enginex-ascend-910-llama.cpp/ggml/src/ggml-vulkan/vulkan-shaders/mul_mat_vec_q2_k.comp

#version 450
#extension GL_EXT_shader_explicit_arithmetic_types_int32 : require

#include "mul_mat_vec_base.comp"

layout(local_size_x_id = 0, local_size_y = 1, local_size_z = 1) in;

void compute_outputs(const uint32_t first_row, const uint32_t num_rows) {
    uint a_offset, b_offset, d_offset;
    get_offsets(a_offset, b_offset, d_offset);

    const uint num_blocks_per_row = p.ncols / QUANT_K;

    // 16 threads are used to process each block
    const uint it_size = gl_WorkGroupSize.x/16;
    const uint tid = gl_LocalInvocationID.x;
    const uint itid = tid%16;  // 0...16
    const uint ix  = tid/16;

    const uint step = 8;

    const uint v_im = itid/step;                             // 0 or 1. 0 computes 0..., 1 computes 128...
    const uint v_in = itid - step*v_im;                      // 0...15 or 0...7

    const uint l0 = 2*v_in;                                  // 0...15
    const uint q_offset = 32*v_im + l0;
    const uint s_offset = 8*v_im;
    const uint y_offset = 128*v_im + l0;

    FLOAT_TYPE temp[NUM_COLS][NUM_ROWS];

    [[unroll]] for (uint j = 0; j < NUM_COLS; ++j) {
        [[unroll]] for (uint i = 0; i < NUM_ROWS; ++i) {
            temp[j][i] = FLOAT_TYPE(0);
        }
    }

    [[unroll]] for (uint i = ix; i < num_blocks_per_row; i += it_size) {
        const uint y_idx = i * QUANT_K + y_offset;

        [[unroll]] for (uint n = 0; n < num_rows; ++n) {
            const uint ib0 = a_offset / QUANT_K + (first_row+n)*num_blocks_per_row;
            vec2 d = vec2(data_a[ib0 + i].d);
            const FLOAT_TYPE dall = FLOAT_TYPE(d.x);
            const FLOAT_TYPE dmin = FLOAT_TYPE(d.y);

            uint32_t s0_u32 = data_a_packed32[ib0 + i].scales[s_offset / 4 + 0];
            uint32_t s4_u32 = data_a_packed32[ib0 + i].scales[s_offset / 4 + 1];

            uint32_t s0_lo4_u32 = s0_u32 & 0x0F0F0F0F;
            uint32_t s0_hi4_u32 = (s0_u32 >> 4) & 0x0F0F0F0F;
            uint32_t s4_lo4_u32 = s4_u32 & 0x0F0F0F0F;
            uint32_t s4_hi4_u32 = (s4_u32 >> 4) & 0x0F0F0F0F;

            uvec4 s0_lo4 = uvec4(unpack8(s0_lo4_u32));
            uvec4 s4_lo4 = uvec4(unpack8(s4_lo4_u32));
            uvec4 s0_hi4 = uvec4(unpack8(s0_hi4_u32));
            uvec4 s4_hi4 = uvec4(unpack8(s4_hi4_u32));

            uint16_t qs0_u16 = data_a_packed16[ib0 + i].qs[q_offset / 2 + 0];
            uint16_t qs16_u16 = data_a_packed16[ib0 + i].qs[q_offset / 2 + 8];
            uvec2 qs0 =  uvec2(unpack8(qs0_u16));
            uvec2 qs16 = uvec2(unpack8(qs16_u16));

            [[unroll]] for (uint j = 0; j < NUM_COLS; ++j) {
                vec2 b0 =   vec2(data_b_v2[(j*p.batch_stride_b + b_offset + y_idx) / 2 +  0]);
                vec2 b16 =  vec2(data_b_v2[(j*p.batch_stride_b + b_offset + y_idx) / 2 +  8]);
                vec2 b32 =  vec2(data_b_v2[(j*p.batch_stride_b + b_offset + y_idx) / 2 + 16]);
                vec2 b48 =  vec2(data_b_v2[(j*p.batch_stride_b + b_offset + y_idx) / 2 + 24]);
                vec2 b64 =  vec2(data_b_v2[(j*p.batch_stride_b + b_offset + y_idx) / 2 + 32]);
                vec2 b80 =  vec2(data_b_v2[(j*p.batch_stride_b + b_offset + y_idx) / 2 + 40]);
                vec2 b96 =  vec2(data_b_v2[(j*p.batch_stride_b + b_offset + y_idx) / 2 + 48]);
                vec2 b112 = vec2(data_b_v2[(j*p.batch_stride_b + b_offset + y_idx) / 2 + 56]);

