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Cherry-pick 2nd round for 1.16.0 release. PR List: #17201 #17270 #17311 #17315 #17320 #17326 #17355 #17227 #17380 #17386
113 lines
4.8 KiB
TypeScript
113 lines
4.8 KiB
TypeScript
// Copyright (c) Microsoft Corporation. All rights reserved.
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// Licensed under the MIT License.
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import {TensorView} from '../../tensor';
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import {ShapeUtil} from '../../util';
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import {GpuDataType, ProgramInfo, ProgramInfoLoader, ProgramMetadata} from '../types';
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import {inputVariable, outputVariable, ShaderHelper} from './common';
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import {calculateOutputShape, ConvAttributes} from './conv';
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import {getActicationSnippet} from './fuse-utils';
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const createGroupedConvProgramMetadata = (hasBias: boolean, cacheHint: string): ProgramMetadata => ({
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name: 'GroupedConv',
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inputTypes: hasBias ? [GpuDataType.default, GpuDataType.default, GpuDataType.default] :
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[GpuDataType.default, GpuDataType.default],
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cacheHint
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});
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const createGroupedConvProgramInfo =
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(inputs: readonly TensorView[], metadata: ProgramMetadata, attributes: ConvAttributes,
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squeezeOutputShapeFunction?: (shape: readonly number[]) => number[]): ProgramInfo => {
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const hasBias = inputs.length > 2;
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const processBias = hasBias ? 'value += b[output_channel];' : '';
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const xShape = inputs[0].dims;
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const wShape = inputs[1].dims;
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const outputChannelsPerGroup = wShape[0] / attributes.group;
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const {activationFunction, applyActivation} = getActicationSnippet(attributes);
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const isChannelLast = attributes.format === 'NHWC';
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const outputShape = calculateOutputShape(
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xShape, wShape, attributes.dilations, attributes.pads, attributes.strides, isChannelLast);
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const outputSize = ShapeUtil.size(outputShape);
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const output = outputVariable('output', inputs[0].dataType, outputShape);
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const x = inputVariable('x', inputs[0].dataType, xShape);
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const w = inputVariable('w', inputs[1].dataType, wShape);
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const inputVars = [x, w];
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if (hasBias) {
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inputVars.push(inputVariable('b', inputs[2].dataType, inputs[2].dims));
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}
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const getShaderSource = (shaderHelper: ShaderHelper) => `
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const strides: vec2<u32> = vec2(${attributes.strides[0]}u, ${attributes.strides[1]}u);
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const pads: vec2<u32> = vec2(${attributes.pads[0]}u, ${attributes.pads[1]}u);
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${shaderHelper.declareVariables(...inputVars, output)}
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${activationFunction}
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${shaderHelper.mainStart()}
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${shaderHelper.guardAgainstOutOfBoundsWorkgroupSizes(outputSize)}
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let outputIndices = ${output.offsetToIndices('global_idx')};
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let batch: u32 = outputIndices[0];
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let output_channel: u32 = outputIndices[${isChannelLast ? 3 : 1}];
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let xRCCorner: vec2<u32> = vec2<u32>(outputIndices[${isChannelLast ? 1 : 2}], outputIndices[${
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isChannelLast ? 2 : 3}]) * strides - pads;
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let group_id: u32 = output_channel / ${outputChannelsPerGroup}u;
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var value: ${output.type.value} = ${output.type.value}(0);
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for (var wInChannel: u32 = 0u; wInChannel < ${wShape[1]}u; wInChannel++) {
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let input_channel = group_id * ${wShape[1]}u + wInChannel;
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for (var wHeight: u32 = 0u; wHeight < ${wShape[2]}u; wHeight++) {
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let xHeight = xRCCorner.x + wHeight * ${attributes.dilations[0]}u;
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if (xHeight < 0u || xHeight >= ${xShape[isChannelLast ? 1 : 2]}u) {
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continue;
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}
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for (var wWidth: u32 = 0u; wWidth < ${wShape[3]}u; wWidth++) {
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let xWidth = xRCCorner.y + wWidth * ${attributes.dilations[1]}u;
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if (xWidth < 0u || xWidth >= ${xShape[isChannelLast ? 2 : 3]}u) {
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continue;
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}
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let xVal = ${
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isChannelLast ? x.get('batch', 'xHeight', 'xWidth', 'input_channel') :
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x.get('batch', 'input_channel', 'xHeight', 'xWidth')};
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let wVal = ${w.get('output_channel', 'wInChannel', 'wHeight', 'wWidth')};
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value += xVal*wVal;
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}
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}
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}
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${processBias}
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${applyActivation}
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${output.setByOffset('global_idx', 'value')}
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}`;
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return {
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...metadata,
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outputs: [{
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dims: squeezeOutputShapeFunction ? squeezeOutputShapeFunction(outputShape) : outputShape,
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dataType: inputs[0].dataType,
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gpuDataType: GpuDataType.default
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}],
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getShaderSource,
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dispatchGroup: () => ({x: Math.ceil(outputSize / 64 /* workgroup size */)})
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};
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};
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/**
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* naive grouped conv implementation, supports 1d/2d conv
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* @param squeezeOutputShapeFunction - an optional function to squeeze the output shape, only used in conv1d
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*/
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export const createGroupedConvProgramInfoLoader =
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(inputs: readonly TensorView[], attributes: ConvAttributes,
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squeezeOutputShapeFunction?: (shape: readonly number[]) => number[]): ProgramInfoLoader => {
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const metadata = createGroupedConvProgramMetadata(inputs.length > 2, attributes.cacheKey);
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return {
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...metadata,
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get: () => createGroupedConvProgramInfo(inputs, metadata, attributes, squeezeOutputShapeFunction)
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};
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};
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