test_quantization_pass.py 15.4 KB
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#   copyright (c) 2018 paddlepaddle authors. all rights reserved.
#
# licensed under the apache license, version 2.0 (the "license");
# you may not use this file except in compliance with the license.
# you may obtain a copy of the license at
#
#     http://www.apache.org/licenses/license-2.0
#
# unless required by applicable law or agreed to in writing, software
# distributed under the license is distributed on an "as is" basis,
# without warranties or conditions of any kind, either express or implied.
# see the license for the specific language governing permissions and
# limitations under the license.

import unittest
import random
import numpy as np
import paddle.fluid as fluid
import six
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import paddle
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from paddle.fluid.framework import IrGraph
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from paddle.fluid.contrib.slim.quantization import QuantizationTransformPass
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from paddle.fluid.contrib.slim.quantization import QuantizationFreezePass
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from paddle.fluid.contrib.slim.quantization import ConvertToInt8Pass
from paddle.fluid.contrib.slim.quantization import TransformForMobilePass
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from paddle.fluid import core


def linear_fc(num):
    data = fluid.layers.data(name='image', shape=[1, 32, 32], dtype='float32')
    label = fluid.layers.data(name='label', shape=[1], dtype='int64')
    hidden = data
    for _ in six.moves.xrange(num):
        hidden = fluid.layers.fc(hidden, size=128, act='relu')
    loss = fluid.layers.cross_entropy(input=hidden, label=label)
    loss = fluid.layers.mean(loss)
    return loss


def residual_block(num):
    def conv_bn_layer(input,
                      ch_out,
                      filter_size,
                      stride,
                      padding,
                      act='relu',
                      bias_attr=False):
        tmp = fluid.layers.conv2d(
            input=input,
            filter_size=filter_size,
            num_filters=ch_out,
            stride=stride,
            padding=padding,
            act=None,
            bias_attr=bias_attr)
        return fluid.layers.batch_norm(input=tmp, act=act)

    data = fluid.layers.data(name='image', shape=[1, 32, 32], dtype='float32')
    label = fluid.layers.data(name='label', shape=[1], dtype='int64')
    hidden = data
    for _ in six.moves.xrange(num):
        conv = conv_bn_layer(hidden, 16, 3, 1, 1, act=None, bias_attr=True)
        short = conv_bn_layer(hidden, 16, 1, 1, 0, act=None)
        hidden = fluid.layers.elementwise_add(x=conv, y=short, act='relu')
    fc = fluid.layers.fc(input=hidden, size=10)
    loss = fluid.layers.cross_entropy(input=fc, label=label)
    loss = fluid.layers.mean(loss)
    return loss


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def conv_net(img, label):
    conv_pool_1 = fluid.nets.simple_img_conv_pool(
        input=img,
        filter_size=5,
        num_filters=20,
        pool_size=2,
        pool_stride=2,
        act="relu")
    conv_pool_1 = fluid.layers.batch_norm(conv_pool_1)
    conv_pool_2 = fluid.nets.simple_img_conv_pool(
        input=conv_pool_1,
        filter_size=5,
        num_filters=50,
        pool_size=2,
        pool_stride=2,
        act="relu")
    prediction = fluid.layers.fc(input=conv_pool_2, size=10, act='softmax')
    loss = fluid.layers.cross_entropy(input=prediction, label=label)
    avg_loss = fluid.layers.mean(loss)
    return avg_loss


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class TestQuantizationTransformPass(unittest.TestCase):
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    def setUp(self):
        self.quantizable_op_and_inputs = {
            'conv2d': ['Input', 'Filter'],
            'depthwise_conv2d': ['Input', 'Filter'],
            'mul': ['X', 'Y']
        }
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        self.quantizable_grad_op_inputs = {
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            'conv2d_grad': ['Input', 'Filter'],
            'depthwise_conv2d_grad': ['Input', 'Filter'],
            'mul_grad': ['X', 'Y']
        }

