#pragma OPENCL EXTENSION cl_khr_fp16 : enable #pragma OPENCL EXTENSION cl_khr_subgroups : enable #pragma OPENCL EXTENSION cl_qcom_subgroup_uniform_load: enable #pragma OPENCL EXTENSION cl_qcom_subgroup_constant_load: enable #pragma OPENCL EXTENSION cl_qcom_extra_vector_types : enable #pragma OPENCL EXTENSION cl_qcom_reqd_sub_group_size : enable // assume #define QK4_0 32 #define N_SIMDGROUP 4 #define dequantizeBlockAccum_ns_sgbroadcast_1_hi(total_sums, bits4, scale, y) \ float shared_y; \ shared_y = sub_group_broadcast(y.s0, 0); \ total_sums.s0 += ((bits4.s0 & 0x000F) - 8) * scale.s0 * shared_y; \ total_sums.s1 += ((bits4.s1 & 0x000F) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s1, 0); \ total_sums.s0 += (((bits4.s0 & 0x00F0) >> 4) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s1 & 0x00F0) >> 4) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s2, 0); \ total_sums.s0 += (((bits4.s0 & 0x0F00) >> 8) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s1 & 0x0F00) >> 8) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s3, 0); \ total_sums.s0 += (((bits4.s0 & 0xF000) >> 12) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s1 & 0xF000) >> 12) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s4, 0); \ total_sums.s0 += ((bits4.s2 & 0x000F) - 8) * scale.s0 * shared_y; \ total_sums.s1 += ((bits4.s3 & 0x000F) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s5, 0); \ total_sums.s0 += (((bits4.s2 & 0x00F0) >> 4) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s3 & 0x00F0) >> 4) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s6, 0); \ total_sums.s0 += (((bits4.s2 & 0x0F00) >> 8) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s3 & 0x0F00) >> 8) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s7, 0); \ total_sums.s0 += (((bits4.s2 & 0xF000) >> 12) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s3 & 0xF000) >> 12) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s0, 1); \ total_sums.s0 += ((bits4.s4 & 0x000F) - 8) * scale.s0 * shared_y; \ total_sums.s1 += ((bits4.s5 & 0x000F) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s1, 1); \ total_sums.s0 += (((bits4.s4 & 0x00F0) >> 4) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s5 & 0x00F0) >> 4) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s2, 1); \ total_sums.s0 += (((bits4.s4 & 0x0F00) >> 8) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s5 & 0x0F00) >> 8) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s3, 1); \ total_sums.s0 += (((bits4.s4 & 0xF000) >> 12) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s5 & 0xF000) >> 12) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s4, 1); \ total_sums.s0 += ((bits4.s6 & 0x000F) - 8) * scale.s0 * shared_y; \ total_sums.s1 += ((bits4.s7 & 0x000F) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s5, 1); \ total_sums.s0 += (((bits4.s6 & 0x00F0) >> 4) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s7 & 0x00F0) >> 4) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s6, 1); \ total_sums.s0 += (((bits4.s6 & 0x0F00) >> 8) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s7 & 0x0F00) >> 8) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s7, 1); \ total_sums.s0 += (((bits4.s6 & 0xF000) >> 12) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s7 & 0xF000) >> 12) - 8) * scale.s1 * shared_y; \ #define dequantizeBlockAccum_ns_sgbroadcast_1_lo(total_sums, bits4, scale, y) \ shared_y = sub_group_broadcast(y.s0, 2); \ total_sums.s0 += ((bits4.s0 & 0x000F) - 8) * scale.s0 * shared_y; \ total_sums.s1 += ((bits4.s1 & 0x000F) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s1, 2); \ total_sums.s0 += (((bits4.s0 & 0x00F0) >> 4) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s1 & 0x00F0) >> 4) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s2, 2); \ total_sums.s0 += (((bits4.s0 & 0x0F00) >> 8) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s1 & 0x0F00) >> 8) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s3, 2); \ total_sums.s0 += (((bits4.s0 & 0xF000) >> 12) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s1 & 0xF000) >> 12) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s4, 2); \ total_sums.s0 += ((bits4.s2 & 0x000F) - 8) * scale.s0 * shared_y; \ total_sums.s1 += ((bits4.s3 & 0x000F) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s5, 2); \ total_sums.s0 += (((bits4.s2 & 0x00F0) >> 4) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s3 & 0x00F0) >> 4) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s6, 2); \ total_sums.s0 += (((bits4.s2 & 0x0F00) >> 8) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s3 & 0x0F00) >> 8) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s7, 2); \ total_sums.s0 += (((bits4.s2 & 0xF000) >> 12) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s3 & 0xF000) >> 12) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s0, 3); \ total_sums.s0 += ((bits4.s4 & 0x000F) - 8) * scale.s0 * shared_y; \ total_sums.s1 += ((bits4.s5 & 0x000F) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s1, 3); \ total_sums.s0 += (((bits4.s4 & 0x00F0) >> 4) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s5 & 0x00F0) >> 4) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s2, 3); \ total_sums.s0 += (((bits4.s4 & 0x0F00) >> 8) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s5 & 0x0F00) >> 8) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s3, 3); \ total_sums.s0 += (((bits4.s4 & 0xF000) >> 12) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s5 & 0xF000) >> 12) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s4, 3); \ total_sums.s0 += ((bits4.s6 & 0x000F) - 8) * scale.s0 * shared_y; \ total_sums.s1 += ((bits4.s7 & 0x000F) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s5, 3); \ total_sums.s0 += (((bits4.s6 & 0x00F0) >> 4) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s7 & 0x00F0) >> 4) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s6, 3); \ total_sums.s0 += (((bits4.s6 & 0x0F00) >> 8) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s7 & 0x0F00) >> 8) - 8) * scale.s1 * shared_y; \ shared_y = sub_group_broadcast(y.s7, 3); \ total_sums.s0 += (((bits4.s6 & 0xF000) >> 12) - 8) * scale.s0 * shared_y; \ total_sums.s1 += (((bits4.s7 & 0xF000) >> 12) - 8) * scale.s1 * shared_y; \ #define dequantizeBlockAccum_ns_sgbroadcast_8_hi(total_sums, bits4, scale, y) \ float8 shared_y; \ shared_y = sub_group_broadcast(y, 0); \ total_sums.s0 += ((bits4.s0 & 0x000F) - 8) * scale.s0 * shared_y.s0; \ total_sums.s0 += (((bits4.s0 & 0x00F0) >> 4) - 8) * scale.s0 * shared_y.s1; \ total_sums.s0 += (((bits4.s0 & 0x0F00) >> 8) - 8) * scale.s0 * shared_y.s2; \ total_sums.s0 += (((bits4.s0 & 0xF000) >> 12) - 8) * scale.s0 * shared_y.s3; \ total_sums.s0 += ((bits4.s2 & 0x000F) - 8) * scale.s0 * shared_y.s4; \ total_sums.s0 += (((bits4.s2 & 0x00F0) >> 4) - 8) * scale.s0 * shared_y.s5; \ total_sums.s0 += (((bits4.s2 & 0x0F00) >> 8) - 8) * scale.s0 * shared_y.s6; \ total_sums.s0 += (((bits4.s2 & 0xF000) >> 12) - 8) * scale.s0 * shared_y.s7; \ total_sums.s1 += ((bits4.s1 & 0x000F) - 8) * scale.s1 * shared_y.s0; \ total_sums.s1 += (((bits4.s1 & 0x00F0) >> 4) - 8) * scale.s1 * shared_y.s1; \ total_sums.s1 += (((bits4.s1 & 0x0F00) >> 8) - 8) * scale.s1 * shared_y.s2; \ total_sums.s1 += (((bits4.s1 & 0xF000) >> 12) - 8) * scale.s1 * shared_y.s3; \ total_sums.s1 += ((bits4.s3 & 0x000F) - 8) * scale.s1 * shared_y.s4; \ total_sums.s1 += (((bits4.s3 & 0x00F0) >> 4) - 8) * scale.s1 * shared_y.s5; \ total_sums.s1 += (((bits4.s3 & 0x0F00) >> 8) - 8) * scale.s1 * shared_y.s6; \ total_sums.s1 += (((bits4.s3 & 0xF000) >> 12) - 8) * scale.s1 * shared_y.s7; \ shared_y = sub_group_broadcast(y, 1); \ total_sums.s0 += ((bits4.s4 & 0x000F) - 8) * scale.s0 * shared_y.s0; \ total_sums.s0 += (((bits4.s4 & 0x00F0) >> 4) - 8) * scale.s0 * shared_y.s1; \ total_sums.s0 += (((bits4.s4 & 0x0F00) >> 8) - 8) * scale.s0 * shared_y.s2; \ total_sums.s0 += (((bits4.s4 & 0xF000) >> 12) - 8) * scale.s0 * shared_y.s3; \ total_sums.s0 += ((bits4.s6 & 0x000F) - 8) * scale.s0 * shared_y.s4; \ total_sums.s0 += (((bits4.s6 & 0x00F0) >> 4) - 8) * scale.s0 * shared_y.s5; \ total_sums.s0 += (((bits4.s6 & 0x0F00) >> 8) - 8) * scale.s0 * shared_y.s6; \ total_sums.s0 += (((bits4.s6 & 0xF000) >> 12) - 8) * scale.s0 * shared_y.s7; \ total_sums.s1 += ((bits4.s5 & 0x000F) - 8) * scale.s1 * shared_y.s0; \ total_sums.s1 += (((bits4.s5 & 0x00F0) >> 4) - 8) * scale.s1 * shared_y.s1; \ total_sums.s1 += (((bits4.s5 & 0x0F00) >> 8) - 8) * scale.s1 * shared_y.s2; \ total_sums.s1 += (((bits4.s5 & 0xF000) >> 12) - 8) * scale.s1 * shared_y.s3; \ total_sums.s1 += ((bits4.s7 & 0x000F) - 8) * scale.s1 * shared_y.s4; \ total_sums.s1 += (((bits4.s7 & 0x00F0) >> 4) - 8) * scale.s1 * shared_y.s5; \ total_sums.s1 += (((bits4.s7 & 0x0F00) >> 8) - 8) * scale.s1 * shared_y.s6; \ total_sums.s1 += (((bits4.s7 & 0xF000) >> 12) - 8) * scale.s1 * shared_y.s7; \ #define dequantizeBlockAccum_ns_sgbroadcast_8_lo(total_sums, bits4, scale, y) \ shared_y = sub_group_broadcast(y, 2); \ total_sums.s0 += ((bits4.s0 & 0x000F) - 8) * scale.s0 * shared_y.s0; \ total_sums.s0 += (((bits4.s0 & 0x00F0) >> 4) - 8) * scale.s0 * shared_y.s1; \ total_sums.s0 += (((bits4.s0 & 0x0F00) >> 8) - 8) * scale.s0 * shared_y.s2; \ total_sums.s0 += (((bits4.s0 & 0xF000) >> 12) - 8) * scale.s0 * shared_y.s3; \ total_sums.s0 += ((bits4.s2 & 0x000F) - 8) * scale.s0 * shared_y.s4; \ total_sums.s0 += (((bits4.s2 & 0x00F0) >> 4) - 8) * scale.s0 * shared_y.s5; \ total_sums.s0 += (((bits4.s2 & 0x0F00) >> 8) - 8) * scale.s0 * shared_y.s6; \ total_sums.s0 += (((bits4.s2 & 0xF000) >> 12) - 8) * scale.s0 * shared_y.s7; \ total_sums.s1 += ((bits4.s1 & 0x000F) - 8) * scale.s1 * shared_y.s0; \ total_sums.s1 += (((bits4.s1 & 0x00F0) >> 4) - 8) * scale.s1 * shared_y.s1; \ total_sums.s1 += (((bits4.s1 & 0x0F00) >> 8) - 8) * scale.s1 * shared_y.s2; \ total_sums.s1 += (((bits4.s1 & 0xF000) >> 12) - 8) * scale.s1 * shared_y.s3; \ total_sums.s1 += ((bits4.s3 & 0x000F) - 8) * scale.s1 * shared_y.s4; \ total_sums.s1 += (((bits4.s3 & 0x00F0) >> 4) - 8) * scale.s1 * shared_y.s5; \ total_sums.s1 += (((bits4.s3 & 0x0F00) >> 8) - 8) * scale.s1 * shared_y.s6; \ total_sums.s1 += (((bits4.s3 & 0xF000) >> 12) - 8) * scale.s1 * shared_y.s7; \ shared_y = sub_group_broadcast(y, 3); \ total_sums.s0 += ((bits4.s4 & 0x000F) - 8) * scale.s0 * shared_y.s0; \ total_sums.s0 += (((bits4.s4 & 0x00F0) >> 4) - 8) * scale.s0 * shared_y.s1; \ total_sums.s0 += (((bits4.s4 & 0x0F00) >> 8) - 8) * scale.s0 * shared_y.s2; \ total_sums.s0 += (((bits4.s4 & 0xF000) >> 12) - 8) * scale.s0 * shared_y.s3; \ total_sums.s0 += ((bits4.s6 & 0x000F) - 8) * scale.s0 * shared_y.s4; \ total_sums.s0 += (((bits4.s6 & 0x00F0) >> 4) - 8) * scale.s0 * shared_y.s5; \ total_sums.s0 += (((bits4.s6 & 0x0F00) >> 8) - 8) * scale.s0 * shared_y.s6; \ total_sums.s0 += (((bits4.s6 & 0xF000) >> 12) - 8) * scale.s0 * shared_y.s7; \ total_sums.s1 += ((bits4.s5 & 0x000F) - 8) * scale.s1 * shared_y.s0; \ total_sums.s1 += (((bits4.s5 & 0x00F0) >> 4) - 8) * scale.s1 * shared_y.s1; \ total_sums.s1 += (((bits4.s5 & 0x0F00) >> 8) - 8) * scale.s1 * shared_y.s2; \ total_sums.s1 += (((bits4.s5 & 0xF000) >> 12) - 8) * scale.s1 * shared_y.s3; \ total_sums.s1 += ((bits4.s7 & 0x000F) - 8) * scale.s1 * shared_y.s4; \ total_sums.s1 += (((bits4.s7 & 0x00F0) >> 4) - 8) * scale.s1 * shared_y.s5; \ total_sums.s1 += (((bits4.s7 & 0x0F00) >> 8) - 8) * scale.s1 * shared_y.s6; \ total_sums.s1 += (((bits4.s7 & 0xF000) >> 12) - 8) * scale.s1 * shared_y.s7; \ __attribute__((qcom_reqd_sub_group_size("full"))) __kernel void kernel_gemv_noshuffle( __read_only image1d_buffer_t src0_q, // quantized A global half2 * src0_d, // A scales __read_only image1d_buffer_t src1, // B ulong offset1, // offset to B (0) global float * dst, // C ulong offsetd, // offset to C (0) int ne00, // K int ne01, // M int ne02, // 1 int ne10, // K int ne12, // 1 int ne0, // M int ne1, // N int r2, // 1 int r3) { uint groupId = get_local_id(1); uint gid = get_global_id(0); ushort slid = get_sub_group_local_id(); uint K = ne00; uint M = ne01; uint LINE_STRIDE_A = M / 2; uint BLOCK_STRIDE_A = N_SIMDGROUP * M; __private uint4 regA; __private half2 regS; __private float8 regB; __private float2 totalSum = (float2)(0.0f); // loop along K in block granularity, skip 4 blocks every iter for (uint k = groupId; k < (K / QK4_0); k += N_SIMDGROUP) { regS = src0_d[gid + k * LINE_STRIDE_A]; // each fiber loads scale of two rows // first 4 fibers in each wave load 8 B values to its private scope if (slid < 4) { regB.s0123 = read_imagef(src1, (slid * 2 + k * 8)); regB.s4567 = read_imagef(src1, (1 + slid * 2 + k * 8)); } // load half weights for two blocks in consecutive rows regA.s0 = read_imageui(src0_q, (gid + k * BLOCK_STRIDE_A + LINE_STRIDE_A * 0)).x; regA.s1 = read_imageui(src0_q, (gid + k * BLOCK_STRIDE_A + LINE_STRIDE_A * 1)).x; regA.s2 = read_imageui(src0_q, (gid + k * BLOCK_STRIDE_A + LINE_STRIDE_A * 2)).x; regA.s3 = read_imageui(src0_q, (gid + k * BLOCK_STRIDE_A + LINE_STRIDE_A * 3)).x; #ifdef VECTOR_SUB_GROUP_BROADCAT dequantizeBlockAccum_ns_sgbroadcast_8_hi(totalSum, as_ushort8(regA), regS, regB); #else dequantizeBlockAccum_ns_sgbroadcast_1_hi(totalSum, as_ushort8(regA), regS, regB); #endif // VECTOR_SUB_GROUP_BROADCAT regA.s0 = read_imageui(src0_q, (gid + k * BLOCK_STRIDE_A + LINE_STRIDE_A * 4)).x; regA.s1 = read_imageui(src0_q, (gid + k * BLOCK_STRIDE_A + LINE_STRIDE_A * 5)).x; regA.s2 = read_imageui(src0_q, (gid + k * BLOCK_STRIDE_A + LINE_STRIDE_A * 6)).x; regA.s3 = read_imageui(src0_q, (gid + k * BLOCK_STRIDE_A + LINE_STRIDE_A * 7)).x; #ifdef VECTOR_SUB_GROUP_BROADCAT dequantizeBlockAccum_ns_sgbroadcast_8_lo(totalSum, as_ushort8(regA), regS, regB); #else dequantizeBlockAccum_ns_sgbroadcast_1_lo(totalSum, as_ushort8(regA), regS, regB); #endif // VECTOR_SUB_GROUP_BROADCAT } // reduction in local memory, assumes #wave=4 __local float2 reduceLM[SIMDGROUP_WIDTH * 3]; if (groupId == 1) reduceLM[SIMDGROUP_WIDTH * 0 + slid] = totalSum; if (groupId == 2) reduceLM[SIMDGROUP_WIDTH * 1 + slid] = totalSum; if (groupId == 3) reduceLM[SIMDGROUP_WIDTH * 2 + slid] = totalSum; barrier(CLK_LOCAL_MEM_FENCE); if (groupId == 0) totalSum += reduceLM[SIMDGROUP_WIDTH * 0 + slid]; if (groupId == 0) totalSum += reduceLM[SIMDGROUP_WIDTH * 1 + slid]; if (groupId == 0) totalSum += reduceLM[SIMDGROUP_WIDTH * 2 + slid]; // 2 outputs per fiber in wave 0 if (groupId == 0) { dst = (global float*)((global char*)dst + offsetd); vstore2(totalSum, 0, &(dst[gid * 2])); } }