test_calibration_resnet50.py 11.8 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 os
import numpy as np
import time
import sys
import random
import paddle
import paddle.fluid as fluid
import functools
import contextlib
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from paddle.dataset.common import download
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from PIL import Image, ImageEnhance
import math
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import paddle.fluid.contrib.int8_inference.utility as int8_utility
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random.seed(0)
np.random.seed(0)

DATA_DIM = 224

THREAD = 1
BUF_SIZE = 102400

DATA_DIR = 'data/ILSVRC2012'

img_mean = np.array([0.485, 0.456, 0.406]).reshape((3, 1, 1))
img_std = np.array([0.229, 0.224, 0.225]).reshape((3, 1, 1))


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# TODO(guomingz): Remove duplicated code from resize_short, crop_image, process_image, _reader_creator
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def resize_short(img, target_size):
    percent = float(target_size) / min(img.size[0], img.size[1])
    resized_width = int(round(img.size[0] * percent))
    resized_height = int(round(img.size[1] * percent))
    img = img.resize((resized_width, resized_height), Image.LANCZOS)
    return img


def crop_image(img, target_size, center):
    width, height = img.size
    size = target_size
    if center == True:
        w_start = (width - size) / 2
        h_start = (height - size) / 2
    else:
        w_start = np.random.randint(0, width - size + 1)
        h_start = np.random.randint(0, height - size + 1)
    w_end = w_start + size
    h_end = h_start + size
    img = img.crop((w_start, h_start, w_end, h_end))
    return img


def process_image(sample, mode, color_jitter, rotate):
    img_path = sample[0]

    img = Image.open(img_path)

    img = resize_short(img, target_size=256)
    img = crop_image(img, target_size=DATA_DIM, center=True)

    if img.mode != 'RGB':
        img = img.convert('RGB')

    img = np.array(img).astype('float32').transpose((2, 0, 1)) / 255
    img -= img_mean
    img /= img_std

    return img, sample[1]


def _reader_creator(file_list,
                    mode,
                    shuffle=False,
                    color_jitter=False,
                    rotate=False,
                    data_dir=DATA_DIR):
    def reader():
        with open(file_list) as flist:
            full_lines = [line.strip() for line in flist]
            if shuffle:
                np.random.shuffle(full_lines)

            lines = full_lines

            for line in lines:
                img_path, label = line.split()
                img_path = os.path.join(data_dir, img_path)
                if not os.path.exists(img_path):
                    continue
                yield img_path, int(label)

    mapper = functools.partial(
        process_image, mode=mode, color_jitter=color_jitter, rotate=rotate)

    return paddle.reader.xmap_readers(mapper, reader, THREAD, BUF_SIZE)


def val(data_dir=DATA_DIR):
    file_list = os.path.join(data_dir, 'val_list.txt')
    return _reader_creator(file_list, 'val', shuffle=False, data_dir=data_dir)


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class TestCalibration(unittest.TestCase):
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    def setUp(self):
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        self.int8_download = 'int8/download'
        self.cache_folder = os.path.expanduser('~/.cache/paddle/dataset/' +
                                               self.int8_download)

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        data_urls = []
        data_md5s = []
        self.data_cache_folder = ''
        if os.environ.get('DATASET') == 'full':
            data_urls.append(
                'https://paddle-inference-dist.bj.bcebos.com/int8/ILSVRC2012_img_val.tar.gz.partaa'
            )
            data_md5s.append('60f6525b0e1d127f345641d75d41f0a8')
            data_urls.append(
                'https://paddle-inference-dist.bj.bcebos.com/int8/ILSVRC2012_img_val.tar.gz.partab'
            )
            data_md5s.append('1e9f15f64e015e58d6f9ec3210ed18b5')
            self.data_cache_folder = self.download_data(data_urls, data_md5s,
                                                        "full_data", False)
        else:
            data_urls.append(
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                'http://paddle-inference-dist.bj.bcebos.com/int8/calibration_test_data.tar.gz'
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            )
            data_md5s.append('1b6c1c434172cca1bf9ba1e4d7a3157d')
            self.data_cache_folder = self.download_data(data_urls, data_md5s,
                                                        "small_data", False)
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        # reader/decorator.py requires the relative path to the data folder
        cmd = 'rm -rf {0} && ln -s {1} {0}'.format("data",
                                                   self.data_cache_folder)
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        os.system(cmd)

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        self.batch_size = 1 if os.environ.get('DATASET') == 'full' else 50
        self.sample_iterations = 50 if os.environ.get(
            'DATASET') == 'full' else 1
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        self.infer_iterations = 50000 if os.environ.get(
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            'DATASET') == 'full' else 1
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        self.timestamp = time.strftime('%Y-%m-%d-%H-%M-%S', time.localtime())
        self.int8_model = ''

    def tearDown(self):
        try:
            os.system("rm -rf {}".format(self.int8_model))
        except Exception as e:
            print("Failed to delete {} due to {}".format(self.int8_model,
                                                         str(e)))

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    def cache_unzipping(self, target_folder, zip_path):
        if not os.path.exists(target_folder):
            cmd = 'mkdir {0} && tar xf {1} -C {0}'.format(target_folder,
                                                          zip_path)
            os.system(cmd)

