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OpenBLAS/kernel/loongarch64/cgemv_n_4_lsx.S

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

  2. Copyright (c) 2024, The OpenBLAS Project

  3. All rights reserved.

  4. Redistribution and use in source and binary forms, with or without

  5. modification, are permitted provided that the following conditions are

  6. met:

  7. 1. Redistributions of source code must retain the above copyright

  8. notice, this list of conditions and the following disclaimer.

  9. 2. Redistributions in binary form must reproduce the above copyright

  10. notice, this list of conditions and the following disclaimer in

  11. the documentation and/or other materials provided with the

  12. distribution.

  13. 3. Neither the name of the OpenBLAS project nor the names of

  14. its contributors may be used to endorse or promote products

  15. derived from this software without specific prior written permission.

  16. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"

  17. AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE

  18. IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE

  19. ARE DISCLAIMED. IN NO EVENT SHALL THE OPENBLAS PROJECT OR CONTRIBUTORS BE

  20. LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL

  21. DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR

  22. SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER

  23. CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,

  24. OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE

  25. USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

  26. *******************************************************************************/

  27. #define ASSEMBLER

  28. 

  29. #include "common.h"

  30. #include "loongarch64_asm.S"

  31. 

  32. /* int CNAME(BLASLONG m, BLASLONG n, BLASLONG dummy1, FLOAT alpha_r, FLOAT alpha_i,

  33.  * FLOAT *a, BLASLONG lda, FLOAT *x, BLASLONG inc_x, FLOAT *y, BLASLONG inc_y, FLOAT *buffer)

  34.  */

  35. #define M       $r4

  36. #define N       $r5

  37. #define ALPHA_R $f0

  38. #define ALPHA_I $f1

  39. #define A       $r7

  40. #define LDA     $r8

  41. #define X       $r9

  42. #define INC_X   $r10

  43. #define Y       $r11

  44. #define INC_Y   $r6

  45. 

  46. #define J       $r12

  47. #define I       $r13

  48. #define K       $r14

  49. #define Y_ORG   $r15

  50. #define OFFSET  $r16

  51. #define K_LDA   $r17

  52. #define M8      $r18

  53. #define T0      $r19

  54. #define PA0     $r20

  55. #define PA1     $r23

  56. #define PA2     $r24

  57. #define PA3     $r25

  58. #define PA4     $r26

  59. #define PA5     $r27

  60. #define PA6     $r28

  61. #define PA7     $r29

  62. 

  63. #define VALPHA  $vr1

  64. #define X0      $vr2

  65. #define X1      $vr3

  66. #define X2      $vr4

  67. #define X3      $vr5

  68. #define X4      $vr6

  69. #define X5      $vr7

  70. #define X6      $vr8

  71. #define X7      $vr9

  72. #define Y0      $vr10

  73. #define Y1      $vr11

  74. #define A0      $vr12

  75. #define A1      $vr13

  76. #define A2      $vr14

  77. #define A3      $vr15

  78. #define A4      $vr16

  79. #define A5      $vr17

  80. #define A6      $vr18

  81. #define A7      $vr19

  82. #define A8      $vr20

  83. #define A9      $vr21

  84. #define A10     $vr22

  85. #define A11     $vr23

  86. #define A12     $vr24

  87. #define A13     $vr25

  88. #define A14     $vr26

  89. #define A15     $vr27

  90. #define TMP0    $vr28

  91. #define TMP1    $vr29

  92. #define TMP2    $vr30

  93. 

  94. #if !defined(CONJ)

  95. #if !defined(XCONJ)

  96. #define GXCONJ 0

  97. #define GCONJ  0

  98. #else

  99. #define GXCONJ 1

  100. #define GCONJ  0

  101. #endif

  102. #else

  103. #if !defined(XCONJ)

  104. #define GXCONJ 0

  105. #define GCONJ  1

  106. #else

  107. #define GXCONJ 1

  108. #define GCONJ  1

  109. #endif

  110. #endif

  111. 

