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OpenBLAS/kernel/mips64/trsm_kernel_RN_loongson3a.S

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  1. #define REALNAME ASMNAME

  2. 

  3. #define ASSEMBLER

  4. #include "common.h"

  5. 

  6. 

  7. #define M	$4

  8. #define	N	$5

  9. #define	K	$6

  10. #define A	$8

  11. #define B	$9

  12. #define C	$10

  13. #define LDC	$11

  14. 

  15. #define AO	$12

  16. #define BO	$13

  17. 

  18. #define I	$2

  19. #define J	$3

  20. #define L	$7

  21. 

  22. #define CO1	$14

  23. #define CO2	$15

  24. #define CO3	$16

  25. #define CO4	$17

  26. 

  27. #define OFFSET	$22

  28. #define KK	$23

  29. #define TEMP	$24

  30. #define AORIG	$25

  31. 

  32. #define a1	$f0

  33. #define a2	$f1

  34. #define a3	$f26

  35. #define a4	$f27

  36. 

  37. #define a5	$f28

  38. #define a6	$f29

  39. #define	a7	$f30

  40. #define	a8	$f31

  41. 

  42. #define b1	$f2

  43. #define b2	$f3

  44. #define b3	$f4

  45. #define b4	$f5

  46. 

  47. #define b5	$f6

  48. #define b6	$f7

  49. #define b7	$f8

  50. #define b8	$f9

  51. 

  52. #define t11	$f10

  53. #define t21	$f11

  54. #define t31	$f12

  55. #define	t41	$f13

  56. 

  57. #define t12	$f14

  58. #define	t22	$f15

  59. #define t32	$f16

  60. #define	t42	$f17

  61. 

  62. #define	t13	$f18

  63. #define	t23	$f19

  64. #define	t33	$f20

  65. #define	t43	$f21

  66. 

  67. #define	t14	$f22

  68. #define	t24	$f23

  69. #define	t34	$f24

  70. #define t44	$f25

  71. 

  72. 	PROLOGUE

  73. 

  74. 	daddiu	$sp, $sp, -144

  75. 

  76. 	SDARG	$16,   0($sp)

  77. 	SDARG	$17,   8($sp)

  78. 	SDARG	$18,  16($sp)

  79. 	SDARG	$19,  24($sp)

  80. 	SDARG	$20,  32($sp)

  81. 	SDARG	$21,  40($sp)

  82. 	sdc1	$f24, 48($sp)

  83. 	sdc1	$f25, 56($sp)

  84. 	sdc1	$f26, 64($sp)

  85. 	sdc1	$f27, 72($sp)

  86. 	sdc1	$f28, 80($sp)

  87. 

  88. 	SDARG	$22,  88($sp)

  89. 	SDARG	$23,  96($sp)

  90. 	SDARG	$24, 104($sp)

  91. 	SDARG	$25, 112($sp)

  92. 

  93. #ifndef __64BIT__

  94. 	sdc1	$f20,112($sp)

  95. 	sdc1	$f21,120($sp)

  96. 	sdc1	$f22,128($sp)

  97. 	sdc1	$f23,136($sp)

  98. #endif

  99. 

  100. 											#	RN compute from top to bottom left to right

  101. 	.align	3

  102. 	LDARG	OFFSET, 144($sp)				#	get the last parameter

  103. 	dsll	LDC, LDC, BASE_SHIFT			#	LDC * data_Byte

  104. 

  105. 	neg	KK, OFFSET							#	for RN OFFSET always 0

  106. 

  107. 	dsra	J,  N, 2						#	J = NC/4

  108. 	blez	J, .L30

  109. 	NOP

  110. 

  111. .L10:

  112. 	daddiu	J, J, -1

  113. 

  114. 	move	CO1, C

  115. 	daddu	CO2, C,   LDC

  116. 	daddu	CO3, CO2, LDC

  117. 	daddu	CO4, CO3, LDC

  118. 

  119. 	move	AO, A							#	A is the retangular matrix and B is the trigular matrix

  120. 	daddu	C,  CO4, LDC					#	Fixed pointer C

  121. 

  122. 	dsra	I,  M, 2						#	I=MC/4

  123. 	blez	I, .L20

  124. 	NOP

  125. 

  126. 	.align 3

  127. .L11:

  128. 	MTC	$0,  t11							#	clear results registers

  129. 	MOV	t21, t11

  130. 	MOV	t31, t11

  131. 	MOV	t41, t11

  132. 

  133. 	MOV	t12, t11

  134. 	MOV	t22, t11

  135. 	MOV	t32, t11

  136. 	MOV	t42, t11

  137. 

  138. 	MOV	t13, t11

  139. 	MOV	t23, t11

  140. 	MOV	t33, t11

  141. 	MOV	t43, t11

  142. 

  143. 	MOV	t14, t11

  144. 	MOV	t24, t11

  145. 	MOV	t34, t11

  146. 	MOV	t44, t11

  147. 

  148. 	LD	a1,  0 * SIZE(AO)					#	AO point to the beginning address of sa

  149. 	LD	a2,  1 * SIZE(AO)					#	get 4 a

  150. 	LD	a3,  2 * SIZE(AO)

  151. 	LD	a4,  3 * SIZE(AO)

  152. 

  153. 	LD	b1,  0 * SIZE(B)					#	B point to the beginning address of every panel Bj

  154. 	LD	b2,  1 * SIZE(B)					#	get 4 b

  155. 	LD	b3,  2 * SIZE(B)

  156. 	LD	b4,  3 * SIZE(B)

  157. 

  158. 	dsra	L,  KK, 2						#	L=KK/4, KK is the length of the retangular data part of Bj

  159. 	blez	L, .L15

  160. 	move	BO,  B							#	reset B

  161. 

  162. .L12:

  163. 	LD	a5,  4 * SIZE(AO)

  164. 	LD	a6,  5 * SIZE(AO)

  165. 	LD	a7,  6 * SIZE(AO)

  166. 	LD	a8,  7 * SIZE(AO)

  167. 

  168. 	LD	b5,  4 * SIZE(BO)

  169. 	LD	b6,  5 * SIZE(BO)

  170. 	LD	b7,  6 * SIZE(BO)

  171. 	LD	b8,  7 * SIZE(BO)

  172. 

  173. 	MADD	t11, t11, a1, b1

  174. 	MADD	t21, t21, a2, b1

  175. 	MADD	t31, t31, a3, b1

  176. 	MADD	t41, t41, a4, b1

  177. 

  178. 	MADD	t12, t12, a1, b2

  179. 	MADD	t22, t22, a2, b2

  180. 	MADD	t32, t32, a3, b2

  181. 	MADD	t42, t42, a4, b2

  182. 

  183. 	MADD	t13, t13, a1, b3

  184. 	MADD	t23, t23, a2, b3

  185. 	MADD	t33, t33, a3, b3

  186. 	MADD	t43, t43, a4, b3

  187. 

  188. 	MADD	t14, t14, a1, b4

  189. 	MADD	t24, t24, a2, b4

  190. 	MADD	t34, t34, a3, b4

  191. 	MADD	t44, t44, a4, b4			#	fisrt

  192. 

  193. 	LD	a1,  8 * SIZE(AO)

  194. 	LD	a2,  9 * SIZE(AO)

  195. 	LD	a3,  10 * SIZE(AO)

  196. 	LD	a4,  11 * SIZE(AO)

  197. 

  198. 	LD	b1,  8 * SIZE(BO)

  199. 	LD	b2,  9 * SIZE(BO)

  200. 	LD	b3,  10 * SIZE(BO)

  201. 	LD	b4,  11 * SIZE(BO)

  202. 

  203. 	MADD	t11, t11, a5, b5

  204. 	MADD	t21, t21, a6, b5

  205. 	MADD	t31, t31, a7, b5

  206. 	MADD	t41, t41, a8, b5

  207. 

  208. 	MADD	t12, t12, a5, b6

  209. 	MADD	t22, t22, a6, b6

  210. 	MADD	t32, t32, a7, b6

  211. 	MADD	t42, t42, a8, b6

  212. 

  213. 	MADD	t13, t13, a5, b7

  214. 	MADD	t23, t23, a6, b7

  215. 	MADD	t33, t33, a7, b7

  216. 	MADD	t43, t43, a8, b7

  217. 

  218. 	MADD	t14, t14, a5, b8

  219. 	MADD	t24, t24, a6, b8

  220. 	MADD	t34, t34, a7, b8

  221. 	MADD	t44, t44, a8, b8			#	second

  222. 

  223. 	LD	a5,  12 * SIZE(AO)

  224. 	LD	a6,  13 * SIZE(AO)

  225. 	LD	a7,  14 * SIZE(AO)

  226. 	LD	a8,  15 * SIZE(AO)

  227. 

  228. 	LD	b5,  12 * SIZE(BO)

  229. 	LD	b6,  13 * SIZE(BO)

  230. 	LD	b7,  14 * SIZE(BO)

  231. 	LD	b8,  15 * SIZE(BO)

  232. 

  233. 	MADD	t11, t11, a1, b1

  234. 	MADD	t21, t21, a2, b1

  235. 	MADD	t31, t31, a3, b1

  236. 	MADD	t41, t41, a4, b1

  237. 

  238. 	MADD	t12, t12, a1, b2

  239. 	MADD	t22, t22, a2, b2

  240. 	MADD	t32, t32, a3, b2

  241. 	MADD	t42, t42, a4, b2

  242. 

  243. 	MADD	t13, t13, a1, b3

  244. 	MADD	t23, t23, a2, b3

  245. 	MADD	t33, t33, a3, b3

  246. 	MADD	t43, t43, a4, b3

  247. 

  248. 	MADD	t14, t14, a1, b4

  249. 	MADD	t24, t24, a2, b4

  250. 	MADD	t34, t34, a3, b4

  251. 	MADD	t44, t44, a4, b4			#	third

  252. 

  253. 	daddiu	AO, AO, 16 * SIZE			#	AO += 4mr*4kr

  254. 	daddiu	BO, BO, 16 * SIZE			#	BP += 4nr*4kr

  255. 

  256. 	LD	a1,  0 * SIZE(AO)

  257. 	LD	a2,  1 * SIZE(AO)

  258. 	LD	a3,  2 * SIZE(AO)

  259. 	LD	a4,  3 * SIZE(AO)

  260. 

