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An easy-to-use tool for training Pytorch deep learning models

Project description

DeepEpochs

Pytorch深度学习模型训练工具。

安装

pip install deepepochs

使用

数据要求

  • 训练集、验证集和测试集是torch.utils.data.Dataloader对象
  • Dataloaer所构造的每个mini-batch数据(collate_fn返回值)是一个tuplelist,其中最后一个是标签
    • 如果训练中不需要标签,则需将最后一项置为None

指标计算

  • 每个指标是一个函数
    • 有两个参数,分别为模型预测和数据标签
    • 返回值为当前mini-batch上计算的指标值或字典
    • 支持基于torchmetrics.functional定义指标

实例

import torch
from torch import nn
from torch.nn import functional as F
from torchvision.datasets import MNIST
from torchvision import transforms
from torch.utils.data import DataLoader, random_split
from deepepochs import Trainer

# 1. --- datasets
data_dir = './datasets'
transform = transforms.Compose([transforms.ToTensor(), transforms.Normalize((0.1307,), (0.3081,))])
mnist_full = MNIST(data_dir, train=True, transform=transform, download=True)
train_ds, val_ds = random_split(mnist_full, [55000, 5000])
test_ds = MNIST(data_dir, train=False, transform=transform, download=True)
train_dl = DataLoader(train_ds, batch_size=32)
val_dl = DataLoader(val_ds, batch_size=32)
test_dl = DataLoader(test_ds, batch_size=32)

# 2. --- model
channels, width, height = (1, 28, 28)
model = nn.Sequential(
    nn.Flatten(),
    nn.Linear(channels * width * height, 64), nn.ReLU(), nn.Dropout(0.1),
    nn.Linear(64, 64), nn.ReLU(), nn.Dropout(0.1),
    nn.Linear(64, 10)
)

# 3. --- optimizer
opt = torch.optim.Adam(model.parameters(), lr=2e-4)

# 4. --- train
trainer = Trainer(model, F.cross_entropy, opt, epochs=2)  # 训练器
trainer.fit(train_dl, val_dl)                             # 训练、验证
trainer.test(test_dl)                                     # 测试

更多实例

序号 功能说明 代码
1 基本使用 examples/1-basic.py
2 Trainer、fit方法、test方法的常用参数 examples/2-basic-params.py
3 模型性能评价指标的使用 examples/3-metrics.py
4 Checkpoint与EarlyStop examples/4-checkpoint-earlystop.py
5 寻找适当的学习率 examples/5-lr-find.py
6 利用Tensorboad记录训练过程 examples/6-logger.py
7 利用Tensorboard记录与可视化超参数 examples/7-log-hyperparameters.py
8 分析、解释或可视化模型的预测效果 examples/8-interprete.py
9 学习率调度 examples/9-lr-schedule.py
10 使用多个优化器 examples/10-multi-optimizers.py
11 在训练、验证、测试中使用多个Dataloader examples/11-multi-dataloaders.py
12 基于图神经网络的节点分类 examples/12-node-classification.py
13 模型前向输出和梯度的可视化 examples/13-weight-grad-visualize.py
14 自定义Callback examples/14-costomize-callback.py
15 通过TrainerBase定制train_stepevaluate_step examples/15-customize-steps-1.py
16 通过EpochTask定制train_stepeval_steptest_step examples/16-customize-steps-2.py
17 通过EpochTask定制step examples/17-costomize-steps-3.py
18 内置Patch的使用1 examples/18-use_patches-1.py
19 内置Patch的使用2 examples/19-use_patches-2.py
20 自定义Patch examples/20-customize-patch.py
21 分布式训练、混合精度训练 examples/21-accelerate.py
22 定制train_step实现累积梯度训练 examples/22-grad_accumulate-1.py
23 定制train_step,利用Accelerate实现累积梯度训练 examples/23-grad_accumulate-2.py

定制

  • 方法1(示例14
    • 第1步:继承deepepochs.Callback类,定制满足需要的Callback
    • 第2步:使用deepepochs.Trainer训练模型,将定制的Callback对象作为Trainercallbacks参数
  • 方法2(示例15
    • 第1步:继承deepepochs.TrainerBase类定制满足需要的Trainer,实现steptrain_stepval_steptest_stepevaluate_step方法,它们的定义方法完全相同
      • 参数
        • batch_x: 一个mini-batch的模型输入数据
        • batch_y: 一个mini-batch的标签
        • **step_args:可变参数字典,即EpochTaskstep_args参数
      • 返回值为None或字典
        • key:指标名称
        • value:deepepochs.PatchBase子类对象,可用的Patch有(示例18
          • ValuePatch: 根据每个mini-batch指标均值(提前计算好)和batch_size,累积计算Epoch指标均值
          • TensorPatch: 保存每个mini-batch的(preds, targets),Epoch指标利用所有mini-batch的(preds, targets)数据重新计算
          • MeanPatch: 保存每个batch指标均值,Epoch指标值利用每个mini-batch的均值计算
            • 一般MeanPatchTensorPatch结果相同,但占用存储空间更小、运算速度更快
            • 不可用于计算'precision', 'recall', 'f1', 'fbeta'等指标
          • ConfusionPatch:用于计算基于混淆矩阵的指标,包括'accuracy', 'precision', 'recall', 'f1', 'fbeta'等
        • 也可以继承PatchBase定义新的Patch,需要实现如下方法 (示例19)
          • PatchBase.add
            • 用于将两个Patch对象相加得到更大的Patch对象
          • PatchBase.forward
            • 用于计算指标,返回指标值或字典
    • 第2步:调用定制Trainer训练模型。
  • 方法(示例16、17
    • 第1步:继承deepepochs.EpochTask类,在其中定义steptrain_stepval_steptest_stepevaluate_step方法
      • 它们的定义方式与Trainer中的*step方法相同
      • step方法优先级最高,即可用于训练也可用于验证和测试(定义了step方法,其他方法就会失效)
      • val_steptest_step优先级高于evaluate_step方法
      • EpochTask中的*step方法优先级高于Trainer中的*step方法
      • EpochTask__ini__方法的**step_args会被注入*step方法的step_args 参数
    • 第2步:使用新的EpochTask任务训练
      • EpochTask对象作为Trainer.fittrain_tasksval_tasks的参数值,或者Trainer.test方法中tasks的参数值

数据流图

https://github.com/hitlic/deepepochs/blob/main/imgs/data_flow.png

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