                FLOAT_TYPE sum1 = FLOAT_TYPE(0.0);
                FLOAT_TYPE sum2 = FLOAT_TYPE(0.0);
                [[unroll]] for (int l = 0; l < 2; ++l) {
                    sum1 = fma(FLOAT_TYPE(b0[l]),   FLOAT_TYPE(s0_lo4[0]) * FLOAT_TYPE((qs0[l]  >> 0) & 3),
                           fma(FLOAT_TYPE(b16[l]),  FLOAT_TYPE(s0_lo4[1]) * FLOAT_TYPE((qs16[l] >> 0) & 3),
                           fma(FLOAT_TYPE(b32[l]),  FLOAT_TYPE(s0_lo4[2]) * FLOAT_TYPE((qs0[l]  >> 2) & 3),
                           fma(FLOAT_TYPE(b48[l]),  FLOAT_TYPE(s0_lo4[3]) * FLOAT_TYPE((qs16[l] >> 2) & 3),
                           fma(FLOAT_TYPE(b64[l]),  FLOAT_TYPE(s4_lo4[0]) * FLOAT_TYPE((qs0[l]  >> 4) & 3),
                           fma(FLOAT_TYPE(b80[l]),  FLOAT_TYPE(s4_lo4[1]) * FLOAT_TYPE((qs16[l] >> 4) & 3),
                           fma(FLOAT_TYPE(b96[l]),  FLOAT_TYPE(s4_lo4[2]) * FLOAT_TYPE((qs0[l]  >> 6) & 3),
                           fma(FLOAT_TYPE(b112[l]), FLOAT_TYPE(s4_lo4[3]) * FLOAT_TYPE((qs16[l] >> 6) & 3), sum1))))))));
                    sum2 = fma(FLOAT_TYPE(b0[l]),   FLOAT_TYPE(s0_hi4[0]),
                           fma(FLOAT_TYPE(b16[l]),  FLOAT_TYPE(s0_hi4[1]),
                           fma(FLOAT_TYPE(b32[l]),  FLOAT_TYPE(s0_hi4[2]),
                           fma(FLOAT_TYPE(b48[l]),  FLOAT_TYPE(s0_hi4[3]),
                           fma(FLOAT_TYPE(b64[l]),  FLOAT_TYPE(s4_hi4[0]),
                           fma(FLOAT_TYPE(b80[l]),  FLOAT_TYPE(s4_hi4[1]),
                           fma(FLOAT_TYPE(b96[l]),  FLOAT_TYPE(s4_hi4[2]),
                           fma(FLOAT_TYPE(b112[l]), FLOAT_TYPE(s4_hi4[3]), sum2))))))));
                }
                temp[j][n] = fma(dall, sum1, fma(-dmin, sum2, temp[j][n]));
            }
        }
    }

    reduce_result(temp, d_offset, first_row, num_rows, tid);
}

void main() {
    const uint first_row = NUM_ROWS * (gl_WorkGroupID.x + gl_NumWorkGroups.x * gl_WorkGroupID.z);

    // do NUM_ROWS at a time, unless there aren't enough remaining rows
    if (first_row + NUM_ROWS <= p.stride_d) {
        compute_outputs(first_row, NUM_ROWS);
    } else {
        if (first_row >= p.stride_d) {
            return;
        }
        compute_outputs(first_row, p.stride_d - first_row);
    }
}
Vulkan Shader Refactor, Memory Debugging Option (#7947) * Refactor shaders, extract GLSL code from ggml_vk_generate_shaders.py into vulkan-shaders directory * Improve debug log code * Add memory debug output option * Fix flake8 * Fix unnecessary high llama-3 VRAM use 2024-06-16 07:17:31 +02:00			`#version 450`
Vulkan: Fix float16 use on devices without float16 support + fix subgroup_size_control validation error (#11161) * Vulkan: Remove float16 use in shaders * Fix validation error about subgroup_size_control extension 2025-01-10 06:39:33 +01:00			`#extension GL_EXT_shader_explicit_arithmetic_types_int32 : require`
Vulkan Shader Refactor, Memory Debugging Option (#7947) * Refactor shaders, extract GLSL code from ggml_vk_generate_shaders.py into vulkan-shaders directory * Improve debug log code * Add memory debug output option * Fix flake8 * Fix unnecessary high llama-3 VRAM use 2024-06-16 07:17:31 +02:00
			`#include "mul_mat_vec_base.comp"`