  261. 	LD	b1,  0 * SIZE(BO)

  262. 	LD	b2,  1 * SIZE(BO)

  263. 	LD	b3,  2 * SIZE(BO)

  264. 	LD	b4,  3 * SIZE(BO)

  265. 

  266. 	MADD	t11, t11, a5, b5

  267. 	MADD	t21, t21, a6, b5

  268. 	MADD	t31, t31, a7, b5

  269. 	MADD	t41, t41, a8, b5

  270. 

  271. 	MADD	t12, t12, a5, b6

  272. 	MADD	t22, t22, a6, b6

  273. 	MADD	t32, t32, a7, b6

  274. 	MADD	t42, t42, a8, b6

  275. 

  276. 	MADD	t13, t13, a5, b7

  277. 	MADD	t23, t23, a6, b7

  278. 	MADD	t33, t33, a7, b7

  279. 	MADD	t43, t43, a8, b7

  280. 

  281. 	MADD	t14, t14, a5, b8

  282. 	MADD	t24, t24, a6, b8

  283. 	MADD	t34, t34, a7, b8

  284. 	MADD	t44, t44, a8, b8			#	fouth

  285. 

  286. 	daddiu	L, L, -1

  287. 	bgtz	L, .L12

  288. 	NOP

  289. 

  290. 

  291. .L15:

  292. 	andi	L, KK, 3					#	deal with kc remainder part

  293. 	blez	L, .L18

  294. 	NOP

  295. 

  296. 	.align	3

  297. .L16:

  298. 	MADD	t11, t11, a1, b1

  299. 	MADD	t21, t21, a2, b1

  300. 	MADD	t31, t31, a3, b1

  301. 	MADD	t41, t41, a4, b1

  302. 

  303. 	MADD	t12, t12, a1, b2

  304. 	MADD	t22, t22, a2, b2

  305. 	MADD	t32, t32, a3, b2

  306. 	MADD	t42, t42, a4, b2

  307. 

  308. 	MADD	t13, t13, a1, b3

  309. 	MADD	t23, t23, a2, b3

  310. 	MADD	t33, t33, a3, b3

  311. 	MADD	t43, t43, a4, b3

  312. 

  313. 	MADD	t14, t14, a1, b4

  314. 	MADD	t24, t24, a2, b4

  315. 	MADD	t34, t34, a3, b4

  316. 	MADD	t44, t44, a4, b4

  317. 

  318. 	daddiu	AO, AO, 4 * SIZE			#	AO += 4mr

  319. 	daddiu	BO, BO, 4 * SIZE			#	BP += 4nr

  320. 

  321. 	LD	a1,  0 * SIZE(AO)

  322. 	LD	a2,  1 * SIZE(AO)

  323. 	LD	a3,  2 * SIZE(AO)

  324. 	LD	a4,  3 * SIZE(AO)

  325. 

  326. 	LD	b1,  0 * SIZE(BO)

  327. 	LD	b2,  1 * SIZE(BO)

  328. 	LD	b3,  2 * SIZE(BO)

  329. 	LD	b4,  3 * SIZE(BO)

  330. 

  331. 	daddiu	L, L, -1

  332. 	bgtz	L, .L16

  333. 	NOP

  334. 

  335. 

  336. 	.align 3

  337. .L18:									#	.L18 always deal with the trigular data part

  338.  	LD	b1,  0 * SIZE(AO)				#	for RN & RT A is the result matrix

  339. 	LD	b2,  1 * SIZE(AO)				#	Fixed results

  340. 	LD	b3,  2 * SIZE(AO)

  341. 	LD	b4,  3 * SIZE(AO)				#	sa stored as col major

  342. 

  343. 	SUB	t11, b1, t11

  344. 	SUB	t21, b2, t21

  345. 	SUB	t31, b3, t31

  346. 	SUB	t41, b4, t41

  347. 

  348.  	LD	b5,  4 * SIZE(AO)

  349. 	LD	b6,  5 * SIZE(AO)

  350. 	LD	b7,  6 * SIZE(AO)

  351. 	LD	b8,  7 * SIZE(AO)

  352. 

  353. 	SUB	t12, b5, t12

  354. 	SUB	t22, b6, t22

  355. 	SUB	t32, b7, t32

  356. 	SUB	t42, b8, t42

  357. 

  358.  	LD	b1,  8 * SIZE(AO)

  359. 	LD	b2,  9 * SIZE(AO)

  360. 	LD	b3, 10 * SIZE(AO)

  361. 	LD	b4, 11 * SIZE(AO)

  362. 

  363. 	SUB	t13, b1, t13

  364. 	SUB	t23, b2, t23

  365. 	SUB	t33, b3, t33

  366. 	SUB	t43, b4, t43

  367. 

  368.  	LD	b5, 12 * SIZE(AO)

  369. 	LD	b6, 13 * SIZE(AO)

  370. 	LD	b7, 14 * SIZE(AO)

  371. 	LD	b8, 15 * SIZE(AO)

  372. 

  373. 	SUB	t14, b5, t14

  374. 	SUB	t24, b6, t24

  375. 	SUB	t34, b7, t34

  376. 	SUB	t44, b8, t44

  377. 

  378. 

  379. 

  380. 	LD	b1,  0 * SIZE(BO)				#	BO point to the beginning of the trigular data part of Bj

  381. 	LD	b2,  1 * SIZE(BO)

  382. 	LD	b3,  2 * SIZE(BO)

  383. 	LD	b4,  3 * SIZE(BO)

  384. 	MUL	t11, b1, t11

  385. 	MUL	t21, b1, t21

  386. 	MUL	t31, b1, t31

  387. 	MUL	t41, b1, t41

  388. 	NMSUB	t12, t12, b2, t11

  389. 	NMSUB	t22, t22, b2, t21

  390. 	NMSUB	t32, t32, b2, t31

  391. 	NMSUB	t42, t42, b2, t41

  392. 	NMSUB	t13, t13, b3, t11

  393. 	NMSUB	t23, t23, b3, t21

  394. 	NMSUB	t33, t33, b3, t31

  395. 	NMSUB	t43, t43, b3, t41

  396. 	NMSUB	t14, t14, b4, t11

  397. 	NMSUB	t24, t24, b4, t21

  398. 	NMSUB	t34, t34, b4, t31

  399. 	NMSUB	t44, t44, b4, t41

  400. 

  401. 

  402. 	LD	b5,  5 * SIZE(BO)

  403. 	LD	b6,  6 * SIZE(BO)

  404. 	LD	b7,  7 * SIZE(BO)

  405. 	MUL	t12, b5, t12

  406. 	MUL	t22, b5, t22

  407. 	MUL	t32, b5, t32

  408. 	MUL	t42, b5, t42

  409. 	NMSUB	t13, t13, b6, t12

  410. 	NMSUB	t23, t23, b6, t22

  411. 	NMSUB	t33, t33, b6, t32

  412. 	NMSUB	t43, t43, b6, t42

  413. 	NMSUB	t14, t14, b7, t12

  414. 	NMSUB	t24, t24, b7, t22

  415. 	NMSUB	t34, t34, b7, t32

  416. 	NMSUB	t44, t44, b7, t42

  417. 

  418. 

  419. 

  420. 	LD	b8,  10 * SIZE(BO)

  421. 	LD	b1,  11 * SIZE(BO)

  422. 	MUL	t13, b8, t13

  423. 	MUL	t23, b8, t23

  424. 	MUL	t33, b8, t33

  425. 	MUL	t43, b8, t43

  426. 	NMSUB	t14, t14, b1, t13

  427. 	NMSUB	t24, t24, b1, t23

  428. 	NMSUB	t34, t34, b1, t33

  429. 	NMSUB	t44, t44, b1, t43

  430. 

  431. 

  432. 

  433. 	LD	b2,  15 * SIZE(BO)

  434. 	MUL	t14, b2, t14

  435. 	MUL	t24, b2, t24

  436. 	MUL	t34, b2, t34

  437. 	MUL	t44, b2, t44

  438. 

  439. 

  440. 

  441. 	ST	t11,  0 * SIZE(AO)				#	update packed blockA for follow-up compute

  442. 	ST	t21,  1 * SIZE(AO)

  443. 	ST	t31,  2 * SIZE(AO)

  444. 	ST	t41,  3 * SIZE(AO)

  445. 

  446. 	ST	t12,  4 * SIZE(AO)

  447. 	ST	t22,  5 * SIZE(AO)

  448. 	ST	t32,  6 * SIZE(AO)

  449. 	ST	t42,  7 * SIZE(AO)

  450. 

  451. 	ST	t13,  8 * SIZE(AO)

  452. 	ST	t23,  9 * SIZE(AO)

  453. 	ST	t33, 10 * SIZE(AO)

  454. 	ST	t43, 11 * SIZE(AO)

  455. 

  456. 	ST	t14, 12 * SIZE(AO)

  457. 	ST	t24, 13 * SIZE(AO)

  458. 	ST	t34, 14 * SIZE(AO)

  459. 	ST	t44, 15 * SIZE(AO)

  460. 

  461. 

  462. 	ST	t11,  0 * SIZE(CO1)				#	write back results

  463. 	ST	t21,  1 * SIZE(CO1)

  464. 	ST	t31,  2 * SIZE(CO1)

  465. 	ST	t41,  3 * SIZE(CO1)

  466. 

  467. 	ST	t12,  0 * SIZE(CO2)

  468. 	ST	t22,  1 * SIZE(CO2)

  469. 	ST	t32,  2 * SIZE(CO2)

  470. 	ST	t42,  3 * SIZE(CO2)

  471. 

  472. 	ST	t13,  0 * SIZE(CO3)

  473. 	ST	t23,  1 * SIZE(CO3)

  474. 	ST	t33,  2 * SIZE(CO3)

  475. 	ST	t43,  3 * SIZE(CO3)

  476. 

  477. 	ST	t14,  0 * SIZE(CO4)

  478. 	ST	t24,  1 * SIZE(CO4)

  479. 	ST	t34,  2 * SIZE(CO4)

  480. 	ST	t44,  3 * SIZE(CO4)

  481. 

  482. 	daddiu	CO1, CO1, 4 * SIZE			#	fixed address

  483. 	daddiu	CO2, CO2, 4 * SIZE

  484. 	daddiu	CO3, CO3, 4 * SIZE

  485. 	daddiu	CO4, CO4, 4 * SIZE

  486. 

