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#if !defined(DATA_A_F32) && !defined(DATA_A_F16)
#extension GL_EXT_shader_explicit_arithmetic_types_int8 : require
#endif
#include "types.comp"
#if defined(A_TYPE_PACKED16)
layout (binding = 0) readonly buffer A_PACKED16 {A_TYPE_PACKED16 data_a_packed16[];};
#endif
#if defined(A_TYPE_PACKED32)
layout (binding = 0) readonly buffer A_PACKED32 {A_TYPE_PACKED32 data_a_packed32[];};
#endif
#if defined(DATA_A_F32)
vec2 dequantize(uint ib, uint iqs, uint a_offset) {
return vec2(data_a[a_offset + ib], data_a[a_offset + ib + 1]);
}
#endif
#if defined(DATA_A_F16)
vec2 dequantize(uint ib, uint iqs, uint a_offset) {
return vec2(data_a[a_offset + ib], data_a[a_offset + ib + 1]);
}
#endif
#if defined(DATA_A_Q4_0)
vec2 dequantize(uint ib, uint iqs, uint a_offset) {
const uint vui = uint(data_a[a_offset + ib].qs[iqs]);
return (vec2(vui & 0xF, vui >> 4) - 8.0f);
}
vec4 dequantize4(uint ib, uint iqs, uint a_offset) {
const uint vui = uint(data_a_packed16[a_offset + ib].qs[iqs/2]);
return (vec4(vui & 0xF, (vui >> 4) & 0xF, (vui >> 8) & 0xF, vui >> 12) - 8.0f);
}
#endif
#if defined(DATA_A_Q4_1)
vec2 dequantize(uint ib, uint iqs, uint a_offset) {
const uint vui = uint(data_a[a_offset + ib].qs[iqs]);
return vec2(vui & 0xF, vui >> 4);
}
vec4 dequantize4(uint ib, uint iqs, uint a_offset) {
const uint vui = uint(data_a_packed16[a_offset + ib].qs[iqs/2]);
return vec4(vui & 0xF, (vui >> 4) & 0xF, (vui >> 8) & 0xF, vui >> 12);
}
#endif
#if defined(DATA_A_Q5_0)
vec2 dequantize(uint ib, uint iqs, uint a_offset) {
const uint uint_qh = uint(data_a[a_offset + ib].qh[1]) << 16 | data_a[a_offset + ib].qh[0];
const ivec2 qh = ivec2(((uint_qh >> iqs) << 4) & 0x10, (uint_qh >> (iqs + 12)) & 0x10);
const uint vui = uint(data_a[a_offset + ib].qs[iqs]);
return (vec2((vui & 0xF) | qh.x, (vui >> 4) | qh.y) - 16.0f);
}
vec4 dequantize4(uint ib, uint iqs, uint a_offset) {
const uint uint_qh = uint(data_a_packed16[a_offset + ib].qh[1]) << 16 | data_a_packed16[a_offset + ib].qh[0];
const ivec2 qh0 = ivec2(((uint_qh >> iqs) << 4) & 0x10, (uint_qh >> (iqs + 12)) & 0x10);
const ivec2 qh1 = ivec2(((uint_qh >> (iqs + 1)) << 4) & 0x10, (uint_qh >> (iqs + 13)) & 0x10);
const uint vui = uint(data_a_packed16[a_offset + ib].qs[iqs/2]);
return (vec4((vui & 0xF) | qh0.x, ((vui >> 4) & 0xF) | qh0.y, ((vui >> 8) & 0xF) | qh1.x, (vui >> 12) | qh1.y) - 16.0f);
}
#endif
#if defined(DATA_A_Q5_1)
vec2 dequantize(uint ib, uint iqs, uint a_offset) {
const uint uint_qh = data_a[a_offset + ib].qh;
