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[JS/WebGPU] Add MatMulNBits (#19446)
### Description Add MatMulNBits to support MatMul using 4-bit quantized weights ### Motivation and Context <!-- - Why is this change required? What problem does it solve? - If it fixes an open issue, please link to the issue here. -->
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// Copyright (c) Microsoft Corporation. All rights reserved. | ||
// Licensed under the MIT License. | ||
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import {DataType} from '../../../wasm-common'; | ||
import {TensorView} from '../../tensor-view'; | ||
import {ShapeUtil} from '../../util'; | ||
import {AttributeWithCacheKey, createAttributeWithCacheKey} from '../attribute-with-cache-key'; | ||
import {ComputeContext, ProgramInfo, ProgramUniform} from '../types'; | ||
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import {createTensorShapeVariables, inputVariable, outputVariable, ShaderHelper, tensorTypeToWsglStorageType, UniformsArrayType} from './common'; | ||
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// TODO support quantization bits not equal to 4 | ||
export interface MatMulNBitsAttributes extends AttributeWithCacheKey { | ||
k: number; | ||
n: number; | ||
accuracyLevel: number; | ||
bits: number; | ||
blockSize: number; | ||
} | ||
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const validateInputs = (inputs: readonly TensorView[], attributes: MatMulNBitsAttributes): void => { | ||
if (inputs.length < 3 || inputs.length > 4) { | ||
throw new Error('MatMulNBits requires 3 or 4 inputs'); | ||
} | ||
const a = inputs[0]; | ||
const aRank = a.dims.length; | ||
if (a.dims[aRank - 1] !== attributes.k) { | ||
throw new Error('The last dim of input shape does not match the k value'); | ||
} | ||
const nBlocksPerCol = Math.floor((attributes.k + attributes.blockSize - 1) / attributes.blockSize); | ||
const blobSize = attributes.blockSize / 8 * attributes.bits; | ||
const b = inputs[1]; | ||
if (!ShapeUtil.areEqual(b.dims, [attributes.n, nBlocksPerCol, blobSize])) { | ||
throw new Error('The second inputs must be 3D tensor with shape N X nBlocksPerCol X blobSize'); | ||
} | ||
const scales = inputs[2]; | ||
const scalesShape = scales.dims; | ||
if (ShapeUtil.size(scalesShape) !== attributes.n * nBlocksPerCol) { | ||
throw new Error('scales input size error.'); | ||
} | ||
if (inputs.length === 4) { | ||
const zeroPoints = inputs[3]; | ||
const zeroPointsShape = zeroPoints.dims; | ||
const expectedZeroPointsSize = | ||
attributes.bits > 4 ? (attributes.n * nBlocksPerCol) : attributes.n * Math.floor((nBlocksPerCol + 1) / 2); | ||
if (ShapeUtil.size(zeroPointsShape) !== expectedZeroPointsSize) { | ||
throw new Error('zeroPoints input size error.'); | ||
} | ||
} | ||
}; | ||
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export const createMatMulNBitsProgramInfo = | ||
(inputs: readonly TensorView[], attributes: MatMulNBitsAttributes): ProgramInfo => { | ||
const a = inputs[0]; | ||
const b = inputs[1]; | ||
const scales = inputs[2]; | ||
const aRank = a.dims.length; | ||
const outputShape = a.dims.slice(0, aRank - 1).concat(attributes.n); | ||
const outputSize = ShapeUtil.size(outputShape); | ||
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const programUniforms: ProgramUniform[] = [ | ||
{type: DataType.uint32, data: outputSize}, {type: DataType.uint32, data: attributes.k}, | ||
{type: DataType.uint32, data: attributes.n}, {type: DataType.uint32, data: attributes.accuracyLevel}, | ||
{type: DataType.uint32, data: attributes.bits}, {type: DataType.uint32, data: attributes.blockSize} | ||
]; | ||
programUniforms.push(...createTensorShapeVariables(a.dims)); | ||
programUniforms.push(...createTensorShapeVariables(ShapeUtil.convertShape(b.dims))); | ||
programUniforms.push(...createTensorShapeVariables(scales.dims)); | ||
if (inputs.length === 4) { | ||
programUniforms.push(...createTensorShapeVariables(ShapeUtil.convertShape(inputs[3].dims))); | ||
} | ||
programUniforms.push(...createTensorShapeVariables(outputShape)); | ||
const getShaderSource = (shaderHelper: ShaderHelper) => { | ||
const a = inputVariable('a', inputs[0].dataType, inputs[0].dims.length); | ||
const b = inputVariable('b', DataType.uint32, inputs[1].dims.length); | ||
const scales = inputVariable('scales', inputs[2].dataType, inputs[2].dims.length); | ||
const inputVariables = [a, b, scales]; | ||
const zeroPoints = | ||
inputs.length === 4 ? inputVariable('zero_points', DataType.uint32, inputs[3].dims.length) : undefined; | ||
if (zeroPoints) { | ||
