#include "common.h" #include /* recommended settings: GEMM_P = 192, GEMM_Q = 192 */ #if defined(NN) || defined(NT) || defined(TN) || defined(TT) #define A_CONJ 0 #define B_CONJ 0 #endif #if defined(RN) || defined(RT) || defined(CN) || defined(CT) #define A_CONJ 1 #define B_CONJ 0 #endif #if defined(NR) || defined(NC) || defined(TR) || defined(TC) #define A_CONJ 0 #define B_CONJ 1 #endif #if defined(RR) || defined(RC) || defined(CR) || defined(CC) #define A_CONJ 1 #define B_CONJ 1 #endif /* %0 = a_ptr, %1 = b_ptr, %2 = c_ptr, %3 = c_tmp, %4 = ldc(bytes), %5 = k_counter, %6 = &alpha, %7 = m_counter, %8 = b_pref */ /* r11 = m, r12 = k << 5, r13 = k, r14 = b_head, r15 = temp */ /* m=4, ymm 0-3 temp, ymm 4-15 acc */ #if A_CONJ == B_CONJ #define acc_m2n1_exp(ar,ai,b2,cl,cr) "vfmadd231pd %%ymm"#ar",%%ymm"#b2",%%ymm"#cl"; vfmadd231pd %%ymm"#ai",%%ymm"#b2",%%ymm"#cr";" #define acc_m4n1_con(ua,la,b1,uc,lc) "vfmaddsub231pd %%ymm"#ua",%%ymm"#b1",%%ymm"#uc"; vfmaddsub231pd %%ymm"#la",%%ymm"#b1",%%ymm"#lc";" #else #define acc_m2n1_exp(ar,ai,b2,cl,cr) "vfmadd231pd %%ymm"#ar",%%ymm"#b2",%%ymm"#cl"; vfnmadd231pd %%ymm"#ai",%%ymm"#b2",%%ymm"#cr";" #define acc_m4n1_con(ua,la,b1,uc,lc) "vfmsubadd231pd %%ymm"#ua",%%ymm"#b1",%%ymm"#uc"; vfmsubadd231pd %%ymm"#la",%%ymm"#b1",%%ymm"#lc";" #endif /* expanded accumulators for m4n1 and m4n2 */ #define KERNEL_k1m4n1 \ "vbroadcastf128 (%1),%%ymm0; addq $16,%1;"\ "vmovddup (%0),%%ymm1; vmovddup 8(%0),%%ymm2;" acc_m2n1_exp(1,2,0,4,5)\ "vmovddup 32(%0),%%ymm1; vmovddup 40(%0),%%ymm2;" acc_m2n1_exp(1,2,0,6,7)\ "addq $64,%0;" #define KERNEL_k1m4n2 \ "vbroadcastf128 (%1),%%ymm0; vbroadcastf128 16(%1),%%ymm1; addq $32,%1;"\ "vmovddup (%0),%%ymm2; vmovddup 8(%0),%%ymm3;" acc_m2n1_exp(2,3,0,4,5) acc_m2n1_exp(2,3,1,8,9)\ "vmovddup 32(%0),%%ymm2; vmovddup 40(%0),%%ymm3;" acc_m2n1_exp(2,3,0,6,7) acc_m2n1_exp(2,3,1,10,11)\ "addq $64,%0;" /* contracted accumulators for m4n4 and m4n6 */ #define acc_m4n2_con(ua,la,luc,llc,ruc,rlc,lboff,rboff,...) \ "vbroadcastsd "#lboff"("#__VA_ARGS__"),%%ymm2;" acc_m4n1_con(ua,la,2,luc,llc)\ "vbroadcastsd "#rboff"("#__VA_ARGS__"),%%ymm3;" acc_m4n1_con(ua,la,3,ruc,rlc) #define KERNEL_1_k1m4n4 \ "vmovupd (%0),%%ymm0; vmovupd 32(%0),%%ymm1; prefetcht0 512(%0); addq $64,%0;"\ acc_m4n2_con(0,1,4,5,6,7,0,16,%1) acc_m4n2_con(0,1,8,9,10,11,0,16,%1,%%r12,1) #define KERNEL_2_k1m4n4 \ "vpermilpd $5,-64(%0),%%ymm0; vpermilpd $5,-32(%0),%%ymm1;"\ acc_m4n2_con(0,1,4,5,6,7,8,24,%1) acc_m4n2_con(0,1,8,9,10,11,8,24,%1,%%r12,1) #define KERNEL_1_k1m4n6 KERNEL_1_k1m4n4 acc_m4n2_con(0,1,12,13,14,15,0,16,%1,%%r12,2) #define KERNEL_2_k1m4n6 KERNEL_2_k1m4n4 acc_m4n2_con(0,1,12,13,14,15,8,24,%1,%%r12,2) #define KERNEL_k1m4n4 KERNEL_1_k1m4n4 KERNEL_2_k1m4n4 "addq $32,%1;" #define KERNEL_k1m4n6 KERNEL_1_k1m4n6 KERNEL_2_k1m4n6 "addq $32,%1;" #define zero_4ymm(no1,no2,no3,no4) \ "vpxor %%ymm"#no1",%%ymm"#no1",%%ymm"#no1"; vpxor %%ymm"#no2",%%ymm"#no2",%%ymm"#no2";"\ "vpxor %%ymm"#no3",%%ymm"#no3",%%ymm"#no3"; vpxor %%ymm"#no4",%%ymm"#no4",%%ymm"#no4";" /* initialization and storage macros */ #define INIT_m4n1 zero_4ymm(4,5,6,7) #define INIT_m4n2 zero_4ymm(4,5,6,7) zero_4ymm(8,9,10,11) #define INIT_m4n4 zero_4ymm(4,5,6,7) zero_4ymm(8,9,10,11) #define INIT_m4n6 INIT_m4n4 zero_4ymm(12,13,14,15) #if A_CONJ == B_CONJ #define cont_expacc(cl,cr,dst) "vpermilpd $5,%%ymm"#cr",%%ymm"#cr"; vaddsubpd %%ymm"#cl",%%ymm"#cr",%%ymm"#dst";" #else #define cont_expacc(cl,cr,dst) "vpermilpd $5,%%ymm"#cr",%%ymm"#cr"; vaddsubpd %%ymm"#cr",%%ymm"#cl",%%ymm"#dst";" #endif #if A_CONJ == 0 #define save_1ymm(c,tmp,off,alpr,alpi,...) \ "vpermilpd $5,%%ymm"#c",%%ymm"#tmp"; vfmsubadd213pd "#off"("#__VA_ARGS__"),%%ymm"#alpr",%%ymm"#c";"\ "vfmsubadd231pd %%ymm"#tmp",%%ymm"#alpi",%%ymm"#c"; vmovupd %%ymm"#c","#off"("#__VA_ARGS__");" #else #define save_1ymm(c,tmp,off,alpr,alpi,...) \ "vpermilpd $5,%%ymm"#c",%%ymm"#tmp"; vfmaddsub213pd "#off"("#__VA_ARGS__"),%%ymm"#alpi",%%ymm"#tmp";"\ "vfmaddsub231pd %%ymm"#c",%%ymm"#alpr",%%ymm"#tmp"; vmovupd %%ymm"#tmp","#off"("#__VA_ARGS__");" #endif #define save_init_m4 "movq %2,%3; addq $64,%2; vbroadcastsd (%6),%%ymm0; vbroadcastsd 8(%6),%%ymm1;" #define SAVE_m4n1 save_init_m4 