinData<IIC_iCMPi , [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2]>,
57 InstrItinData<IIC_iCMPr , [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 2]>,
58 InstrItinData<IIC_iCMPsi, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 1]>,
59 InstrItinData<IIC_iCMPsr, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 1, 1]>,
62 InstrItinData<IIC_iTSTi , [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2]>,
63 InstrItinData<IIC_iTSTr , [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 2]>,
64 InstrItinData<IIC_iTSTsi, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 1]>,
65 InstrItinData<IIC_iTSTsr, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 1, 1]>,
67 // Move instructions, unconditional
68 InstrItinData<IIC_iMOVi , [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [1]>,
69 InstrItinData<IIC_iMOVr , [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [1, 1]>,
70 InstrItinData<IIC_iMOVsi, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [1, 1]>,
71 InstrItinData<IIC_iMOVsr, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [1, 1, 1]>,
72 InstrItinData<IIC_iMOVix2,[InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
73 InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2]>,
74 InstrItinData<IIC_iMOVix2addpc,[InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
75 InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
76 InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [3]>,
77 InstrItinData<IIC_iMOVix2ld,[InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
78 InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
79 InstrStage<1, [A8_LSPipe]>], [5]>,
81 // Move instructions, conditional
82 InstrItinData<IIC_iCMOVi , [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2]>,
83 InstrItinData<IIC_iCMOVr , [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 1]>,
84 InstrItinData<IIC_iCMOVsi, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 1]>,
85 InstrItinData<IIC_iCMOVsr, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 1, 1]>,
86 InstrItinData<IIC_iCMOVix2,[InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
87 InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [3, 1]>,
90 InstrItinData<IIC_iMVNi , [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [1]>,
91 InstrItinData<IIC_iMVNr , [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [1, 1]>,
92 InstrItinData<IIC_iMVNsi, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [1, 1]>,
93 InstrItinData<IIC_iMVNsr, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [1, 1, 1]>,
95 // Integer multiply pipeline
96 // Result written in E5, but that is relative to the last cycle of multicycle,
97 // so we use 6 for those cases
99 InstrItinData<IIC_iMUL16 , [InstrStage<1, [A8_Pipe0]>], [5, 1, 1]>,
100 InstrItinData<IIC_iMAC16 , [InstrStage<2, [A8_Pipe0]>], [6, 1, 1, 4]>,
101 InstrItinData<IIC_iMUL32 , [InstrStage<2, [A8_Pipe0]>], [6, 1, 1]>,
102 InstrItinData<IIC_iMAC32 , [InstrStage<2, [A8_Pipe0]>], [6, 1, 1, 4]>,
103 InstrItinData<IIC_iMUL64 , [InstrStage<3, [A8_Pipe0]>], [6, 6, 1, 1]>,
104 InstrItinData<IIC_iMAC64 , [InstrStage<3, [A8_Pipe0]>], [6, 6, 1, 1]>,
106 // Integer load pipeline
109 InstrItinData<IIC_iLoad_i , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
110 InstrStage<1, [A8_LSPipe]>], [3, 1]>,
111 InstrItinData<IIC_iLoad_bh_i, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
112 InstrStage<1, [A8_LSPipe]>], [3, 1]>,
113 InstrItinData<IIC_iLoad_d_i, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
114 InstrStage<1, [A8_LSPipe]>], [3, 1]>,
117 InstrItinData<IIC_iLoad_r , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
118 InstrStage<1, [A8_LSPipe]>], [3, 1, 1]>,
119 InstrItinData<IIC_iLoad_bh_r, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
120 InstrStage<1, [A8_LSPipe]>], [3, 1, 1]>,
121 InstrItinData<IIC_iLoad_d_r , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
122 InstrStage<1, [A8_LSPipe]>], [3, 1, 1]>,
124 // Scaled register offset, issues over 2 cycles
125 // FIXME: lsl by 2 takes 1 cycle.
126 InstrItinData<IIC_iLoad_si , [InstrStage<2, [A8_Pipe0, A8_Pipe1], 0>,
127 InstrStage<1, [A8_LSPipe]>], [4, 1, 1]>,
128 InstrItinData<IIC_iLoad_bh_si,[InstrStage<2, [A8_Pipe0, A8_Pipe1], 0>,
129 InstrStage<1, [A8_LSPipe]>], [4, 1, 1]>,
131 // Immediate offset with update
132 InstrItinData<IIC_iLoad_iu , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
133 InstrStage<1, [A8_LSPipe]>], [3, 2, 1]>,
134 InstrItinData<IIC_iLoad_bh_iu,[InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
135 InstrStage<1, [A8_LSPipe]>], [3, 2, 1]>,
137 // Register offset with update
138 InstrItinData<IIC_iLoad_ru , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
139 InstrStage<1, [A8_LSPipe]>], [3, 2, 1, 1]>,
140 InstrItinData<IIC_iLoad_bh_ru,[InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
141 InstrStage<1, [A8_LSPipe]>], [3, 2, 1, 1]>,
142 InstrItinData<IIC_iLoad_d_ru, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
143 InstrStage<1, [A8_LSPipe]>], [3, 2, 1, 1]>,
145 // Scaled register offset with update, issues over 2 cycles
146 InstrItinData<IIC_iLoad_siu , [InstrStage<2, [A8_Pipe0, A8_Pipe1], 0>,
147 InstrStage<2, [A8_LSPipe]>], [4, 3, 1, 1]>,
148 InstrItinData<IIC_iLoad_bh_siu,[InstrStage<2, [A8_Pipe0, A8_Pipe1], 0>,
149 InstrStage<2, [A8_LSPipe]>], [4, 3, 1, 1]>,
151 // Load multiple, def is the 5th operand. Pipeline 0 only.