inputVariables.push(zeroPoints); | ||
} | ||
const output = outputVariable('output', inputs[0].dataType, outputShape.length); | ||
const uniforms: UniformsArrayType = [ | ||
{name: 'output_size', type: 'u32'}, {name: 'k', type: 'u32'}, {name: 'n', type: 'u32'}, | ||
{name: 'accuracy_level', type: 'u32'}, {name: 'bits', type: 'u32'}, {name: 'block_size', type: 'u32'} | ||
]; | ||
const nBlocksPerCol = Math.floor((attributes.k + attributes.blockSize - 1) / attributes.blockSize); | ||
const blobSize = attributes.blockSize / 8 * attributes.bits; | ||
const wordPerBlob = blobSize / 4; | ||
const dataType = tensorTypeToWsglStorageType(inputs[0].dataType); | ||
return ` | ||
fn ortUnpack8x4snorm(value: u32) -> array<${dataType}, 8>{ | ||
var result = array<${dataType}, 8>(); | ||
var offset: u32 = 0; | ||
let count: u32 = 4; | ||
for (var i: u32 = 0; i < 8u; i++) { | ||
result[i] = ${dataType}(extractBits(value, offset, count)); | ||
offset += count; | ||
} | ||
return result; | ||
} | ||
${shaderHelper.registerUniforms(uniforms).declareVariables(...inputVariables, output)} | ||
${shaderHelper.mainStart()} | ||
${shaderHelper.guardAgainstOutOfBoundsWorkgroupSizes('uniforms.output_size')} | ||
var value: ${dataType} = 0.0; | ||
let output_indices = ${output.offsetToIndices('global_idx')}; | ||
var a_indices: ${a.type.indices} = output_indices; | ||
var n = ${output.indicesGet('output_indices', aRank - 1)}; | ||
// Two zero points are packed into one byte because uniforms.bits <= 4. | ||
// zero_point_offset is either 0 or 4. It is bit offset within one byte. | ||
// TODO support zero_point_offset for bits > 4 | ||
${ | ||
zeroPoints ? ` | ||
var zero_point_index: u32 = n * ((${nBlocksPerCol} + 1) / 2) / 4; | ||
var zero_point_word: u32 = ${zeroPoints.getByOffset('zero_point_index')}; | ||
var zero_point_offset: u32 = 0;` : | ||
''} | ||
var scale_idex = n * ${nBlocksPerCol}; | ||
var b_indices: ${b.type.indices}; | ||
${b.indicesSet('b_indices', '0', 'n')}; | ||
var block_offset: u32 = 0; | ||
for (var block: u32 = 0; block < ${nBlocksPerCol}; block++) { | ||
// The scale and zero points are computed per block. | ||
let scale = ${scales.getByOffset('scale_idex')}; | ||
// The default zero point is 8 for unsigned 4-bit quantization. | ||
let zero_point: ${dataType} = ${ | ||
zeroPoints ? `${dataType}(extractBits(zero_point_word, zero_point_offset, 4))` : 8.0}; | ||
${b.indicesSet('b_indices', '1', 'block')}; | ||
var word_offset: u32 = block_offset; | ||
for (var word: u32 = 0; word < ${wordPerBlob}; word++) { | ||
${b.indicesSet('b_indices', '2', 'word')}; | ||
let b_value = ${b.getByIndices('b_indices')}; | ||
let b_quantized_values: array<${dataType}, 8> = ortUnpack8x4snorm(b_value); | ||
// Number of B elements per 32-bit word is 32/bits = 32/4 = 8 | ||
var offset: u32 = word_offset; | ||
for (var i: u32 = 0; i < 8; i++) { | ||
${a.indicesSet('a_indices', aRank - 1, 'offset')}; | ||
let a_value = ${a.getByIndices('a_indices')}; | ||
let b_quantized_value = b_quantized_values[i]; | ||
let b_dequantized_value = (b_quantized_value - zero_point) * scale; | ||
value += a_value * b_dequantized_value; | ||
offset++; | ||
} | ||
word_offset += 8; | ||
} | ||
scale_idex++; | ||
${ | ||
zeroPoints ? ` | ||
if (zero_point_offset == 28) { | ||
zero_point_offset = 0; | ||
zero_point_index++; | ||
zero_point_word = ${zeroPoints.getByOffset('zero_point_index')}; | ||
} else { | ||
zero_point_offset += 4; | ||
}` : | ||
''} | ||
block_offset += uniforms.block_size; | ||
} | ||
${output.setByOffset('global_idx', 'value')}; | ||
} | ||
`; | ||
}; | ||
return { | ||
name: 'MatMulNBits', | ||
shaderCache: | ||
{hint: `${attributes.cacheKey};${inputs.length}`, inputDependencies: Array(inputs.length).fill('rank')}, | ||
getRunData: () => ({ | ||
outputs: [{dims: outputShape, dataType: inputs[0].dataType}], | ||
dispatchGroup: {x: Math.ceil(outputSize / 64)}, | ||
programUniforms | ||
}), | ||
getShaderSource | ||
}; | ||
}; | ||
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export const matMulNBits = (context: ComputeContext, attributes: MatMulNBitsAttributes): void => { | ||
validateInputs(context.inputs, attributes); | ||
context.compute(createMatMulNBitsProgramInfo(context.inputs, attributes)); | ||
}; | ||
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export const parseMatMulNBitsAttributes = (attributes: Record<string, unknown>): MatMulNBitsAttributes => | ||
createAttributeWithCacheKey(attributes as Omit<MatMulNBitsAttributes, keyof AttributeWithCacheKey>); |
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