  487. 

  488. 	dsubu	TEMP, K, KK					#	temp = kc - retangular data length of every panel

  489. 	dsll	L,    TEMP, 2 + BASE_SHIFT

  490. 	dsll	TEMP, TEMP, 2 + BASE_SHIFT

  491. 	daddu	AO, AO, L					#	move AO to the end of this panel. also the beginning of next panel

  492. 	daddu	BO, BO, TEMP				#	move BO to the end of this panel

  493. 

  494. 	daddiu	I, I, -1

  495. 	bgtz	I, .L11

  496. 	NOP

  497. 

  498. 	.align 3

  499. .L20:

  500. 	andi	I,  M, 2					#	mr=2

  501. 	blez	I, .L50

  502. 	nop

  503. 

  504. 	MTC	$0,  t11							#	clear results registers

  505. 	MOV	t21, t11

  506. 	MOV	t31, t11

  507. 	MOV	t41, t11

  508. 

  509. 	MOV	t12, t11

  510. 	MOV	t22, t11

  511. 	MOV	t32, t11

  512. 	MOV	t42, t11

  513. 

  514. 	MOV	t13, t11

  515. 	MOV	t23, t11

  516. 	MOV	t33, t11

  517. 	MOV	t43, t11

  518. 

  519. 	MOV	t14, t11

  520. 	MOV	t24, t11

  521. 	MOV	t34, t11

  522. 	MOV	t44, t11

  523. 

  524. 	LD	a1,  0 * SIZE(AO)					#	AO point to the beginning address of sa

  525. 	LD	a2,  1 * SIZE(AO)					#	get 4 a

  526. 

  527. 	LD	b1,  0 * SIZE(B)					#	B point to the beginning address of every panel Bj

  528. 	LD	b2,  1 * SIZE(B)					#	get 4 b

  529. 	LD	b3,  2 * SIZE(B)

  530. 	LD	b4,  3 * SIZE(B)

  531. 

  532. 	dsra	L,  KK, 2						#	L=KK/4, KK is the length of the retangular data part of Bj

  533. 	blez	L, .L25

  534. 	move	BO,  B							#	reset B

  535. 

  536. .L22:

  537. 	LD	a5,  2 * SIZE(AO)

  538. 	LD	a6,  3 * SIZE(AO)

  539. 

  540. 	LD	b5,  4 * SIZE(BO)

  541. 	LD	b6,  5 * SIZE(BO)

  542. 	LD	b7,  6 * SIZE(BO)

  543. 	LD	b8,  7 * SIZE(BO)

  544. 

  545. 	MADD	t11, t11, a1, b1

  546. 	MADD	t21, t21, a2, b1

  547. 

  548. 	MADD	t12, t12, a1, b2

  549. 	MADD	t22, t22, a2, b2

  550. 

  551. 	MADD	t13, t13, a1, b3

  552. 	MADD	t23, t23, a2, b3

  553. 

  554. 	MADD	t14, t14, a1, b4

  555. 	MADD	t24, t24, a2, b4

  556. 

  557. 	LD	a3,  4 * SIZE(AO)

  558. 	LD	a4,  5 * SIZE(AO)

  559. 

  560. 	LD	b1,  8 * SIZE(BO)

  561. 	LD	b2,  9 * SIZE(BO)

  562. 	LD	b3,  10 * SIZE(BO)

  563. 	LD	b4,  11 * SIZE(BO)

  564. 

  565. 	MADD	t11, t11, a5, b5

  566. 	MADD	t21, t21, a6, b5

  567. 

  568. 	MADD	t12, t12, a5, b6

  569. 	MADD	t22, t22, a6, b6

  570. 

  571. 	MADD	t13, t13, a5, b7

  572. 	MADD	t23, t23, a6, b7

  573. 

  574. 	MADD	t14, t14, a5, b8

  575. 	MADD	t24, t24, a6, b8

  576. 

  577. 	LD	a7,  6 * SIZE(AO)

  578. 	LD	a8,  7 * SIZE(AO)

  579. 

  580. 	LD	b5,  12 * SIZE(BO)

  581. 	LD	b6,  13 * SIZE(BO)

  582. 	LD	b7,  14 * SIZE(BO)

  583. 	LD	b8,  15 * SIZE(BO)

  584. 

  585. 	MADD	t11, t11, a3, b1

  586. 	MADD	t21, t21, a4, b1

  587. 

  588. 	MADD	t12, t12, a3, b2

  589. 	MADD	t22, t22, a4, b2

  590. 

  591. 	MADD	t13, t13, a3, b3

  592. 	MADD	t23, t23, a4, b3

  593. 

  594. 	MADD	t14, t14, a3, b4

  595. 	MADD	t24, t24, a4, b4

  596. 

  597. 	daddiu	AO, AO, 8 * SIZE			#	AO += 2mr*4kr

  598. 	daddiu	BO, BO, 16 * SIZE			#	BP += 4nr*4kr

  599. 

  600. 	LD	a1,  0 * SIZE(AO)

  601. 	LD	a2,  1 * SIZE(AO)

  602. 

  603. 	LD	b1,  0 * SIZE(BO)

  604. 	LD	b2,  1 * SIZE(BO)

  605. 	LD	b3,  2 * SIZE(BO)

  606. 	LD	b4,  3 * SIZE(BO)

  607. 

  608. 	MADD	t11, t11, a7, b5

  609. 	MADD	t21, t21, a8, b5

  610. 

  611. 	MADD	t12, t12, a7, b6

  612. 	MADD	t22, t22, a8, b6

  613. 

  614. 	MADD	t13, t13, a7, b7

  615. 	MADD	t23, t23, a8, b7

  616. 

  617. 	MADD	t14, t14, a7, b8

  618. 	MADD	t24, t24, a8, b8

  619. 

  620. 	daddiu	L, L, -1

  621. 	bgtz	L, .L22

  622. 	NOP

  623. 

  624. 

  625. .L25:

  626. 	andi	L, KK, 3					#	deal with kc remainder part

  627. 	blez	L, .L28

  628. 	NOP

  629. 

  630. 	.align	3

  631. .L26:

  632. 	MADD	t11, t11, a1, b1

  633. 	MADD	t21, t21, a2, b1

  634. 

  635. 	MADD	t12, t12, a1, b2

  636. 	MADD	t22, t22, a2, b2

  637. 

  638. 	MADD	t13, t13, a1, b3

  639. 	MADD	t23, t23, a2, b3

  640. 

  641. 	MADD	t14, t14, a1, b4

  642. 	MADD	t24, t24, a2, b4

  643. 

  644. 	daddiu	AO, AO, 2 * SIZE			#	AO += 2mr

  645. 	daddiu	BO, BO, 4 * SIZE			#	BP += 4nr

  646. 

  647. 	LD	a1,  0 * SIZE(AO)

  648. 	LD	a2,  1 * SIZE(AO)

  649. 

  650. 	LD	b1,  0 * SIZE(BO)

  651. 	LD	b2,  1 * SIZE(BO)

  652. 	LD	b3,  2 * SIZE(BO)

  653. 	LD	b4,  3 * SIZE(BO)

  654. 

  655. 	daddiu	L, L, -1

  656. 	bgtz	L, .L26

  657. 	NOP

  658. 

  659. 

  660. 	.align 3

  661. .L28:									#	.L18 always deal with the trigular data part

  662.  	LD	b1,  0 * SIZE(AO)				#	for RN & RT A is the result matrix

  663. 	LD	b2,  1 * SIZE(AO)				#	Fixed results

  664. 

  665. 	SUB	t11, b1, t11

  666. 	SUB	t21, b2, t21

  667. 

  668.  	LD	b5,  2 * SIZE(AO)

  669. 	LD	b6,  3 * SIZE(AO)

  670. 

  671. 	SUB	t12, b5, t12

  672. 	SUB	t22, b6, t22

  673. 

  674. 	LD	b3,  4 * SIZE(AO)

  675. 	LD	b4,  5 * SIZE(AO)

  676. 

  677. 	SUB	t13, b3, t13

  678. 	SUB	t23, b4, t23

  679. 

  680. 	LD	b7,  6 * SIZE(AO)

  681. 	LD	b8,  7 * SIZE(AO)

  682. 

  683. 	SUB	t14, b7, t14

  684. 	SUB	t24, b8, t24

  685. 

  686. 

  687. 

  688. 	LD	b1,  0 * SIZE(BO)				#	BO point to the beginning of the trigular data part of Bj

  689. 	LD	b2,  1 * SIZE(BO)

  690. 	LD	b3,  2 * SIZE(BO)

  691. 	LD	b4,  3 * SIZE(BO)

  692. 	MUL	t11, b1, t11

  693. 	MUL	t21, b1, t21

  694. 	NMSUB	t12, t12, b2, t11

  695. 	NMSUB	t22, t22, b2, t21

  696. 	NMSUB	t13, t13, b3, t11

  697. 	NMSUB	t23, t23, b3, t21

  698. 	NMSUB	t14, t14, b4, t11

  699. 	NMSUB	t24, t24, b4, t21

  700. 

  701. 

  702. 	LD	b5,  5 * SIZE(BO)

  703. 	LD	b6,  6 * SIZE(BO)

  704. 	LD	b7,  7 * SIZE(BO)

  705. 	MUL	t12, b5, t12

  706. 	MUL	t22, b5, t22

  707. 	NMSUB	t13, t13, b6, t12

  708. 	NMSUB	t23, t23, b6, t22

  709. 	NMSUB	t14, t14, b7, t12

  710. 	NMSUB	t24, t24, b7, t22

  711. 

  712. 

  713. 

  714. 	LD	b8,  10 * SIZE(BO)

  715. 	LD	b1,  11 * SIZE(BO)

  716. 	MUL	t13, b8, t13

  717. 	MUL	t23, b8, t23

  718. 	NMSUB	t14, t14, b1, t13

  719. 	NMSUB	t24, t24, b1, t23

  720. 

  721. 

  722. 

  723. 	LD	b2,  15 * SIZE(BO)

  724. 	MUL	t14, b2, t14

  725. 	MUL	t24, b2, t24

  726. 

  727. 

  728. 