152 // FIXME: A8_LSPipe cycle time is dynamic, this assumes 3 to 4 registers.
153 InstrItinData<IIC_iLoad_m , [InstrStage<2, [A8_Pipe0], 0>,
154 InstrStage<2, [A8_LSPipe]>],
155 [1, 1, 1, 1, 3], [], -1>, // dynamic uops
157 // Load multiple + update, defs are the 1st and 5th operands.
158 InstrItinData<IIC_iLoad_mu , [InstrStage<3, [A8_Pipe0], 0>,
159 InstrStage<3, [A8_LSPipe]>],
160 [2, 1, 1, 1, 3], [], -1>, // dynamic uops
162 // Load multiple plus branch
163 InstrItinData<IIC_iLoad_mBr, [InstrStage<3, [A8_Pipe0], 0>,
164 InstrStage<3, [A8_LSPipe]>,
165 InstrStage<1, [A8_Pipe0, A8_Pipe1]>],
166 [1, 2, 1, 1, 3], [], -1>, // dynamic uops
168 // Pop, def is the 3rd operand.
169 InstrItinData<IIC_iPop , [InstrStage<3, [A8_Pipe0], 0>,
170 InstrStage<3, [A8_LSPipe]>],
171 [1, 1, 3], [], -1>, // dynamic uops
173 // Push, def is the 3th operand.
174 InstrItinData<IIC_iPop_Br, [InstrStage<3, [A8_Pipe0], 0>,
175 InstrStage<3, [A8_LSPipe]>,
176 InstrStage<1, [A8_Pipe0, A8_Pipe1]>],
177 [1, 1, 3], [], -1>, // dynamic uops
179 // iLoadi + iALUr for t2LDRpci_pic.
180 InstrItinData<IIC_iLoadiALU, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
181 InstrStage<1, [A8_LSPipe]>,
182 InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [4, 1]>,
185 // Integer store pipeline
188 InstrItinData<IIC_iStore_i , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
189 InstrStage<1, [A8_LSPipe]>], [3, 1]>,
190 InstrItinData<IIC_iStore_bh_i,[InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
191 InstrStage<1, [A8_LSPipe]>], [3, 1]>,
192 InstrItinData<IIC_iStore_d_i, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
193 InstrStage<1, [A8_LSPipe]>], [3, 1]>,
196 InstrItinData<IIC_iStore_r , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
197 InstrStage<1, [A8_LSPipe]>], [3, 1, 1]>,
198 InstrItinData<IIC_iStore_bh_r,[InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
199 InstrStage<1, [A8_LSPipe]>], [3, 1, 1]>,
200 InstrItinData<IIC_iStore_d_r, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
201 InstrStage<1, [A8_LSPipe]>], [3, 1, 1]>,
203 // Scaled register offset, issues over 2 cycles
204 InstrItinData<IIC_iStore_si , [InstrStage<2, [A8_Pipe0, A8_Pipe1], 0>,
205 InstrStage<2, [A8_LSPipe]>], [3, 1, 1]>,
206 InstrItinData<IIC_iStore_bh_si,[InstrStage<2, [A8_Pipe0, A8_Pipe1], 0>,
207 InstrStage<2, [A8_LSPipe]>], [3, 1, 1]>,
209 // Immediate offset with update
210 InstrItinData<IIC_iStore_iu , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
211 InstrStage<1, [A8_LSPipe]>], [2, 3, 1]>,
212 InstrItinData<IIC_iStore_bh_iu,[InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
213 InstrStage<1, [A8_LSPipe]>], [2, 3, 1]>,
215 // Register offset with update
216 InstrItinData<IIC_iStore_ru , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
217 InstrStage<1, [A8_LSPipe]>], [2, 3, 1, 1]>,
218 InstrItinData<IIC_iStore_bh_ru,[InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
219 InstrStage<1, [A8_LSPipe]>], [2, 3, 1, 1]>,
220 InstrItinData<IIC_iStore_d_ru, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
221 InstrStage<1, [A8_LSPipe]>], [2, 3, 1, 1]>,
223 // Scaled register offset with update, issues over 2 cycles
224 InstrItinData<IIC_iStore_siu, [InstrStage<2, [A8_Pipe0, A8_Pipe1], 0>,
225 InstrStage<2, [A8_LSPipe]>], [3, 3, 1, 1]>,
226 InstrItinData<IIC_iStore_bh_siu,[InstrStage<2, [A8_Pipe0, A8_Pipe1], 0>,
227 InstrStage<2, [A8_LSPipe]>], [3, 3, 1, 1]>,
229 // Store multiple. Pipeline 0 only.
230 // FIXME: A8_LSPipe cycle time is dynamic, this assumes 3 to 4 registers.
