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llama.cpp
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llama.cpp/ggml/src/ggml-opencl/kernels/transpose.cl

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#pragma OPENCL EXTENSION cl_khr_fp16 : enable
// 16-bit transpose, loading/storing a 4x4 tile of elements
kernel void kernel_transpose_16(
__read_only image1d_buffer_t input,
__write_only image1d_buffer_t output,
const uint rows,
const uint cols
) {
const int i = get_global_id(0);
const int j = get_global_id(1);
const int i_2 = i<<2;
const int j_2 = j<<2;
half4 temp0 = read_imageh(input, (j_2+0)*cols+i);
half4 temp1 = read_imageh(input, (j_2+1)*cols+i);
half4 temp2 = read_imageh(input, (j_2+2)*cols+i);
half4 temp3 = read_imageh(input, (j_2+3)*cols+i);
write_imageh(output, (i_2+0)*rows+j, (half4)(temp0.s0, temp1.s0, temp2.s0, temp3.s0));
write_imageh(output, (i_2+1)*rows+j, (half4)(temp0.s1, temp1.s1, temp2.s1, temp3.s1));
write_imageh(output, (i_2+2)*rows+j, (half4)(temp0.s2, temp1.s2, temp2.s2, temp3.s2));
write_imageh(output, (i_2+3)*rows+j, (half4)(temp0.s3, temp1.s3, temp2.s3, temp3.s3));
}
// Padded kernel for irregular shape
kernel void kernel_transpose_16_4x1(
__read_only image1d_buffer_t input,
__write_only image1d_buffer_t output,
const uint rows,
const uint cols
) {
const int i = get_global_id(0);
const int j = get_global_id(1);
const int j_2 = j << 2;
half temp0 = read_imageh(input, (j_2 + 0) * cols + i).x;
half temp1 = read_imageh(input, (j_2 + 1) * cols + i).x;
half temp2 = read_imageh(input, (j_2 + 2) * cols + i).x;
half temp3 = read_imageh(input, (j_2 + 3) * cols + i).x;
write_imageh(output, i * rows + j, (half4)(temp0, temp1, temp2, temp3));
}
// 32-bit transpose, loading/storing a 4x4 tile of elements
kernel void kernel_transpose_32(
__read_only image1d_buffer_t input,
__write_only image1d_buffer_t output,
const uint rows,
const uint cols
) {
const int i = get_global_id(0);
const int j = get_global_id(1);
const int i_2 = i<<2;
const int j_2 = j<<2;
float4 temp0 = read_imagef(input, (j_2+0)*cols+i);
float4 temp1 = read_imagef(input, (j_2+1)*cols+i);
float4 temp2 = read_imagef(input, (j_2+2)*cols+i);
float4 temp3 = read_imagef(input, (j_2+3)*cols+i);
write_imagef(output, (i_2+0)*rows+j, (float4)(temp0.s0, temp1.s0, temp2.s0, temp3.s0));
write_imagef(output, (i_2+1)*rows+j, (float4)(temp0.s1, temp1.s1, temp2.s1, temp3.s1));
write_imagef(output, (i_2+2)*rows+j, (float4)(temp0.s2, temp1.s2, temp2.s2, temp3.s2));
write_imagef(output, (i_2+3)*rows+j, (float4)(temp0.s3, temp1.s3, temp2.s3, temp3.s3));
}
// 32-bit transpose, loading/storing a 4x4 tile of elements
// Only used for activations
// converts to FP16
// also adds zero padding for non multiple of 8 prompt lengths
kernel void kernel_transpose_32_16(__read_only image1d_buffer_t input, __write_only image1d_buffer_t output, const uint rows, const uint cols, const uint padded_rows) {
const int i = get_global_id(0);
const int j = get_global_id(1);
const int i_2 = i<<2;
const int j_2 = j<<2;
half4 temp0 = {0,0,0,0}; // initialize outputs to 0
half4 temp1 = {0,0,0,0};
half4 temp2 = {0,0,0,0};
half4 temp3 = {0,0,0,0};
if((j_2+0)*cols+i*4+3 < rows*cols*16){ // only load from a valid location. Otherwise keep register data as 0
temp0 = read_imageh(input, (j_2+0)*cols+i);
}
if((j_2+1)*cols+i*4+3 < rows*cols*16){
temp1 = read_imageh(input, (j_2+1)*cols+i);
}
if((j_2+2)*cols+i*4+3 < rows*cols*16){
temp2 = read_imageh(input, (j_2+2)*cols+i);
}
if((j_2+3)*cols+i*4+3 < rows*cols*16){
temp3 = read_imageh(input, (j_2+3)*cols+i);
}
write_imageh(output, (i_2+0)*padded_rows+j, (half4)(temp0.s0, temp1.s0, temp2.s0, temp3.s0)); // no conditionals for output, includes zero padding
write_imageh(output, (i_2+1)*padded_rows+j, (half4)(temp0.s1, temp1.s1, temp2.s1, temp3.s1));
write_imageh(output, (i_2+2)*padded_rows+j, (half4)(temp0.s2, temp1.s2, temp2.s2, temp3.s2));
write_imageh(output, (i_2+3)*padded_rows+j, (half4)(temp0.s3, temp1.s3, temp2.s3, temp3.s3));
}
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