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    def check_program(self, transform_pass, program):
        quantized_ops = set()
        for block in program.blocks:
            for op in block.ops:
                # check forward
                if op.type in self.quantizable_op_and_inputs:
                    for arg_name in op.input_arg_names:
                        self.assertTrue(
                            arg_name.endswith('.quantized.dequantized'))
                        quantized_ops.add(arg_name)

            for op in block.ops:
                # check backward
                if op.type in self.quantizable_grad_op_inputs:
                    for pname in self.quantizable_grad_op_inputs[op.type]:
                        arg_name = op.input(pname)[0]
                        self.assertTrue(
                            arg_name.endswith('.quantized.dequantized'))
                        self.assertTrue(arg_name in quantized_ops)

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    def linear_fc_quant(self, quant_type):
        main = fluid.Program()
        startup = fluid.Program()
        with fluid.program_guard(main, startup):
            loss = linear_fc(3)
            opt = fluid.optimizer.Adam(learning_rate=0.001)
            opt.minimize(loss)
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        exe = fluid.Executor(fluid.CPUPlace())
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        graph = IrGraph(core.Graph(main.desc), for_test=False)
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        transform_pass = QuantizationTransformPass(
            scope=fluid.global_scope(),
            program_exe=exe,
            activation_quantize_type=quant_type)
        transform_pass.apply(graph)
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        marked_nodes = set()
        for op in graph.all_ops():
            if op.name().find('quantize') > -1:
                marked_nodes.add(op)
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        graph.draw('.', 'quantize_fc_' + quant_type, marked_nodes)
        program = graph.to_program()
        self.check_program(transform_pass, program)
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        val_graph = IrGraph(core.Graph(program.desc), for_test=False)
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        val_marked_nodes = set()
        for op in val_graph.all_ops():
            if op.name().find('quantize') > -1:
                val_marked_nodes.add(op)
        val_graph.draw('.', 'val_fc_' + quant_type, val_marked_nodes)
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    def no_test_linear_fc_quant_abs_max(self):
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        self.act_quant_op_type = 'fake_quantize_abs_max'
        self.linear_fc_quant('abs_max')

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    def no_test_linear_fc_quant_range_abs_max(self):
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        self.act_quant_op_type = 'fake_quantize_range_abs_max'
        self.linear_fc_quant('range_abs_max')

    def residual_block_quant(self, quant_type):
        main = fluid.Program()
        startup = fluid.Program()
        with fluid.program_guard(main, startup):
            loss = residual_block(2)
            opt = fluid.optimizer.Adam(learning_rate=0.001)
            opt.minimize(loss)
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        exe = fluid.Executor(fluid.CPUPlace())
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        graph = IrGraph(core.Graph(main.desc), for_test=False)
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        transform_pass = QuantizationTransformPass(
            scope=fluid.global_scope(),
            program_exe=exe,
            activation_quantize_type=quant_type)
        transform_pass.apply(graph)
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        marked_nodes = set()
        for op in graph.all_ops():
            if op.name().find('quantize') > -1:
                marked_nodes.add(op)
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        graph.draw('.', 'quantize_residual_' + quant_type, marked_nodes)
        program = graph.to_program()
        self.check_program(transform_pass, program)
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        val_graph = IrGraph(core.Graph(program.desc), for_test=False)
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        val_marked_nodes = set()
        for op in val_graph.all_ops():
            if op.name().find('quantize') > -1:
                val_marked_nodes.add(op)
        val_graph.draw('.', 'val_residual_' + quant_type, val_marked_nodes)
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    def no_test_residual_block_abs_max(self):
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        self.act_quant_op_type = 'fake_quantize_abs_max'
        self.residual_block_quant('abs_max')

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    def no_test_residual_block_range_abs_max(self):
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        self.act_quant_op_type = 'fake_quantize_range_abs_max'
        self.residual_block_quant('range_abs_max')


