lenet5_dp.py 6.4 KB
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# Copyright 2020 Huawei Technologies Co., Ltd
#
# 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.
"""
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python lenet5_dp.py --data_path /YourDataPath --micro_batches=2
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"""
import os

import mindspore.nn as nn
from mindspore import context
from mindspore.train.callback import ModelCheckpoint
from mindspore.train.callback import CheckpointConfig
from mindspore.train.callback import LossMonitor
from mindspore.nn.metrics import Accuracy
from mindspore.train.serialization import load_checkpoint, load_param_into_net
import mindspore.dataset as ds
import mindspore.dataset.transforms.vision.c_transforms as CV
import mindspore.dataset.transforms.c_transforms as C
from mindspore.dataset.transforms.vision import Inter
import mindspore.common.dtype as mstype

from mindarmour.diff_privacy import DPModel
from mindarmour.diff_privacy import PrivacyMonitorFactory
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from mindarmour.diff_privacy import MechanismsFactory
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from mindarmour.utils.logger import LogUtil
from lenet5_net import LeNet5
from lenet5_config import mnist_cfg as cfg

LOGGER = LogUtil.get_instance()
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LOGGER.set_level('INFO')
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TAG = 'Lenet5_train'


def generate_mnist_dataset(data_path, batch_size=32, repeat_size=1,
                           num_parallel_workers=1, sparse=True):
    """
    create dataset for training or testing
    """
    # define dataset
    ds1 = ds.MnistDataset(data_path)

    # define operation parameters
    resize_height, resize_width = 32, 32
    rescale = 1.0 / 255.0
    shift = 0.0

    # define map operations
    resize_op = CV.Resize((resize_height, resize_width),
                          interpolation=Inter.LINEAR)
    rescale_op = CV.Rescale(rescale, shift)
    hwc2chw_op = CV.HWC2CHW()
    type_cast_op = C.TypeCast(mstype.int32)

    # apply map operations on images
    if not sparse:
        one_hot_enco = C.OneHot(10)
        ds1 = ds1.map(input_columns="label", operations=one_hot_enco,
                      num_parallel_workers=num_parallel_workers)
        type_cast_op = C.TypeCast(mstype.float32)
    ds1 = ds1.map(input_columns="label", operations=type_cast_op,
                  num_parallel_workers=num_parallel_workers)
    ds1 = ds1.map(input_columns="image", operations=resize_op,
                  num_parallel_workers=num_parallel_workers)
    ds1 = ds1.map(input_columns="image", operations=rescale_op,
                  num_parallel_workers=num_parallel_workers)
    ds1 = ds1.map(input_columns="image", operations=hwc2chw_op,
                  num_parallel_workers=num_parallel_workers)

    # apply DatasetOps
    buffer_size = 10000
    ds1 = ds1.shuffle(buffer_size=buffer_size)
    ds1 = ds1.batch(batch_size, drop_remainder=True)
    ds1 = ds1.repeat(repeat_size)

    return ds1


if __name__ == "__main__":
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    # This configure can run both in pynative mode and graph mode
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    context.set_context(mode=context.GRAPH_MODE, device_target=cfg.device_target)
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    network = LeNet5()
    net_loss = nn.SoftmaxCrossEntropyWithLogits(is_grad=False, sparse=True, reduction="mean")
    config_ck = CheckpointConfig(save_checkpoint_steps=cfg.save_checkpoint_steps,
                                 keep_checkpoint_max=cfg.keep_checkpoint_max)
    ckpoint_cb = ModelCheckpoint(prefix="checkpoint_lenet",
                                 directory='./trained_ckpt_file/',
                                 config=config_ck)

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    # get training dataset
    ds_train = generate_mnist_dataset(os.path.join(cfg.data_path, "train"),
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                                      cfg.batch_size,
                                      cfg.epoch_size)

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    if cfg.micro_batches and cfg.batch_size % cfg.micro_batches != 0:
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        raise ValueError("Number of micro_batches should divide evenly batch_size")
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    # Create a factory class of DP mechanisms, this method is adding noise in gradients while training.
    # Initial_noise_multiplier is suggested to be greater than 1.0, otherwise the privacy budget would be huge, which
    # means that the privacy protection effect is weak. Mechanisms can be 'Gaussian' or 'AdaGaussian', in which noise
    # would be decayed with 'AdaGaussian' mechanism while be constant with 'Gaussian' mechanism.
    mech = MechanismsFactory().create(cfg.mechanisms,
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                                      norm_bound=cfg.norm_clip,
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                                      initial_noise_multiplier=cfg.initial_noise_multiplier)
    net_opt = nn.Momentum(params=network.trainable_params(), learning_rate=cfg.lr, momentum=cfg.momentum)
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    # Create a monitor for DP training. The function of the monitor is to compute and print the privacy budget(eps
    # and delta) while training.
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    rdp_monitor = PrivacyMonitorFactory.create('rdp',
                                               num_samples=60000,
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                                               batch_size=cfg.batch_size,
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                                               initial_noise_multiplier=cfg.initial_noise_multiplier*cfg.norm_clip,
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                                               per_print_times=10)
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    # Create the DP model for training.
    model = DPModel(micro_batches=cfg.micro_batches,
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                    norm_clip=cfg.norm_clip,
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                    mech=mech,
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                    network=network,
                    loss_fn=net_loss,
                    optimizer=net_opt,
                    metrics={"Accuracy": Accuracy()})

    LOGGER.info(TAG, "============== Starting Training ==============")
    model.train(cfg['epoch_size'], ds_train, callbacks=[ckpoint_cb, LossMonitor(), rdp_monitor],
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                dataset_sink_mode=cfg.dataset_sink_mode)
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    LOGGER.info(TAG, "============== Starting Testing ==============")
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    ckpt_file_name = 'trained_ckpt_file/checkpoint_lenet-10_234.ckpt'
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    param_dict = load_checkpoint(ckpt_file_name)
    load_param_into_net(network, param_dict)
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    ds_eval = generate_mnist_dataset(os.path.join(cfg.data_path, 'test'), batch_size=cfg.batch_size)
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    acc = model.eval(ds_eval, dataset_sink_mode=False)
    LOGGER.info(TAG, "============== Accuracy: %s  ==============", acc)