231 InstrItinData<IIC_iStore_m , [InstrStage<2, [A8_Pipe0], 0>,
232 InstrStage<2, [A8_LSPipe]>],
233 [], [], -1>, // dynamic uops
235 // Store multiple + update
236 InstrItinData<IIC_iStore_mu, [InstrStage<2, [A8_Pipe0], 0>,
237 InstrStage<2, [A8_LSPipe]>],
238 [2], [], -1>, // dynamic uops
241 InstrItinData<IIC_Preload, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>], [2, 2]>,
245 // no delay slots, so the latency of a branch is unimportant
246 InstrItinData<IIC_Br , [InstrStage<1, [A8_Pipe0, A8_Pipe1]>]>,
249 // Issue through integer pipeline, and execute in NEON unit. We assume
250 // RunFast mode so that NFP pipeline is used for single-precision when
253 // FP Special Register to Integer Register File Move
254 InstrItinData<IIC_fpSTAT , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
255 InstrStage<1, [A8_NLSPipe]>], [20]>,
257 // Single-precision FP Unary
258 InstrItinData<IIC_fpUNA32 , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
259 InstrStage<1, [A8_NPipe]>], [7, 1]>,
261 // Double-precision FP Unary
262 InstrItinData<IIC_fpUNA64 , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
263 InstrStage<4, [A8_NPipe], 0>,
264 InstrStage<4, [A8_NLSPipe]>], [4, 1]>,
266 // Single-precision FP Compare
267 InstrItinData<IIC_fpCMP32 , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
268 InstrStage<1, [A8_NPipe]>], [1, 1]>,
270 // Double-precision FP Compare
271 InstrItinData<IIC_fpCMP64 , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
272 InstrStage<4, [A8_NPipe], 0>,
273 InstrStage<4, [A8_NLSPipe]>], [4, 1]>,
275 // Single to Double FP Convert
276 InstrItinData<IIC_fpCVTSD , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
277 InstrStage<7, [A8_NPipe], 0>,
278 InstrStage<7, [A8_NLSPipe]>], [7, 1]>,
280 // Double to Single FP Convert
281 InstrItinData<IIC_fpCVTDS , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
282 InstrStage<5, [A8_NPipe], 0>,
283 InstrStage<5, [A8_NLSPipe]>], [5, 1]>,
285 // Single-Precision FP to Integer Convert
286 InstrItinData<IIC_fpCVTSI , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
287 InstrStage<1, [A8_NPipe]>], [7, 1]>,
289 // Double-Precision FP to Integer Convert
290 InstrItinData<IIC_fpCVTDI , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
291 InstrStage<8, [A8_NPipe], 0>,
292 InstrStage<8, [A8_NLSPipe]>], [8, 1]>,
294 // Integer to Single-Precision FP Convert
295 InstrItinData<IIC_fpCVTIS , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
296 InstrStage<1, [A8_NPipe]>], [7, 1]>,
298 // Integer to Double-Precision FP Convert
299 InstrItinData<IIC_fpCVTID , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
300 InstrStage<8, [A8_NPipe], 0>,
301 InstrStage<8, [A8_NLSPipe]>], [8, 1]>,
303 // Single-precision FP ALU
304 InstrItinData<IIC_fpALU32 , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
305 InstrStage<1, [A8_NPipe]>], [7, 1, 1]>,
307 // Double-precision FP ALU
308 InstrItinData<IIC_fpALU64 , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
309 InstrStage<9, [A8_NPipe], 0>,
310 InstrStage<9, [A8_NLSPipe]>], [9, 1, 1]>,
312 // Single-precision FP Multiply
313 InstrItinData<IIC_fpMUL32 , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
314 InstrStage<1, [A8_NPipe]>], [7, 1, 1]>,
316 // Double-precision FP Multiply
317 InstrItinData<IIC_fpMUL64 , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
318 InstrStage<11, [A8_NPipe], 0>,
319 InstrStage<11, [A8_NLSPipe]>], [11, 1, 1]>,
321 // Single-precision FP MAC
322 InstrItinData<IIC_fpMAC32 , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
323 InstrStage<1, [A8_NPipe]>], [7, 2, 1, 1]>,
325 // Double-precision FP MAC
326 InstrItinData<IIC_fpMAC64 , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
327 InstrStage<19, [A8_NPipe], 0>,
328 InstrStage<19, [A8_NLSPipe]>], [19, 2, 1, 1]>,
330 // Single-precision Fused FP MAC
331 InstrItinData<IIC_fpFMAC32, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
332 InstrStage<1, [A8_NPipe]>], [7, 2, 1, 1]>,
334 // Double-precision Fused FP MAC
335 InstrItinData<IIC_fpFMAC64, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
336 InstrStage<19, [A8_NPipe], 0>,
337 InstrStage<19, [A8_NLSPipe]>], [19, 2, 1, 1]>,
339 // Single-precision FP DIV
340 InstrItinData<IIC_fpDIV32 , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
341 InstrStage<20, [A8_NPipe], 0>,
342 InstrStage<20, [A8_NLSPipe]>], [20, 1, 1]>,
344 // Double-precision FP DIV
345 InstrItinData<IIC_fpDIV64 , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
346 InstrStage<29, [A8_NPipe], 0>,
347 InstrStage<29, [A8_NLSPipe]>], [29, 1, 1]>,
349 // Single-precision FP SQRT
350 InstrItinData<IIC_fpSQRT32, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
351 InstrStage<19, [A8_NPipe], 0>,
352 InstrStage<19, [A8_NLSPipe]>], [19, 1]>,
354 // Double-precision FP SQRT
355 InstrItinData<IIC_fpSQRT64, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
356 InstrStage<29, [A8_NPipe], 0>,
357 InstrStage<29, [A8_NLSPipe]>], [29, 1]>,
360 // Integer to Single-precision Move
361 InstrItinData<IIC_fpMOVIS, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
362 InstrStage<1, [A8_NPipe]>],
365 // Integer to Double-precision Move
366 InstrItinData<IIC_fpMOVID, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
367 InstrStage<1, [A8_NPipe]>],
370 // Single-precision to Integer Move
371 InstrItinData<IIC_fpMOVSI, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
372 InstrStage<1, [A8_NPipe]>],
375 // Double-precision to Integer Move
376 InstrItinData<IIC_fpMOVDI, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
377 InstrStage<1, [A8_NPipe]>],
381 // Single-precision FP Load
382 InstrItinData<IIC_fpLoad32, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
383 InstrStage<1, [A8_NLSPipe], 0>,
384 InstrStage<1, [A8_LSPipe]>],
387 // Double-precision FP Load
388 InstrItinData<IIC_fpLoad64, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
389 InstrStage<1, [A8_NLSPipe], 0>,
390 InstrStage<1, [A8_LSPipe]>],
394 // FIXME: A8_LSPipe cycle time is dynamic, this assumes 3 to 4 registers.