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class TestQuantizationFreezePass(unittest.TestCase):
    def freeze_graph(self, use_cuda, seed, quant_type):
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        def build_program(main, startup, is_test):
            main.random_seed = seed
            startup.random_seed = seed
            with fluid.unique_name.guard():
                with fluid.program_guard(main, startup):
                    img = fluid.layers.data(
                        name='image', shape=[1, 28, 28], dtype='float32')
                    label = fluid.layers.data(
                        name='label', shape=[1], dtype='int64')
                    loss = conv_net(img, label)
                    if not is_test:
                        opt = fluid.optimizer.Adam(learning_rate=0.001)
                        opt.minimize(loss)
            return [img, label], loss

        random.seed(0)
        np.random.seed(0)

        main = fluid.Program()
        startup = fluid.Program()
        test_program = fluid.Program()
        feeds, loss = build_program(main, startup, False)
        build_program(test_program, startup, True)
        test_program = test_program.clone(for_test=True)
        main_graph = IrGraph(core.Graph(main.desc), for_test=False)
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        test_graph = IrGraph(core.Graph(test_program.desc), for_test=True)
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        place = fluid.CUDAPlace(0) if use_cuda else fluid.CPUPlace()
        exe = fluid.Executor(place)
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        scope = fluid.Scope()
        with fluid.scope_guard(scope):
            exe.run(startup)
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        transform_pass = QuantizationTransformPass(
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            scope=scope, program_exe=exe, activation_quantize_type=quant_type)
        transform_pass.apply(main_graph)
        transform_pass.apply(test_graph)
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        dev_name = '_gpu_' if use_cuda else '_cpu_'
        marked_nodes = set()
        for op in main_graph.all_ops():
            if op.name().find('quantize') > -1:
                marked_nodes.add(op)
        main_graph.draw('.', 'main' + dev_name + quant_type, marked_nodes)
        marked_nodes = set()
        for op in test_graph.all_ops():
            if op.name().find('quantize') > -1:
                marked_nodes.add(op)
        test_graph.draw('.', 'test' + dev_name + quant_type, marked_nodes)
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        quantized_main_program = main_graph.to_program()
        quantized_test_program = test_graph.to_program()
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        iters = 5
        batch_size = 16
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        train_exe = fluid.ParallelExecutor(
            main_program=quantized_main_program,
            use_cuda=bool(use_cuda),
            loss_name=loss.name,
            scope=scope)
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        train_reader = paddle.batch(
            paddle.reader.shuffle(
                paddle.dataset.mnist.train(), buf_size=500),
            batch_size=batch_size)
        test_reader = paddle.batch(
            paddle.dataset.mnist.test(), batch_size=batch_size)
        feeder = fluid.DataFeeder(feed_list=feeds, place=place)
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        with fluid.scope_guard(scope):
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            for _ in range(iters):
                data = next(train_reader())
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                #loss_v = exe.run(program=quantized_main_program,
                #                 feed=feeder.feed(data),
                #                 fetch_list=[loss])
                loss_v = train_exe.run(feed=feeder.feed(data),
                                       fetch_list=[loss.name])
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                #print('{}: {}'.format('loss' + dev_name + quant_type, loss_v))
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        test_data = next(test_reader())
        with fluid.program_guard(quantized_test_program):
            w_var = fluid.framework._get_var('conv2d_1.w_0.quantized',
                                             quantized_test_program)
        # Testing
        with fluid.scope_guard(scope):
            test_loss1, w_quant = exe.run(program=quantized_test_program,
                                          feed=feeder.feed(test_data),
                                          fetch_list=[loss, w_var])

