diff options
Diffstat (limited to 'ggml/src/ggml.c')
| -rw-r--r-- | ggml/src/ggml.c | 45 |
1 files changed, 24 insertions, 21 deletions
diff --git a/ggml/src/ggml.c b/ggml/src/ggml.c index 5026fd27..b9f9b3d8 100644 --- a/ggml/src/ggml.c +++ b/ggml/src/ggml.c @@ -17362,30 +17362,33 @@ static void ggml_compute_forward_flash_attn_ext_f16( if (max_bias <= 0.0f && q->type == GGML_TYPE_F32 && mask && mask->type == GGML_TYPE_F16) { int64_t work_per_slice = D*nek1*neq1; int ntg = 1; - if (nth%8 == 0 && neq1%8 == 0 && work_per_slice >= (1 << 23)) ntg = 8; - else if (nth%4 == 0 && neq1%4 == 0 && work_per_slice >= (1 << 21)) ntg = 4; - else if (nth%2 == 0 && neq1%2 == 0 && work_per_slice >= (1 << 19)) ntg = 2; - if ((neq2*neq3)%(nth/ntg) == 0) { - //if (ith == 0) printf("%s: D = %d, neq2 = %d, neq1 = %d, nek1 = %d, ntg = %d, neq1/ntg = %d\n", __func__, - // (int)D, (int)neq2, (int)neq1, (int)nek1, ntg, (int)(neq1/ntg)); - int counter = 0; - for (int64_t iq3 = 0; iq3 < neq3; iq3++) { - for (int64_t iq2 = 0; iq2 < neq2; iq2++) { - if (counter++ % (nth/ntg) == ith/ntg) { - int iq1 = (ith%ntg)*neq1/ntg; - if (!iqk_flash_attn_noalibi(k->type, v->type, - D, neq1/ntg, nek1, q->nb[1], k->nb[1], v->nb[1], mask->nb[1], ne1*nb1/sizeof(float), - (const float *)((const char *)q->data + iq2*q->nb[2] + iq3*q->nb[3] + iq1*q->nb[1]), - (const void *)((const char *)k->data + iq2/rk2*k->nb[2] + iq3/rk3*k->nb[3]), - (const void *)((const char *)v->data + iq2/rv2*v->nb[2] + iq3/rv3*v->nb[3]), - (const void *)((const char *)mask->data + iq1*mask->nb[1]), - scale, softcap, - (float *)((char *) dst->data + (iq3*ne2*ne1 + iq2 + iq1*ne1)*nb1))) goto IQK_Flash_Attn_NotAvailable; - } + // + // When neq1 is large, it is better to have more than one thread process one (iq2,iq3) matrix + // But we also want each thread to process the same amount of rows, so neq1 must be a multiple of + // the number of threads processing the (iq2, iq3) matrix. + // + if (neq1 >= 8*nth) { + if (nth%8 == 0 && neq1%8 == 0 && work_per_slice >= (1 << 23)) ntg = 8; + else if (nth%4 == 0 && neq1%4 == 0 && work_per_slice >= (1 << 21)) ntg = 4; + else if (nth%2 == 0 && neq1%2 == 0 && work_per_slice >= (1 << 19)) ntg = 2; + } + int counter = 0; + for (int64_t iq3 = 0; iq3 < neq3; iq3++) { + for (int64_t iq2 = 0; iq2 < neq2; iq2++) { + if (counter++ % (nth/ntg) == ith/ntg) { + int iq1 = (ith%ntg)*neq1/ntg; + if (!iqk_flash_attn_noalibi(k->type, v->type, + D, neq1/ntg, nek1, q->nb[1], k->nb[1], v->nb[1], mask->nb[1], ne1*nb1/sizeof(float), + (const float *)((const char *)q->data + iq2*q->nb[2] + iq3*q->nb[3] + iq1*q->nb[1]), + (const void *)((const char *)k->data + iq2/rk2*k->nb[2] + iq3/rk3*k->nb[3]), + (const void *)((const char *)v->data + iq2/rv2*v->nb[2] + iq3/rv3*v->nb[3]), + (const void *)((const char *)mask->data + iq1*mask->nb[1]), + scale, softcap, + (float *)((char *) dst->data + (iq3*ne2*ne1 + iq2 + iq1*ne1)*nb1))) goto IQK_Flash_Attn_NotAvailable; } } - return; } + return; IQK_Flash_Attn_NotAvailable:; } |