vulkan: dynamic subgroup size for the remaining k quants (#10745) * q5_k q4_k q3_k q2_k q6_k multi row example * revert as multi row isnt faster for k quants 2024-12-10 19:33:23 +00:00			`layout(local_size_x_id = 0, local_size_y = 1, local_size_z = 1) in;`
Vulkan Shader Refactor, Memory Debugging Option (#7947) * Refactor shaders, extract GLSL code from ggml_vk_generate_shaders.py into vulkan-shaders directory * Improve debug log code * Add memory debug output option * Fix flake8 * Fix unnecessary high llama-3 VRAM use 2024-06-16 07:17:31 +02:00
vulkan: multi-row k quants (#10846) * multi row k quant shaders! * better row selection * more row choices * readjust row selection * rm_kq=2 by default 2024-12-26 10:54:44 -05:00			`void compute_outputs(const uint32_t first_row, const uint32_t num_rows) {`
Vulkan Shader Refactor, Memory Debugging Option (#7947) * Refactor shaders, extract GLSL code from ggml_vk_generate_shaders.py into vulkan-shaders directory * Improve debug log code * Add memory debug output option * Fix flake8 * Fix unnecessary high llama-3 VRAM use 2024-06-16 07:17:31 +02:00			`uint a_offset, b_offset, d_offset;`
			`get_offsets(a_offset, b_offset, d_offset);`

			`const uint num_blocks_per_row = p.ncols / QUANT_K;`

vulkan: dynamic subgroup size for the remaining k quants (#10745) * q5_k q4_k q3_k q2_k q6_k multi row example * revert as multi row isnt faster for k quants 2024-12-10 19:33:23 +00:00			`// 16 threads are used to process each block`
			`const uint it_size = gl_WorkGroupSize.x/16;`
			`const uint tid = gl_LocalInvocationID.x;`
			`const uint itid = tid%16; // 0...16`
			`const uint ix = tid/16;`
Vulkan Shader Refactor, Memory Debugging Option (#7947) * Refactor shaders, extract GLSL code from ggml_vk_generate_shaders.py into vulkan-shaders directory * Improve debug log code * Add memory debug output option * Fix flake8 * Fix unnecessary high llama-3 VRAM use 2024-06-16 07:17:31 +02:00
vulkan: dynamic subgroup size for the remaining k quants (#10745) * q5_k q4_k q3_k q2_k q6_k multi row example * revert as multi row isnt faster for k quants 2024-12-10 19:33:23 +00:00			`const uint step = 8;`
Vulkan Shader Refactor, Memory Debugging Option (#7947) * Refactor shaders, extract GLSL code from ggml_vk_generate_shaders.py into vulkan-shaders directory * Improve debug log code * Add memory debug output option * Fix flake8 * Fix unnecessary high llama-3 VRAM use 2024-06-16 07:17:31 +02:00
vulkan: dynamic subgroup size for the remaining k quants (#10745) * q5_k q4_k q3_k q2_k q6_k multi row example * revert as multi row isnt faster for k quants 2024-12-10 19:33:23 +00:00			`const uint v_im = itid/step; // 0 or 1. 0 computes 0..., 1 computes 128...`
			`const uint v_in = itid - step*v_im; // 0...15 or 0...7`
Vulkan Shader Refactor, Memory Debugging Option (#7947) * Refactor shaders, extract GLSL code from ggml_vk_generate_shaders.py into vulkan-shaders directory * Improve debug log code * Add memory debug output option * Fix flake8 * Fix unnecessary high llama-3 VRAM use 2024-06-16 07:17:31 +02:00
vulkan: dynamic subgroup size for the remaining k quants (#10745) * q5_k q4_k q3_k q2_k q6_k multi row example * revert as multi row isnt faster for k quants 2024-12-10 19:33:23 +00:00			`const uint l0 = 2*v_in; // 0...15`
Vulkan Shader Refactor, Memory Debugging Option (#7947) * Refactor shaders, extract GLSL code from ggml_vk_generate_shaders.py into vulkan-shaders directory * Improve debug log code * Add memory debug output option * Fix flake8 * Fix unnecessary high llama-3 VRAM use 2024-06-16 07:17:31 +02:00			`const uint q_offset = 32*v_im + l0;`
			`const uint s_offset = 8*v_im;`
			`const uint y_offset = 128*v_im + l0;`