        # Freeze graph for inference, but the weight of fc/conv is still float type.
        freeze_pass = QuantizationFreezePass(scope=scope, place=place)
        freeze_pass.apply(test_graph)
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        marked_nodes = set()
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        for op in test_graph.all_ops():
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            if op.name().find('quantize') > -1:
                marked_nodes.add(op)
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        test_graph.draw('.', 'test_freeze' + dev_name + quant_type,
                        marked_nodes)
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        server_program = test_graph.to_program()
        with fluid.scope_guard(scope):
            test_loss2, = exe.run(program=server_program,
                                  feed=feeder.feed(test_data),
                                  fetch_list=[loss])
        self.assertAlmostEqual(test_loss1, test_loss2, delta=5e-3)
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        #print('{}: {}'.format('test_loss1' + dev_name + quant_type, test_loss1))
        #print('{}: {}'.format('test_loss2' + dev_name + quant_type, test_loss2))
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        w_freeze = np.array(scope.find_var('conv2d_1.w_0').get_tensor())
        # Maybe failed, this is due to the calculation precision
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        # self.assertAlmostEqual(np.sum(w_freeze), np.sum(w_quant))
        #print('{}: {}'.format('w_freeze' + dev_name + quant_type,
        #                      np.sum(w_freeze)))
        #print('{}: {}'.format('w_quant' + dev_name + quant_type,
        #                      np.sum(w_quant)))
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        # Convert parameter to 8-bit.
        convert_int8_pass = ConvertToInt8Pass(scope=scope, place=place)
        convert_int8_pass.apply(test_graph)
        marked_nodes = set()
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        for op in test_graph.all_ops():
            if op.name().find('quantize') > -1:
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                marked_nodes.add(op)
        test_graph.draw('.', 'test_int8' + dev_name + quant_type, marked_nodes)
        server_program_int8 = test_graph.to_program()
        # Save the 8-bit parameter and model file.
        with fluid.scope_guard(scope):
            fluid.io.save_inference_model('server_int8' + dev_name + quant_type,
                                          ['image', 'label'], [loss], exe,
                                          server_program_int8)
            # Test whether the 8-bit parameter and model file can be loaded successfully.
            [infer, feed, fetch] = fluid.io.load_inference_model(
                'server_int8' + dev_name + quant_type, exe)
        # Check the loaded 8-bit weight.
        w_8bit = np.array(scope.find_var('conv2d_1.w_0.int8').get_tensor())
        self.assertEqual(w_8bit.dtype, np.int8)
        self.assertEqual(np.sum(w_8bit), np.sum(w_freeze))
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        #print('{}: {}'.format('w_8bit' + dev_name + quant_type, np.sum(w_8bit)))
        #print('{}: {}'.format('w_freeze' + dev_name + quant_type,
        #                      np.sum(w_freeze)))
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        mobile_pass = TransformForMobilePass()
        mobile_pass.apply(test_graph)
        marked_nodes = set()
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        for op in test_graph.all_ops():
            if op.name().find('quantize') > -1:
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                marked_nodes.add(op)
        test_graph.draw('.', 'test_mobile' + dev_name + quant_type,
                        marked_nodes)

        mobile_program = test_graph.to_program()
        with fluid.scope_guard(scope):
            fluid.io.save_inference_model('mobile_int8' + dev_name + quant_type,
                                          ['image', 'label'], [loss], exe,
                                          mobile_program)
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    def test_freeze_program_cuda_dynamic(self):
        if fluid.core.is_compiled_with_cuda():
            with fluid.unique_name.guard():
                self.freeze_graph(True, seed=1, quant_type='abs_max')

    def test_freeze_program_cpu_dynamic(self):
        with fluid.unique_name.guard():
            self.freeze_graph(False, seed=2, quant_type='abs_max')
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    def test_freeze_program_cuda_static(self):
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        if fluid.core.is_compiled_with_cuda():
            with fluid.unique_name.guard():
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                self.freeze_graph(True, seed=1, quant_type='range_abs_max')
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    def test_freeze_program_cpu_static(self):
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        with fluid.unique_name.guard():
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            self.freeze_graph(False, seed=2, quant_type='range_abs_max')
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if __name__ == '__main__':
    unittest.main()