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OpenBLAS/kernel/ia64/nrm2.S

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  1. /*********************************************************************/

  2. /* Copyright 2009, 2010 The University of Texas at Austin.           */

  3. /* All rights reserved.                                              */

  4. /*                                                                   */

  5. /* Redistribution and use in source and binary forms, with or        */

  6. /* without modification, are permitted provided that the following   */

  7. /* conditions are met:                                               */

  8. /*                                                                   */

  9. /*   1. Redistributions of source code must retain the above         */

  10. /*      copyright notice, this list of conditions and the following  */

  11. /*      disclaimer.                                                  */

  12. /*                                                                   */

  13. /*   2. Redistributions in binary form must reproduce the above      */

  14. /*      copyright notice, this list of conditions and the following  */

  15. /*      disclaimer in the documentation and/or other materials       */

  16. /*      provided with the distribution.                              */

  17. /*                                                                   */

  18. /*    THIS  SOFTWARE IS PROVIDED  BY THE  UNIVERSITY OF  TEXAS AT    */

  19. /*    AUSTIN  ``AS IS''  AND ANY  EXPRESS OR  IMPLIED WARRANTIES,    */

  20. /*    INCLUDING, BUT  NOT LIMITED  TO, THE IMPLIED  WARRANTIES OF    */

  21. /*    MERCHANTABILITY  AND FITNESS FOR  A PARTICULAR  PURPOSE ARE    */

  22. /*    DISCLAIMED.  IN  NO EVENT SHALL THE UNIVERSITY  OF TEXAS AT    */

  23. /*    AUSTIN OR CONTRIBUTORS BE  LIABLE FOR ANY DIRECT, INDIRECT,    */

  24. /*    INCIDENTAL,  SPECIAL, EXEMPLARY,  OR  CONSEQUENTIAL DAMAGES    */

  25. /*    (INCLUDING, BUT  NOT LIMITED TO,  PROCUREMENT OF SUBSTITUTE    */

  26. /*    GOODS  OR  SERVICES; LOSS  OF  USE,  DATA,  OR PROFITS;  OR    */

  27. /*    BUSINESS INTERRUPTION) HOWEVER CAUSED  AND ON ANY THEORY OF    */

  28. /*    LIABILITY, WHETHER  IN CONTRACT, STRICT  LIABILITY, OR TORT    */

  29. /*    (INCLUDING NEGLIGENCE OR OTHERWISE)  ARISING IN ANY WAY OUT    */

  30. /*    OF  THE  USE OF  THIS  SOFTWARE,  EVEN  IF ADVISED  OF  THE    */

  31. /*    POSSIBILITY OF SUCH DAMAGE.                                    */

  32. /*                                                                   */

  33. /* The views and conclusions contained in the software and           */

  34. /* documentation are those of the authors and should not be          */

  35. /* interpreted as representing official policies, either expressed   */

  36. /* or implied, of The University of Texas at Austin.                 */

  37. /*********************************************************************/

  38. 

  39. #define ASSEMBLER

  40. #include "common.h"

  41. 

  42. #ifdef XDOUBLE

  43. #define PREFETCH_SIZE ( 8 * 16)

  44. #elif defined(DOUBLE)

  45. #define PREFETCH_SIZE (16 * 16)

  46. #else

  47. #define PREFETCH_SIZE (32 * 16)

  48. #endif

  49. 

  50. #ifndef COMPLEX

  51. #define COMPADD	0

  52. #define STRIDE INCX

  53. #else

  54. #define COMPADD	1

  55. #define STRIDE SIZE

  56. #endif

  57. 

  58. #define PRE1	r2

  59. 

  60. #define I	r17

  61. #define J	r18

  62. #define X2	r19

  63. #define INCX5	r20

  64. #define INCX16	r21

  65. 

  66. #define N	r32

  67. #define X	r33

  68. #define INCX	r34

  69. #define PR	r30

  70. #define ARLC	r31

  71. 

  72. 

  73. 	PROLOGUE

  74. 	.prologue

  75. 	PROFCODE

  76. 	{ .mfi

  77. 	adds	PRE1 = PREFETCH_SIZE * SIZE, X

  78. 	mov	f8  = f0

  79. 	.save ar.lc, ARLC

  80. 	mov	ARLC = ar.lc

  81. 	}

  82. 	;;

  83. 	.body

  84. #ifdef F_INTERFACE

  85. 	LDINT	N    = [N]

  86. 	LDINT	INCX = [INCX]

  87. 	;;

  88. #ifndef USE64BITINT

  89. 	sxt4	N = N

  90. 	sxt4	INCX = INCX

  91. 	;;

  92. #endif

  93. #endif

  94. 	{ .mmi

  95. 	cmp.ge	p6, p0 = r0, N

  96. 	cmp.ge	p7, p0 = r0, INCX

  97. 	shr	I =  N, (4 - COMPADD)