395 InstrItinData<IIC_fpLoad_m, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
396 InstrStage<1, [A8_NLSPipe], 0>,
397 InstrStage<1, [A8_LSPipe]>,
398 InstrStage<1, [A8_NLSPipe], 0>,
399 InstrStage<1, [A8_LSPipe]>],
400 [1, 1, 1, 2], [], -1>, // dynamic uops
402 // FP Load Multiple + update
403 InstrItinData<IIC_fpLoad_mu,[InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
404 InstrStage<1, [A8_NLSPipe], 0>,
405 InstrStage<1, [A8_LSPipe]>,
406 InstrStage<1, [A8_NLSPipe], 0>,
407 InstrStage<1, [A8_LSPipe]>],
408 [2, 1, 1, 1, 2], [], -1>, // dynamic uops
410 // Single-precision FP Store
411 InstrItinData<IIC_fpStore32,[InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
412 InstrStage<1, [A8_NLSPipe], 0>,
413 InstrStage<1, [A8_LSPipe]>],
416 // Double-precision FP Store
417 InstrItinData<IIC_fpStore64,[InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
418 InstrStage<1, [A8_NLSPipe], 0>,
419 InstrStage<1, [A8_LSPipe]>],
423 InstrItinData<IIC_fpStore_m,[InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
424 InstrStage<1, [A8_NLSPipe], 0>,
425 InstrStage<1, [A8_LSPipe]>,
426 InstrStage<1, [A8_NLSPipe], 0>,
427 InstrStage<1, [A8_LSPipe]>],
428 [1, 1, 1, 1], [], -1>, // dynamic uops
430 // FP Store Multiple + update
431 InstrItinData<IIC_fpStore_mu,[InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
432 InstrStage<1, [A8_NLSPipe], 0>,
433 InstrStage<1, [A8_LSPipe]>,
434 InstrStage<1, [A8_NLSPipe], 0>,
435 InstrStage<1, [A8_LSPipe]>],
436 [2, 1, 1, 1, 1], [], -1>, // dynamic uops
438 // Issue through integer pipeline, and execute in NEON unit.
441 InstrItinData<IIC_VLD1, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
442 InstrStage<2, [A8_NLSPipe], 0>,
443 InstrStage<2, [A8_LSPipe]>],
446 InstrItinData<IIC_VLD1x2, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
447 InstrStage<2, [A8_NLSPipe], 0>,
448 InstrStage<2, [A8_LSPipe]>],
452 InstrItinData<IIC_VLD1x3, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
453 InstrStage<3, [A8_NLSPipe], 0>,
454 InstrStage<3, [A8_LSPipe]>],
458 InstrItinData<IIC_VLD1x4, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
459 InstrStage<3, [A8_NLSPipe], 0>,
460 InstrStage<3, [A8_LSPipe]>],
464 InstrItinData<IIC_VLD1u, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
465 InstrStage<2, [A8_NLSPipe], 0>,
466 InstrStage<2, [A8_LSPipe]>],
470 InstrItinData<IIC_VLD1x2u, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
471 InstrStage<2, [A8_NLSPipe], 0>,
472 InstrStage<2, [A8_LSPipe]>],
476 InstrItinData<IIC_VLD1x3u, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
477 InstrStage<3, [A8_NLSPipe], 0>,
478 InstrStage<3, [A8_LSPipe]>],
482 InstrItinData<IIC_VLD1x4u, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
483 InstrStage<3, [A8_NLSPipe], 0>,
484 InstrStage<3, [A8_LSPipe]>],
488 InstrItinData<IIC_VLD1ln, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
489 InstrStage<3, [A8_NLSPipe], 0>,
490 InstrStage<3, [A8_LSPipe]>],
494 InstrItinData<IIC_VLD1lnu, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
495 InstrStage<3, [A8_NLSPipe], 0>,
496 InstrStage<3, [A8_LSPipe]>],
500 InstrItinData<IIC_VLD1dup, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
501 InstrStage<2, [A8_NLSPipe], 0>,
502 InstrStage<2, [A8_LSPipe]>],
506 InstrItinData<IIC_VLD1dupu, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
507 InstrStage<2, [A8_NLSPipe], 0>,
508 InstrStage<2, [A8_LSPipe]>],
512 InstrItinData<IIC_VLD2, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
513 InstrStage<2, [A8_NLSPipe], 0>,
514 InstrStage<2, [A8_LSPipe]>],
518 InstrItinData<IIC_VLD2x2, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
519 InstrStage<3, [A8_NLSPipe], 0>,
520 InstrStage<3, [A8_LSPipe]>],
524 InstrItinData<IIC_VLD2ln, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
525 InstrStage<3, [A8_NLSPipe], 0>,
526 InstrStage<3, [A8_LSPipe]>],
530 InstrItinData<IIC_VLD2u, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
531 InstrStage<2, [A8_NLSPipe], 0>,
532 InstrStage<2, [A8_LSPipe]>],
536 InstrItinData<IIC_VLD2x2u, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
537 InstrStage<3, [A8_NLSPipe], 0>,
538 InstrStage<3, [A8_LSPipe]>],
542 InstrItinData<IIC_VLD2lnu, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
543 InstrStage<3, [A8_NLSPipe], 0>,
544 InstrStage<3, [A8_LSPipe]>],
545 [3, 3, 2, 1, 1, 1, 1, 1]>,
548 InstrItinData<IIC_VLD2dup, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
549 InstrStage<2, [A8_NLSPipe], 0>,
550 InstrStage<2, [A8_LSPipe]>],
554 InstrItinData<IIC_VLD2dupu, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
555 InstrStage<2, [A8_NLSPipe], 0>,
556 InstrStage<2, [A8_LSPipe]>],