cont_expacc(4,5,4) cont_expacc(6,7,6) save_1ymm(4,2,0,0,1,%3) save_1ymm(6,3,32,0,1,%3) #define SAVE_m4n2 SAVE_m4n1\ cont_expacc(8,9,8) cont_expacc(10,11,10) save_1ymm(8,2,0,0,1,%3,%4,1) save_1ymm(10,3,32,0,1,%3,%4,1) #define SAVE_m4n4 save_init_m4\ save_1ymm(4,2,0,0,1,%3) save_1ymm(5,3,32,0,1,%3) save_1ymm(6,2,0,0,1,%3,%4,1) save_1ymm(7,3,32,0,1,%3,%4,1) "leaq (%3,%4,2),%3;"\ save_1ymm(8,2,0,0,1,%3) save_1ymm(9,3,32,0,1,%3) save_1ymm(10,2,0,0,1,%3,%4,1) save_1ymm(11,3,32,0,1,%3,%4,1) #define SAVE_m4n6 SAVE_m4n4 "leaq (%3,%4,2),%3;"\ save_1ymm(12,2,0,0,1,%3) save_1ymm(13,3,32,0,1,%3) save_1ymm(14,2,0,0,1,%3,%4,1) save_1ymm(15,3,32,0,1,%3,%4,1) #define COMPUTE_m4(ndim) \ "movq %%r14,%1;" INIT_m4n##ndim "movq %2,%3; movq %%r13,%5;"\ "testq %5,%5; jz "#ndim"4443f; cmpq $10,%5; jb "#ndim"4442f;"\ "movq $10,%5; movq $84,%%r15;"\ #ndim"4441:\n\t"\ "prefetcht1 (%3); subq $63,%3; addq %%r15,%3;"\ KERNEL_k1m4n##ndim KERNEL_k1m4n##ndim\ "testq $12,%5; movq $84,%%r15; cmovz %4,%%r15; prefetcht1 (%8); addq $16,%8;"\ KERNEL_k1m4n##ndim KERNEL_k1m4n##ndim\ "addq $4,%5; cmpq %5,%%r13; jnb "#ndim"4441b;"\ "movq %2,%3; negq %5; leaq 10(%%r13,%5,1),%5; prefetcht0 (%6); prefetcht0 15(%6);"\ #ndim"4442:\n\t"\ "prefetcht0 (%3); prefetcht0 63(%3); addq %4,%3;"\ KERNEL_k1m4n##ndim "decq %5; jnz "#ndim"4442b;"\ #ndim"4443:\n\t"\ "prefetcht0 (%%r14); prefetcht0 64(%%r14);" SAVE_m4n##ndim /* m=2, ymm 0-3 temp, ymm 4-15 acc, expanded accumulators */ #define KERNEL_k1m2n1 \ "vmovddup (%0),%%ymm1; vmovddup 8(%0),%%ymm2; addq $32,%0;"\ "vbroadcastf128 (%1),%%ymm0;" acc_m2n1_exp(1,2,0,4,5) "addq $16,%1;" #define acc_m2n2_exp(c1l,c1r,c2l,c2r,...) \ "vbroadcastf128 ("#__VA_ARGS__"),%%ymm2;" acc_m2n1_exp(0,1,2,c1l,c1r)\ "vbroadcastf128 16("#__VA_ARGS__"),%%ymm3;" acc_m2n1_exp(0,1,3,c2l,c2r) #define KERNEL_h_k1m2n2 \ "vmovddup (%0),%%ymm0; vmovddup 8(%0),%%ymm1; addq $32,%0;" acc_m2n2_exp(4,5,6,7,%1) #define KERNEL_h_k1m2n4 KERNEL_h_k1m2n2 acc_m2n2_exp(8,9,10,11,%1,%%r12,1) #define KERNEL_h_k1m2n6 KERNEL_h_k1m2n4 acc_m2n2_exp(12,13,14,15,%1,%%r12,2) #define KERNEL_k1m2n2 KERNEL_h_k1m2n2 "addq $32,%1;" #define KERNEL_k1m2n4 KERNEL_h_k1m2n4 "addq $32,%1;" #define KERNEL_k1m2n6 KERNEL_h_k1m2n6 "addq $32,%1;" #define INIT_m2n1 "vpxor %%ymm4,%%ymm4,%%ymm4; vpxor %%ymm5,%%ymm5,%%ymm5;" #define INIT_m2n2 zero_4ymm(4,5,6,7) #define INIT_m2n4 INIT_m2n2 zero_4ymm(8,9,10,11) #define INIT_m2n6 INIT_m2n4 zero_4ymm(12,13,14,15) #define save_init_m2 "movq %2,%3; addq $32,%2; vbroadcastsd (%6),%%ymm0; vbroadcastsd 8(%6),%%ymm1;" #define SAVE_m2n1 save_init_m2 cont_expacc(4,5,4) save_1ymm(4,2,0,0,1,%3) #define SAVE_m2n2 SAVE_m2n1 cont_expacc(6,7,6) save_1ymm(6,3,0,0,1,%3,%4,1) #define SAVE_m2n4 SAVE_m2n2 "leaq (%3,%4,2),%3;"\ cont_expacc(8,9,8) cont_expacc(10,11,10) save_1ymm(8,2,0,0,1,%3) save_1ymm(10,3,0,0,1,%3,%4,1) #define SAVE_m2n6 SAVE_m2n4 "leaq (%3,%4,2),%3;"\ cont_expacc(12,13,12) cont_expacc(14,15,14) save_1ymm(12,2,0,0,1,%3) save_1ymm(14,3,0,0,1,%3,%4,1) #define COMPUTE_m2(ndim) \ "movq %%r14,%1;" INIT_m2n##ndim "movq %%r13,%5;"\ "testq %5,%5; jz "#ndim"2222f;"\ #ndim"2221:\n\t"\ KERNEL_k1m2n##ndim\ "decq %5; jnz "#ndim"2221b;"\ #ndim"2222:\n\t"\ SAVE_m2n##ndim /* m=1, vmm 0-3 temp, vmm 4-15 acc, expanded accumulators */ #if A_CONJ == B_CONJ #define acc_m1n1_exp(ar,ai,b2,cl,cr) "vfmadd231pd %%xmm"#ar",%%xmm"#b2",%%xmm"#cl"; vfmadd231pd %%xmm"#ai",%%xmm"#b2",%%xmm"#cr";" #define acc_m1n2_exp(arb,aib,b4,cl,cr) "vfmadd231pd %%ymm"#arb",%%ymm"#b4",%%ymm"#cl"; vfmadd231pd %%ymm"#aib",%%ymm"#b4",%%ymm"#cr";" #else #define acc_m1n1_exp(ar,ai,b2,cl,cr) "vfmadd231pd %%xmm"#ar",%%xmm"#b2",%%xmm"#cl"; vfnmadd231pd %%xmm"#ai",%%xmm"#b2",%%xmm"#cr";" #define acc_m1n2_exp(arb,aib,b4,cl,cr) "vfmadd231pd %%ymm"#arb",%%ymm"#b4",%%ymm"#cl"; vfnmadd231pd %%ymm"#aib",%%ymm"#b4",%%ymm"#cr";" #endif #define KERNEL_k1m1n1 \ "vmovddup (%0),%%xmm0; vmovddup 8(%0),%%xmm1; addq $16,%0;"\ "vmovupd (%1),%%xmm2; addq $16,%1;" acc_m1n1_exp(0,1,2,4,5) #define KERNEL_h_k1m1n2 \ "vbroadcastsd (%0),%%ymm0; vbroadcastsd 8(%0),%%ymm1; addq $16,%0;"\ "vmovupd (%1),%%ymm2;" acc_m1n2_exp(0,1,2,4,5) #define KERNEL_h_k1m1n4 KERNEL_h_k1m1n2 "vmovupd (%1,%%r12,1),%%ymm2;" acc_m1n2_exp(0,1,2,6,7) #define KERNEL_h_k1m1n6 KERNEL_h_k1m1n4 "vmovupd (%1,%%r12,2),%%ymm2;" acc_m1n2_exp(0,1,2,8,9) #define KERNEL_k1m1n2 KERNEL_h_k1m1n2 "addq $32,%1;" #define KERNEL_k1m1n4 KERNEL_h_k1m1n4 "addq $32,%1;" #define KERNEL_k1m1n6 KERNEL_h_k1m1n6 "addq $32,%1;" #define INIT_m1n1 "vpxor %%xmm4,%%xmm4,%%xmm4; vpxor %%xmm5,%%xmm5,%%xmm5;" #define INIT_m1n2 "vpxor %%ymm4,%%ymm4,%%ymm4; vpxor %%ymm5,%%ymm5,%%ymm5;" #define INIT_m1n4 INIT_m1n2 "vpxor %%ymm6,%%ymm6,%%ymm6; vpxor %%ymm7,%%ymm7,%%ymm7;" #define INIT_m1n6 INIT_m1n4 "vpxor %%ymm8,%%ymm8,%%ymm8; vpxor %%ymm9,%%ymm9,%%ymm9;" #if A_CONJ == B_CONJ #define cont_expxmmacc(cl,cr,dst) "vpermilpd $5,%%xmm"#cr",%%xmm"#cr"; vaddsubpd %%xmm"#cl",%%xmm"#cr",%%xmm"#dst";" #else #define cont_expxmmacc(cl,cr,dst) "vpermilpd $5,%%xmm"#cr",%%xmm"#cr"; vaddsubpd %%xmm"#cr",%%xmm"#cl",%%xmm"#dst";" #endif #if A_CONJ == 0 #define save_m1n1(c,tmp,alpr,alpi) \ "vpermilpd $5,%%xmm"#c",%%xmm"#tmp"; vfmsubadd213pd (%3),%%xmm"#alpr",%%xmm"#c";"\ "vfmsubadd231pd %%xmm"#tmp",%%xmm"#alpi",%%xmm"#c"; vmovupd %%xmm"#c",(%3);" #define save_m1n2(c,tmp1,tmp2,alpr,alpi) \ "vpermilpd $5,%%ymm"#c",%%ymm"#tmp1"; vmovupd (%3),%%xmm"#tmp2"; vinsertf128 $1,(%3,%4,1),%%ymm"#tmp2",%%ymm"#tmp2";"\ "vfmsubadd213pd %%ymm"#tmp2",%%ymm"#alpr",%%ymm"#c"; vfmsubadd231pd %%ymm"#tmp1",%%ymm"#alpi",%%ymm"#c";"\ "vmovupd %%xmm"#c",(%3); vextractf128 $1,%%ymm"#c",(%3,%4,1); leaq (%3,%4,2),%3;" #else #define save_m1n1(c,tmp,alpr,alpi) \ "vpermilpd $5,%%xmm"#c",%%xmm"#tmp"; vfmaddsub213pd (%3),%%xmm"#alpi",%%xmm"#tmp";"\ "vfmaddsub231pd %%xmm"#c",%%xmm"#alpr",%%xmm"#tmp"; vmovupd %%xmm"#tmp",(%3);" #define save_m1n2(c,tmp1,tmp2,alpr,alpi) \ "vpermilpd $5,%%ymm"#c",%%ymm"#tmp1"; vmovupd (%3),%%xmm"#tmp2"; vinsertf128 $1,(%3,%4,1),%%ymm"#tmp2",%%ymm"#tmp2";"\ "vfmaddsub213pd %%ymm"#tmp2",%%ymm"#alpi",%%ymm"#tmp1"; vfmaddsub231pd %%ymm"#c",%%ymm"#alpr",%%ymm"#tmp1";"\ "vmovupd %%xmm"#tmp1",(%3); vextractf128 $1,%%ymm"#tmp1",(%3,%4,1); leaq (%3,%4,2),%3;" #endif #define save_init_m1 "movq %2,%3; addq $16,%2; vbroadcastsd (%6),%%ymm0; vbroadcastsd 