const ivec2 qh = ivec2(((uint_qh >> iqs) << 4) & 0x10, (uint_qh >> (iqs + 12)) & 0x10);
const uint vui = uint(data_a[a_offset + ib].qs[iqs]);
return vec2((vui & 0xF) | qh.x, (vui >> 4) | qh.y);
}
vec4 dequantize4(uint ib, uint iqs, uint a_offset) {
const uint uint_qh = data_a_packed16[a_offset + ib].qh;
const ivec2 qh0 = ivec2(((uint_qh >> iqs) << 4) & 0x10, (uint_qh >> (iqs + 12)) & 0x10);
const ivec2 qh1 = ivec2(((uint_qh >> (iqs + 1)) << 4) & 0x10, (uint_qh >> (iqs + 13)) & 0x10);
const uint vui = uint(data_a_packed16[a_offset + ib].qs[iqs/2]);
return vec4((vui & 0xF) | qh0.x, ((vui >> 4) & 0xF) | qh0.y, ((vui >> 8) & 0xF) | qh1.x, (vui >> 12) | qh1.y);
}
#endif
#if defined(DATA_A_Q8_0)
vec2 dequantize(uint ib, uint iqs, uint a_offset) {
return vec2(int(data_a[a_offset + ib].qs[iqs]), int(data_a[a_offset + ib].qs[iqs + 1]));
}
vec4 dequantize4(uint ib, uint iqs, uint a_offset) {
uint32_t v0 = data_a_packed16[a_offset + ib].qs[iqs/2];
uint32_t v1 = data_a_packed16[a_offset + ib].qs[iqs/2 + 1];
return vec4(int8_t(v0 & 0xFF), int8_t(v0 >> 8), int8_t(v1 & 0xFF), int8_t(v1 >> 8));
}
#endif
#if defined(DATA_A_IQ2_XXS)
vec2 dequantize(uint ib, uint iqs, uint a_offset) {
const uint ib32 = iqs / 32;
const uint ib8 = (iqs / 8) % 4;
const uint qs = data_a[a_offset + ib].qs[8 * ib32 + ib8];
// Scales are stored as packed 7+7+7+7+4 bits (4 sign tuples and 1 int4 scale)
const uint signs = pack32(u16vec2(data_a_packed16[a_offset + ib].qs[4 * ib32 + 2],
data_a_packed16[a_offset + ib].qs[4 * ib32 + 3]));
const float db = 0.25 * (0.5 + (signs >> 28));
const uint sign7 = bitfieldExtract(signs, 7 * int(ib8), 7);
// Add parity bit
const uint sign8 = sign7 | (bitCount(sign7) << 7);
const uint sign = sign8 >> (iqs % 8);
const u8vec4 grid = unpack8(iq2xxs_grid[qs][(iqs % 8) / 4] >> (8 * (iqs % 4)));
bool sign0 = (sign & 1) != 0;
bool sign1 = (sign & 2) != 0;
return db * vec2(
grid.x * (sign0 ? -1.0 : 1.0),
grid.y * (sign1 ? -1.0 : 1.0)
);
}
vec4 dequantize4(uint ib, uint iqs, uint a_offset) {
const uint ib32 = iqs / 32;
const uint ib8 = (iqs / 8) % 4;
const uint qs = data_a[a_offset + ib].qs[8 * ib32 + ib8];
// Scales are stored as packed 7+7+7+7+4 bits (4 sign tuples and 1 int4 scale)
const uint signs = pack32(u16vec2(data_a_packed16[a_offset + ib].qs[4 * ib32 + 2],
data_a_packed16[a_offset + ib].qs[4 * ib32 + 3]));
const float db = 0.25 * (0.5 + (signs >> 28));
const uint sign7 = bitfieldExtract(signs, 7 * int(ib8), 7);
// Add parity bit
const uint sign8 = sign7 | (bitCount(sign7) << 7);