560 InstrItinData<IIC_VLD3, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
561 InstrStage<4, [A8_NLSPipe], 0>,
562 InstrStage<4, [A8_LSPipe]>],
566 InstrItinData<IIC_VLD3ln, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
567 InstrStage<5, [A8_NLSPipe], 0>,
568 InstrStage<5, [A8_LSPipe]>],
569 [4, 4, 5, 1, 1, 1, 1, 2]>,
572 InstrItinData<IIC_VLD3u, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
573 InstrStage<4, [A8_NLSPipe], 0>,
574 InstrStage<4, [A8_LSPipe]>],
578 InstrItinData<IIC_VLD3lnu, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
579 InstrStage<5, [A8_NLSPipe], 0>,
580 InstrStage<5, [A8_LSPipe]>],
581 [4, 4, 5, 2, 1, 1, 1, 1, 1, 2]>,
584 InstrItinData<IIC_VLD3dup, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
585 InstrStage<3, [A8_NLSPipe], 0>,
586 InstrStage<3, [A8_LSPipe]>],
590 InstrItinData<IIC_VLD3dupu, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
591 InstrStage<3, [A8_NLSPipe], 0>,
592 InstrStage<3, [A8_LSPipe]>],
596 InstrItinData<IIC_VLD4, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
597 InstrStage<4, [A8_NLSPipe], 0>,
598 InstrStage<4, [A8_LSPipe]>],
602 InstrItinData<IIC_VLD4ln, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
603 InstrStage<5, [A8_NLSPipe], 0>,
604 InstrStage<5, [A8_LSPipe]>],
605 [4, 4, 5, 5, 1, 1, 1, 1, 2, 2]>,
608 InstrItinData<IIC_VLD4u, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
609 InstrStage<4, [A8_NLSPipe], 0>,
610 InstrStage<4, [A8_LSPipe]>],
614 InstrItinData<IIC_VLD4lnu, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
615 InstrStage<5, [A8_NLSPipe], 0>,
616 InstrStage<5, [A8_LSPipe]>],
617 [4, 4, 5, 5, 2, 1, 1, 1, 1, 1, 2, 2]>,
620 InstrItinData<IIC_VLD4dup, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
621 InstrStage<3, [A8_NLSPipe], 0>,
622 InstrStage<3, [A8_LSPipe]>],
626 InstrItinData<IIC_VLD4dupu, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
627 InstrStage<3, [A8_NLSPipe], 0>,
628 InstrStage<3, [A8_LSPipe]>],
629 [2, 2, 3, 3, 2, 1, 1]>,
632 InstrItinData<IIC_VST1, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
633 InstrStage<2, [A8_NLSPipe], 0>,
634 InstrStage<2, [A8_LSPipe]>],
638 InstrItinData<IIC_VST1x2, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
639 InstrStage<2, [A8_NLSPipe], 0>,
640 InstrStage<2, [A8_LSPipe]>],
644 InstrItinData<IIC_VST1x3, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
645 InstrStage<3, [A8_NLSPipe], 0>,
646 InstrStage<3, [A8_LSPipe]>],
650 InstrItinData<IIC_VST1x4, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
651 InstrStage<3, [A8_NLSPipe], 0>,
652 InstrStage<3, [A8_LSPipe]>],
656 InstrItinData<IIC_VST1u, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
657 InstrStage<2, [A8_NLSPipe], 0>,
658 InstrStage<2, [A8_LSPipe]>],
662 InstrItinData<IIC_VST1x2u, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
663 InstrStage<2, [A8_NLSPipe], 0>,
664 InstrStage<2, [A8_LSPipe]>],
668 InstrItinData<IIC_VST1x3u, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
669 InstrStage<3, [A8_NLSPipe], 0>,
670 InstrStage<3, [A8_LSPipe]>],
671 [2, 1, 1, 1, 1, 1, 2]>,
674 InstrItinData<IIC_VST1x4u, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
675 InstrStage<3, [A8_NLSPipe], 0>,
676 InstrStage<3, [A8_LSPipe]>],
677 [2, 1, 1, 1, 1, 1, 2, 2]>,
680 InstrItinData<IIC_VST1ln, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
681 InstrStage<2, [A8_NLSPipe], 0>,
682 InstrStage<2, [A8_LSPipe]>],
686 InstrItinData<IIC_VST1lnu, [InstrStage<1, [A8_Pipe0, A8_Pipe1]>,
687 InstrStage<2, [A8_NLSPipe], 0>,
688 InstrStage<2, [A8_LSPipe]>],
692 InstrItinData<IIC_VST2, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
693 InstrStage<2, [A8_NLSPipe], 0>,
694 InstrStage<2, [A8_LSPipe]>],
698 InstrItinData<IIC_VST2x2, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
699 InstrStage<4, [A8_NLSPipe], 0>,
700 InstrStage<4, [A8_LSPipe]>],
704 InstrItinData<IIC_VST2u, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
705 InstrStage<2, [A8_NLSPipe], 0>,
706 InstrStage<2, [A8_LSPipe]>],
710 InstrItinData<IIC_VST2x2u, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
711 InstrStage<4, [A8_NLSPipe], 0>,
712 InstrStage<4, [A8_LSPipe]>],
713 [2, 1, 1, 1, 1, 1, 2, 2]>,
716 InstrItinData<IIC_VST2ln, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
717 InstrStage<2, [A8_NLSPipe], 0>,
718 InstrStage<2, [A8_LSPipe]>],
722 InstrItinData<IIC_VST2lnu, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
723 InstrStage<2, [A8_NLSPipe], 0>,
724 InstrStage<2, [A8_LSPipe]>],
728 InstrItinData<IIC_VST3, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
729 InstrStage<3, [A8_NLSPipe], 0>,
730 InstrStage<3, [A8_LSPipe]>],