  98. 	}

  99. 	{ .mbb

  100. 	and	J = ((1 << (4 - COMPADD)) - 1), N

  101. 	(p6) 	br.ret.sptk.many b0

  102. 	(p7) 	br.ret.sptk.many b0

  103. 	}

  104. 	;;

  105. 	{ .mfi

  106. 	mov	f9  = f0

  107. 	mov	PR = pr

  108. 	}

  109. 	{ .mfi

  110. 	adds	I = -1, I

  111. 	mov	f10 = f0

  112. 	shl	INCX = INCX, (BASE_SHIFT + COMPADD)

  113. 	}

  114. 	;;

  115. 	{ .mfi

  116. 	shladd	X2     = INCX,  (2 - COMPADD), X

  117. 	mov	f11 = f0

  118. 	mov	pr.rot = 0

  119. 	}

  120. 	{ .mfi

  121. 	shladd	INCX5  = INCX,  (2 - COMPADD), INCX

  122. 	mov	f12 = f0

  123. 	tbit.z	p0, p12 = N, (3 - COMPADD)

  124. 	}

  125. 	;;

  126. 	{ .mfi

  127. 	shladd	INCX16  = INCX, (4 - COMPADD), r0

  128. 	mov	f13 = f0

  129. 	mov	ar.ec= 3

  130. 	}

  131. 	{ .mmf

  132. 	cmp.gt	p8 ,p0  =   r0, I

  133. 	cmp.eq	p16, p0 = r0, r0

  134. 	mov	f14 = f0

  135. 	}

  136. 	;;

  137. 	{ .mmf

  138. #ifdef COMPLEX

  139.        adds	INCX  = - SIZE, INCX

  140.        adds	INCX5 = - SIZE, INCX5

  141. #else

  142. 	nop.m	0

  143. 	nop.m	0

  144. #endif

  145. 	mov	f15 = f0

  146. 	}

  147. 	{ .mib

  148. 	cmp.eq	p9, p0  =   r0, J

  149. 	mov	ar.lc = I

  150. 	(p8) br.cond.dpnt  .L52

  151. 	}

  152. 	;;

  153. 	.align 32

  154. 

  155. .L51:

  156. 	(p16) LDFD	f32  = [X],  STRIDE

  157. 	(p16) lfetch.nt1 [PRE1], INCX16

  158. 	(p18) fma.d.s1	f8  = f34, f34, f8

  159. 

  160. 	(p16) LDFD	f35  = [X2], STRIDE

  161. 	(p18) fma.d.s1	f9  = f37, f37, f9

  162. 	nop.b 0

  163. 	;;

  164. 	(p16) LDFD	f38  = [X],  INCX

  165. 	(p18) fma.d.s1	f10 = f40, f40, f10

  166. 	nop.b 0

  167. 	(p16) LDFD	f41  = [X2], INCX

  168. 	(p18) fma.d.s1	f11 = f43, f43, f11

  169. 	nop.b 0

  170. 	;;

  171. 	(p16) LDFD	f44  = [X],  STRIDE

  172. 	(p18) fma.d.s1	f12 = f46, f46, f12

  173. 	nop.b 0

  174. 	(p16) LDFD	f47  = [X2], STRIDE

  175. 	(p18) fma.d.s1	f13 = f49, f49, f13

  176. 	nop.b 0

  177. 	;;

  178. 	(p16) LDFD	f50  = [X],  INCX5

  179. 	(p18) fma.d.s1	f14 = f52, f52, f14

  180. 	nop.b 0

  181. 	(p16) LDFD	f53  = [X2], INCX5

  182. 	(p18) fma.d.s1	f15 = f55, f55, f15

  183. 	nop.b 0

  184. 	;;

  185. 	(p16) LDFD	f56  = [X],  STRIDE

  186. 	(p18) fma.d.s1	f8  = f58, f58, f8

  187. 	nop.b 0

  188. 	(p16) LDFD	f59  = [X2], STRIDE

  189. 	(p18) fma.d.s1	f9  = f61, f61, f9

  190. 	nop.b 0

  191. 	;;

  192. 	(p16) LDFD	f62  = [X],  INCX

  193. 	(p18) fma.d.s1	f10 = f64, f64, f10

  194. 	nop.b 0

  195. 	(p16) LDFD	f65  = [X2], INCX

  196. 	(p18) fma.d.s1	f11 = f67, f67, f11

  197. 	nop.b 0

  198. 	;;

  199. 	(p16) LDFD	f68  = [X],  STRIDE

  200. 	(p18) fma.d.s1	f12 = f70, f70, f12

  201. 	nop.b 0

  202. 	(p16) LDFD	f71  = [X2], STRIDE

  203. 	(p18) fma.d.s1	f13 = f73, f73, f13

  204. 	nop.b 0

  205. 	;;

  206. 	(p16) LDFD	f74  = [X],  INCX5

  207. 	(p18) fma.d.s1	f14 = f76, f76, f14

  208. 	nop.b 0

  209. 	(p16) LDFD	f77  = [X2], INCX5

  210. 	(p18) fma.d.s1	f15 = f79, f79, f15

  211. 	br.ctop.sptk.few .L51

  212. 	;;

  213. 	.align 32

  214. 