const uint sign = sign8 >> (iqs % 8);
const u8vec4 grid = unpack8(iq2xxs_grid[qs][(iqs % 8) / 4] >> (8 * (iqs % 4)));
bool sign0 = (sign & 1) != 0;
bool sign1 = (sign & 2) != 0;
bool sign2 = (sign & 4) != 0;
bool sign3 = (sign & 8) != 0;
return db * vec4(
grid.x * (sign0 ? -1.0 : 1.0),
grid.y * (sign1 ? -1.0 : 1.0),
grid.z * (sign2 ? -1.0 : 1.0),
grid.w * (sign3 ? -1.0 : 1.0)
);
}
#endif
#if defined(DATA_A_IQ2_XS)
vec2 dequantize(uint ib, uint iqs, uint a_offset) {
const uint scale = (data_a[a_offset + ib].scales[iqs / 32] >> (4 * ((iqs / 16) & 1))) & 0xf;
const uint qs = data_a[a_offset + ib].qs[iqs / 8];
const float db = 0.25 * (0.5 + scale);
const uint sign7 = qs >> 9;
// Add parity bit
const uint sign8 = sign7 | (bitCount(sign7) << 7);
const uint sign = sign8 >> (iqs % 8);
const u8vec4 grid = unpack8(iq2xs_grid[qs & 511][(iqs % 8) / 4] >> (8 * (iqs % 4)));
bool sign0 = (sign & 1) != 0;
bool sign1 = (sign & 2) != 0;
return db * vec2(
grid.x * (sign0 ? -1.0 : 1.0),
grid.y * (sign1 ? -1.0 : 1.0)
);
}
vec4 dequantize4(uint ib, uint iqs, uint a_offset) {
const uint scale = (data_a[a_offset + ib].scales[iqs / 32] >> (4 * ((iqs / 16) & 1))) & 0xf;
const uint qs = data_a[a_offset + ib].qs[iqs / 8];
const float db = 0.25 * (0.5 + scale);
const uint sign7 = qs >> 9;
// Add parity bit
const uint sign8 = sign7 | (bitCount(sign7) << 7);
const uint sign = sign8 >> (iqs % 8);
const u8vec4 grid = unpack8(iq2xs_grid[qs & 511][(iqs % 8) / 4] >> (8 * (iqs % 4)));
bool sign0 = (sign & 1) != 0;
bool sign1 = (sign & 2) != 0;
bool sign2 = (sign & 4) != 0;
bool sign3 = (sign & 8) != 0;
return db * vec4(
grid.x * (sign0 ? -1.0 : 1.0),
grid.y * (sign1 ? -1.0 : 1.0),
grid.z * (sign2 ? -1.0 : 1.0),
grid.w * (sign3 ? -1.0 : 1.0)
);
}
#endif
#if defined(DATA_A_IQ2_S)
vec2 dequantize(uint ib, uint iqs, uint a_offset) {
const uint ib32 = iqs / 32;
const uint ib8 = iqs / 8;
const uint scale = (data_a[a_offset + ib].scales[ib32] >> (4 * ((iqs / 16) & 1))) & 0xf;
const uint qs = data_a[a_offset + ib].qs[ib8];
const uint qh = data_a[a_offset + ib].qh[ib32];
const uint qhshift = 2 * (ib8 % 4);
const uint sign = data_a[a_offset + ib].qs[QUANT_K / 8 + ib8] >> (iqs % 8);
const float db = 0.25 * (0.5 + scale);
const u8vec4 grid = unpack8(iq2s_grid[qs | ((qh << (8 - qhshift)) & 0x300)][(iqs % 8) / 4]);
bool sign0 = (sign & 1) != 0;
bool sign1 = (sign & 2) != 0;
return db * vec2(
grid[iqs % 4] * (sign0 ? -1.0 : 1.0),
grid[(iqs % 4) + 1] * (sign1 ? -1.0 : 1.0)
);
}
vec4 dequantize4(uint ib, uint iqs, uint a_offset) {