734 InstrItinData<IIC_VST3u, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
735 InstrStage<3, [A8_NLSPipe], 0>,
736 InstrStage<3, [A8_LSPipe]>],
737 [2, 1, 1, 1, 1, 1, 2]>,
740 InstrItinData<IIC_VST3ln, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
741 InstrStage<3, [A8_NLSPipe], 0>,
742 InstrStage<3, [A8_LSPipe]>],
746 InstrItinData<IIC_VST3lnu, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
747 InstrStage<3, [A8_NLSPipe], 0>,
748 InstrStage<3, [A8_LSPipe]>],
749 [2, 1, 1, 1, 1, 1, 2]>,
752 InstrItinData<IIC_VST4, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
753 InstrStage<4, [A8_NLSPipe], 0>,
754 InstrStage<4, [A8_LSPipe]>],
758 InstrItinData<IIC_VST4u, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
759 InstrStage<4, [A8_NLSPipe], 0>,
760 InstrStage<4, [A8_LSPipe]>],
761 [2, 1, 1, 1, 1, 1, 2, 2]>,
764 InstrItinData<IIC_VST4ln, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
765 InstrStage<4, [A8_NLSPipe], 0>,
766 InstrStage<4, [A8_LSPipe]>],
770 InstrItinData<IIC_VST4lnu, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
771 InstrStage<4, [A8_NLSPipe], 0>,
772 InstrStage<4, [A8_LSPipe]>],
773 [2, 1, 1, 1, 1, 1, 2, 2]>,
775 // Double-register FP Unary
776 InstrItinData<IIC_VUNAD, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
777 InstrStage<1, [A8_NPipe]>], [5, 2]>,
779 // Quad-register FP Unary
780 // Result written in N5, but that is relative to the last cycle of multicycle,
781 // so we use 6 for those cases
782 InstrItinData<IIC_VUNAQ, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
783 InstrStage<2, [A8_NPipe]>], [6, 2]>,
785 // Double-register FP Binary
786 InstrItinData<IIC_VBIND, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
787 InstrStage<1, [A8_NPipe]>], [5, 2, 2]>,
790 InstrItinData<IIC_VPBIND, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
791 InstrStage<1, [A8_NPipe]>], [5, 2, 2]>,
793 // Double-register FP VMUL
794 InstrItinData<IIC_VFMULD, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
795 InstrStage<1, [A8_NPipe]>], [5, 2, 1]>,
798 // Quad-register FP Binary
799 // Result written in N5, but that is relative to the last cycle of multicycle,
800 // so we use 6 for those cases
801 InstrItinData<IIC_VBINQ, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
802 InstrStage<2, [A8_NPipe]>], [6, 2, 2]>,
804 // Quad-register FP VMUL
805 InstrItinData<IIC_VFMULQ, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
806 InstrStage<1, [A8_NPipe]>], [6, 2, 1]>,
809 InstrItinData<IIC_VMOV, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
810 InstrStage<1, [A8_NPipe]>], [1, 1]>,
813 InstrItinData<IIC_VMOVImm, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
814 InstrStage<1, [A8_NPipe]>], [3]>,
816 // Double-register Permute Move
817 InstrItinData<IIC_VMOVD, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
818 InstrStage<1, [A8_NLSPipe]>], [2, 1]>,
820 // Quad-register Permute Move
821 // Result written in N2, but that is relative to the last cycle of multicycle,
822 // so we use 3 for those cases
823 InstrItinData<IIC_VMOVQ, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
824 InstrStage<2, [A8_NLSPipe]>], [3, 1]>,
826 // Integer to Single-precision Move
827 InstrItinData<IIC_VMOVIS , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
828 InstrStage<1, [A8_NLSPipe]>], [2, 1]>,
830 // Integer to Double-precision Move
831 InstrItinData<IIC_VMOVID , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
832 InstrStage<1, [A8_NLSPipe]>], [2, 1, 1]>,
834 // Single-precision to Integer Move
835 InstrItinData<IIC_VMOVSI , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
836 InstrStage<1, [A8_NLSPipe]>], [20, 1]>,
838 // Double-precision to Integer Move
839 InstrItinData<IIC_VMOVDI , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
840 InstrStage<1, [A8_NLSPipe]>], [20, 20, 1]>,
842 // Integer to Lane Move
843 InstrItinData<IIC_VMOVISL , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
844 InstrStage<2, [A8_NLSPipe]>], [3, 1, 1]>,
846 // Vector narrow move
847 InstrItinData<IIC_VMOVN , [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
848 InstrStage<1, [A8_NPipe]>], [2, 1]>,
850 // Double-register Permute
851 InstrItinData<IIC_VPERMD, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
852 InstrStage<1, [A8_NLSPipe]>], [2, 2, 1, 1]>,
854 // Quad-register Permute
855 // Result written in N2, but that is relative to the last cycle of multicycle,
856 // so we use 3 for those cases
857 InstrItinData<IIC_VPERMQ, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
858 InstrStage<2, [A8_NLSPipe]>], [3, 3, 1, 1]>,
860 // Quad-register Permute (3 cycle issue)
861 // Result written in N2, but that is relative to the last cycle of multicycle,