vulkan: optimize mul_mat for small values of N (#10991) Make the mul_mat_vec shaders support N>1 (as a spec constant, NUM_COLS) where the batch_strides are overloaded to hold the row strides. Put the loads from the B matrix in the innermost loop because it should cache better. Share some code for reducing the result values to memory in mul_mat_vec_base. 2024-12-30 11:27:11 -06:00			`FLOAT_TYPE temp[NUM_COLS][NUM_ROWS];`
vulkan: multi-row k quants (#10846) * multi row k quant shaders! * better row selection * more row choices * readjust row selection * rm_kq=2 by default 2024-12-26 10:54:44 -05:00
vulkan: optimize mul_mat for small values of N (#10991) Make the mul_mat_vec shaders support N>1 (as a spec constant, NUM_COLS) where the batch_strides are overloaded to hold the row strides. Put the loads from the B matrix in the innermost loop because it should cache better. Share some code for reducing the result values to memory in mul_mat_vec_base. 2024-12-30 11:27:11 -06:00			`[[unroll]] for (uint j = 0; j < NUM_COLS; ++j) {`
			`[[unroll]] for (uint i = 0; i < NUM_ROWS; ++i) {`
			`temp[j][i] = FLOAT_TYPE(0);`
			`}`
vulkan: multi-row k quants (#10846) * multi row k quant shaders! * better row selection * more row choices * readjust row selection * rm_kq=2 by default 2024-12-26 10:54:44 -05:00			`}`
Vulkan Shader Refactor, Memory Debugging Option (#7947) * Refactor shaders, extract GLSL code from ggml_vk_generate_shaders.py into vulkan-shaders directory * Improve debug log code * Add memory debug output option * Fix flake8 * Fix unnecessary high llama-3 VRAM use 2024-06-16 07:17:31 +02:00
vulkan: dynamic subgroup size for the remaining k quants (#10745) * q5_k q4_k q3_k q2_k q6_k multi row example * revert as multi row isnt faster for k quants 2024-12-10 19:33:23 +00:00			`[[unroll]] for (uint i = ix; i < num_blocks_per_row; i += it_size) {`
Vulkan Shader Refactor, Memory Debugging Option (#7947) * Refactor shaders, extract GLSL code from ggml_vk_generate_shaders.py into vulkan-shaders directory * Improve debug log code * Add memory debug output option * Fix flake8 * Fix unnecessary high llama-3 VRAM use 2024-06-16 07:17:31 +02:00			`const uint y_idx = i * QUANT_K + y_offset;`

vulkan: multi-row k quants (#10846) * multi row k quant shaders! * better row selection * more row choices * readjust row selection * rm_kq=2 by default 2024-12-26 10:54:44 -05:00			`[[unroll]] for (uint n = 0; n < num_rows; ++n) {`
			`const uint ib0 = a_offset / QUANT_K + (first_row+n)*num_blocks_per_row;`
Vulkan: Fix float16 use on devices without float16 support + fix subgroup_size_control validation error (#11161) * Vulkan: Remove float16 use in shaders * Fix validation error about subgroup_size_control extension 2025-01-10 06:39:33 +01:00			`vec2 d = vec2(data_a[ib0 + i].d);`
			`const FLOAT_TYPE dall = FLOAT_TYPE(d.x);`
			`const FLOAT_TYPE dmin = FLOAT_TYPE(d.y);`
vulkan: multi-row k quants (#10846) * multi row k quant shaders! * better row selection * more row choices * readjust row selection * rm_kq=2 by default 2024-12-26 10:54:44 -05:00
			`uint32_t s0_u32 = data_a_packed32[ib0 + i].scales[s_offset / 4 + 0];`
			`uint32_t s4_u32 = data_a_packed32[ib0 + i].scales[s_offset / 4 + 1];`