const uint ib32 = iqs / 32;
const uint ib8 = iqs / 8;
const uint scale = (data_a[a_offset + ib].scales[ib32] >> (4 * ((iqs / 16) & 1))) & 0xf;
const uint qs = data_a[a_offset + ib].qs[ib8];
const uint qh = data_a[a_offset + ib].qh[ib32];
const uint qhshift = 2 * (ib8 % 4);
const uint sign = data_a[a_offset + ib].qs[QUANT_K / 8 + ib8] >> (iqs % 8);
const float db = 0.25 * (0.5 + scale);
const u8vec4 grid = unpack8(iq2s_grid[qs | ((qh << (8 - qhshift)) & 0x300)][(iqs % 8) / 4]);
bool sign0 = (sign & 1) != 0;
bool sign1 = (sign & 2) != 0;
bool sign2 = (sign & 4) != 0;
bool sign3 = (sign & 8) != 0;
return db * vec4(
grid.x * (sign0 ? -1.0 : 1.0),
grid.y * (sign1 ? -1.0 : 1.0),
grid.z * (sign2 ? -1.0 : 1.0),
grid.w * (sign3 ? -1.0 : 1.0)
);
}
#endif
#if defined(DATA_A_IQ3_XXS)
vec2 dequantize(uint ib, uint iqs, uint a_offset) {
const uint ib4 = iqs / 4;
const uint ib32 = iqs / 32;
const uint is = QUANT_K / 4 + 4 * ib32;
const uint qs = data_a[a_offset + ib].qs[ib4];
// Scales are stored as packed 7+7+7+7+4 bits (4 sign tuples and 1 int4 scale)
const uint signs = pack32(u16vec2(data_a_packed16[a_offset + ib].qs[is / 2],
data_a_packed16[a_offset + ib].qs[is / 2 + 1]));
const float db = 0.5 * (0.5 + (signs >> 28));
const uint sign7 = bitfieldExtract(signs, 7 * (int(ib4 / 2) % 4), 7);
// Add parity bit
const uint sign8 = sign7 | (bitCount(sign7) << 7);
const uint sign = sign8 >> (iqs % 8);
const u8vec4 grid = unpack8(iq3xxs_grid[qs] >> (8 * (iqs % 4)));
bool sign0 = (sign & 1) != 0;
bool sign1 = (sign & 2) != 0;
return db * vec2(
grid.x * (sign0 ? -1.0 : 1.0),
grid.y * (sign1 ? -1.0 : 1.0)
);
}
vec4 dequantize4(uint ib, uint iqs, uint a_offset) {
const uint ib4 = iqs / 4;
const uint ib32 = iqs / 32;
const uint is = QUANT_K / 4 + 4 * ib32;
const uint qs = data_a[a_offset + ib].qs[ib4];
const uint signs = pack32(u16vec2(data_a_packed16[a_offset + ib].qs[is / 2],
data_a_packed16[a_offset + ib].qs[is / 2 + 1]));
const float db = 0.5 * (0.5 + (signs >> 28));
const uint sign7 = bitfieldExtract(signs, 7 * (int(ib4 / 2) % 4), 7);
// Add parity bit
const uint sign8 = sign7 | (bitCount(sign7) << 7);
const uint sign = sign8 >> (iqs % 8);
const u8vec4 grid = unpack8(iq3xxs_grid[qs]);
bool sign0 = (sign & 1) != 0;
bool sign1 = (sign & 2) != 0;
bool sign2 = (sign & 4) != 0;
bool sign3 = (sign & 8) != 0;
return db * vec4(
grid.x * (sign0 ? -1.0 : 1.0),
grid.y * (sign1 ? -1.0 : 1.0),
grid.z * (sign2 ? -1.0 : 1.0),
grid.w * (sign3 ? -1.0 : 1.0)
);
}
#endif
#if defined(DATA_A_IQ3_S)
vec2 dequantize(uint ib, uint iqs, uint a_offset) {