862 // so we use 4 for those cases
863 InstrItinData<IIC_VPERMQ3, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
864 InstrStage<1, [A8_NLSPipe]>,
865 InstrStage<1, [A8_NPipe], 0>,
866 InstrStage<2, [A8_NLSPipe]>], [4, 4, 1, 1]>,
868 // Double-register FP Multiple-Accumulate
869 InstrItinData<IIC_VMACD, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
870 InstrStage<1, [A8_NPipe]>], [9, 3, 2, 2]>,
872 // Quad-register FP Multiple-Accumulate
873 // Result written in N9, but that is relative to the last cycle of multicycle,
874 // so we use 10 for those cases
875 InstrItinData<IIC_VMACQ, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
876 InstrStage<2, [A8_NPipe]>], [10, 3, 2, 2]>,
878 // Double-register Fused FP Multiple-Accumulate
879 InstrItinData<IIC_VFMACD, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
880 InstrStage<1, [A8_NPipe]>], [9, 3, 2, 2]>,
882 // Quad-register Fused FP Multiple-Accumulate
883 // Result written in N9, but that is relative to the last cycle of multicycle,
884 // so we use 10 for those cases
885 InstrItinData<IIC_VFMACQ, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
886 InstrStage<2, [A8_NPipe]>], [10, 3, 2, 2]>,
888 // Double-register Reciprical Step
889 InstrItinData<IIC_VRECSD, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
890 InstrStage<1, [A8_NPipe]>], [9, 2, 2]>,
892 // Quad-register Reciprical Step
893 InstrItinData<IIC_VRECSQ, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
894 InstrStage<2, [A8_NPipe]>], [10, 2, 2]>,
896 // Double-register Integer Count
897 InstrItinData<IIC_VCNTiD, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
898 InstrStage<1, [A8_NPipe]>], [3, 2, 2]>,
900 // Quad-register Integer Count
901 // Result written in N3, but that is relative to the last cycle of multicycle,
902 // so we use 4 for those cases
903 InstrItinData<IIC_VCNTiQ, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
904 InstrStage<2, [A8_NPipe]>], [4, 2, 2]>,
906 // Double-register Integer Unary
907 InstrItinData<IIC_VUNAiD, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
908 InstrStage<1, [A8_NPipe]>], [4, 2]>,
910 // Quad-register Integer Unary
911 InstrItinData<IIC_VUNAiQ, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
912 InstrStage<1, [A8_NPipe]>], [4, 2]>,
914 // Double-register Integer Q-Unary
915 InstrItinData<IIC_VQUNAiD, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
916 InstrStage<1, [A8_NPipe]>], [4, 1]>,
918 // Quad-register Integer CountQ-Unary
919 InstrItinData<IIC_VQUNAiQ, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
920 InstrStage<1, [A8_NPipe]>], [4, 1]>,
922 // Double-register Integer Binary
923 InstrItinData<IIC_VBINiD, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
924 InstrStage<1, [A8_NPipe]>], [3, 2, 2]>,
926 // Quad-register Integer Binary
927 InstrItinData<IIC_VBINiQ, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
928 InstrStage<1, [A8_NPipe]>], [3, 2, 2]>,
930 // Double-register Integer Binary (4 cycle)
931 InstrItinData<IIC_VBINi4D, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
932 InstrStage<1, [A8_NPipe]>], [4, 2, 1]>,
934 // Quad-register Integer Binary (4 cycle)
935 InstrItinData<IIC_VBINi4Q, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
936 InstrStage<1, [A8_NPipe]>], [4, 2, 1]>,
939 // Double-register Integer Subtract
940 InstrItinData<IIC_VSUBiD, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
941 InstrStage<1, [A8_NPipe]>], [3, 2, 1]>,
943 // Quad-register Integer Subtract
944 InstrItinData<IIC_VSUBiQ, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
945 InstrStage<1, [A8_NPipe]>], [3, 2, 1]>,
947 // Double-register Integer Subtract
948 InstrItinData<IIC_VSUBi4D, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
949 InstrStage<1, [A8_NPipe]>], [4, 2, 1]>,
951 // Quad-register Integer Subtract
952 InstrItinData<IIC_VSUBi4Q, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
953 InstrStage<1, [A8_NPipe]>], [4, 2, 1]>,
955 // Double-register Integer Shift
956 InstrItinData<IIC_VSHLiD, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
957 InstrStage<1, [A8_NPipe]>], [3, 1, 1]>,
959 // Quad-register Integer Shift
960 InstrItinData<IIC_VSHLiQ, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
961 InstrStage<2, [A8_NPipe]>], [4, 1, 1]>,
963 // Double-register Integer Shift (4 cycle)
964 InstrItinData<IIC_VSHLi4D, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
965 InstrStage<1, [A8_NPipe]>], [4, 1, 1]>,
967 // Quad-register Integer Shift (4 cycle)
968 InstrItinData<IIC_VSHLi4Q, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
969 InstrStage<2, [A8_NPipe]>], [5, 1, 1]>,
971 // Double-register Integer Pair Add Long