			`uint32_t s0_lo4_u32 = s0_u32 & 0x0F0F0F0F;`
			`uint32_t s0_hi4_u32 = (s0_u32 >> 4) & 0x0F0F0F0F;`
			`uint32_t s4_lo4_u32 = s4_u32 & 0x0F0F0F0F;`
			`uint32_t s4_hi4_u32 = (s4_u32 >> 4) & 0x0F0F0F0F;`

			`uvec4 s0_lo4 = uvec4(unpack8(s0_lo4_u32));`
			`uvec4 s4_lo4 = uvec4(unpack8(s4_lo4_u32));`
			`uvec4 s0_hi4 = uvec4(unpack8(s0_hi4_u32));`
			`uvec4 s4_hi4 = uvec4(unpack8(s4_hi4_u32));`

			`uint16_t qs0_u16 = data_a_packed16[ib0 + i].qs[q_offset / 2 + 0];`
			`uint16_t qs16_u16 = data_a_packed16[ib0 + i].qs[q_offset / 2 + 8];`
			`uvec2 qs0 = uvec2(unpack8(qs0_u16));`
			`uvec2 qs16 = uvec2(unpack8(qs16_u16));`

vulkan: optimize mul_mat for small values of N (#10991) Make the mul_mat_vec shaders support N>1 (as a spec constant, NUM_COLS) where the batch_strides are overloaded to hold the row strides. Put the loads from the B matrix in the innermost loop because it should cache better. Share some code for reducing the result values to memory in mul_mat_vec_base. 2024-12-30 11:27:11 -06:00			`[[unroll]] for (uint j = 0; j < NUM_COLS; ++j) {`
Vulkan: Fix float16 use on devices without float16 support + fix subgroup_size_control validation error (#11161) * Vulkan: Remove float16 use in shaders * Fix validation error about subgroup_size_control extension 2025-01-10 06:39:33 +01:00			`vec2 b0 = vec2(data_b_v2[(j*p.batch_stride_b + b_offset + y_idx) / 2 + 0]);`
			`vec2 b16 = vec2(data_b_v2[(j*p.batch_stride_b + b_offset + y_idx) / 2 + 8]);`
			`vec2 b32 = vec2(data_b_v2[(j*p.batch_stride_b + b_offset + y_idx) / 2 + 16]);`
			`vec2 b48 = vec2(data_b_v2[(j*p.batch_stride_b + b_offset + y_idx) / 2 + 24]);`
			`vec2 b64 = vec2(data_b_v2[(j*p.batch_stride_b + b_offset + y_idx) / 2 + 32]);`
			`vec2 b80 = vec2(data_b_v2[(j*p.batch_stride_b + b_offset + y_idx) / 2 + 40]);`
			`vec2 b96 = vec2(data_b_v2[(j*p.batch_stride_b + b_offset + y_idx) / 2 + 48]);`
			`vec2 b112 = vec2(data_b_v2[(j*p.batch_stride_b + b_offset + y_idx) / 2 + 56]);`
vulkan: optimize mul_mat for small values of N (#10991) Make the mul_mat_vec shaders support N>1 (as a spec constant, NUM_COLS) where the batch_strides are overloaded to hold the row strides. Put the loads from the B matrix in the innermost loop because it should cache better. Share some code for reducing the result values to memory in mul_mat_vec_base. 2024-12-30 11:27:11 -06:00
			`FLOAT_TYPE sum1 = FLOAT_TYPE(0.0);`
			`FLOAT_TYPE sum2 = FLOAT_TYPE(0.0);`
			`[[unroll]] for (int l = 0; l < 2; ++l) {`
			`sum1 = fma(FLOAT_TYPE(b0[l]), FLOAT_TYPE(s0_lo4[0]) * FLOAT_TYPE((qs0[l] >> 0) & 3),`
			`fma(FLOAT_TYPE(b16[l]), FLOAT_TYPE(s0_lo4[1]) * FLOAT_TYPE((qs16[l] >> 0) & 3),`
			`fma(FLOAT_TYPE(b32[l]), FLOAT_TYPE(s0_lo4[2]) * FLOAT_TYPE((qs0[l] >> 2) & 3),`
			`fma(FLOAT_TYPE(b48[l]), FLOAT_TYPE(s0_lo4[3]) * FLOAT_TYPE((qs16[l] >> 2) & 3),`
			`fma(FLOAT_TYPE(b64[l]), FLOAT_TYPE(s4_lo4[0]) * FLOAT_TYPE((qs0[l] >> 4) & 3),`
			`fma(FLOAT_TYPE(b80[l]), FLOAT_TYPE(s4_lo4[1]) * FLOAT_TYPE((qs16[l] >> 4) & 3),`
			`fma(FLOAT_TYPE(b96[l]), FLOAT_TYPE(s4_lo4[2]) * FLOAT_TYPE((qs0[l] >> 6) & 3),`
			`fma(FLOAT_TYPE(b112[l]), FLOAT_TYPE(s4_lo4[3]) * FLOAT_TYPE((qs16[l] >> 6) & 3), sum1))))))));`
			`sum2 = fma(FLOAT_TYPE(b0[l]), FLOAT_TYPE(s0_hi4[0]),`
			`fma(FLOAT_TYPE(b16[l]), FLOAT_TYPE(s0_hi4[1]),`
			`fma(FLOAT_TYPE(b32[l]), FLOAT_TYPE(s0_hi4[2]),`
			`fma(FLOAT_TYPE(b48[l]), FLOAT_TYPE(s0_hi4[3]),`
			`fma(FLOAT_TYPE(b64[l]), FLOAT_TYPE(s4_hi4[0]),`
			`fma(FLOAT_TYPE(b80[l]), FLOAT_TYPE(s4_hi4[1]),`
			`fma(FLOAT_TYPE(b96[l]), FLOAT_TYPE(s4_hi4[2]),`
			`fma(FLOAT_TYPE(b112[l]), FLOAT_TYPE(s4_hi4[3]), sum2))))))));`
			`}`
			`temp[j][n] = fma(dall, sum1, fma(-dmin, sum2, temp[j][n]));`
vulkan: multi-row k quants (#10846) * multi row k quant shaders! * better row selection * more row choices * readjust row selection * rm_kq=2 by default 2024-12-26 10:54:44 -05:00			`}`
Vulkan Shader Refactor, Memory Debugging Option (#7947) * Refactor shaders, extract GLSL code from ggml_vk_generate_shaders.py into vulkan-shaders directory * Improve debug log code * Add memory debug output option * Fix flake8 * Fix unnecessary high llama-3 VRAM use 2024-06-16 07:17:31 +02:00			`}`
			`}`