8(%6),%%ymm1;" #define SAVE_m1n1 save_init_m1 cont_expxmmacc(4,5,4) save_m1n1(4,2,0,1) #define SAVE_m1n2 save_init_m1 cont_expacc(4,5,4) save_m1n2(4,2,3,0,1) #define SAVE_m1n4 SAVE_m1n2 cont_expacc(6,7,6) save_m1n2(6,2,3,0,1) #define SAVE_m1n6 SAVE_m1n4 cont_expacc(8,9,8) save_m1n2(8,2,3,0,1) #define COMPUTE_m1(ndim) \ "movq %%r14,%1;" INIT_m1n##ndim "movq %%r13,%5;"\ "testq %5,%5; jz "#ndim"1112f;"\ #ndim"1111:\n\t"\ KERNEL_k1m1n##ndim\ "decq %5; jnz "#ndim"1111b;"\ #ndim"1112:\n\t"\ SAVE_m1n##ndim #define COMPUTE(ndim) {\ b_pref = b_ptr + ndim * K *2;\ __asm__ __volatile__ (\ "movq %1,%%r14; movq %5,%%r13; movq %5,%%r12; salq $5,%%r12; movq %7,%%r11;"\ "cmpq $4,%7; jb "#ndim"9992f;"\ #ndim"9991:\n\t"\ COMPUTE_m4(ndim)\ "subq $4,%7; cmpq $4,%7; jnb "#ndim"9991b;"\ #ndim"9992:\n\t"\ "cmpq $2,%7; jb "#ndim"9993f;"\ COMPUTE_m2(ndim) "subq $2,%7;"\ #ndim"9993:\n\t"\ "testq %7,%7; jz "#ndim"9994f;"\ COMPUTE_m1(ndim)\ #ndim"9994:\n\t"\ "movq %%r14,%1; movq %%r13,%5; movq %%r11,%7; vzeroupper;"\ :"+r"(a_ptr),"+r"(b_ptr),"+r"(c_ptr),"+r"(c_tmp),"+r"(ldc_in_bytes),"+r"(K),"+r"(alp),"+r"(M),"+r"(b_pref)\ ::"cc","memory","r11","r12","r13","r14","r15","xmm0","xmm1","xmm2","xmm3","xmm4","xmm5",\ "xmm6","xmm7","xmm8","xmm9","xmm10","xmm11","xmm12","xmm13","xmm14","xmm15");\ a_ptr -= M * K *2; b_ptr += ndim * K *2; c_ptr += (ndim * LDC - M) * 2;\ } int __attribute__ ((noinline)) CNAME(BLASLONG m, BLASLONG n, BLASLONG k, double alphar, double alphai, double * __restrict__ A, double * __restrict__ B, double * __restrict__ C, BLASLONG LDC) { if(m==0||n==0||k==0||(alphar==0.0 && alphai==0.0)) return 0; int64_t ldc_in_bytes = (int64_t)LDC * sizeof(double) * 2; #if A_CONJ == B_CONJ double const_val[2] = {-alphar, -alphai}; #else double const_val[2] = {alphar, alphai}; #endif int64_t M = (int64_t)m, K = (int64_t)k; BLASLONG n_count = n; double *a_ptr = A,*b_ptr = B,*c_ptr = C,*c_tmp = C,*alp = const_val,*b_pref = B; for(;n_count>5;n_count-=6) COMPUTE(6) for(;n_count>3;n_count-=4) COMPUTE(4) for(;n_count>1;n_count-=2) COMPUTE(2) if(n_count>0) COMPUTE(1) return 0; }