  112. .macro CLOAD_X_4

  113.     GLDREPL v, d, X0, X, 0x00, X1, X, 0x08, X2, X, 0x10, X3, X, 0x18

  114.     GCOMPLEXMUL GXCONJ, \

  115.     vf, s, X0, VALPHA, X0, TMP0, TMP1, TMP2, \

  116.     X1, VALPHA, X1, TMP0, TMP1, TMP2, \

  117.     X2, VALPHA, X2, TMP0, TMP1, TMP2, \

  118.     X3, VALPHA, X3, TMP0, TMP1, TMP2

  119. .endm

  120. 

  121. .macro CLOAD_X_4_GAP

  122.     vldrepl.d   X0,     X,      0x00

  123.     PTR_ADD     T0,     X,      INC_X

  124.     vldrepl.d   X1,     T0,     0x00

  125.     PTR_ADD     T0,     T0,     INC_X

  126.     vldrepl.d   X2,     T0,     0x00

  127.     PTR_ADD     T0,     T0,     INC_X

  128.     vldrepl.d   X3,     T0,     0x00

  129. 

  130.     GCOMPLEXMUL GXCONJ, \

  131.     vf, s, X0, VALPHA, X0, TMP0, TMP1, TMP2, \

  132.     X1, VALPHA, X1, TMP0, TMP1, TMP2, \

  133.     X2, VALPHA, X2, TMP0, TMP1, TMP2, \

  134.     X3, VALPHA, X3, TMP0, TMP1, TMP2

  135. .endm

  136. 

  137. .macro CLOAD_X_1

  138.     GLDREPL v, d, X0, X, 0x00

  139.     GCOMPLEXMUL GXCONJ, \

  140.     vf, s, X0, VALPHA, X0, TMP0, TMP1, TMP2

  141. .endm

  142. 

  143. .macro CLOAD_Y_4

  144.     GLD v, , Y0, Y, 0, Y1, Y, 0x10

  145. .endm

  146. 

  147. .macro CLOAD_Y_4_GAP

  148.     fld.d   $f10,   Y,  0

  149.     fldx.d  $f13,   Y,  INC_Y

  150.     PTR_ALSL  T0,   INC_Y,  Y,  1

  151.     fld.d   $f11,   T0, 0

  152.     fldx.d  $f17,   T0, INC_Y

  153.     vpackev.d Y0, A1, Y0

  154.     vpackev.d Y1, A5, Y1

  155. .endm

  156. 

  157. .macro CLOAD_Y_1

  158.     fld.d  $f10,   Y,  0

  159. .endm

  160. 

  161. .macro CSTORE_Y_4

  162.     GST v, , Y0, Y, 0, Y1, Y, 0x10

  163. .endm

  164. 

  165. .macro CSTORE_Y_4_GAP

  166.     vstelm.d    Y0,     Y,      0,      0

  167.     PTR_ADD     T0,     Y,      INC_Y

  168.     vstelm.d    Y0,     T0,     0,      1

  169.     PTR_ADD     T0,     T0,     INC_Y

  170.     vstelm.d    Y1,     T0,     0,      0

  171.     PTR_ADD     T0,     T0,     INC_Y

  172.     vstelm.d    Y1,     T0,     0,      1

  173. .endm

  174. 

  175. .macro CSTORE_Y_1

  176.     fst.d   $f10,   Y,  0

  177. .endm

  178. 

  179. .macro CGEMV_N_4x4

  180.     GLD_INC v, , 0x10,        \

  181.     A0,  PA0, 0, A1,  PA0, 0, \

  182.     A2,  PA1, 0, A3,  PA1, 0, \

  183.     A4,  PA2, 0, A5,  PA2, 0, \

  184.     A6,  PA3, 0, A7,  PA3, 0

  185. 

  186.     GCOMPLEXMADD GXCONJ, GCONJ, \

  187.     vf, s, Y0, X0, A0,  Y0, TMP0, TMP1, TMP2, Y1, X0, A1,  Y1, TMP0, TMP1, TMP2, \

  188.     Y0, X1, A2,  Y0, TMP0, TMP1, TMP2, Y1, X1, A3,  Y1, TMP0, TMP1, TMP2, \

  189.     Y0, X2, A4,  Y0, TMP0, TMP1, TMP2, Y1, X2, A5,  Y1, TMP0, TMP1, TMP2, \

  190.     Y0, X3, A6,  Y0, TMP0, TMP1, TMP2, Y1, X3, A7,  Y1, TMP0, TMP1, TMP2

  191. .endm

  192. 

