#include "common.h" #include #include #define ICOPY_4 //register usage: zmm3 for alpha, zmm4-zmm7 for temporary use, zmm8-zmm31 for accumulators. /* row-major c_block */ #define INNER_KERNEL_k1m1n8 \ "prefetcht0 384(%1);"\ "prefetcht0 768(%0); vmovupd (%1),%%zmm5; addq $64,%1;"\ "vbroadcastsd (%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm8;" #define INNER_KERNEL_k1m2n8 \ INNER_KERNEL_k1m1n8\ "vbroadcastsd 8(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm9;" #define INNER_KERNEL_k1m4n8 \ INNER_KERNEL_k1m2n8\ "vbroadcastsd 16(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm10;"\ "vbroadcastsd 24(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm11;" #define INNER_KERNEL_k1m8n8 \ INNER_KERNEL_k1m4n8\ "vbroadcastsd 32(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm12;"\ "vbroadcastsd 40(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm13;"\ "vbroadcastsd 48(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm14;"\ "vbroadcastsd 56(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm15;" #define INNER_KERNEL_k1m1n16 \ "prefetcht0 128(%1); prefetcht0 128(%1,%%r12,1);"\ "prefetcht0 768(%0); vmovupd (%1),%%zmm5; vmovupd (%1,%%r12,1),%%zmm6; addq $64,%1;"\ "vbroadcastsd (%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm8; vfmadd231pd %%zmm6,%%zmm4,%%zmm9;" #define INNER_KERNEL_k1m2n16 \ INNER_KERNEL_k1m1n16\ "vbroadcastsd 8(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm10;vfmadd231pd %%zmm6,%%zmm4,%%zmm11;" #define INNER_KERNEL_k1m4n16 \ INNER_KERNEL_k1m2n16\ "vbroadcastsd 16(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm12;vfmadd231pd %%zmm6,%%zmm4,%%zmm13;"\ "vbroadcastsd 24(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm14;vfmadd231pd %%zmm6,%%zmm4,%%zmm15;" #define INNER_KERNEL_k1m8n16 \ INNER_KERNEL_k1m4n16\ "vbroadcastsd 32(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm16;vfmadd231pd %%zmm6,%%zmm4,%%zmm17;"\ "vbroadcastsd 40(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm18;vfmadd231pd %%zmm6,%%zmm4,%%zmm19;"\ "vbroadcastsd 48(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm20;vfmadd231pd %%zmm6,%%zmm4,%%zmm21;"\ "vbroadcastsd 56(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm22;vfmadd231pd %%zmm6,%%zmm4,%%zmm23;" #define INNER_KERNEL_k1m1n24 \ "prefetcht0 128(%1); prefetcht0 128(%1,%%r12,1); prefetcht0 128(%1,%%r12,2);"\ "prefetcht0 768(%0); vmovupd (%1),%%zmm5; vmovupd (%1,%%r12,1),%%zmm6; vmovupd (%1,%%r12,2),%%zmm7; addq $64,%1;"\ "vbroadcastsd (%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm8; vfmadd231pd %%zmm6,%%zmm4,%%zmm9; vfmadd231pd %%zmm7,%%zmm4,%%zmm10;" #define INNER_KERNEL_k1m2n24 \ INNER_KERNEL_k1m1n24\ "vbroadcastsd 8(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm11;vfmadd231pd %%zmm6,%%zmm4,%%zmm12;vfmadd231pd %%zmm7,%%zmm4,%%zmm13;" #define INNER_KERNEL_k1m4n24 \ INNER_KERNEL_k1m2n24\ "vbroadcastsd 16(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm14;vfmadd231pd %%zmm6,%%zmm4,%%zmm15;vfmadd231pd %%zmm7,%%zmm4,%%zmm16;"\ "vbroadcastsd 24(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm17;vfmadd231pd %%zmm6,%%zmm4,%%zmm18;vfmadd231pd %%zmm7,%%zmm4,%%zmm19;" #define INNER_KERNEL_k1m8n24 \ INNER_KERNEL_k1m4n24\ "vbroadcastsd 32(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm20;vfmadd231pd %%zmm6,%%zmm4,%%zmm21;vfmadd231pd %%zmm7,%%zmm4,%%zmm22;"\ "vbroadcastsd 40(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm23;vfmadd231pd %%zmm6,%%zmm4,%%zmm24;vfmadd231pd %%zmm7,%%zmm4,%%zmm25;"\ "vbroadcastsd 