#pragma OPENCL EXTENSION cl_khr_fp16 : enable
#pragma OPENCL EXTENSION cl_qcom_reqd_sub_group_size : enable
#ifdef cl_qcom_reqd_sub_group_size
#pragma OPENCL EXTENSION cl_qcom_reqd_sub_group_size : enable
#define ADRENO_GPU 1
#define REQD_SUBGROUP_SIZE_128 __attribute__((qcom_reqd_sub_group_size("full")))
#endif
#ifdef ADRENO_GPU
REQD_SUBGROUP_SIZE_128
#endif
kernel void kernel_gemm_noshuffle_q4_1_f32(
global const ushort * src0_q,
global const half * src0_d,
global const half * src0_m,
read_only image1d_buffer_t src1,
global float * dst,
ulong offsetd,
int m,
int n,
int k,
int n_no_padding
) {
dst = (global float *)((global char *)dst + offsetd)
int m_4 = m >> 2 int n_4 = n >> 2
int gy = get_global_id(0) int gx = get_global_id(1) int gx_2 = gx << 2
half8 c0 = 0, c1 = 0, c2 = 0, c3 = 0 half8 B half4 dequantized_weights
global const ushort* weight_ptr = src0_q + gx_2 global const half* scale_ptr = src0_d + gx_2 global const half* min_ptr = src0_m + gx_2
for(int i = 0 B.s0123 = read_imageh(src1, gy*2 + (i)*(n_4)) B.s4567 = read_imageh(src1, gy*2 + (i)*(n_4)+1)
ushort4 bits4 = vload4(0, weight_ptr + (i/4)*(m))
half4 scale = vload4(0, scale_ptr + (i/32)*(m)) half4 minv = vload4(0, min_ptr + (i/32)*(m))
// j=0
dequantized_weights.s0 = (bits4.s0 & (0x000F)) * scale.s0 + minv.s0 dequantized_weights.s1 = (bits4.s1 & (0x000F)) * scale.s1 + minv.s1 dequantized_weights.s2 = (bits4.s2 & (0x000F)) * scale.s2 + minv.s2 dequantized_weights.s3 = (bits4.s3 & (0x000F)) * scale.s3 + minv.s3 c0 += B * dequantized_weights.s0 c1 += B * dequantized_weights.s1 c2 += B * dequantized_weights.s2 c3 += B * dequantized_weights.s3
// j=1
B.s0123 = read_imageh(src1, gy*2 + (i+1)*(n_4)) B.s4567 = read_imageh(src1, gy*2 + (i+1)*(n_4)+1) dequantized_weights.s0 = ((bits4.s0 & (0x00F0)) >> 4) * scale.s0 + minv.s0 dequantized_weights.s1 = ((bits4.s1 & (0x00F0)) >> 4) * scale.s1 + minv.s1 dequantized_weights.s2 = ((bits4.s2 & (0x00F0)) >> 4) * scale.s2 + minv.s2 dequantized_weights.s3 = ((bits4.s3 & (0x00F0)) >> 4) * scale.s3 + minv.s3 c0 += B * dequantized_weights.s0 c1 += B * dequantized_weights.s1 c2 += B * dequantized_weights.s2 c3 += B * dequantized_weights.s3
// j=2
B.s0123 = read_imageh(src1, gy*2 + (i+2)*(n_4)) B.s4567 = read_imageh(src1, gy*2 + (i+2)*(n_4)+1) dequantized_weights.s0 = ((bits4.s0 & (0x0F00)) >> 8) * scale.s0 + minv.s0 dequantized_weights.s1 = ((bits4.s1 & (0x0F00)) >> 8) * scale.s1 + minv.s1 dequantized_weights.s2 = ((bits4.s2 & (0x0F00)) >> 8) * scale.s2 + minv.s2 dequantized_weights.s3 = ((bits4.s3 & (0x0F00)) >> 8) * scale.s3 + minv.s3 c0 += B * dequantized_weights.s0 c1 += B * dequantized_weights.s1 c2 += B * dequantized_weights.s2 c3 += B * dequantized_weights.s3
// j=3
B.s0123 = read_imageh(src1, gy*2 + (i+3)*(n_4)) B.s4567 = read_imageh(src1, gy*2 + (i+3)*(n_4)+1) dequantized_weights.s0 = ((bits4.s0 & (0xF000)) >> 12) * scale.s0 + minv.s0 dequantized_weights.s1 = ((bits4.s1 & (0xF000)) >> 12) * scale.s1 + minv.s1 dequantized_weights.s2 = ((bits4.s2 & (0xF000)) >> 12) * scale.s2 + minv.s2 dequantized_weights.s3 = ((bits4.s3 & (0xF000)) >> 12) * scale.s3 + minv.s3 c0 += B * dequantized_weights.s0 c1 += B * dequantized_weights.s1 c2 += B * dequantized_weights.s2 c3 += B * dequantized_weights.s3 }
int idx = (gy<<3)*m + (gx<<2)
if(idx+3 < m*n_no_padding){
vstore4((float4)(c0.s0, c1.s0, c2.s0, c3.s0), 0, dst + idx) idx += m }
if(idx+3 < m*n_no_padding){
vstore4((float4)(c0.s1, c1.s1, c2.s1, c3.s1), 0, dst + idx) idx += m }
if(idx+3 < m*n_no_padding){
vstore4((float4)(c0.s2, c1.s2, c2.s2, c3.s2), 0, dst + idx) idx += m }
if(idx+3 < m*n_no_padding){
vstore4((float4)(c0.s3, c1.s3, c2.s3, c3.s3), 0, dst + idx) idx += m }
if(idx+3 < m*n_no_padding){
vstore4((float4)(c0.s4, c1.s4, c2.s4, c3.s4), 0, dst + idx) idx += m }
if(idx+3 < m*n_no_padding){
vstore4((float4)(c0.s5, c1.s5, c2.s5, c3.s5), 0, dst + idx) idx += m }
if(idx+3 < m*n_no_padding){
vstore4((float4)(c0.s6, c1.s6, c2.s6, c3.s6), 0, dst + idx) idx += m }
if(idx+3 < m*n_no_padding){
vstore4((float4)(c0.s7, c1.s7, c2.s7, c3.s7), 0, dst + idx) }
}