  193. .macro CGEMV_N_1x4

  194.     GLD_INC f, d, 0x08, $f12, PA0, 0, $f14, PA1, 0, $f16, PA2, 0, $f18, PA3, 0

  195.     GCOMPLEXMADD GXCONJ, GCONJ, \

  196.     vf, s, Y0, X0,  A0, Y0, TMP0, TMP1, TMP2, \

  197.     Y0, X1, A2,  Y0, TMP0, TMP1, TMP2, \

  198.     Y0, X2, A4,  Y0, TMP0, TMP1, TMP2, \

  199.     Y0, X3, A6,  Y0, TMP0, TMP1, TMP2

  200. .endm

  201. 

  202. .macro CGEMV_N_1x1

  203.     fld.d   $f12,    PA0,    0

  204.     PTR_ADDI PA0,   PA0,    0x08

  205.     GCOMPLEXMADD GXCONJ, GCONJ, \

  206.     vf, s, Y0, X0, A0, Y0, TMP0, TMP1, TMP2

  207. .endm

  208. 

  209. .macro CGEMV_N_LSX XW:req, X_4:req, X_1:req, Y_4:req, Y_1:req

  210.     PTR_SRLI  J,      N,      2

  211.     beqz      J,      .L_\XW\()_N_3

  212.     PTR_SLLI  K_LDA,  LDA,    2

  213.     PTR_SUB   K_LDA,  K_LDA,  M8

  214. .L_\XW\()_N_L4:

  215.     CLOAD_\X_4

  216.     xor     K,      K,      K

  217.     move    Y,      Y_ORG

  218.     PTR_SRLI  I,      M,       2

  219.     beqz      I,      .L_\XW\()_M_3

  220. .align 5

  221. .L_\XW\()_M_L4:

  222.     CLOAD_\Y_4

  223.     CGEMV_N_4x4

  224.     CSTORE_\Y_4

  225.     PTR_ADDI    I,      I,      -1

  226.     PTR_ALSL    Y,      INC_Y,  Y,  2

  227.     PTR_ADDI    K,      K,      4

  228.     bnez        I,      .L_\XW\()_M_L4

  229. .L_\XW\()_M_3:

  230.     andi        I,      M,      3

  231.     beqz        I,      .L_\XW\()_M_END

  232. .align 5

  233. .L_\XW\()_M_L1:

  234.     CLOAD_\Y_1

  235.     CGEMV_N_1x4

  236.     CSTORE_\Y_1

  237.     PTR_ADDI    I,      I,      -1

  238.     PTR_ADD     Y,      Y,      INC_Y

  239.     PTR_ADDI    K,      K,      1

  240.     bnez        I,      .L_\XW\()_M_L1

  241. .L_\XW\()_M_END:

  242.     PTR_ADDI    J,      J,      -1

  243. #if __loongarch_grlen == 64

  244.     GADD , d, PA0, PA0, K_LDA, PA1, PA1, K_LDA, PA2, PA2, K_LDA, PA3, PA3, K_LDA

  245. #elif __loongarch_grlen == 32

  246.     GADD , w, PA0, PA0, K_LDA, PA1, PA1, K_LDA, PA2, PA2, K_LDA, PA3, PA3, K_LDA

  247. #else

  248.     GADD , d, PA0, PA0, K_LDA, PA1, PA1, K_LDA, PA2, PA2, K_LDA, PA3, PA3, K_LDA

  249. #endif

  250.     PTR_ALSL    X,      INC_X,  X,  2

  251.     bnez        J,      .L_\XW\()_N_L4

  252. .L_\XW\()_N_3:

  253.     andi        J,      N,      3

  254.     beqz        J,      .L_END

  255. .L_\XW\()_N_L1:

  256.     CLOAD_\X_1

  257.     xor     K,      K,      K

  258.     move    Y,      Y_ORG

  259.     move    I,      M

  260.     beqz    I,      .L_END

  261. .align 5

  262. .L_\XW\()_N_1_M_L1:

  263.     CLOAD_\Y_1

  264.     CGEMV_N_1x1

  265.     CSTORE_\Y_1

  266.     PTR_ADDI  I,      I,      -1

  267.     PTR_ADD   Y,      Y,      INC_Y

  268.     PTR_ADDI  K,      K,      1

  269.     bnez    I,      .L_\XW\()_N_1_M_L1

  270. .L_\XW\()_N_1_M_END:

  271.     PTR_ADDI    J,      J,      -1

  272.     PTR_SUB     K_LDA,  LDA,    M8

  273.     PTR_ADD     PA0,    PA0,    K_LDA

  274.     PTR_ADD     X,      X,      INC_X

  275.     bnez        J,      .L_\XW\()_N_L1

  276. 

  277.     b .L_END

  278. .endm

  279. 

  280.     PROLOGUE

  281.     PTR_LD     INC_Y,  $sp,    0

  282.     push_if_used 17 + 7, 31

  283.     PTR_ADDI   K,      $r0,     0x01

  284.     PTR_SUB    I,      INC_X,   K

  285.     PTR_SUB    J,      INC_Y,   K

  286.     maskeqz    I,      K,       I  /* if(inc_x == 1) I = 0; else I = 1; */

  287.     maskeqz    J,      K,       J  /* if(inc_y == 1) j = 0; else j = 1; */

  288.     PTR_ALSL   I,      I,       J,      1

  289.     GSLLI , d, LDA, LDA, 3, INC_X, INC_X, 3, INC_Y, INC_Y, 3, M8, M, 3

  290.     // Init VALPHA

  291.     vpackev.w      $vr0,   $vr1,   $vr0

  292.     vpackev.d      VALPHA, $vr0,   $vr0

  293.     move     Y_ORG,  Y

  294.     move     PA0,    A

  295. #if __loongarch_grlen == 64

  296.     GADD , d, PA1, PA0, LDA, PA2, PA1, LDA, PA3, PA2, LDA, PA4, PA3, LDA

  297. #elif __loongarch_grlen == 32

  298.     GADD , w, PA1, PA0, LDA, PA2, PA1, LDA, PA3, PA2, LDA, PA4, PA3, LDA

  299. #else

  300.     GADD , d, PA1, PA0, LDA, PA2, PA1, LDA, PA3, PA2, LDA, PA4, PA3, LDA

  301. #endif

  302.     la.local    T0,     .L_GAP_TABLE

  303.     PTR_ALSL    I,      I,      T0,     1

  304.     ld.h        K,      I,      0 // Obtain the offset address

  305.     PTR_ADD     T0,     T0,     K

  306.     jirl        $r0,    T0,     0

  307. .L_GAP_TABLE:

  308.     .hword  .L_GAP_0_0 - .L_GAP_TABLE

  309.     .hword  .L_GAP_0_1 - .L_GAP_TABLE

  310.     .hword  .L_GAP_1_0 - .L_GAP_TABLE

  311.     .hword  .L_GAP_1_1 - .L_GAP_TABLE

  312. .L_GAP_0_0: /* if (inc_x == 1) && (incy == 1) */

  313.     CGEMV_N_LSX GAP_0_0, X_4, X_1, Y_4, Y_1

  314. .L_GAP_0_1: /* if (inc_x == 1) && (incy != 1) */

  315.     CGEMV_N_LSX GAP_0_1, X_4, X_1, Y_4_GAP, Y_1

  316. .L_GAP_1_0: /* if (inc_x != 1) && (incy == 1) */

  317.     CGEMV_N_LSX GAP_1_0, X_4_GAP, X_1, Y_4, Y_1

  318. .L_GAP_1_1: /* if (inc_x != 1) && (incy != 1) */

  319.     CGEMV_N_LSX GAP_1_1, X_4_GAP, X_1, Y_4_GAP, Y_1

  320. .L_END:

  321.     pop_if_used 17 + 7, 31

  322.     jirl    $r0, $r1, 0x0

  323.     EPILOGUE