48(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm26;vfmadd231pd %%zmm6,%%zmm4,%%zmm27;vfmadd231pd %%zmm7,%%zmm4,%%zmm28;"\ "vbroadcastsd 56(%0),%%zmm4;vfmadd231pd %%zmm5,%%zmm4,%%zmm29;vfmadd231pd %%zmm6,%%zmm4,%%zmm30;vfmadd231pd %%zmm7,%%zmm4,%%zmm31;" #define INNER_KERNELm1(nn) \ "cmpq $1,%2;jb "#nn"3f;"\ #nn"4:\n\t"\ INNER_KERNEL_k1m1n##nn "addq $8,%0;"\ "decq %2;cmpq $1,%2;jnb "#nn"4b;"\ #nn"3:\n\t" #define INNER_KERNELm2(nn) \ "cmpq $1,%2;jb "#nn"0f;"\ #nn"1:\n\t"\ INNER_KERNEL_k1m2n##nn "addq $16,%0;"\ "decq %2;cmpq $1,%2;jnb "#nn"1b;"\ #nn"0:\n\t" #define INNER_KERNELm4(nn) \ "cmpq $1,%2;jb "#nn"00f;"\ #nn"01:\n\t"\ INNER_KERNEL_k1m4n##nn "addq $32,%0;"\ "decq %2;cmpq $1,%2;jnb "#nn"01b;"\ #nn"00:\n\t" #define INNER_KERNELm8(nn) \ "cmpq $8,%2;jb "#nn"001f;"\ #nn"008:\n\t"\ INNER_KERNEL_k1m8n##nn "addq $64,%0;"\ INNER_KERNEL_k1m8n##nn "addq $64,%0;"\ INNER_KERNEL_k1m8n##nn "addq $64,%0;"\ INNER_KERNEL_k1m8n##nn "addq $64,%0;"\ INNER_KERNEL_k1m8n##nn "addq $64,%0;"\ INNER_KERNEL_k1m8n##nn "addq $64,%0;"\ INNER_KERNEL_k1m8n##nn "addq $64,%0;"\ INNER_KERNEL_k1m8n##nn "addq $64,%0;"\ "subq $8,%2;cmpq $8,%2;jnb "#nn"008b;"\ #nn"001:\n\t"\ "cmpq $1,%2;jb "#nn"000f;"\ INNER_KERNEL_k1m8n##nn "addq $64,%0;"\ "decq %2;cmpq $1,%2;jnb "#nn"001b;"\ ""#nn"000:\n\t" #define INNER_INIT_m1n8 \ "vpxorq %%zmm8, %%zmm8, %%zmm8;" #define INNER_INIT_m2n8 \ "vpxorq %%zmm8, %%zmm8, %%zmm8; vpxorq %%zmm9, %%zmm9, %%zmm9;" #define INNER_INIT_m4n8 \ "vpxorq %%zmm8, %%zmm8, %%zmm8; vpxorq %%zmm9, %%zmm9, %%zmm9; vpxorq %%zmm10,%%zmm10,%%zmm10;vpxorq %%zmm11,%%zmm11,%%zmm11;" #define INNER_INIT_m8n8 \ INNER_INIT_m4n8\ "vpxorq %%zmm12,%%zmm12,%%zmm12;vpxorq %%zmm13,%%zmm13,%%zmm13;vpxorq %%zmm14,%%zmm14,%%zmm14;vpxorq %%zmm15,%%zmm15,%%zmm15;" #define INNER_INIT_m1n16 INNER_INIT_m2n8 #define INNER_INIT_m2n16 INNER_INIT_m4n8 #define INNER_INIT_m4n16 INNER_INIT_m8n8 #define INNER_INIT_m8n16 \ INNER_INIT_m8n8\ "vpxorq %%zmm16,%%zmm16,%%zmm16;vpxorq %%zmm17,%%zmm17,%%zmm17;vpxorq %%zmm18,%%zmm18,%%zmm18;vpxorq %%zmm19,%%zmm19,%%zmm19;"\ "vpxorq %%zmm20,%%zmm20,%%zmm20;vpxorq %%zmm21,%%zmm21,%%zmm21;vpxorq %%zmm22,%%zmm22,%%zmm22;vpxorq %%zmm23,%%zmm23,%%zmm23;" #define INNER_INIT_m1n24 \ "vpxorq %%zmm8, %%zmm8, %%zmm8; vpxorq %%zmm9, %%zmm9, %%zmm9; vpxorq %%zmm10,%%zmm10,%%zmm10;" #define INNER_INIT_m2n24 \ INNER_INIT_m1n24\ "vpxorq %%zmm11,%%zmm11,%%zmm11; vpxorq %%zmm12,%%zmm12,%%zmm12; vpxorq %%zmm13,%%zmm13,%%zmm13;" #define INNER_INIT_m4n24 \ INNER_INIT_m4n16\ "vpxorq %%zmm16,%%zmm16,%%zmm16;vpxorq %%zmm17,%%zmm17,%%zmm17;vpxorq %%zmm18,%%zmm18,%%zmm18;vpxorq %%zmm19,%%zmm19,%%zmm19;" #define INNER_INIT_m8n24 \ INNER_INIT_m8n16\ "vpxorq %%zmm24,%%zmm24,%%zmm24;vpxorq %%zmm25,%%zmm25,%%zmm25;vpxorq %%zmm26,%%zmm26,%%zmm26;vpxorq %%zmm27,%%zmm27,%%zmm27;"\ "vpxorq %%zmm28,%%zmm28,%%zmm28;vpxorq %%zmm29,%%zmm29,%%zmm29;vpxorq %%zmm30,%%zmm30,%%zmm30;vpxorq %%zmm31,%%zmm31,%%zmm31;" #define INNER_SETINDEX \ "vpinsrq $0,%4,%%xmm4,%%xmm4; vbroadcastsd %%xmm4,%%zmm4;"\ "kxnorw %%k1,%%k1,%%k1; kshiftlw $1,%%k1,%%k1; vpxorq %%zmm6,%%zmm6,%%zmm6; vmovapd %%zmm4,%%zmm6%{%%k1%};"\ "kshiftlw $1,%%k1,%%k1; vpaddq %%zmm4,%%zmm6,%%zmm6%{%%k1%};"\ "kshiftlw $1,%%k1,%%k1; vpaddq %%zmm4,%%zmm6,%%zmm6%{%%k1%};"\ "kshiftlw $1,%%k1,%%k1; vpaddq %%zmm4,%%zmm6,%%zmm6%{%%k1%};"\ "kshiftlw $1,%%k1,%%k1; vpaddq %%zmm4,%%zmm6,%%zmm6%{%%k1%};"\ "kshiftlw $1,%%k1,%%k1; vpaddq %%zmm4,%%zmm6,%%zmm6%{%%k1%};"\ "kshiftlw $1,%%k1,%%k1; vpaddq %%zmm4,%%zmm6,%%zmm6%{%%k1%};" #define INNER_STORE_m1n8(c1,disp) \ "kxnorw %%k1,%%k1,%%k1;"\ "vgatherqpd "#disp"(%3,%%zmm6,1), %%zmm7 %{%%k1%};"\ "vfmadd132pd %%zmm3,%%zmm7,"#c1";"\ "kxnorw %%k1,%%k1,%%k1;"\ "vscatterqpd "#c1", "#disp"(%3,%%zmm6,1) %{%%k1%};" #define INNER_SAVE_m1n8 \ INNER_SETINDEX\ INNER_STORE_m1n8(%%zmm8,0) #define INNER_SAVE_m1n16 \ INNER_SAVE_m1n8\ "leaq (%3,%4,8),%3;"\ INNER_STORE_m1n8(%%zmm9,0) #define INNER_SAVE_m1n24 \ INNER_SAVE_m1n16\ "leaq (%3,%4,8),%3;"\ INNER_STORE_m1n8(%%zmm10,0) #define INNER_SAVE_m2n8 \ INNER_SETINDEX\ INNER_STORE_m1n8(%%zmm8,0)\ INNER_STORE_m1n8(%%zmm9,8) #define INNER_SAVE_m2n16 \ INNER_SETINDEX\ INNER_STORE_m1n8(%%zmm8,0)\ INNER_STORE_m1n8(%%zmm10,8)\ "leaq (%3,%4,8),%3;"\ INNER_STORE_m1n8(%%zmm9,0)\ INNER_STORE_m1n8(%%zmm11,8) #define INNER_SAVE_m2n24 \ INNER_SETINDEX\ INNER_STORE_m1n8(%%zmm8,0)\ INNER_STORE_m1n8(%%zmm11,8)\ "leaq (%3,%4,8),%3;"\ INNER_STORE_m1n8(%%zmm9,0)\ INNER_STORE_m1n8(%%zmm12,8)\ "leaq (%3,%4,8),%3;"\ INNER_STORE_m1n8(%%zmm10,0)\ INNER_STORE_m1n8(%%zmm13,8) #define INNER_PREF_8x8 \ "prefetcht0 (%3); prefetcht0 56(%3); prefetcht0 (%3,%4,1); prefetcht0 56(%3,%4,1); prefetcht0 (%3,%4,2); prefetcht0 56(%3,%4,2);"\ "prefetcht0 (%3,%4,4); prefetcht0 56(%3,%4,4); leaq (%3,%4,2),%3;"\ "prefetcht0 (%3,%4,1); prefetcht0 56(%3,%4,1); prefetcht0 (%3,%4,4); prefetcht0 56(%3,%4,4); leaq (%3,%4,1),%3;"\ "prefetcht0 (%3,%4,2); prefetcht0 56(%3,%4,2); prefetcht0 (%3,%4,4); prefetcht0 56(%3,%4,4);"\ "subq %4,%3; subq %4,%3; subq %4,%3;" #define INNER_TRANS_4x8(c1,c2,c3,c4) \ "vunpcklpd "#c2","#c1",%%zmm4;vunpckhpd "#c2","#c1",%%zmm5;vunpcklpd "#c4","#c3",%%zmm6;vunpckhpd "#c4","#c3",%%zmm7;"\ "vblendmpd %%zmm6,%%zmm4,"#c1"%{%6%};vblendmpd %%zmm7,%%zmm5,"#c3"%{%6%};"\ "vshuff64x2 $0xb1,"#c1","#c1","#c1";vshuff64x2 $0xb1,"#c3","#c3","#c3";"\ "vblendmpd %%zmm4,"#c1",%%zmm4%{%6%};vblendmpd %%zmm5,"#c3","#c2"%{%6%};"\ "vblendmpd "#c1",%%zmm6,%%zmm6%{%6%};vblendmpd "#c3",%%zmm7,"#c4"%{%6%};"\ "vmovapd %%zmm4,"#c1"; vmovapd %%zmm6,"#c3";" #define INNER_TRANS_8x8(c1,c2,c3,c4,c5,c6,c7,c8) \ INNER_TRANS_4x8(c1,c2,c3,c4)\ INNER_TRANS_4x8(c5,c6,c7,c8)\ "vblendmpd "#c5","#c1",%%zmm4%{%5%};vshuff64x2 $0x4e,%%zmm4,%%zmm4,%%zmm4;"\ "vblendmpd "#c1",%%zmm4,"#c1"%{%5%};vblendmpd %%zmm4,"#c5","#c5"%{%5%};"\ "vblendmpd "#c6","#c2",%%zmm5%{%5%};vshuff64x2 $0x4e,%%zmm5,%%zmm5,%%zmm5;"\ "vblendmpd "#c2",%%zmm5,"#c2"%{%5%};vblendmpd %%zmm5,"#c6","#c6"%{%5%};"\ "vblendmpd "#c7","#c3",%%zmm6%{%5%};vshuff64x2 $0x4e,%%zmm6,%%zmm6,%%zmm6;"\ "vblendmpd "#c3",%%zmm6,"#c3"%{%5%};vblendmpd %%zmm6,"#c7","#c7"%{%5%};"\ "vblendmpd "#c8","#c4",%%zmm7%{%5%};vshuff64x2 $0x4e,%%zmm7,%%zmm7,%%zmm7;"\ "vblendmpd "#c4",%%zmm7,"#c4"%{%5%};vblendmpd %%zmm7,"#c8","#c8"%{%5%};" //%7 for k01(input) only when m=4 #define INNER_STORE_4x8(c1,c2,c3,c4) \ "vmovupd (%3),%%zmm4%{%5%};vmovupd -32(%3,%4,4),%%zmm4%{%7%};vfmadd132pd %%zmm3,%%zmm4,"#c1";"\ "vmovupd "#c1",(%3)%{%5%}; vmovupd "#c1",-32(%3,%4,4)%{%7%}; leaq (%3,%4,1),%3;"\ "vmovupd (%3),%%zmm5%{%5%};vmovupd -32(%3,%4,4),%%zmm5%{%7%};vfmadd132pd %%zmm3,%%zmm5,"#c2";"\ "vmovupd "#c2",(%3)%{%5%}; vmovupd "#c2",-32(%3,%4,4)%{%7%}; leaq (%3,%4,1),%3;"\ "vmovupd (%3),%%zmm6%{%5%};vmovupd -32(%3,%4,4),%%zmm6%{%7%};vfmadd132pd %%zmm3,%%zmm6,"#c3";"\ "vmovupd "#c3",(%3)%{%5%}; vmovupd "#c3",-32(%3,%4,4)%{%7%}; leaq (%3,%4,1),%3;"\ "vmovupd (%3),%%zmm7%{%5%};vmovupd -32(%3,%4,4),%%zmm7%{%7%};vfmadd132pd %%zmm3,%%zmm7,"#c4";"\ "vmovupd "#c4",(%3)%{%5%}; vmovupd "#c4",-32(%3,%4,4)%{%7%}; leaq (%3,%4,1),%3;"\ "leaq (%3,%4,4),%3;" #define INNER_STORE_8x8(c1,c2,c3,c4,c5,c6,c7,c8) \ "prefetcht1 