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    def download_data(self, data_urls, data_md5s, folder_name, is_model=True):
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        data_cache_folder = os.path.join(self.cache_folder, folder_name)
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        zip_path = ''
        if os.environ.get('DATASET') == 'full':
            file_names = []
            for i in range(0, len(data_urls)):
                download(data_urls[i], self.int8_download, data_md5s[i])
                file_names.append(data_urls[i].split('/')[-1])

            zip_path = os.path.join(self.cache_folder,
                                    'full_imagenet_val.tar.gz')
            if not os.path.exists(zip_path):
                cat_command = 'cat'
                for file_name in file_names:
                    cat_command += ' ' + os.path.join(self.cache_folder,
                                                      file_name)
                cat_command += ' > ' + zip_path
                os.system(cat_command)

        if os.environ.get('DATASET') != 'full' or is_model:
            download(data_urls[0], self.int8_download, data_md5s[0])
            file_name = data_urls[0].split('/')[-1]
            zip_path = os.path.join(self.cache_folder, file_name)

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        print('Data is downloaded at {0}'.format(zip_path))
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        self.cache_unzipping(data_cache_folder, zip_path)
        return data_cache_folder

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    def download_model(self):
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        pass
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    def run_program(self, model_path, generate_int8=False, algo='direct'):
        image_shape = [3, 224, 224]

        fluid.memory_optimize(fluid.default_main_program())

        exe = fluid.Executor(fluid.CPUPlace())

        [infer_program, feed_dict,
         fetch_targets] = fluid.io.load_inference_model(model_path, exe)

        t = fluid.transpiler.InferenceTranspiler()
        t.transpile(infer_program, fluid.CPUPlace())

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        val_reader = paddle.batch(val(), self.batch_size)
        iterations = self.infer_iterations
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        if generate_int8:
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            self.int8_model = os.path.join(os.getcwd(),
                                           "calibration_out_" + self.timestamp)
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            iterations = self.sample_iterations
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            try:
                os.system("mkdir " + self.int8_model)
            except Exception as e:
                print("Failed to create {} due to {}".format(self.int8_model,
                                                             str(e)))
                sys.exit(-1)
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            calibrator = int8_utility.Calibrator(
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                program=infer_program,
                pretrained_model=model_path,
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                algo=algo,
                exe=exe,
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                output=self.int8_model,
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                feed_var_names=feed_dict,
                fetch_list=fetch_targets)
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        test_info = []
        cnt = 0
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        periods = []
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        for batch_id, data in enumerate(val_reader()):
            image = np.array(
                [x[0].reshape(image_shape) for x in data]).astype("float32")
            label = np.array([x[1] for x in data]).astype("int64")
            label = label.reshape([-1, 1])
            running_program = calibrator.sampling_program.clone(
            ) if generate_int8 else infer_program.clone()

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            t1 = time.time()
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            _, acc1, _ = exe.run(
                running_program,
                feed={feed_dict[0]: image,
                      feed_dict[1]: label},
                fetch_list=fetch_targets)
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            t2 = time.time()
            period = t2 - t1
            periods.append(period)

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            if generate_int8:
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                calibrator.sample_data()
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            test_info.append(np.mean(acc1) * len(data))
            cnt += len(data)

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            if (batch_id + 1) % 100 == 0:
                print("{0} images,".format(batch_id + 1))
                sys.stdout.flush()
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            if (batch_id + 1) == iterations:
                break
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        if generate_int8:
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            calibrator.save_int8_model()

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            print(
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                "Calibration is done and the corresponding files are generated at {}".
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                format(os.path.abspath("calibration_out")))
        else:
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            throughput = cnt / np.sum(periods)
            latency = np.average(periods)
            acc1 = np.sum(test_info) / cnt
            return (throughput, latency, acc1)
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class TestCalibrationForResnet50(TestCalibration):
    def download_model(self):
        # resnet50 fp32 data
        data_urls = [
            'http://paddle-inference-dist.bj.bcebos.com/int8/resnet50_int8_model.tar.gz'
        ]
        data_md5s = ['4a5194524823d9b76da6e738e1367881']
        self.model_cache_folder = self.download_data(data_urls, data_md5s,
                                                     "resnet50_fp32")
        self.model = "ResNet-50"
        self.algo = "direct"

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    def test_calibration(self):
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        self.download_model()
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        print("Start FP32 inference for {0} on {1} images ...".format(
            self.model, self.infer_iterations * self.batch_size))
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        (fp32_throughput, fp32_latency,
         fp32_acc1) = self.run_program(self.model_cache_folder + "/model")
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        print("Start INT8 calibration for {0} on {1} images ...".format(
            self.model, self.sample_iterations * self.batch_size))
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        self.run_program(
            self.model_cache_folder + "/model", True, algo=self.algo)
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        print("Start INT8 inference for {0} on {1} images ...".format(
            self.model, self.infer_iterations * self.batch_size))
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        (int8_throughput, int8_latency,
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         int8_acc1) = self.run_program(self.int8_model)
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        delta_value = fp32_acc1 - int8_acc1
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        self.assertLess(delta_value, 0.01)
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        print(
            "FP32 {0}: batch_size {1}, throughput {2} images/second, latency {3} second, accuracy {4}".
            format(self.model, self.batch_size, fp32_throughput, fp32_latency,
                   fp32_acc1))
        print(
            "INT8 {0}: batch_size {1}, throughput {2} images/second, latency {3} second, accuracy {4}".
            format(self.model, self.batch_size, int8_throughput, int8_latency,
                   int8_acc1))
        sys.stdout.flush()
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if __name__ == '__main__':
    unittest.main()