  729. 	ST	t11,  0 * SIZE(AO)				#	update packed blockA for follow-up compute

  730. 	ST	t21,  1 * SIZE(AO)

  731. 

  732. 	ST	t12,  2 * SIZE(AO)

  733. 	ST	t22,  3 * SIZE(AO)

  734. 

  735. 	ST	t13,  4 * SIZE(AO)

  736. 	ST	t23,  5 * SIZE(AO)

  737. 

  738. 	ST	t14,  6 * SIZE(AO)

  739. 	ST	t24,  7 * SIZE(AO)

  740. 

  741. 

  742. 	ST	t11,  0 * SIZE(CO1)				#	write back results

  743. 	ST	t21,  1 * SIZE(CO1)

  744. 

  745. 	ST	t12,  0 * SIZE(CO2)

  746. 	ST	t22,  1 * SIZE(CO2)

  747. 

  748. 	ST	t13,  0 * SIZE(CO3)

  749. 	ST	t23,  1 * SIZE(CO3)

  750. 

  751. 	ST	t14,  0 * SIZE(CO4)

  752. 	ST	t24,  1 * SIZE(CO4)

  753. 

  754. 	daddiu	CO1, CO1, 2 * SIZE			#	fixed address

  755. 	daddiu	CO2, CO2, 2 * SIZE			#	mr=2

  756. 	daddiu	CO3, CO3, 2 * SIZE

  757. 	daddiu	CO4, CO4, 2 * SIZE

  758. 

  759. 

  760. 	dsubu	TEMP, K, KK					#	temp = kc - retangular data length of every panel

  761. 	dsll	L,    TEMP, 1 + BASE_SHIFT	#	mr=2

  762. 	dsll	TEMP, TEMP, 2 + BASE_SHIFT

  763. 	daddu	AO, AO, L					#	move AO to the end of this panel. also the beginning of next panel

  764. 	daddu	BO, BO, TEMP				#	move BO to the end of this panel

  765. 

  766. 	.align 3

  767. .L50:

  768. 	andi	I,  M, 1					#	mr=1

  769. 	blez	I, .L29

  770. 	nop

  771. 

  772. 	MTC	$0,  t11							#	clear results registers

  773. 	MOV	t21, t11

  774. 	MOV	t31, t11

  775. 	MOV	t41, t11

  776. 

  777. 	MOV	t12, t11

  778. 	MOV	t22, t11

  779. 	MOV	t32, t11

  780. 	MOV	t42, t11

  781. 

  782. 	MOV	t13, t11

  783. 	MOV	t23, t11

  784. 	MOV	t33, t11

  785. 	MOV	t43, t11

  786. 

  787. 	MOV	t14, t11

  788. 	MOV	t24, t11

  789. 	MOV	t34, t11

  790. 	MOV	t44, t11

  791. 

  792. 	LD	a1,  0 * SIZE(AO)					#	AO point to the beginning address of sa

  793. 

  794. 	LD	b1,  0 * SIZE(B)					#	B point to the beginning address of every panel Bj

  795. 	LD	b2,  1 * SIZE(B)					#	get 4 b

  796. 	LD	b3,  2 * SIZE(B)

  797. 	LD	b4,  3 * SIZE(B)

  798. 

  799. 	dsra	L,  KK, 2						#	L=KK/4, KK is the length of the retangular data part of Bj

  800. 	blez	L, .L55

  801. 	move	BO,  B							#	reset B

  802. 

  803. .L52:

  804. 	LD	a5,  1 * SIZE(AO)

  805. 

  806. 	LD	b5,  4 * SIZE(BO)

  807. 	LD	b6,  5 * SIZE(BO)

  808. 	LD	b7,  6 * SIZE(BO)

  809. 	LD	b8,  7 * SIZE(BO)

  810. 

  811. 	MADD	t11, t11, a1, b1

  812. 	MADD	t12, t12, a1, b2

  813. 	MADD	t13, t13, a1, b3

  814. 	MADD	t14, t14, a1, b4

  815. 

  816. 	LD	a3,  2 * SIZE(AO)

  817. 

  818. 	LD	b1,  8 * SIZE(BO)

  819. 	LD	b2,  9 * SIZE(BO)

  820. 	LD	b3,  10 * SIZE(BO)

  821. 	LD	b4,  11 * SIZE(BO)

  822. 

  823. 	MADD	t11, t11, a5, b5

  824. 	MADD	t12, t12, a5, b6

  825. 	MADD	t13, t13, a5, b7

  826. 	MADD	t14, t14, a5, b8

  827. 

  828. 	LD	a7,  3 * SIZE(AO)

  829. 

  830. 	LD	b5,  12 * SIZE(BO)

  831. 	LD	b6,  13 * SIZE(BO)

  832. 	LD	b7,  14 * SIZE(BO)

  833. 	LD	b8,  15 * SIZE(BO)

  834. 

  835. 	MADD	t11, t11, a3, b1

  836. 	MADD	t12, t12, a3, b2

  837. 	MADD	t13, t13, a3, b3

  838. 	MADD	t14, t14, a3, b4

  839. 

  840. 	daddiu	AO, AO, 4 * SIZE			#	AO += 1mr*4kr

  841. 	daddiu	BO, BO, 16 * SIZE			#	BP += 4nr*4kr

  842. 

  843. 	LD	a1,  0 * SIZE(AO)

  844. 

  845. 	LD	b1,  0 * SIZE(BO)

  846. 	LD	b2,  1 * SIZE(BO)

  847. 	LD	b3,  2 * SIZE(BO)

  848. 	LD	b4,  3 * SIZE(BO)

  849. 

  850. 	MADD	t11, t11, a7, b5

  851. 	MADD	t12, t12, a7, b6

  852. 	MADD	t13, t13, a7, b7

  853. 	MADD	t14, t14, a7, b8

  854. 

  855. 	daddiu	L, L, -1

  856. 	bgtz	L, .L52

  857. 	NOP

  858. 

  859. 

  860. .L55:

  861. 	andi	L, KK, 3					#	deal with kc remainder part

  862. 	blez	L, .L58

  863. 	NOP

  864. 

  865. 	.align	3

  866. .L56:

  867. 	MADD	t11, t11, a1, b1

  868. 	MADD	t12, t12, a1, b2

  869. 	MADD	t13, t13, a1, b3

  870. 	MADD	t14, t14, a1, b4

  871. 

  872. 	daddiu	AO, AO, 1 * SIZE			#	AO += 1mr

  873. 	daddiu	BO, BO, 4 * SIZE			#	BP += 4nr

  874. 

  875. 	LD	a1,  0 * SIZE(AO)

  876. 

  877. 	LD	b1,  0 * SIZE(BO)

  878. 	LD	b2,  1 * SIZE(BO)

  879. 	LD	b3,  2 * SIZE(BO)

  880. 	LD	b4,  3 * SIZE(BO)

  881. 

  882. 	daddiu	L, L, -1

  883. 	bgtz	L, .L56

  884. 	NOP

  885. 

  886. 

  887. 	.align 3

  888. .L58:									#	.L18 always deal with the trigular data part

  889.  	LD	b1,  0 * SIZE(AO)				#	for RN & RT A is the result matrix

  890.  	LD	b5,  1 * SIZE(AO)

  891. 	LD	b3,  2 * SIZE(AO)

  892. 	LD	b7,  3 * SIZE(AO)

  893. 

  894. 	SUB	t11, b1, t11

  895. 	SUB	t12, b5, t12

  896. 	SUB	t13, b3, t13

  897. 	SUB	t14, b7, t14

  898. 

  899. 

  900. 

  901. 	LD	b1,  0 * SIZE(BO)				#	BO point to the beginning of the trigular data part of Bj

  902. 	LD	b2,  1 * SIZE(BO)

  903. 	LD	b3,  2 * SIZE(BO)

  904. 	LD	b4,  3 * SIZE(BO)

  905. 	MUL	t11, b1, t11

  906. 	NMSUB	t12, t12, b2, t11

  907. 	NMSUB	t13, t13, b3, t11

  908. 	NMSUB	t14, t14, b4, t11

  909. 

  910. 

  911. 	LD	b5,  5 * SIZE(BO)

  912. 	LD	b6,  6 * SIZE(BO)

  913. 	LD	b7,  7 * SIZE(BO)

  914. 	MUL	t12, b5, t12

  915. 	NMSUB	t13, t13, b6, t12

  916. 	NMSUB	t14, t14, b7, t12

  917. 

  918. 

  919. 	LD	b8,  10 * SIZE(BO)

  920. 	LD	b1,  11 * SIZE(BO)

  921. 	MUL	t13, b8, t13

  922. 	NMSUB	t14, t14, b1, t13

  923. 

  924. 

  925. 	LD	b2,  15 * SIZE(BO)

  926. 	MUL	t14, b2, t14

  927. 

  928. 

  929. 

  930. 	ST	t11,  0 * SIZE(AO)				#	update packed blockA for follow-up compute

  931. 	ST	t12,  1 * SIZE(AO)

  932. 	ST	t13,  2 * SIZE(AO)

  933. 	ST	t14,  3 * SIZE(AO)

  934. 

  935. 

  936. 	ST	t11,  0 * SIZE(CO1)				#	write back results

  937. 	ST	t12,  0 * SIZE(CO2)

  938. 	ST	t13,  0 * SIZE(CO3)

  939. 	ST	t14,  0 * SIZE(CO4)

  940. 

  941. 	daddiu	CO1, CO1, 1 * SIZE			#	fixed address

  942. 	daddiu	CO2, CO2, 1 * SIZE			#	mr=2

  943. 	daddiu	CO3, CO3, 1 * SIZE

  944. 	daddiu	CO4, CO4, 1 * SIZE

  945. 

  946. 

  947. 	dsubu	TEMP, K, KK					#	temp = kc - retangular data length of every panel

  948. 	dsll	L,    TEMP, BASE_SHIFT	#	mr=2

  949. 	dsll	TEMP, TEMP, 2 + BASE_SHIFT

  950. 	daddu	AO, AO, L					#	move AO to the end of this panel. also the beginning of next panel

  951. 	daddu	BO, BO, TEMP				#	move BO to the end of this panel

  952. 

  953. 

  954. 	.align 3

  955. .L29:

  956. 	move	B,  BO						#	change to next panel of Bj

  957. 	daddiu	KK, KK,  4					#	rectangular data length increase by 4

  958. 	bgtz	J, .L10

  959. 	NOP

  960. 