  215. .L52:

  216. 	{ .mmb

  217. 	(p12) LDFD	f32  = [X],  STRIDE

  218. 	(p12) LDFD	f33  = [X2], STRIDE

  219. 	(p9) br.cond.dptk .L998

  220. 	}

  221. 	;;

  222. 	{ .mmi

  223. 	(p12) LDFD	f34  = [X],  INCX

  224. 	(p12) LDFD	f35  = [X2], INCX

  225. 	tbit.z	p0, p13 = N, (2 - COMPADD)

  226. 	}

  227. 	;;

  228. 	{ .mmi

  229. 	(p12) LDFD	f36  = [X],  STRIDE

  230. 	(p12) LDFD	f37  = [X2], STRIDE

  231. 	tbit.z	p0, p14 = N, (1 - COMPADD)

  232. 	}

  233. 	;;

  234. 	{ .mmi

  235. 	(p12) LDFD	f38  = [X],  INCX5

  236. 	(p12) LDFD	f39  = [X2], INCX5

  237. #ifndef COMPLEX

  238. 	tbit.z	p0, p15 = N, 0

  239. #endif

  240. 	}

  241. 	;;

  242. 	(p13) LDFD	f40  = [X], STRIDE

  243. 	(p12) fma.d.s1	f8  = f32, f32, f8

  244. 	(p12) fma.d.s1	f9  = f33, f33, f9

  245. 	;;

  246. 	(p13) LDFD	f41  = [X], INCX

  247. 	(p12) fma.d.s1	f10 = f34, f34, f10

  248. 	(p12) fma.d.s1	f11 = f35, f35, f11

  249. 	;;

  250. 	(p13) LDFD	f42  = [X], STRIDE

  251. 	(p12) fma.d.s1	f12 = f36, f36, f12

  252. 	(p12) fma.d.s1	f13 = f37, f37, f13

  253. 	;;

  254. 	(p13) LDFD	f43  = [X], INCX

  255. 	(p12) fma.d.s1	f14 = f38, f38, f14

  256. 	(p12) fma.d.s1	f15 = f39, f39, f15

  257. 	;;

  258. 	(p14) LDFD	f44  = [X], STRIDE

  259. 	(p13) fma.d.s1	f8  = f40, f40, f8

  260. 	(p13) fma.d.s1	f9  = f41, f41, f9

  261. 	;;

  262. 	(p14) LDFD	f45  = [X], INCX

  263. 	(p13) fma.d.s1	f10 = f42, f42, f10

  264. 	(p13) fma.d.s1	f11 = f43, f43, f11

  265. 	;;

  266. #ifndef COMPLEX

  267. 	(p15) LDFD	f46  = [X]

  268. #endif

  269. 	(p14) fma.d.s1	f12 = f44, f44, f12

  270. 	(p14) fma.d.s1	f13 = f45, f45, f13

  271. 	;;

  272. #ifndef COMPLEX

  273. 	(p15) fma.d.s1	f14 = f46, f46, f14

  274. 	;;

  275. #endif

  276. 	.align 32

  277. 

  278. .L998:

  279. 	{ .mmf

  280. 	fadd.d.s1	f8  = f8,  f9

  281. 	}

  282. 	{ .mmf

  283. 	fadd.d.s1	f10 = f10, f11

  284. 	}

  285. 	{ .mmf

  286. 	fadd.d.s1	f12 = f12, f13

  287. 	}

  288. 	{ .mfi

  289. 	fadd.d.s1	f14 = f14, f15

  290. 	mov	ar.lc = ARLC

  291. 	}

  292. 	;;

  293. 	{ .mmf

  294. 	fadd.d.s1	f8  = f8,  f10

  295. 	}

  296. 	{ .mfi

  297. 	fadd.d.s1	f12 = f12, f14

  298. 	mov	pr = PR, -65474

  299. 	}

  300. 	;;

  301. 	{ .mfb

  302. 	fadd.d.s1	f8  = f8,  f12

  303.  	br	sqrt

  304. 	}

  305. 	;;

  306. 	EPILOGUE

  307. 

  308. 	.section .data

  309. 	.type	sqrt, @function

  310. 	.global	sqrt