| | #include "softmax.hpp" |
| |
|
| | template <bool vals_smem, int ncols_template, int block_size_template, typename T> |
| | static void soft_max_f32(const float * x, const T * mask, float * dst, const int ncols_par, |
| | const int nrows_y, const float scale, const float max_bias, const float m0, |
| | const float m1, uint32_t n_head_log2, const sycl::nd_item<3> &item_ct1, float *buf) { |
| | const int ncols = ncols_template == 0 ? ncols_par : ncols_template; |
| |
|
| | const int tid = item_ct1.get_local_id(2); |
| | const int rowx = item_ct1.get_group(2); |
| | const int rowy = rowx % nrows_y; |
| |
|
| | const int block_size = block_size_template == 0 ? item_ct1.get_local_range(2) : block_size_template; |
| |
|
| | const int warp_id = item_ct1.get_local_id(2) / WARP_SIZE; |
| | const int lane_id = item_ct1.get_local_id(2) % WARP_SIZE; |
| | const int nthreads = block_size; |
| | const int nwarps = nthreads / WARP_SIZE; |
| | size_t nreduce = nwarps / WARP_SIZE; |
| | float slope = 1.0f; |
| |
|
| | |
| | if (max_bias > 0.0f) { |
| | const uint32_t h = rowx/nrows_y; |
| |
|
| | const float base = h < n_head_log2 ? m0 : m1; |
| | const int exp = h < n_head_log2 ? h + 1 : 2*(h - n_head_log2) + 1; |
| |
|
| | slope = sycl::pow(base, float(exp)); |
| | } |
| |
|
| | float *vals = vals_smem ? buf + sycl::max(nwarps, WARP_SIZE) : dst + rowx * ncols; |
| | float max_val = -INFINITY; |
| |
|
| | for (int col0 = 0; col0 < ncols; col0 += block_size) { |
| | const int col = col0 + tid; |
| |
|
| | if (ncols_template == 0 && col >= ncols) { |
| | break; |
| | } |
| |
|
| | const int ix = rowx*ncols + col; |
| | const int iy = rowy*ncols + col; |
| |
|
| | const float val = x[ix]*scale + (mask ? slope*static_cast<float>(mask[iy]) : 0.0f); |
| |
|
| | vals[col] = val; |
| | max_val = sycl::max(max_val, val); |
| | } |
| |
|
| | |
| | max_val = warp_reduce_max(max_val, item_ct1); |
| | if (block_size > WARP_SIZE) { |
| | if (warp_id == 0) { |
| | buf[lane_id] = -INFINITY; |
| | for (size_t i = 1; i < nreduce; i += 1) { |
| | buf[lane_id + i * WARP_SIZE] = -INFINITY; |
| | } |
| | } |
| | item_ct1.barrier(sycl::access::fence_space::local_space); |
| |
|
| | if (lane_id == 0) { |
| | buf[warp_id] = max_val; |
| | } |
| | item_ct1.barrier(sycl::access::fence_space::local_space); |
| | max_val = buf[lane_id]; |
| | for (size_t i = 1; i < nreduce; i += 1) { |
| | max_val = sycl::max(max_val, buf[lane_id + i * WARP_SIZE]); |
| | } |
| | max_val = warp_reduce_max(max_val, item_ct1); |
| | } |
| |
|
| | float tmp = 0.f; |
| | #pragma unroll |
| | for (int col0 = 0; col0 < ncols; col0 += block_size) { |
| | const int col = col0 + tid; |
| | if (ncols_template == 0 && col >= ncols) { |
| | break; |
| | } |
| |
|
| | const float val = sycl::native::exp(vals[col] - max_val); |
| | tmp += val; |
| | vals[col] = val; |
| | } |
| |
|
| | |
| | tmp = warp_reduce_sum(tmp, item_ct1); |
| | if (block_size > WARP_SIZE) { |
| | item_ct1.barrier(sycl::access::fence_space::local_space); |
| | if (warp_id == 0) { |
| | buf[lane_id] = 0.f; |
| | for (size_t i = 1; i < nreduce; i += 1) { |
| | buf[lane_id + i * WARP_SIZE] = 0.f; |
| | } |
| | } |
| | item_ct1.barrier(sycl::access::fence_space::local_space); |
| |
|
| | if (lane_id == 0) { |
| | buf[warp_id] = tmp; |
| | } |