  961. 

  962. 	.align 3

  963. 

  964. .L30:

  965. 	andi	J,  N, 2

  966. 	blez	J, .L70

  967. 	nop

  968. 

  969. 	move	CO1, C

  970. 	daddu	CO2, C,   LDC

  971. 

  972. 	move	AO, A							#	A is the retangular matrix and B is the trigular matrix

  973. 	daddu	C,  CO2, LDC					#	Fixed pointer C

  974. 

  975. 	dsra	I,  M, 2						#	I=MC/4

  976. 	blez	I, .L40

  977. 	NOP

  978. 

  979. 	.align 3

  980. .L31:

  981. 	MTC	$0,  t11							#	clear results registers

  982. 	MOV	t21, t11

  983. 	MOV	t31, t11

  984. 	MOV	t41, t11

  985. 

  986. 	MOV	t12, t11

  987. 	MOV	t22, t11

  988. 	MOV	t32, t11

  989. 	MOV	t42, t11

  990. 

  991. 	LD	a1,  0 * SIZE(AO)					#	AO point to the beginning address of sa

  992. 	LD	a2,  1 * SIZE(AO)					#	get 4 a

  993. 	LD	a3,  2 * SIZE(AO)

  994. 	LD	a4,  3 * SIZE(AO)

  995. 

  996. 	LD	b1,  0 * SIZE(B)					#	B point to the beginning address of every panel Bj

  997. 	LD	b2,  1 * SIZE(B)					#	get 4 b

  998. 

  999. 	dsra	L,  KK, 2						#	L=KK/4, KK is the length of the retangular data part of Bj

  1000. 	blez	L, .L35

  1001. 	move	BO,  B							#	reset B

  1002. 

  1003. .L32:

  1004. 	LD	a5,  4 * SIZE(AO)

  1005. 	LD	a6,  5 * SIZE(AO)

  1006. 	LD	a7,  6 * SIZE(AO)

  1007. 	LD	a8,  7 * SIZE(AO)

  1008. 

  1009. 	LD	b5,  2 * SIZE(BO)

  1010. 	LD	b6,  3 * SIZE(BO)

  1011. 

  1012. 	MADD	t11, t11, a1, b1

  1013. 	MADD	t21, t21, a2, b1

  1014. 	MADD	t31, t31, a3, b1

  1015. 	MADD	t41, t41, a4, b1

  1016. 

  1017. 	MADD	t12, t12, a1, b2

  1018. 	MADD	t22, t22, a2, b2

  1019. 	MADD	t32, t32, a3, b2

  1020. 	MADD	t42, t42, a4, b2

  1021. 

  1022. 	LD	a1,  8 * SIZE(AO)

  1023. 	LD	a2,  9 * SIZE(AO)

  1024. 	LD	a3,  10 * SIZE(AO)

  1025. 	LD	a4,  11 * SIZE(AO)

  1026. 

  1027. 	LD	b3,  4 * SIZE(BO)

  1028. 	LD	b4,  5 * SIZE(BO)

  1029. 

  1030. 	MADD	t11, t11, a5, b5

  1031. 	MADD	t21, t21, a6, b5

  1032. 	MADD	t31, t31, a7, b5

  1033. 	MADD	t41, t41, a8, b5

  1034. 

  1035. 	MADD	t12, t12, a5, b6

  1036. 	MADD	t22, t22, a6, b6

  1037. 	MADD	t32, t32, a7, b6

  1038. 	MADD	t42, t42, a8, b6

  1039. 

  1040. 	LD	a5,  12 * SIZE(AO)

  1041. 	LD	a6,  13 * SIZE(AO)

  1042. 	LD	a7,  14 * SIZE(AO)

  1043. 	LD	a8,  15 * SIZE(AO)

  1044. 

  1045. 	LD	b7,  6 * SIZE(BO)

  1046. 	LD	b8,  7 * SIZE(BO)

  1047. 

  1048. 	MADD	t11, t11, a1, b3

  1049. 	MADD	t21, t21, a2, b3

  1050. 	MADD	t31, t31, a3, b3

  1051. 	MADD	t41, t41, a4, b3

  1052. 

  1053. 	MADD	t12, t12, a1, b4

  1054. 	MADD	t22, t22, a2, b4

  1055. 	MADD	t32, t32, a3, b4

  1056. 	MADD	t42, t42, a4, b4

  1057. 

  1058. 	daddiu	AO, AO, 16 * SIZE			#	AO += 4mr*4kr

  1059. 	daddiu	BO, BO,  8 * SIZE			#	BP += 2nr*4kr

  1060. 

  1061. 	LD	a1,  0 * SIZE(AO)

  1062. 	LD	a2,  1 * SIZE(AO)

  1063. 	LD	a3,  2 * SIZE(AO)

  1064. 	LD	a4,  3 * SIZE(AO)

  1065. 

  1066. 	LD	b1,  0 * SIZE(BO)

  1067. 	LD	b2,  1 * SIZE(BO)

  1068. 

  1069. 	MADD	t11, t11, a5, b7

  1070. 	MADD	t21, t21, a6, b7

  1071. 	MADD	t31, t31, a7, b7

  1072. 	MADD	t41, t41, a8, b7

  1073. 

  1074. 	MADD	t12, t12, a5, b8

  1075. 	MADD	t22, t22, a6, b8

  1076. 	MADD	t32, t32, a7, b8

  1077. 	MADD	t42, t42, a8, b8

  1078. 

  1079. 	daddiu	L, L, -1

  1080. 	bgtz	L, .L32

  1081. 	NOP

  1082. 

  1083. 

  1084. .L35:

  1085. 	andi	L, KK, 3					#	deal with kc remainder part

  1086. 	blez	L, .L38

  1087. 	NOP

  1088. 

  1089. 	.align	3

  1090. .L36:

  1091. 	MADD	t11, t11, a1, b1

  1092. 	MADD	t21, t21, a2, b1

  1093. 	MADD	t31, t31, a3, b1

  1094. 	MADD	t41, t41, a4, b1

  1095. 

  1096. 	MADD	t12, t12, a1, b2

  1097. 	MADD	t22, t22, a2, b2

  1098. 	MADD	t32, t32, a3, b2

  1099. 	MADD	t42, t42, a4, b2

  1100. 

  1101. 	daddiu	AO, AO, 4 * SIZE			#	AO += 4mr

  1102. 	daddiu	BO, BO, 2 * SIZE			#	BP += 2nr

  1103. 

  1104. 	LD	a1,  0 * SIZE(AO)

  1105. 	LD	a2,  1 * SIZE(AO)

  1106. 	LD	a3,  2 * SIZE(AO)

  1107. 	LD	a4,  3 * SIZE(AO)

  1108. 

  1109. 	LD	b1,  0 * SIZE(BO)

  1110. 	LD	b2,  1 * SIZE(BO)

  1111. 

  1112. 	daddiu	L, L, -1

  1113. 	bgtz	L, .L36

  1114. 	NOP

  1115. 

  1116. 

  1117. 	.align 3

  1118. .L38:									#	.L38 always deal with the trigular data part

  1119.  	LD	b1,  0 * SIZE(AO)				#	for RN & RT A is the result matrix

  1120. 	LD	b2,  1 * SIZE(AO)				#	Fixed results

  1121. 	LD	b3,  2 * SIZE(AO)

  1122. 	LD	b4,  3 * SIZE(AO)				#	sa stored as col major

  1123. 

  1124. 	SUB	t11, b1, t11

  1125. 	SUB	t21, b2, t21

  1126. 	SUB	t31, b3, t31

  1127. 	SUB	t41, b4, t41

  1128. 

  1129.  	LD	b5,  4 * SIZE(AO)

  1130. 	LD	b6,  5 * SIZE(AO)

  1131. 	LD	b7,  6 * SIZE(AO)

  1132. 	LD	b8,  7 * SIZE(AO)

  1133. 

  1134. 	SUB	t12, b5, t12

  1135. 	SUB	t22, b6, t22

  1136. 	SUB	t32, b7, t32

  1137. 	SUB	t42, b8, t42

  1138. 

  1139. 

  1140. 	LD	b1,  0 * SIZE(BO)				#	BO point to the beginning of the trigular data part of Bj

  1141. 	LD	b2,  1 * SIZE(BO)

  1142. 	MUL	t11, b1, t11

  1143. 	MUL	t21, b1, t21

  1144. 	MUL	t31, b1, t31

  1145. 	MUL	t41, b1, t41

  1146. 	NMSUB	t12, t12, b2, t11

  1147. 	NMSUB	t22, t22, b2, t21

  1148. 	NMSUB	t32, t32, b2, t31

  1149. 	NMSUB	t42, t42, b2, t41

  1150. 

  1151. 	LD	b5,  3 * SIZE(BO)

  1152. 	MUL	t12, b5, t12

  1153. 	MUL	t22, b5, t22

  1154. 	MUL	t32, b5, t32

  1155. 	MUL	t42, b5, t42

  1156. 

  1157. 

  1158. 	ST	t11,  0 * SIZE(AO)				#	update packed blockA for follow-up compute

  1159. 	ST	t21,  1 * SIZE(AO)

  1160. 	ST	t31,  2 * SIZE(AO)

  1161. 	ST	t41,  3 * SIZE(AO)

  1162. 

  1163. 	ST	t12,  4 * SIZE(AO)

  1164. 	ST	t22,  5 * SIZE(AO)

  1165. 	ST	t32,  6 * SIZE(AO)

  1166. 	ST	t42,  7 * SIZE(AO)

  1167. 

  1168. 	ST	t11,  0 * SIZE(CO1)				#	write back results

  1169. 	ST	t21,  1 * SIZE(CO1)

  1170. 	ST	t31,  2 * SIZE(CO1)

  1171. 	ST	t41,  3 * SIZE(CO1)

  1172. 

  1173. 	ST	t12,  0 * SIZE(CO2)

  1174. 	ST	t22,  1 * SIZE(CO2)

  1175. 	ST	t32,  2 * SIZE(CO2)

  1176. 	ST	t42,  3 * SIZE(CO2)

  1177. 

  1178. 	daddiu	CO1, CO1, 4 * SIZE			#	fixed address

  1179. 	daddiu	CO2, CO2, 4 * SIZE

  1180. 