vulkan: optimize mul_mat for small values of N (#10991) Make the mul_mat_vec shaders support N>1 (as a spec constant, NUM_COLS) where the batch_strides are overloaded to hold the row strides. Put the loads from the B matrix in the innermost loop because it should cache better. Share some code for reducing the result values to memory in mul_mat_vec_base. 2024-12-30 11:27:11 -06:00			`reduce_result(temp, d_offset, first_row, num_rows, tid);`
vulkan: multi-row k quants (#10846) * multi row k quant shaders! * better row selection * more row choices * readjust row selection * rm_kq=2 by default 2024-12-26 10:54:44 -05:00			`}`

			`void main() {`
			`const uint first_row = NUM_ROWS * (gl_WorkGroupID.x + gl_NumWorkGroups.x * gl_WorkGroupID.z);`

			`// do NUM_ROWS at a time, unless there aren't enough remaining rows`
			`if (first_row + NUM_ROWS <= p.stride_d) {`
			`compute_outputs(first_row, NUM_ROWS);`
			`} else {`
			`if (first_row >= p.stride_d) {`
			`return;`
			`}`
			`compute_outputs(first_row, p.stride_d - first_row);`
Vulkan Shader Refactor, Memory Debugging Option (#7947) * Refactor shaders, extract GLSL code from ggml_vk_generate_shaders.py into vulkan-shaders directory * Improve debug log code * Add memory debug output option * Fix flake8 * Fix unnecessary high llama-3 VRAM use 2024-06-16 07:17:31 +02:00			`}`
			`}`