| | item_ct1.barrier(sycl::access::fence_space::local_space); |
| |
|
| | tmp = buf[lane_id]; |
| | for (size_t i = 1; i < nreduce; i += 1) { |
| | tmp += buf[lane_id + i * WARP_SIZE]; |
| | } |
| | tmp = warp_reduce_sum(tmp, item_ct1); |
| | } |
| |
|
| | const float inv_sum = 1.f / tmp; |
| |
|
| | #pragma unroll |
| | for (int col0 = 0; col0 < ncols; col0 += block_size) { |
| | const int col = col0 + tid; |
| |
|
| | if (ncols_template == 0 && col >= ncols) { |
| | return; |
| | } |
| |
|
| | const int idst = rowx*ncols + col; |
| | dst[idst] = vals[col] * inv_sum; |
| | } |
| | } |
| |
|
| | template <bool vals_smem, int ncols_template, int block_size_template, typename T> |
| | static void soft_max_f32_submitter(const float * x, const T * mask, float * dst, const int ncols_par, |
| | const int nrows_y, const float scale, const float max_bias, const float m0, |
| | const float m1, uint32_t n_head_log2, sycl::range<3> block_nums, sycl::range<3> block_dims, |
| | const size_t n_local_scratch, queue_ptr stream) { |
| | stream->submit([&](sycl::handler &cgh) { |
| | sycl::local_accessor<float, 1> local_buf_acc(n_local_scratch, cgh); |
| |
|
| | cgh.parallel_for( |
| | sycl::nd_range<3>(block_nums * block_dims, block_dims), |
| | [=](sycl::nd_item<3> item_ct1) [[intel::reqd_sub_group_size(WARP_SIZE)]] { |
| | soft_max_f32<vals_smem, ncols_template, block_size_template>(x, mask, dst, ncols_par, |
| | nrows_y, scale, max_bias, m0, |
| | m1, n_head_log2, item_ct1, |
| | get_pointer(local_buf_acc)); |
| | }); |
| | }); |
| | } |
| |
|
| | template<typename T> |
| | static void soft_max_f32_sycl(const float * x, const T * mask, |
| | float * dst, const int ncols_x, const int nrows_x, |
| | const int nrows_y, const float scale, const float max_bias, |
| | queue_ptr stream, int device) { |
| | int nth = WARP_SIZE; |
| | int max_block_size = ggml_sycl_info().max_work_group_sizes[device]; |
| | while (nth < ncols_x && nth < max_block_size) nth *= 2; |
| | if (nth>max_block_size) nth = max_block_size; |
| |
|
| | const sycl::range<3> block_dims(1, 1, nth); |
| | const sycl::range<3> block_nums(1, 1, nrows_x); |
| | const size_t n_val_tmp = nth / WARP_SIZE; |
| | const size_t n_local_scratch = (GGML_PAD(ncols_x, WARP_SIZE) + n_val_tmp); |
| |
|
| | const uint32_t n_head_kv = nrows_x/nrows_y; |
| | const uint32_t n_head_log2 = 1u << (uint32_t) floorf(log2f((float) n_head_kv)); |
| |
|
| | const float m0 = powf(2.0f, -(max_bias ) / n_head_log2); |
| | const float m1 = powf(2.0f, -(max_bias / 2.0f) / n_head_log2); |
| |
|
| | const size_t local_mem_size = stream->get_device().get_info<sycl::info::device::local_mem_size>(); |
| | if (n_local_scratch*sizeof(float) < local_mem_size) { |
| | if (ncols_x > max_block_size) { |
| | soft_max_f32_submitter<true, 0, 0>(x, mask, dst, ncols_x, nrows_y, scale, |
| | max_bias, m0, m1, n_head_log2, block_nums, |
| | block_dims, n_local_scratch, stream); |
| | return; |
| | } |
| | switch (ncols_x) { |
| | case 32: |
| | soft_max_f32_submitter<true, 32, 32>(x, mask, dst, ncols_x, nrows_y, scale, |
| | max_bias, m0, m1, n_head_log2, block_nums, |
| | block_dims, n_local_scratch, stream); |
| | break; |
| | case 64: |
| | soft_max_f32_submitter<true, 64, 64>(x, mask, dst, ncols_x, nrows_y, scale, |
| | max_bias, m0, m1, n_head_log2, block_nums, |