  1181. 	dsubu	TEMP, K, KK					#	temp = kc - retangular data length of every panel

  1182. 	dsll	L,    TEMP, 2 + BASE_SHIFT

  1183. 	dsll	TEMP, TEMP, 1 + BASE_SHIFT	#	nr=2

  1184. 	daddu	AO, AO, L					#	move AO to the end of this panel. also the beginning of next panel

  1185. 	daddu	BO, BO, TEMP				#	move BO to the end of this panel

  1186. 

  1187. 	daddiu	I, I, -1

  1188. 	bgtz	I, .L31

  1189. 	NOP

  1190. 

  1191. 	.align 3

  1192. .L40:

  1193. 	andi	I, M,2

  1194. 	blez	I,.L60

  1195. 	nop

  1196. 

  1197. 	MTC	$0,  t11							#	clear results registers

  1198. 	MOV	t21, t11

  1199. 

  1200. 	MOV	t12, t11

  1201. 	MOV	t22, t11

  1202. 

  1203. 	LD	a1,  0 * SIZE(AO)					#	AO point to the beginning address of sa

  1204. 	LD	a2,  1 * SIZE(AO)					#	get 4 a

  1205. 

  1206. 	LD	b1,  0 * SIZE(B)					#	B point to the beginning address of every panel Bj

  1207. 	LD	b2,  1 * SIZE(B)					#	get 4 b

  1208. 

  1209. 	dsra	L,  KK, 2						#	L=KK/4, KK is the length of the retangular data part of Bj

  1210. 	blez	L, .L45

  1211. 	move	BO,  B							#	reset B

  1212. 

  1213. .L42:

  1214. 	LD	a5,  2 * SIZE(AO)

  1215. 	LD	a6,  3 * SIZE(AO)

  1216. 	LD	b5,  2 * SIZE(BO)

  1217. 	LD	b6,  3 * SIZE(BO)

  1218. 

  1219. 	MADD	t11, t11, a1, b1

  1220. 	MADD	t21, t21, a2, b1

  1221. 	MADD	t12, t12, a1, b2

  1222. 	MADD	t22, t22, a2, b2

  1223. 

  1224. 	LD	a3,  4 * SIZE(AO)

  1225. 	LD	a4,  5 * SIZE(AO)

  1226. 	LD	b3,  4 * SIZE(BO)

  1227. 	LD	b4,  5 * SIZE(BO)

  1228. 

  1229. 	MADD	t11, t11, a5, b5

  1230. 	MADD	t21, t21, a6, b5

  1231. 	MADD	t12, t12, a5, b6

  1232. 	MADD	t22, t22, a6, b6

  1233. 

  1234. 	LD	a7,  6 * SIZE(AO)

  1235. 	LD	a8,  7 * SIZE(AO)

  1236. 	LD	b7,  6 * SIZE(BO)

  1237. 	LD	b8,  7 * SIZE(BO)

  1238. 

  1239. 	MADD	t11, t11, a3, b3

  1240. 	MADD	t21, t21, a4, b3

  1241. 	MADD	t12, t12, a3, b4

  1242. 	MADD	t22, t22, a4, b4

  1243. 

  1244. 	daddiu	AO, AO,  8 * SIZE			#	AO += 2mr*4kr

  1245. 	daddiu	BO, BO,  8 * SIZE			#	BP += 2nr*4kr

  1246. 

  1247. 	LD	a1,  0 * SIZE(AO)

  1248. 	LD	a2,  1 * SIZE(AO)

  1249. 	LD	b1,  0 * SIZE(BO)

  1250. 	LD	b2,  1 * SIZE(BO)

  1251. 

  1252. 	MADD	t11, t11, a7, b7

  1253. 	MADD	t21, t21, a8, b7

  1254. 	MADD	t12, t12, a7, b8

  1255. 	MADD	t22, t22, a8, b8

  1256. 

  1257. 	daddiu	L, L, -1

  1258. 	bgtz	L, .L42

  1259. 	NOP

  1260. 

  1261. 

  1262. .L45:

  1263. 	andi	L, KK, 3					#	deal with kc remainder part

  1264. 	blez	L, .L48

  1265. 	NOP

  1266. 

  1267. 	.align	3

  1268. .L46:

  1269. 	MADD	t11, t11, a1, b1

  1270. 	MADD	t21, t21, a2, b1

  1271. 	MADD	t12, t12, a1, b2

  1272. 	MADD	t22, t22, a2, b2

  1273. 

  1274. 	daddiu	AO, AO, 2 * SIZE			#	AO += 2mr

  1275. 	daddiu	BO, BO, 2 * SIZE			#	BP += 2nr

  1276. 

  1277. 	LD	a1,  0 * SIZE(AO)

  1278. 	LD	a2,  1 * SIZE(AO)

  1279. 	LD	b1,  0 * SIZE(BO)

  1280. 	LD	b2,  1 * SIZE(BO)

  1281. 

  1282. 	daddiu	L, L, -1

  1283. 	bgtz	L, .L46

  1284. 	NOP

  1285. 

  1286. 

  1287. 	.align 3

  1288. .L48:									#	.L48 always deal with the trigular data part

  1289.  	LD	b1,  0 * SIZE(AO)				#	for RN & RT A is the result matrix

  1290. 	LD	b2,  1 * SIZE(AO)				#	Fixed results

  1291. 

  1292. 	SUB	t11, b1, t11

  1293. 	SUB	t21, b2, t21

  1294. 

  1295.  	LD	b5,  2 * SIZE(AO)

  1296. 	LD	b6,  3 * SIZE(AO)

  1297. 

  1298. 	SUB	t12, b5, t12

  1299. 	SUB	t22, b6, t22

  1300. 

  1301. 

  1302. 	LD	b1,  0 * SIZE(BO)				#	BO point to the beginning of the trigular data part of Bj

  1303. 	LD	b2,  1 * SIZE(BO)

  1304. 	MUL	t11, b1, t11

  1305. 	MUL	t21, b1, t21

  1306. 	NMSUB	t12, t12, b2, t11

  1307. 	NMSUB	t22, t22, b2, t21

  1308. 

  1309. 	LD	b5,  3 * SIZE(BO)

  1310. 	MUL	t12, b5, t12

  1311. 	MUL	t22, b5, t22

  1312. 

  1313. 

  1314. 	ST	t11,  0 * SIZE(AO)				#	update packed blockA for follow-up compute

  1315. 	ST	t21,  1 * SIZE(AO)

  1316. 	ST	t12,  2 * SIZE(AO)

  1317. 	ST	t22,  3 * SIZE(AO)

  1318. 

  1319. 	ST	t11,  0 * SIZE(CO1)				#	write back results

  1320. 	ST	t21,  1 * SIZE(CO1)

  1321. 	ST	t12,  0 * SIZE(CO2)

  1322. 	ST	t22,  1 * SIZE(CO2)

  1323. 

  1324. 	daddiu	CO1, CO1, 2 * SIZE			#	fixed address

  1325. 	daddiu	CO2, CO2, 2 * SIZE

  1326. 

  1327. 	dsubu	TEMP, K, KK					#	temp = kc - retangular data length of every panel

  1328. 	dsll	L,    TEMP, 1 + BASE_SHIFT

  1329. 	dsll	TEMP, TEMP, 1 + BASE_SHIFT	#	nr=2

  1330. 	daddu	AO, AO, L					#	move AO to the end of this panel. also the beginning of next panel

  1331. 	daddu	BO, BO, TEMP				#	move BO to the end of this panel

  1332. 

  1333. 

  1334. 	.align 3

  1335. .L60:

  1336. 	andi	I,M,1						#	nr=2 mr=1

  1337. 	blez	I,.L39

  1338. 	nop

  1339. 

  1340. 	MTC	$0,  t11							#	clear results registers

  1341. 	MOV	t12, t11

  1342. 

  1343. 	LD	a1,  0 * SIZE(AO)					#	AO point to the beginning address of sa

  1344. 

  1345. 	LD	b1,  0 * SIZE(B)					#	B point to the beginning address of every panel Bj

  1346. 	LD	b2,  1 * SIZE(B)					#	get 4 b

  1347. 

  1348. 	dsra	L,  KK, 2						#	L=KK/4, KK is the length of the retangular data part of Bj

  1349. 	blez	L, .L65

  1350. 	move	BO,  B							#	reset B

  1351. 

  1352. .L62:

  1353. 	LD	a5,  1 * SIZE(AO)

  1354. 	LD	b5,  2 * SIZE(BO)

  1355. 	LD	b6,  3 * SIZE(BO)

  1356. 

  1357. 	MADD	t11, t11, a1, b1

  1358. 	MADD	t12, t12, a1, b2

  1359. 

  1360. 	LD	a3,  2 * SIZE(AO)

  1361. 	LD	b3,  4 * SIZE(BO)

  1362. 	LD	b4,  5 * SIZE(BO)

  1363. 

  1364. 	MADD	t11, t11, a5, b5

  1365. 	MADD	t12, t12, a5, b6

  1366. 

  1367. 	LD	a7,  3 * SIZE(AO)

  1368. 	LD	b7,  6 * SIZE(BO)

  1369. 	LD	b8,  7 * SIZE(BO)

  1370. 

  1371. 	MADD	t11, t11, a3, b3

  1372. 	MADD	t12, t12, a3, b4

  1373. 

  1374. 	daddiu	AO, AO,  4 * SIZE			#	AO += 1mr*4kr

  1375. 	daddiu	BO, BO,  8 * SIZE			#	BP += 2nr*4kr

  1376. 

  1377. 	LD	a1,  0 * SIZE(AO)

  1378. 	LD	b1,  0 * SIZE(BO)

  1379. 	LD	b2,  1 * SIZE(BO)

  1380. 

  1381. 	MADD	t11, t11, a7, b7

  1382. 	MADD	t12, t12, a7, b8

  1383. 

  1384. 	daddiu	L, L, -1

  1385. 	bgtz	L, .L62

  1386. 	NOP

  1387. 

  1388. 

  1389. .L65:

  1390. 	andi	L, KK, 3					#	deal with kc remainder part

  1391. 	blez	L, .L68

  1392. 	NOP

  1393. 

  1394. 	.align	3

  1395. .L66:

  1396. 	MADD	t11, t11, a1, b1

  1397. 	MADD	t12, t12, a1, b2

  1398. 