972 InstrItinData<IIC_VPALiD, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
973 InstrStage<1, [A8_NPipe]>], [6, 3, 1]>,
975 // Quad-register Integer Pair Add Long
976 InstrItinData<IIC_VPALiQ, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
977 InstrStage<2, [A8_NPipe]>], [7, 3, 1]>,
979 // Double-register Absolute Difference and Accumulate
980 InstrItinData<IIC_VABAD, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
981 InstrStage<1, [A8_NPipe]>], [6, 3, 2, 1]>,
983 // Quad-register Absolute Difference and Accumulate
984 InstrItinData<IIC_VABAQ, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
985 InstrStage<2, [A8_NPipe]>], [6, 3, 2, 1]>,
988 // Double-register Integer Multiply (.8, .16)
989 InstrItinData<IIC_VMULi16D, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
990 InstrStage<1, [A8_NPipe]>], [6, 2, 2]>,
992 // Double-register Integer Multiply (.32)
993 InstrItinData<IIC_VMULi32D, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
994 InstrStage<2, [A8_NPipe]>], [7, 2, 1]>,
996 // Quad-register Integer Multiply (.8, .16)
997 InstrItinData<IIC_VMULi16Q, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
998 InstrStage<2, [A8_NPipe]>], [7, 2, 2]>,
1000 // Quad-register Integer Multiply (.32)
1001 InstrItinData<IIC_VMULi32Q, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
1002 InstrStage<1, [A8_NPipe]>,
1003 InstrStage<2, [A8_NLSPipe], 0>,
1004 InstrStage<3, [A8_NPipe]>], [9, 2, 1]>,
1006 // Double-register Integer Multiply-Accumulate (.8, .16)
1007 InstrItinData<IIC_VMACi16D, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
1008 InstrStage<1, [A8_NPipe]>], [6, 3, 2, 2]>,
1010 // Double-register Integer Multiply-Accumulate (.32)
1011 InstrItinData<IIC_VMACi32D, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
1012 InstrStage<2, [A8_NPipe]>], [7, 3, 2, 1]>,
1014 // Quad-register Integer Multiply-Accumulate (.8, .16)
1015 InstrItinData<IIC_VMACi16Q, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
1016 InstrStage<2, [A8_NPipe]>], [7, 3, 2, 2]>,
1018 // Quad-register Integer Multiply-Accumulate (.32)
1019 InstrItinData<IIC_VMACi32Q, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
1020 InstrStage<1, [A8_NPipe]>,
1021 InstrStage<2, [A8_NLSPipe], 0>,
1022 InstrStage<3, [A8_NPipe]>], [9, 3, 2, 1]>,
1024 // Double-register VEXT
1025 InstrItinData<IIC_VEXTD, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
1026 InstrStage<1, [A8_NLSPipe]>], [2, 1, 1]>,
1028 // Quad-register VEXT
1029 InstrItinData<IIC_VEXTQ, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
1030 InstrStage<2, [A8_NLSPipe]>], [3, 1, 1]>,
1033 InstrItinData<IIC_VTB1, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
1034 InstrStage<2, [A8_NLSPipe]>], [3, 2, 1]>,
1035 InstrItinData<IIC_VTB2, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
1036 InstrStage<2, [A8_NLSPipe]>], [3, 2, 2, 1]>,
1037 InstrItinData<IIC_VTB3, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
1038 InstrStage<1, [A8_NLSPipe]>,
1039 InstrStage<1, [A8_NPipe], 0>,
1040 InstrStage<2, [A8_NLSPipe]>], [4, 2, 2, 3, 1]>,
1041 InstrItinData<IIC_VTB4, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
1042 InstrStage<1, [A8_NLSPipe]>,
1043 InstrStage<1, [A8_NPipe], 0>,
1044 InstrStage<2, [A8_NLSPipe]>],[4, 2, 2, 3, 3, 1]>,
1047 InstrItinData<IIC_VTBX1, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
1048 InstrStage<2, [A8_NLSPipe]>], [3, 1, 2, 1]>,
1049 InstrItinData<IIC_VTBX2, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
1050 InstrStage<2, [A8_NLSPipe]>], [3, 1, 2, 2, 1]>,
1051 InstrItinData<IIC_VTBX3, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
1052 InstrStage<1, [A8_NLSPipe]>,
1053 InstrStage<1, [A8_NPipe], 0>,
1054 InstrStage<2, [A8_NLSPipe]>],[4, 1, 2, 2, 3, 1]>,
1055 InstrItinData<IIC_VTBX4, [InstrStage<1, [A8_Pipe0, A8_Pipe1], 0>,
1056 InstrStage<1, [A8_NLSPipe]>,
1057 InstrStage<1, [A8_NPipe], 0>,
1058 InstrStage<2, [A8_NLSPipe]>], [4, 1, 2, 2, 3, 3, 1]>
1061 // ===---------------------------------------------------------------------===//
1062 // This following definitions describe the simple machine model which
1063 // will replace itineraries.
1065 // Cortex-A8 machine model for scheduling and other instruction cost heuristics.
1066 def CortexA8Model : SchedMachineModel {
1067 let IssueWidth = 2; // 2 micro-ops are dispatched per cycle.
1068 let MinLatency = -1; // OperandCycles are interpreted as MinLatency.
1069 let LoadLatency = 2; // Optimistic load latency assuming bypass.
1070 // This is overriden by OperandCycles if the
1071 // Itineraries are queried instead.
1072 let MispredictPenalty = 13; // Based on estimate of pipeline depth.
1074 let Itineraries = CortexA8Itineraries;