const uint qs = data_a[a_offset + ib].qs[iqs / 4];
const uint qh = data_a[a_offset + ib].qh[iqs / 32];
const uint sign = data_a[a_offset + ib].signs[iqs / 8] >> (iqs % 8);
const uint scale = data_a[a_offset + ib].scales[iqs / 64];
bool sign0 = (sign & 1) != 0;
bool sign1 = (sign & 2) != 0;
const float db = 1 + 2 * ((scale >> (4 * ((iqs / 32) & 1))) & 0xf);
const uint32_t grid = iq3s_grid[qs | ((qh << (8 - ((iqs / 4) % 8))) & 256)] >> (8 * (iqs % 4));
return db * vec2(
int(grid & 0xFF) * (sign0 ? -1.0 : 1.0),
int((grid >> 8) & 0xFF) * (sign1 ? -1.0 : 1.0)
);
}
vec4 dequantize4(uint ib, uint iqs, uint a_offset) {
const uint ib4 = iqs / 4;
const uint ib32 = iqs / 32;
const uint qs = data_a[a_offset + ib].qs[ib4];
const uint qh = data_a[a_offset + ib].qh[ib32];
const uint sign = data_a[a_offset + ib].signs[iqs / 8] >> (iqs % 8);
const uint scale = data_a[a_offset + ib].scales[ib32 / 2];
bool sign0 = (sign & 1) != 0;
bool sign1 = (sign & 2) != 0;
bool sign2 = (sign & 4) != 0;
bool sign3 = (sign & 8) != 0;
const float db = 1 + 2 * ((scale >> (4 * (ib32 & 1))) & 0xf);
const uint32_t grid = iq3s_grid[qs | ((qh << (8 - ib4 % 8)) & 256)] >> (8 * (iqs % 4));
return db * vec4(
int(grid & 0xFF) * (sign0 ? -1.0 : 1.0),
int((grid >> 8) & 0xFF) * (sign1 ? -1.0 : 1.0),
int((grid >> 16) & 0xFF) * (sign2 ? -1.0 : 1.0),
int((grid >> 24) & 0xFF) * (sign3 ? -1.0 : 1.0)
);
}
#endif
#if defined(DATA_A_IQ4_NL)
vec2 dequantize(uint ib, uint iqs, uint a_offset) {
const uint vui = uint(data_a[a_offset + ib].qs[iqs]);
return vec2(kvalues_iq4nl[vui & 0xF], kvalues_iq4nl[vui >> 4]);
}
vec4 dequantize4(uint ib, uint iqs, uint a_offset) {
const uint vui = uint(data_a_packed16[a_offset + ib].qs[iqs/2]);
return vec4(kvalues_iq4nl[vui & 0xF], kvalues_iq4nl[(vui >> 4) & 0xF], kvalues_iq4nl[(vui >> 8) & 0xF], kvalues_iq4nl[vui >> 12]);
}
#endif
#if defined(DATA_A_F32) || defined(DATA_A_F16)
vec2 get_dm(uint ib, uint a_offset) {
return vec2(0, 0);
}
#endif
#if defined(DATA_A_Q4_0) || defined(DATA_A_Q5_0) || defined(DATA_A_Q8_0) || defined(DATA_A_IQ2_XXS) || defined(DATA_A_IQ2_XS) || defined(DATA_A_IQ2_S) || defined(DATA_A_IQ3_XXS) || defined(DATA_A_IQ3_S) || defined(DATA_A_IQ4_NL)
vec2 get_dm(uint ib, uint a_offset) {
return vec2(float(data_a[a_offset + ib].d), 0);
}
#endif
#if defined(DATA_A_Q4_1) || defined(DATA_A_Q5_1)
vec2 get_dm(uint ib, uint a_offset) {
return vec2(float(data_a[a_offset + ib].d), float(data_a[a_offset + ib].m));
}
#endif
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