  1399. 	daddiu	AO, AO, 1 * SIZE			#	AO += mr

  1400. 	daddiu	BO, BO, 2 * SIZE			#	BP += 2nr

  1401. 

  1402. 	LD	a1,  0 * SIZE(AO)

  1403. 	LD	b1,  0 * SIZE(BO)

  1404. 	LD	b2,  1 * SIZE(BO)

  1405. 

  1406. 	daddiu	L, L, -1

  1407. 	bgtz	L, .L66

  1408. 	NOP

  1409. 

  1410. 

  1411. 	.align 3

  1412. .L68:									#	.L48 always deal with the trigular data part

  1413.  	LD	b1,  0 * SIZE(AO)				#	for RN & RT A is the result matrix

  1414. 	LD	b5,  1 * SIZE(AO)				#	Fixed results

  1415. 

  1416. 	SUB	t11, b1, t11

  1417. 	SUB	t12, b5, t12

  1418. 

  1419. 

  1420. 	LD	b1,  0 * SIZE(BO)				#	BO point to the beginning of the trigular data part of Bj

  1421. 	LD	b2,  1 * SIZE(BO)

  1422. 	MUL	t11, b1, t11

  1423. 	NMSUB	t12, t12, b2, t11

  1424. 

  1425. 	LD	b5,  3 * SIZE(BO)

  1426. 	MUL	t12, b5, t12

  1427. 

  1428. 

  1429. 	ST	t11,  0 * SIZE(AO)				#	update packed blockA for follow-up compute

  1430. 	ST	t12,  1 * SIZE(AO)

  1431. 

  1432. 	ST	t11,  0 * SIZE(CO1)				#	write back results

  1433. 	ST	t12,  0 * SIZE(CO2)

  1434. 

  1435. 	daddiu	CO1, CO1, 1 * SIZE			#	fixed address

  1436. 	daddiu	CO2, CO2, 1 * SIZE

  1437. 

  1438. 	dsubu	TEMP, K, KK					#	temp = kc - retangular data length of every panel

  1439. 	dsll	L,    TEMP, BASE_SHIFT		#	mr=1

  1440. 	dsll	TEMP, TEMP, 1 + BASE_SHIFT	#	nr=2

  1441. 	daddu	AO, AO, L					#	move AO to the end of this panel. also the beginning of next panel

  1442. 	daddu	BO, BO, TEMP				#	move BO to the end of this panel

  1443. 

  1444. 

  1445. 	.align 3

  1446. .L39:

  1447. 	move	B,  BO						#	change to next panel of Bj

  1448. 	daddiu	KK, KK,  2					#	rectangular data length increase by 4

  1449. 

  1450. 

  1451. 

  1452. 	.align 3

  1453. 

  1454. .L70:

  1455. 	andi	J,  N, 1					#	nr=1

  1456. 	blez	J, .L999

  1457. 	NOP

  1458. 

  1459. 	move	CO1, C

  1460. 	move	AO, A

  1461. 

  1462. 	daddu	C,  CO1, LDC

  1463. 

  1464. 	dsra	I,  M, 2					#	I=MC/4

  1465. 	blez	I, .L80

  1466. 	NOP

  1467. 

  1468. 	.align 3

  1469. .L71:

  1470. 	MTC	$0,  t11							#	clear results registers

  1471. 	MOV	t21, t11

  1472. 	MOV	t31, t11

  1473. 	MOV	t41, t11

  1474. 

  1475. 	LD	a1,  0 * SIZE(AO)					#	AO point to the beginning address of sa

  1476. 	LD	a2,  1 * SIZE(AO)					#	get 4 a

  1477. 	LD	a3,  2 * SIZE(AO)

  1478. 	LD	a4,  3 * SIZE(AO)

  1479. 

  1480. 	LD	b1,  0 * SIZE(B)					#	B point to the beginning address of every panel Bj

  1481. 

  1482. 	dsra	L,  KK, 2						#	L=KK/4, KK is the length of the retangular data part of Bj

  1483. 	blez	L, .L75

  1484. 	move	BO,  B							#	reset B

  1485. 

  1486. .L72:

  1487. 	LD	a5,  4 * SIZE(AO)

  1488. 	LD	a6,  5 * SIZE(AO)

  1489. 	LD	a7,  6 * SIZE(AO)

  1490. 	LD	a8,  7 * SIZE(AO)

  1491. 

  1492. 	LD	b5,  1 * SIZE(BO)

  1493. 

  1494. 	MADD	t11, t11, a1, b1

  1495. 	MADD	t21, t21, a2, b1

  1496. 	MADD	t31, t31, a3, b1

  1497. 	MADD	t41, t41, a4, b1

  1498. 

  1499. 	LD	a1,  8 * SIZE(AO)

  1500. 	LD	a2,  9 * SIZE(AO)

  1501. 	LD	a3,  10 * SIZE(AO)

  1502. 	LD	a4,  11 * SIZE(AO)

  1503. 

  1504. 	LD	b3,  2 * SIZE(BO)

  1505. 

  1506. 	MADD	t11, t11, a5, b5

  1507. 	MADD	t21, t21, a6, b5

  1508. 	MADD	t31, t31, a7, b5

  1509. 	MADD	t41, t41, a8, b5

  1510. 

  1511. 	LD	a5,  12 * SIZE(AO)

  1512. 	LD	a6,  13 * SIZE(AO)

  1513. 	LD	a7,  14 * SIZE(AO)

  1514. 	LD	a8,  15 * SIZE(AO)

  1515. 

  1516. 	LD	b7,  3 * SIZE(BO)

  1517. 

  1518. 	MADD	t11, t11, a1, b3

  1519. 	MADD	t21, t21, a2, b3

  1520. 	MADD	t31, t31, a3, b3

  1521. 	MADD	t41, t41, a4, b3

  1522. 

  1523. 	daddiu	AO, AO, 16 * SIZE			#	AO += 4mr*4kr

  1524. 	daddiu	BO, BO,  4 * SIZE			#	BP += 1nr*4kr

  1525. 

  1526. 	LD	a1,  0 * SIZE(AO)

  1527. 	LD	a2,  1 * SIZE(AO)

  1528. 	LD	a3,  2 * SIZE(AO)

  1529. 	LD	a4,  3 * SIZE(AO)

  1530. 

  1531. 	LD	b1,  0 * SIZE(BO)

  1532. 

  1533. 	MADD	t11, t11, a5, b7

  1534. 	MADD	t21, t21, a6, b7

  1535. 	MADD	t31, t31, a7, b7

  1536. 	MADD	t41, t41, a8, b7

  1537. 

  1538. 	daddiu	L, L, -1

  1539. 	bgtz	L, .L72

  1540. 	NOP

  1541. 

  1542. 

  1543. .L75:

  1544. 	andi	L, KK, 3					#	deal with kc remainder part

  1545. 	blez	L, .L78

  1546. 	NOP

  1547. 

  1548. 	.align	3

  1549. .L76:

  1550. 	MADD	t11, t11, a1, b1

  1551. 	MADD	t21, t21, a2, b1

  1552. 	MADD	t31, t31, a3, b1

  1553. 	MADD	t41, t41, a4, b1

  1554. 

  1555. 	daddiu	AO, AO, 4 * SIZE			#	AO += 4mr

  1556. 	daddiu	BO, BO, 1 * SIZE			#	BP += 1nr

  1557. 

  1558. 	LD	a1,  0 * SIZE(AO)

  1559. 	LD	a2,  1 * SIZE(AO)

  1560. 	LD	a3,  2 * SIZE(AO)

  1561. 	LD	a4,  3 * SIZE(AO)

  1562. 

  1563. 	LD	b1,  0 * SIZE(BO)

  1564. 

  1565. 	daddiu	L, L, -1

  1566. 	bgtz	L, .L76

  1567. 	NOP

  1568. 

  1569. 

  1570. 	.align 3

  1571. .L78:									#	.L78 always deal with the trigular data part

  1572.  	LD	b1,  0 * SIZE(AO)				#	for RN & RT A is the result matrix

  1573. 	LD	b2,  1 * SIZE(AO)				#	Fixed results

  1574. 	LD	b3,  2 * SIZE(AO)

  1575. 	LD	b4,  3 * SIZE(AO)				#	sa stored as col major

  1576. 

  1577. 	SUB	t11, b1, t11

  1578. 	SUB	t21, b2, t21

  1579. 	SUB	t31, b3, t31

  1580. 	SUB	t41, b4, t41

  1581. 

  1582. 

  1583. 	LD	b1,  0 * SIZE(BO)				#	BO point to the beginning of the trigular data part of Bj

  1584. 	MUL	t11, b1, t11

  1585. 	MUL	t21, b1, t21

  1586. 	MUL	t31, b1, t31

  1587. 	MUL	t41, b1, t41

  1588. 

  1589. 

  1590. 	ST	t11,  0 * SIZE(AO)				#	update packed blockA for follow-up compute

  1591. 	ST	t21,  1 * SIZE(AO)

  1592. 	ST	t31,  2 * SIZE(AO)

  1593. 	ST	t41,  3 * SIZE(AO)

  1594. 

  1595. 	ST	t11,  0 * SIZE(CO1)				#	write back results

  1596. 	ST	t21,  1 * SIZE(CO1)

  1597. 	ST	t31,  2 * SIZE(CO1)

  1598. 	ST	t41,  3 * SIZE(CO1)

  1599. 

  1600. 

  1601. 	daddiu	CO1, CO1, 4 * SIZE			#	fixed address

  1602. 

  1603. 	dsubu	TEMP, K, KK					#	temp = kc - retangular data length of every panel

  1604. 	dsll	L,    TEMP, 2 + BASE_SHIFT

  1605. 	dsll	TEMP, TEMP, BASE_SHIFT		#	nr=1

  1606. 	daddu	AO, AO, L					#	move AO to the end of this panel. also the beginning of next panel

  1607. 	daddu	BO, BO, TEMP				#	move BO to the end of this panel

  1608. 

  1609. 	daddiu	I, I, -1

  1610. 	bgtz	I, .L71

  1611. 	NOP

  1612. 

  1613. 

  1614. 	.align 3

  1615. .L80:

  1616. 	andi	I, M, 2						#	mr=2

  1617. 	blez	I, .L90

  1618. 	nop

  1619. 