| | block_dims, n_local_scratch, stream); |
| | break; |
| | case 128: |
| | soft_max_f32_submitter<true, 128, 128>(x, mask, dst, ncols_x, nrows_y, scale, |
| | max_bias, m0, m1, n_head_log2, block_nums, |
| | block_dims, n_local_scratch, stream); |
| | break; |
| | case 256: |
| | soft_max_f32_submitter<true, 256, 256>(x, mask, dst, ncols_x, nrows_y, scale, |
| | max_bias, m0, m1, n_head_log2, block_nums, |
| | block_dims, n_local_scratch, stream); |
| | break; |
| | case 512: |
| | soft_max_f32_submitter<true, 512, 512>(x, mask, dst, ncols_x, nrows_y, scale, |
| | max_bias, m0, m1, n_head_log2, block_nums, |
| | block_dims, n_local_scratch, stream); |
| | break; |
| | case 1024: |
| | soft_max_f32_submitter<true, 1024, 1024>(x, mask, dst, ncols_x, nrows_y, scale, |
| | max_bias, m0, m1, n_head_log2, block_nums, |
| | block_dims, n_local_scratch, stream); |
| | break; |
| | case 2048: |
| | soft_max_f32_submitter<true, 2048, 1024>(x, mask, dst, ncols_x, nrows_y, scale, |
| | max_bias, m0, m1, n_head_log2, block_nums, |
| | block_dims, n_local_scratch, stream); |
| | break; |
| | case 4096: |
| | soft_max_f32_submitter<true, 4096, 1024>(x, mask, dst, ncols_x, nrows_y, scale, |
| | max_bias, m0, m1, n_head_log2, block_nums, |
| | block_dims, n_local_scratch, stream); |
| | break; |
| | default: |
| | soft_max_f32_submitter<true, 0, 0>(x, mask, dst, ncols_x, nrows_y, scale, |
| | max_bias, m0, m1, n_head_log2, block_nums, |
| | block_dims, n_local_scratch, stream); |
| | break; |
| | } |
| | } else { |
| | soft_max_f32_submitter<false, 0, 0>(x, mask, dst, ncols_x, nrows_y, scale, |
| | max_bias, m0, m1, n_head_log2, block_nums, |
| | block_dims, WARP_SIZE, stream); |
| | } |
| | } |
| |
|
| | void ggml_sycl_op_soft_max(ggml_backend_sycl_context & ctx, ggml_tensor * dst) { |
| |
|
| | GGML_ASSERT(dst->src[0]->type == GGML_TYPE_F32); |
| | GGML_ASSERT( dst->type == GGML_TYPE_F32); |
| |
|
| | GGML_ASSERT(!dst->src[1] || dst->src[1]->type == GGML_TYPE_F16 || dst->src[1]->type == GGML_TYPE_F32); |
| |
|
| | const int64_t ne00 = dst->src[0]->ne[0]; |
| | const int64_t nrows_x = ggml_nrows(dst->src[0]); |
| | const int64_t nrows_y = dst->src[0]->ne[1]; |
| |
|
| | float scale = 1.0f; |
| | float max_bias = 0.0f; |
| |
|
| | memcpy(&scale, dst->op_params + 0, sizeof(float)); |
| | memcpy(&max_bias, dst->op_params + 1, sizeof(float)); |
| |
|
| | const float * src0_dd = static_cast<const float *>(dst->src[0]->data); |
| | float * dst_dd = static_cast<float *>(dst->data); |
| |
|
| | ggml_sycl_set_device(ctx.device); |
| | dpct::queue_ptr main_stream = ctx.stream(); |
| |
|
| | if (dst->src[1] && dst->src[1]->type == GGML_TYPE_F16) { |
| | const sycl::half * src1_dd = static_cast<sycl::half *>(dst->src[1]->data); |
| | soft_max_f32_sycl<sycl::half>(src0_dd, src1_dd, dst_dd, ne00, nrows_x, nrows_y, scale, max_bias, |
| | main_stream, ctx.device); |
| | } else if (dst->src[1] && dst->src[1]->type == GGML_TYPE_F32) { |
| | const float * src1_dd = static_cast<const float *>(dst->src[1]->data); |
| | soft_max_f32_sycl<float>(src0_dd, src1_dd, dst_dd, ne00, nrows_x, nrows_y, scale, max_bias, main_stream, ctx.device); |
| | } else { |
| | |
| | soft_max_f32_sycl<float>(src0_dd, nullptr, dst_dd, ne00, nrows_x, nrows_y, scale, max_bias, main_stream, ctx.device); |
| | } |
| | } |
| |
|