120(%3); prefetcht1 120(%3,%4,1);"\ "vfmadd213pd (%3),%%zmm3,"#c1"; vmovupd "#c1",(%3); vfmadd213pd (%3,%4,1),%%zmm3,"#c2"; vmovupd "#c2",(%3,%4,1); leaq (%3,%4,2),%3;"\ "prefetcht1 120(%3); prefetcht1 120(%3,%4,1);"\ "vfmadd213pd (%3),%%zmm3,"#c3"; vmovupd "#c3",(%3); vfmadd213pd (%3,%4,1),%%zmm3,"#c4"; vmovupd "#c4",(%3,%4,1); leaq (%3,%4,2),%3;"\ "prefetcht1 120(%3); prefetcht1 120(%3,%4,1);"\ "vfmadd213pd (%3),%%zmm3,"#c5"; vmovupd "#c5",(%3); vfmadd213pd (%3,%4,1),%%zmm3,"#c6"; vmovupd "#c6",(%3,%4,1); leaq (%3,%4,2),%3;"\ "prefetcht1 120(%3); prefetcht1 120(%3,%4,1);"\ "vfmadd213pd (%3),%%zmm3,"#c7"; vmovupd "#c7",(%3); vfmadd213pd (%3,%4,1),%%zmm3,"#c8"; vmovupd "#c8",(%3,%4,1); leaq (%3,%4,2),%3;" #define INNER_SAVE_m4n8 \ INNER_TRANS_4x8(%%zmm8,%%zmm9,%%zmm10,%%zmm11)\ INNER_STORE_4x8(%%zmm8,%%zmm9,%%zmm10,%%zmm11) #define INNER_SAVE_m4n16 \ INNER_TRANS_4x8(%%zmm8,%%zmm10,%%zmm12,%%zmm14)\ INNER_STORE_4x8(%%zmm8,%%zmm10,%%zmm12,%%zmm14)\ INNER_TRANS_4x8(%%zmm9,%%zmm11,%%zmm13,%%zmm15)\ INNER_STORE_4x8(%%zmm9,%%zmm11,%%zmm13,%%zmm15) #define INNER_SAVE_m4n24 \ INNER_TRANS_4x8(%%zmm8,%%zmm11,%%zmm14,%%zmm17)\ INNER_STORE_4x8(%%zmm8,%%zmm11,%%zmm14,%%zmm17)\ INNER_TRANS_4x8(%%zmm9,%%zmm12,%%zmm15,%%zmm18)\ INNER_STORE_4x8(%%zmm9,%%zmm12,%%zmm15,%%zmm18)\ INNER_TRANS_4x8(%%zmm10,%%zmm13,%%zmm16,%%zmm19)\ INNER_STORE_4x8(%%zmm10,%%zmm13,%%zmm16,%%zmm19) #define INNER_SAVE_m8n8 \ INNER_PREF_8x8\ INNER_TRANS_8x8(%%zmm8,%%zmm9,%%zmm10,%%zmm11,%%zmm12,%%zmm13,%%zmm14,%%zmm15)\ INNER_STORE_8x8(%%zmm8,%%zmm9,%%zmm10,%%zmm11,%%zmm12,%%zmm13,%%zmm14,%%zmm15) #define INNER_SAVE_m8n16 \ INNER_PREF_8x8\ INNER_TRANS_8x8(%%zmm8,%%zmm10,%%zmm12,%%zmm14,%%zmm16,%%zmm18,%%zmm20,%%zmm22)\ INNER_STORE_8x8(%%zmm8,%%zmm10,%%zmm12,%%zmm14,%%zmm16,%%zmm18,%%zmm20,%%zmm22)\ INNER_PREF_8x8\ INNER_TRANS_8x8(%%zmm9,%%zmm11,%%zmm13,%%zmm15,%%zmm17,%%zmm19,%%zmm21,%%zmm23)\ INNER_STORE_8x8(%%zmm9,%%zmm11,%%zmm13,%%zmm15,%%zmm17,%%zmm19,%%zmm21,%%zmm23) #define INNER_SAVE_m8n24 \ INNER_PREF_8x8\ INNER_TRANS_8x8(%%zmm8,%%zmm11,%%zmm14,%%zmm17,%%zmm20,%%zmm23,%%zmm26,%%zmm29)\ INNER_STORE_8x8(%%zmm8,%%zmm11,%%zmm14,%%zmm17,%%zmm20,%%zmm23,%%zmm26,%%zmm29)\ INNER_PREF_8x8\ INNER_TRANS_8x8(%%zmm9,%%zmm12,%%zmm15,%%zmm18,%%zmm21,%%zmm24,%%zmm27,%%zmm30)\ INNER_STORE_8x8(%%zmm9,%%zmm12,%%zmm15,%%zmm18,%%zmm21,%%zmm24,%%zmm27,%%zmm30)\ INNER_PREF_8x8\ INNER_TRANS_8x8(%%zmm10,%%zmm13,%%zmm16,%%zmm19,%%zmm22,%%zmm25,%%zmm28,%%zmm31)\ INNER_STORE_8x8(%%zmm10,%%zmm13,%%zmm16,%%zmm19,%%zmm22,%%zmm25,%%zmm28,%%zmm31) #define COMPUTE_n8 {\ __asm__ __volatile__(\ "vbroadcastsd (%9),%%zmm3;"\ "movq %8,%%r14;movq %2,%%r13;movq %2,%%r12;shlq $6,%%r12;"\ "cmpq $8,%8; jb 42222f;"\ "42221:\n\t"\ INNER_INIT_m8n8\ INNER_KERNELm8(8)\ INNER_SAVE_m8n8\ "movq %%r13,%2; subq %%r12,%1;"\ "shlq $3,%4;subq %4,%3;shrq $3,%4;addq $64,%3;"\ "subq $8,%8; cmpq $8,%8; jnb 42221b;"\ "42222:\n\t"\ "cmpq $4,%8; jb 42223f;"\ INNER_INIT_m4n8\ INNER_KERNELm4(8)\ INNER_SAVE_m4n8\ "movq %%r13,%2; subq %%r12,%1;"\ "shlq $3,%4;subq %4,%3;shrq $3,%4;addq $32,%3;"\ "subq $4,%8;"\ "42223:\n\t"\ "cmpq $2,%8; jb 42224f;"\ INNER_INIT_m2n8\ INNER_KERNELm2(8)\ INNER_SAVE_m2n8\ "movq %%r13,%2; subq %%r12,%1;"\ "addq $16,%3;"\ "subq $2,%8;"\ "42224:\n\t"\ "cmpq $1,%8; jb 42225f;"\ INNER_INIT_m1n8\ INNER_KERNELm1(8)\ INNER_SAVE_m1n8\ "movq %%r13,%2; subq %%r12,%1;"\ "addq $8,%3;"\ "42225:\n\t"\ "movq %%r14,%8;shlq $3,%8;subq %8,%3;shrq $3,%8;"\ "shlq $3,%4;addq %4,%3;shrq $3,%4;"\ :"+r"(a_block_pointer),"+r"(packed_b_pointer),"+r"(K),"+r"(c_pointer),"+r"(ldc_in_bytes),"+Yk"(k02),"+Yk"(k03),"+Yk"(k01),"+r"(M),"+r"(alpha)\ ::"zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","cc","memory","k1","r12","r13","r14");\ a_block_pointer -= M * K;\ } #define COMPUTE_n16 {\ __asm__ __volatile__(\ "vbroadcastsd (%9),%%zmm3;"\ "movq %8,%%r14;movq %2,%%r13;movq %2,%%r12;shlq $6,%%r12;"\ "cmpq $8,%8; jb 32222f;"\ "32221:\n\t"\ INNER_INIT_m8n16\ INNER_KERNELm8(16)\ INNER_SAVE_m8n16\ "movq %%r13,%2; subq %%r12,%1;"\ "shlq $4,%4;subq %4,%3;shrq $4,%4;addq $64,%3;"\ "subq $8,%8; cmpq $8,%8; jnb 32221b;"\ "32222:\n\t"\ "cmpq $4,%8; jb 32223f;"\ INNER_INIT_m4n16\ INNER_KERNELm4(16)\ INNER_SAVE_m4n16\ "movq %%r13,%2; subq %%r12,%1;"\ "shlq $4,%4;subq %4,%3;shrq $4,%4;addq $32,%3;"\ "subq $4,%8;"\ "32223:\n\t"\ "cmpq $2,%8; jb 32224f;"\ INNER_INIT_m2n16\ INNER_KERNELm2(16)\ INNER_SAVE_m2n16\ "movq %%r13,%2; subq %%r12,%1;"\ "shlq $3,%4;subq %4,%3;shrq $3,%4;addq $16,%3;"\ "subq $2,%8;"\ "32224:\n\t"\ "cmpq $1,%8; jb 32225f;"\ INNER_INIT_m1n16\ INNER_KERNELm1(16)\ INNER_SAVE_m1n16\ "movq %%r13,%2; subq %%r12,%1;"\ "shlq $3,%4;subq %4,%3;shrq $3,%4;addq $8,%3;"\ "32225:\n\t"\ "movq %%r14,%8;shlq $3,%8;subq %8,%3;shrq $3,%8;"\ "shlq $4,%4;addq %4,%3;shrq $4,%4;"\ "leaq (%1,%%r12,2),%1;"\ :"+r"(a_block_pointer),"+r"(packed_b_pointer),"+r"(K),"+r"(c_pointer),"+r"(ldc_in_bytes),"+Yk"(k02),"+Yk"(k03),"+Yk"(k01),"+r"(M),"+r"(alpha)\ ::"zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17",\ "zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","cc","memory","k1","r12","r13","r14");\ a_block_pointer -= M * K;\ } #define COMPUTE_n24 {\ __asm__ __volatile__(\ "vbroadcastsd (%9),%%zmm3;"\ "movq %8,%%r14;movq %2,%%r13;movq %2,%%r12;shlq $6,%%r12;"\ "cmpq $8,%8; jb 22222f;"\ "22221:\n\t"\ INNER_INIT_m8n24\ INNER_KERNELm8(24)\ INNER_SAVE_m8n24\ "movq %%r13,%2; subq %%r12,%1;"\ "shlq $3,%4;subq %4,%3;shlq $1,%4;subq %4,%3;shrq $4,%4;addq $64,%3;"\ "subq $8,%8; cmpq $8,%8; jnb 22221b;"\ "22222:\n\t"\ "cmpq $4,%8; jb 22223f;"\ INNER_INIT_m4n24\ INNER_KERNELm4(24)\ INNER_SAVE_m4n24\ "movq %%r13,%2; subq %%r12,%1;"\ "shlq $3,%4;subq %4,%3;shlq $1,%4;subq %4,%3;shrq $4,%4;addq $32,%3;"\ "subq $4,%8;"\ "22223:\n\t"\ "cmpq $2,%8; jb 22224f;"\ INNER_INIT_m2n24\ INNER_KERNELm2(24)\ INNER_SAVE_m2n24\ "movq %%r13,%2; subq %%r12,%1;"\ "shlq $4,%4;subq %4,%3;shrq $4,%4;addq $16,%3;"\ "subq $2,%8;"\ "22224:\n\t"\ "cmpq $1,%8; jb 22225f;"\ INNER_INIT_m1n24\ INNER_KERNELm1(24)\ INNER_SAVE_m1n24\ "movq %%r13,%2; subq %%r12,%1;"\ "shlq $4,%4;subq %4,%3;shrq $4,%4;addq $8,%3;"\ "22225:\n\t"\ "movq %%r14,%8;shlq $3,%8;subq %8,%3;shrq $3,%8;"\ "shlq $3,%4;addq %4,%3;shlq $1,%4;addq %4,%3;shrq $4,%4;"\ "leaq (%1,%%r12,2),%1; addq %%r12,%1;"\ :"+r"(a_block_pointer),"+r"(packed_b_pointer),"+r"(K),"+r"(c_pointer),"+r"(ldc_in_bytes),"+Yk"(k02),"+Yk"(k03),"+Yk"(k01),"+r"(M),"+r"(alpha)\ ::"zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19",\ "zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31","cc","memory","k1","r12","r13","r14");\ a_block_pointer -= M * K;\ } static void KERNEL_MAIN(double *packed_a, double *packed_b, BLASLONG m, BLASLONG ndiv8, BLASLONG k, BLASLONG LDC, double *c,double *alpha){//icopy=8,ocopy=8 //perform C += A B if(k==0 || m==0 || ndiv8==0) return; int64_t ldc_in_bytes = (int64_t)LDC * sizeof(double); int64_t K = (int64_t)k; int64_t M = (int64_t)m; double *a_block_pointer; double *c_pointer = c; __mmask16 k01 = 0x00f0,k02 = 0x000f,k03 = 0x0033; BLASLONG m_count,ndiv8_count,k_count; double *packed_b_pointer = packed_b; a_block_pointer = packed_a; for(ndiv8_count=ndiv8;ndiv8_count>2;ndiv8_count-=3){ COMPUTE_n24 } for(;ndiv8_count>1;ndiv8_count-=2){ COMPUTE_n16 } if(ndiv8_count>0){ COMPUTE_n8 } } /* __m512d accumulators: zc1-zc4; temporary variables: za1,zb1-zb2 */ /* __m256d accumulators: yc1-yc4; temporary variables: ya1,yb1-yb2 */ /* __m128d accumulators: xc1-xc4; temporary variables: xa1,xb1-xb2 */ /* double accumulator: sc1; temporary variables: sa1,sb1 */ /* column-major c_block */ #define KERNEL_m8n4k1 {\ __asm__ __volatile__(\ "vmovupd (%0),%2; addq $64,%0;"\ "vbroadcastsd (%1),%3; vfmadd231pd %2,%3,%5; "\ "vbroadcastsd 8(%1),%4; vfmadd231pd %2,%4,%6; "\ "vbroadcastsd 16(%1),%3; vfmadd231pd %2,%3,%7; "\ "vbroadcastsd 24(%1),%4; vfmadd231pd %2,%4,%8; "\ "addq $32,%1;"\ :"+r"(a_block_pointer),"+r"(b_block_pointer),"+v"(za1),"+v"(zb1),"+v"(zb2),"+v"(zc1),"+v"(zc2),"+v"(zc3),"+v"(zc4)::"cc","memory");\ } #define KERNEL_m8n2k1 {\ __asm__ __volatile__(\ "vmovupd (%0),%2; addq $64,%0;"\ "vbroadcastsd (%1),%3; vfmadd231pd %2,%3,%5; "\ "vbroadcastsd 8(%1),%4; vfmadd231pd %2,%4,%6; "\ "addq $16,%1;"\ :"+r"(a_block_pointer),"+r"(b_block_pointer),"+v"(za1),"+v"(zb1),"+v"(zb2),"+v"(zc1),"+v"(zc2)::"cc","memory");\ } #define KERNEL_m8n1k1 {\ __asm__ __volatile__(\ "vmovupd (%0),%2; addq $64,%0;"\ "vbroadcastsd (%1),%3; vfmadd231pd %2,%3,%4; "\ "addq $8,%1;"\ :"+r"(a_block_pointer),"+r"(b_block_pointer),"+v"(za1),"+v"(zb1),"+v"(zc1)::"cc","memory");\ } #define INIT_m8n1 zc1=_mm512_setzero_pd(); #define INIT_m8n2 zc2=INIT_m8n1 #define INIT_m8n4 zc4=zc3=INIT_m8n2 #define SAVE_m8n1 {\ __asm__ __volatile__("vbroadcastsd (%0),%1;":"+r"(alpha),"+v"(za1)::"memory");\ zb1 = _mm512_loadu_pd(c_pointer);\ zc1 = _mm512_fmadd_pd(zc1,za1,zb1);\ _mm512_storeu_pd(c_pointer,zc1);\ c_pointer += 8;\ } #define SAVE_m8n2 {\ __asm__ __volatile__("vbroadcastsd (%0),%1;":"+r"(alpha),"+v"(za1)::"memory");\ zb1 = _mm512_loadu_pd(c_pointer); zb2 = _mm512_loadu_pd(c_pointer+LDC);\ zc1 = _mm512_fmadd_pd(zc1,za1,zb1); zc2 = _mm512_fmadd_pd(zc2,za1,zb2);\ _mm512_storeu_pd(c_pointer,zc1); _mm512_storeu_pd(c_pointer+LDC,zc2);\ c_pointer += 8;\ } #define SAVE_m8n4 {\ __asm__ __volatile__("vbroadcastsd (%0),%1;":"+r"(alpha),"+v"(za1)::"memory");\ zb1 = _mm512_loadu_pd(c_pointer); zb2 = _mm512_loadu_pd(c_pointer+LDC);\ zc1 = _mm512_fmadd_pd(zc1,za1,zb1); zc2 = _mm512_fmadd_pd(zc2,za1,zb2);\ _mm512_storeu_pd(c_pointer,zc1); _mm512_storeu_pd(c_pointer+LDC,zc2);\ c_pointer += LDC*2;\ zb1 = _mm512_loadu_pd(c_pointer); zb2 = _mm512_loadu_pd(c_pointer+LDC);\ zc3 = _mm512_fmadd_pd(zc3,za1,zb1); zc4 = _mm512_fmadd_pd(zc4,za1,zb2);\ _mm512_storeu_pd(c_pointer,zc3); _mm512_storeu_pd(c_pointer+LDC,zc4);\ c_pointer += 8-LDC*2;\ } #define KERNEL_m4n4k1 {\ ya1 = _mm256_loadu_pd(a_block_pointer);a_block_pointer+=4;\ yb1 = _mm256_broadcast_sd(b_block_pointer); yc1 = _mm256_fmadd_pd(ya1,yb1,yc1);\ yb2 = _mm256_broadcast_sd(b_block_pointer+1); yc2 = _mm256_fmadd_pd(ya1,yb2,yc2);\ yb1 = _mm256_broadcast_sd(b_block_pointer+2); yc3 = _mm256_fmadd_pd(ya1,yb1,yc3);\ yb2 = _mm256_broadcast_sd(b_block_pointer+3); yc4 = _mm256_fmadd_pd(ya1,yb2,yc4);\ b_block_pointer+=4;\ } #define KERNEL_m4n2k1 {\ ya1 = _mm256_loadu_pd(a_block_pointer);a_block_pointer+=4;\ yb1 = _mm256_broadcast_sd(b_block_pointer); yc1 = _mm256_fmadd_pd(ya1,yb1,yc1);\ yb2 = _mm256_broadcast_sd(b_block_pointer+1); yc2 = _mm256_fmadd_pd(ya1,yb2,yc2);\ b_block_pointer+=2;\ } #define KERNEL_m4n1k1 {\ ya1 = _mm256_loadu_pd(a_block_pointer);a_block_pointer+=4;\ yb1 = _mm256_broadcast_sd(b_block_pointer); yc1 = _mm256_fmadd_pd(ya1,yb1,yc1);\ b_block_pointer++;\ } #define INIT_m4n1 yc1=_mm256_setzero_pd(); #define INIT_m4n2 yc2=INIT_m4n1 #define INIT_m4n4 yc4=yc3=INIT_m4n2 #define SAVE_m4n1 {\ yb1 = _mm256_broadcast_sd(alpha);\ ya1 = _mm256_loadu_pd(c_pointer);\ yc1 = _mm256_fmadd_pd(yc1,yb1,ya1);\ _mm256_storeu_pd(c_pointer,yc1);\ c_pointer += 4;\ } #define SAVE_m4n2 {\ ya1 = _mm256_broadcast_sd(alpha);\ yb1 = _mm256_loadu_pd(c_pointer); yb2 = _mm256_loadu_pd(c_pointer+LDC);\ yc1 = _mm256_fmadd_pd(yc1,ya1,yb1); yc2 = _mm256_fmadd_pd(yc2,ya1,yb2);\ _mm256_storeu_pd(c_pointer,yc1); _mm256_storeu_pd(c_pointer+LDC,yc2);\ c_pointer += 4;\ } #define SAVE_m4n4 {\ ya1 = _mm256_broadcast_sd(alpha);\ yb1 = _mm256_loadu_pd(c_pointer); yb2 = _mm256_loadu_pd(c_pointer+LDC);\ yc1 = _mm256_fmadd_pd(yc1,ya1,yb1); yc2 = _mm256_fmadd_pd(yc2,ya1,yb2);\ _mm256_storeu_pd(c_pointer,yc1); _mm256_storeu_pd(c_pointer+LDC,yc2);\ c_pointer += LDC*2;\ yb1 = _mm256_loadu_pd(c_pointer); yb2 = _mm256_loadu_pd(c_pointer+LDC);\ yc3 = _mm256_fmadd_pd(yc3,ya1,yb1); yc4 = _mm256_fmadd_pd(yc4,ya1,yb2);\ _mm256_storeu_pd(c_pointer,yc3); _mm256_storeu_pd(c_pointer+LDC,yc4);\ c_pointer += 4-LDC*2;\ } #define KERNEL_m2n2k1 {\ xa1 = _mm_loadu_pd(a_block_pointer); a_block_pointer+=2;\ xb1 = _mm_loaddup_pd(b_block_pointer); xc1 = _mm_fmadd_pd(xa1,xb1,xc1);\ xb2 = _mm_loaddup_pd(b_block_pointer+1); xc2 = _mm_fmadd_pd(xa1,xb2,xc2);\ b_block_pointer += 2;\ } #define KERNEL_m2n1k1 {\ xa1 = _mm_loadu_pd(a_block_pointer); a_block_pointer+=2;\ xb1 = _mm_loaddup_pd(b_block_pointer); xc1 = _mm_fmadd_pd(xa1,xb1,xc1);\ b_block_pointer ++;\ } #define INIT_m2n1 xc1=_mm_setzero_pd(); #define INIT_m2n2 xc2=INIT_m2n1 #define SAVE_m2n1 {\ xb1 = _mm_loaddup_pd(alpha);\ xa1 = _mm_loadu_pd(c_pointer);\ xc1 = _mm_fmadd_pd(xc1,xb1,xa1);\ _mm_storeu_pd(c_pointer,xc1);\ c_pointer += 2;\ } #define SAVE_m2n2 {\ xa1 = _mm_loaddup_pd(alpha);\ xb1 = _mm_loadu_pd(c_pointer); xb2 = _mm_loadu_pd(c_pointer+LDC);\ xc1 = _mm_fmadd_pd(xc1,xa1,xb1); xc2 = _mm_fmadd_pd(xc2,xa1,xb2);\ _mm_storeu_pd(c_pointer,xc1); _mm_storeu_pd(c_pointer+LDC,xc2);\ c_pointer += 2;\ } #define KERNEL_m1n1k1 {\ sa1 = *a_block_pointer; a_block_pointer++;\ sb1 = *b_block_pointer; sc1 += sa1 * sb1;\ b_block_pointer ++;\ } #define INIT_m1n1 sc1=0.0; #define SAVE_m1n1 {\ *c_pointer += sc1 * (*alpha);\ c_pointer++;\ } /* row-major c_block */ #define KERNEL_m2n4k1 {\ yb1 = _mm256_loadu_pd(b_block_pointer);b_block_pointer+=4;\ ya1 = _mm256_broadcast_sd(a_block_pointer); yc1 = _mm256_fmadd_pd(ya1,yb1,yc1);\ ya1 = _mm256_broadcast_sd(a_block_pointer+1);yc2 = _mm256_fmadd_pd(ya1,yb1,yc2);\ a_block_pointer += 2;\ } #define KERNEL_m1n4k1 {\ yb1 = _mm256_loadu_pd(b_block_pointer);b_block_pointer+=4;\ ya1 = _mm256_broadcast_sd(a_block_pointer); yc1 = _mm256_fmadd_pd(ya1,yb1,yc1);\ a_block_pointer ++;\ } #define KERNEL_m1n2k1 {\ xb1 = _mm_loadu_pd(b_block_pointer);b_block_pointer+=2;\ xa1 = _mm_loaddup_pd(a_block_pointer); xc1 = _mm_fmadd_pd(xa1,xb1,xc1);\ a_block_pointer ++;\ } #define INIT_m1n2 INIT_m2n1 #define INIT_m1n4 INIT_m4n1 #define INIT_m2n4 INIT_m4n2 #define SAVE_m2n4 {\ ya1 = _mm256_broadcast_sd(alpha);\ yc1 = _mm256_mul_pd(yc1,ya1);\ yc2 = _mm256_mul_pd(yc2,ya1);\ yb1 = _mm256_unpacklo_pd(yc1,yc2);\ yb2 = _mm256_unpackhi_pd(yc1,yc2);\ xb1 = _mm_add_pd(_mm_loadu_pd(c_pointer),_mm256_extractf128_pd(yb1,0));\ xb2 = _mm_add_pd(_mm_loadu_pd(c_pointer+LDC),_mm256_extractf128_pd(yb2,0));\ _mm_storeu_pd(c_pointer,xb1);\ _mm_storeu_pd(c_pointer+LDC,xb2);\ xb1 = _mm_add_pd(_mm_loadu_pd(c_pointer+2*LDC),_mm256_extractf128_pd(yb1,1));\ xb2 = _mm_add_pd(_mm_loadu_pd(c_pointer+3*LDC),_mm256_extractf128_pd(yb2,1));\ _mm_storeu_pd(c_pointer+2*LDC,xb1);\ _mm_storeu_pd(c_pointer+3*LDC,xb2);\ c_pointer += 2;\ } #define SAVE_m1n2 {\ xb1 = _mm_loaddup_pd(alpha);\ xc1 = _mm_mul_pd(xc1,xb1);\ *c_pointer += _mm_cvtsd_f64(xc1);\ xa1 = _mm_unpackhi_pd(xc1,xc1);\ c_pointer[LDC]+= _mm_cvtsd_f64(xa1);\ c_pointer ++;\ } #define SAVE_m1n4 {\ ya1 = _mm256_broadcast_sd(alpha);\ yc1 = _mm256_mul_pd(yc1,ya1);\ xb1 = _mm256_extractf128_pd(yc1,0);\ *c_pointer += _mm_cvtsd_f64(xb1);\ xb2 = _mm_unpackhi_pd(xb1,xb1);\ c_pointer[LDC] += _mm_cvtsd_f64(xb2);\ xb1 = _mm256_extractf128_pd(yc1,1);\ c_pointer[LDC*2] += _mm_cvtsd_f64(xb1);\ xb2 = _mm_unpackhi_pd(xb1,xb1);\ c_pointer[LDC*3] += _mm_cvtsd_f64(xb2);\ c_pointer ++;\ } static void KERNEL_EDGE(double *packed_a, double *packed_b, BLASLONG m, BLASLONG edge_n, BLASLONG k, BLASLONG LDC, double *c,double *alpha){//icopy=8,ocopy=8 //perform C += A B , edge_n<8 must be satisfied. if(k==0 || m==0 || edge_n==0) return; double *a_block_pointer,*b_block_pointer,*b_base_pointer; double *c_pointer = c; __m512d zb1,zb2,za1,zc1,zc2,zc3,zc4; __m256d yc1,yc2,yc3,yc4,ya1,yb1,yb2; __m128d xc1,xc2,xa1,xb1,xb2; double sc1,sa1,sb1; BLASLONG m_count,n_count,k_count; b_base_pointer = packed_b; //now start calculation of the edge part for(n_count=edge_n;n_count>3;n_count-=4){ a_block_pointer = packed_a; for(m_count=m;m_count>7;m_count-=8){ b_block_pointer = b_base_pointer; INIT_m8n4 for(k_count=0;k_count3;m_count-=4){ b_block_pointer = b_base_pointer; INIT_m4n4 for(k_count=0;k_count1;m_count-=2){ b_block_pointer = b_base_pointer; INIT_m2n4 for(k_count=0;k_count0){ b_block_pointer = b_base_pointer; INIT_m1n4 for(k_count=0;k_count1;n_count-=2){ a_block_pointer = packed_a; for(m_count=m;m_count>7;m_count-=8){ b_block_pointer = b_base_pointer; INIT_m8n2 for(k_count=0;k_count3;m_count-=4){ b_block_pointer = b_base_pointer; INIT_m4n2 for(k_count=0;k_count1;m_count-=2){ b_block_pointer = b_base_pointer; INIT_m2n2 for(k_count=0;k_count0){ b_block_pointer = b_base_pointer; INIT_m1n2 for(k_count=0;k_count0){ a_block_pointer = packed_a; for(m_count=m;m_count>7;m_count-=8){ b_block_pointer = b_base_pointer; INIT_m8n1 for(k_count=0;k_count3;m_count-=4){ b_block_pointer = b_base_pointer; INIT_m4n1 for(k_count=0;k_count1;m_count-=2){ b_block_pointer = b_base_pointer; INIT_m2n1 for(k_count=0;k_count0){ b_block_pointer = b_base_pointer; INIT_m1n1 for(k_count=0;k_count7;m_count-=8){ for(k_count=k;k_count>0;k_count--){ tmp = _mm256_loadu_pd(src1);_mm256_storeu_pd(dst1+0,tmp);src1+=4; tmp = _mm256_loadu_pd(src2);_mm256_storeu_pd(dst1+4,tmp);src2+=4; dst1+=8; } src1+=4*k;src2+=4*k; } for(;m_count>0;m_count--){ for(k_count=k;k_count>0;k_count--){ *dst1 = (*src1); src1++; dst1++; } } } #endif int __attribute__ ((noinline)) CNAME(BLASLONG m, BLASLONG n, BLASLONG k, double alpha, double * __restrict__ A, double * __restrict__ B, double * __restrict__ C, BLASLONG ldc){ if(m==0 || n==0 || k==0 || alpha == 0.0) return 0; BLASLONG ndiv8 = n/8;double ALPHA = alpha; #ifdef ICOPY_4 double *packed_a = (double *)malloc(m*k*sizeof(double)); copy_4_to_8(A,packed_a,m,k); #else //ICOPY_8 double *packed_a = A; #endif if(ndiv8>0) KERNEL_MAIN(packed_a,B,m,ndiv8,k,ldc,C,&ALPHA); if(n>ndiv8*8) KERNEL_EDGE(packed_a,B+(int64_t)k*(int64_t)ndiv8*8,m,n-ndiv8*8,k,ldc,C+(int64_t)ldc*(int64_t)ndiv8*8,&ALPHA); #ifdef ICOPY_4 free(packed_a);packed_a=NULL; #endif return 0; }