mirror of
https://github.com/ggerganov/llama.cpp.git
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95 lines
3.5 KiB
Plaintext
95 lines
3.5 KiB
Plaintext
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#version 450
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#include "common.comp"
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#define SIZE_OF_BLOCK sizeof_block_q6_k
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layout(local_size_x_id = 0) in;
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layout(local_size_y_id = 1) in;
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layout(local_size_z = 1) in;
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layout (binding = 0) readonly buffer tensorInA { uint8_t inA[]; };
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layout (binding = 1) readonly buffer tensorInB { float inB[]; };
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layout (binding = 2) writeonly buffer tensorOut { float out_[]; };
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layout (push_constant) uniform parameter {
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uint inAOff;
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uint inBOff;
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uint outOff;
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int ne00;
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int ne10;
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int ne0;
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int ne1;
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int ne01;
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int gqa;
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} pcs;
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void main() {
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const uint8_t kmask1 = uint8_t(0x03);
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const uint8_t kmask2 = uint8_t(0x0C);
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const uint8_t kmask3 = uint8_t(0x30);
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const uint8_t kmask4 = uint8_t(0xC0);
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const uint nb = pcs.ne00/QK_K;
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const uint r0 = gl_WorkGroupID.x;
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const uint r1 = gl_WorkGroupID.y;
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const uint r2 = gl_WorkGroupID.z;
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const uint row = (r0 * gl_NumSubgroups + gl_SubgroupID);
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const uint offset0 = r2/pcs.gqa*(nb*pcs.ne0);
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const uint x = row * nb + offset0; // Based from inA without base offset
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const uint yy = r1*pcs.ne10 + r2*pcs.ne00*pcs.ne1+pcs.inBOff; // Based from inB
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float sumf = 0;
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// bits of invocation ID for gl_SubgroupSize=32:
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// x x x x x
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// 4 3 2 1 0
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// ( tid ) ix
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// ip ( il )
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const uint block_stride = gl_SubgroupSize / 16; // number of blocks each subgroup processes
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const uint tid = gl_SubgroupInvocationID/block_stride; // first block_stride groups have tid=0
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const uint ix = gl_SubgroupInvocationID%block_stride; // first block is 0..block_stride-1
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const uint ip = tid/8; // first or second half of block (0 or 1)
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const uint il = tid%8; // each half has 8 parts, one per scale
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const uint n = 4; // 4 scales at a time (and 4 sums)
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const uint l0 = n*il; // offset into half-block, 0..28
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const uint is = 8*ip + l0/16; // 0, 1, 8, 9
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const uint y_offset = 128*ip + l0;
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const uint q_offset_l = 64*ip + l0;
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const uint q_offset_h = 32*ip + l0;
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for (uint i = ix; i < nb; i += block_stride) {
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const uint baseIndex = (x + i) * SIZE_OF_BLOCK + pcs.inAOff;
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const uint qlIndex = q_offset_l;
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const uint q2Index = qlIndex + QK_K/8;
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const uint qhIndex = q_offset_h;
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const uint y = yy + i * QK_K + y_offset;
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float sums[4] = {0.0f, 0.0f, 0.0f, 0.0f};
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for (uint l = 0; l < n; ++l) {
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const uint8_t currentQ1 = inA[baseIndex + qlIndex + l];
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const uint8_t currentQ2 = inA[baseIndex + q2Index + l];
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const uint8_t currentQh = inA[baseIndex + QK_K/2 + qhIndex + l];
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sums[0] += inB[y+l+ 0] * (int8_t((currentQ1 & 0xF) | ((currentQh & kmask1) << 4)) - 32);
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sums[1] += inB[y+l+32] * (int8_t((currentQ2 & 0xF) | ((currentQh & kmask2) << 2)) - 32);
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sums[2] += inB[y+l+64] * (int8_t((currentQ1 >> 4) | ((currentQh & kmask3) << 0)) - 32);
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sums[3] += inB[y+l+96] * (int8_t((currentQ2 >> 4) | ((currentQh & kmask4) >> 2)) - 32);
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}
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float d = u8BufToFloat16(inA, baseIndex + QK_K/2 + QK_K/4 + QK_K/16);
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sumf += d * (sums[0] * int8_t(inA[baseIndex + QK_K/2 + QK_K/4 + is]) + sums[1] * int8_t(inA[baseIndex + QK_K/2 + QK_K/4 + 2 + is]) + sums[2] * int8_t(inA[baseIndex + QK_K/2 + QK_K/4 + 4 + is]) + sums[3] * int8_t(inA[baseIndex + QK_K/2 + QK_K/4 + 6 + is]));
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}
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const float tot = subgroupAdd(sumf);
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if (subgroupElect()) {
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out_[r1*pcs.ne0 + r2*pcs.ne0*pcs.ne1 + row + pcs.outOff] = tot;
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}
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}
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