  1620. 	MTC	$0,  t11							#	clear results registers

  1621. 	MOV	t21, t11

  1622. 

  1623. 	LD	a1,  0 * SIZE(AO)					#	AO point to the beginning address of sa

  1624. 	LD	a2,  1 * SIZE(AO)					#	get 4 a

  1625. 

  1626. 	LD	b1,  0 * SIZE(B)					#	B point to the beginning address of every panel Bj

  1627. 

  1628. 	dsra	L,  KK, 2						#	L=KK/4, KK is the length of the retangular data part of Bj

  1629. 	blez	L, .L85

  1630. 	move	BO,  B							#	reset B

  1631. 

  1632. .L82:

  1633. 	LD	a5,  2 * SIZE(AO)

  1634. 	LD	a6,  3 * SIZE(AO)

  1635. 

  1636. 	LD	b5,  1 * SIZE(BO)

  1637. 

  1638. 	MADD	t11, t11, a1, b1

  1639. 	MADD	t21, t21, a2, b1

  1640. 

  1641. 	LD	a3,  4 * SIZE(AO)

  1642. 	LD	a4,  5 * SIZE(AO)

  1643. 

  1644. 	LD	b3,  2 * SIZE(BO)

  1645. 

  1646. 	MADD	t11, t11, a5, b5

  1647. 	MADD	t21, t21, a6, b5

  1648. 

  1649. 	LD	a7,  6 * SIZE(AO)

  1650. 	LD	a8,  7 * SIZE(AO)

  1651. 

  1652. 	LD	b7,  3 * SIZE(BO)

  1653. 

  1654. 	MADD	t11, t11, a3, b3

  1655. 	MADD	t21, t21, a4, b3

  1656. 

  1657. 	daddiu	AO, AO,  8 * SIZE			#	AO += 2mr*4kr

  1658. 	daddiu	BO, BO,  4 * SIZE			#	BP += 1nr*4kr

  1659. 

  1660. 	LD	a1,  0 * SIZE(AO)

  1661. 	LD	a2,  1 * SIZE(AO)

  1662. 

  1663. 	LD	b1,  0 * SIZE(BO)

  1664. 

  1665. 	MADD	t11, t11, a7, b7

  1666. 	MADD	t21, t21, a8, b7

  1667. 

  1668. 	daddiu	L, L, -1

  1669. 	bgtz	L, .L82

  1670. 	NOP

  1671. 

  1672. 

  1673. .L85:

  1674. 	andi	L, KK, 3					#	deal with kc remainder part

  1675. 	blez	L, .L88

  1676. 	NOP

  1677. 

  1678. 	.align	3

  1679. .L86:

  1680. 	MADD	t11, t11, a1, b1

  1681. 	MADD	t21, t21, a2, b1

  1682. 

  1683. 	daddiu	AO, AO, 2 * SIZE			#	AO += 2mr

  1684. 	daddiu	BO, BO, 1 * SIZE			#	BP += 1nr

  1685. 

  1686. 	LD	a1,  0 * SIZE(AO)

  1687. 	LD	a2,  1 * SIZE(AO)

  1688. 

  1689. 	LD	b1,  0 * SIZE(BO)

  1690. 

  1691. 	daddiu	L, L, -1

  1692. 	bgtz	L, .L86

  1693. 	NOP

  1694. 

  1695. 

  1696. 	.align 3

  1697. .L88:									#	.L88 always deal with the trigular data part

  1698.  	LD	b1,  0 * SIZE(AO)				#	for RN & RT A is the result matrix

  1699. 	LD	b2,  1 * SIZE(AO)				#	Fixed results

  1700. 

  1701. 	SUB	t11, b1, t11

  1702. 	SUB	t21, b2, t21

  1703. 

  1704. 

  1705. 	LD	b1,  0 * SIZE(BO)				#	BO point to the beginning of the trigular data part of Bj

  1706. 	MUL	t11, b1, t11

  1707. 	MUL	t21, b1, t21

  1708. 

  1709. 

  1710. 	ST	t11,  0 * SIZE(AO)				#	update packed blockA for follow-up compute

  1711. 	ST	t21,  1 * SIZE(AO)

  1712. 

  1713. 	ST	t11,  0 * SIZE(CO1)				#	write back results

  1714. 	ST	t21,  1 * SIZE(CO1)

  1715. 

  1716. 

  1717. 	daddiu	CO1, CO1, 2 * SIZE			#	fixed address

  1718. 

  1719. 	dsubu	TEMP, K, KK					#	temp = kc - retangular data length of every panel

  1720. 	dsll	L,    TEMP, 1 + BASE_SHIFT

  1721. 	dsll	TEMP, TEMP, BASE_SHIFT		#	nr=1

  1722. 	daddu	AO, AO, L					#	move AO to the end of this panel. also the beginning of next panel

  1723. 	daddu	BO, BO, TEMP				#	move BO to the end of this panel

  1724. 

  1725. 

  1726. 	.align 3

  1727. .L90:

  1728. 	andi	I, M, 1						#	mr=1

  1729. 	blez	I, .L79

  1730. 	nop

  1731. 

  1732. 	MTC	$0,  t11							#	clear results registers

  1733. 

  1734. 	LD	a1,  0 * SIZE(AO)					#	AO point to the beginning address of sa

  1735. 	LD	b1,  0 * SIZE(B)					#	B point to the beginning address of every panel Bj

  1736. 

  1737. 	dsra	L,  KK, 2						#	L=KK/4, KK is the length of the retangular data part of Bj

  1738. 	blez	L, .L95

  1739. 	move	BO,  B							#	reset B

  1740. 

  1741. .L92:

  1742. 	LD	a5,  1 * SIZE(AO)

  1743. 	LD	b5,  1 * SIZE(BO)

  1744. 

  1745. 	MADD	t11, t11, a1, b1

  1746. 

  1747. 	LD	a3,  2 * SIZE(AO)

  1748. 	LD	b3,  2 * SIZE(BO)

  1749. 

  1750. 	MADD	t11, t11, a5, b5

  1751. 

  1752. 	LD	a7,  3 * SIZE(AO)

  1753. 	LD	b7,  3 * SIZE(BO)

  1754. 

  1755. 	MADD	t11, t11, a3, b3

  1756. 

  1757. 	daddiu	AO, AO,  4 * SIZE			#	AO += 1mr*4kr

  1758. 	daddiu	BO, BO,  4 * SIZE			#	BP += 1nr*4kr

  1759. 

  1760. 	LD	a1,  0 * SIZE(AO)

  1761. 	LD	b1,  0 * SIZE(BO)

  1762. 

  1763. 	MADD	t11, t11, a7, b7

  1764. 

  1765. 	daddiu	L, L, -1

  1766. 	bgtz	L, .L92

  1767. 	NOP

  1768. 

  1769. 

  1770. .L95:

  1771. 	andi	L, KK, 3					#	deal with kc remainder part

  1772. 	blez	L, .L98

  1773. 	NOP

  1774. 

  1775. 	.align	3

  1776. .L96:

  1777. 	MADD	t11, t11, a1, b1

  1778. 

  1779. 	daddiu	AO, AO, 1 * SIZE			#	AO += 2mr

  1780. 	daddiu	BO, BO, 1 * SIZE			#	BP += 1nr

  1781. 

  1782. 	LD	a1,  0 * SIZE(AO)

  1783. 	LD	b1,  0 * SIZE(BO)

  1784. 

  1785. 	daddiu	L, L, -1

  1786. 	bgtz	L, .L96

  1787. 	NOP

  1788. 

  1789. 

  1790. 	.align 3

  1791. .L98:									#	.L98 always deal with the trigular data part

  1792.  	LD	b1,  0 * SIZE(AO)				#	for RN & RT A is the result matrix

  1793. 

  1794. 	SUB	t11, b1, t11

  1795. 

  1796. 

  1797. 	LD	b1,  0 * SIZE(BO)				#	BO point to the beginning of the trigular data part of Bj

  1798. 	MUL	t11, b1, t11

  1799. 

  1800. 

  1801. 	ST	t11,  0 * SIZE(AO)				#	update packed blockA for follow-up compute

  1802. 

  1803. 	ST	t11,  0 * SIZE(CO1)				#	write back results

  1804. 

  1805. 

  1806. 	daddiu	CO1, CO1, 1 * SIZE			#	fixed address

  1807. 

  1808. 	dsubu	TEMP, K, KK					#	temp = kc - retangular data length of every panel

  1809. 	dsll	L,    TEMP, BASE_SHIFT

  1810. 	dsll	TEMP, TEMP, BASE_SHIFT		#	nr=1

  1811. 	daddu	AO, AO, L					#	move AO to the end of this panel. also the beginning of next panel

  1812. 	daddu	BO, BO, TEMP				#	move BO to the end of this panel

  1813. 

  1814. 

  1815. 	.align 3

  1816. .L79:

  1817. 	move	B,  BO

  1818. 	daddiu	KK, KK, 1

  1819. 

  1820. 

  1821. 	.align 3

  1822. 

  1823. 

  1824. .L999:

  1825. 	LDARG	$16,   0($sp)

  1826. 	LDARG	$17,   8($sp)

  1827. 	LDARG	$18,  16($sp)

  1828. 	LDARG	$19,  24($sp)

  1829. 	LDARG	$20,  32($sp)

  1830. 	LDARG	$21,  40($sp)

  1831. 	ldc1	$f24, 48($sp)

  1832. 	ldc1	$f25, 56($sp)

  1833. 	ldc1	$f26, 64($sp)

  1834. 	ldc1	$f27, 72($sp)

  1835. 	ldc1	$f28, 80($sp)

  1836. 

  1837. 	LDARG	$22,  88($sp)

  1838. 	LDARG	$23,  96($sp)

  1839. 	LDARG	$24, 104($sp)

  1840. 	LDARG	$25, 112($sp)

  1841. 

  1842. #ifndef __64BIT__

  1843. 	ldc1	$f20,112($sp)

  1844. 	ldc1	$f21,120($sp)

  1845. 	ldc1	$f22,128($sp)

  1846. 	ldc1	$f23,136($sp)

  1847. #endif

  1848. 

  1849. 	j	$31

  1850. 	daddiu	$sp, $sp, 144

  1851. 

  1852. 	EPILOGUE