Deep Neural Network.
Project description
dnnet
Implementation of Deep Neural Network with the least amount of dependencies. dnnet will work with numpy, and if GPU is available, with cupy.
dnnet provides high-level API to define and run neural network model. User can turn on/off GPU layer-wise, that is, you can compute convolution layer with GPU, activation layer with CPU, and dropout layer with CPU, for example.
Table of Contents
- Brief tour of dnnet; Introduce small examples, supported methodologies
- Installation
- Example; Run sample scripts
- Use in your project
Brief tour of dnnet
Quick glance of usage
User can creates instance of NeuralNetwork, add layer one by one,
finalize model, set optimizer, execute model fitting, and save model.
In the below, some arguments are not specified to simplify the example.
from dnnet.neuralnet import NeuralNetwork
from dnnet.training.optimizer import AdaGrad
from dnnet.training.weight_initialization import DefaultInitialization, He
from dnnet.training.loss_function import MultinomialCrossEntropy
from dnnet.layers.activation import Activation, ActivationLayer
from dnnet.layers.affine import AffineLayer
from dnnet.layers.batch_norm import BatchNormLayer
from dnnet.layers.convolution import ConvolutionLayer
from dnnet.layers.dropout import DropoutLayer
# Load x, y here
model = NeuralNetwork(input_shape=(1, 28, 28), dtype=np.float32)
model.add(ConvolutionLayer(filter_shape=(32, 3, 3))
model.add(BatchNormLayer())
model.add(ActivationLayer(activation=Activation.Type.relu))
model.add(DropoutLayer(drop_ratio=0.25))
model.add(AffineLayer(output_shape=10)
model.add(ActivationLayer(activation=Activation.Type.softmax)
model.compile()
optimizer = AdaGrad(learning_rate=1e-3, weight_decay=1e-3)
learning_curve = model.fit(
x=x, y=y, epochs=5, batch=size=100, optimizer=optimizer,
loss_function=MultinomialCrossEntropy())
model.save(path='./data/output', name='my_cnn.dat')
User can also load model, and predict output.
model.load(path='./data/output', name='my_cnn.dat')
y = model.predict(x)
GPU is easily enabled. Do the follows at the top of your script.
from dnnet.config import Config
Config.enable_gpu()
If GPU is enabled but you'd like to turn it off for some specific layers, you can use force_cpu flag. Here, ConvolutionLayer and AffineLayer don't have the flag.
from dnnet.config import Config
Config.enable_gpu()
# Do something here.
# AffineLayer uses GPU.
model.add(AffineLayer(output=512, weight_initialization=He()))
# BatchNormLayer uses CPU regardless of Config.enable_gpu().
model.add(BatchNormLayer(force_cpu=True))
Supported Methods
Layers
- Affine
- Convolution
- Activation
- Pool
- Batch Normalization
- Dropout
Activation Functions
- Sigmoid
- ReLU
- ELU
- Tanh
- Softmax
Optimization Methods
- SGD
- Momentum
- AdaGrad
- Adam
- AdaDelta
- RMSProp
Weight Initialization Methods
- Xavier's method
- He's method
- Default
Loss Functions
- MultinomialCrossEntropy for multinomial classification.
- BinomialCrossEntropy for binary classification.
- SquaredError for regression.
Installation
Requisites
- python 3.4 or later
- numpy 1.12.0 or later
- matplotlib
If you'd like to use GPU, you need to install the follows additionally.
- CUDA (eg. CUDA 10.0)
- CuDNN (eg. CuDNN7.6.5)
- cupy (eg. cupy-cuda100==7.0.0)
Install dnnet by pip.
pip install dnnet
Install dnnet from source.
dnnet doesn't require any complicated path-settings.
You just download scripts from github, place it wherever you like,
and you add some lines like below in your scripts.
import sys
sys.path.append('<path-to-dnnet-root-dir>')
from dnnet.neuralnet import NeuralNetwork
Setup environment from scratch (Optional)
In this section, setting up python environment from scratch is described.
"From scratch" means that you're supposed to use brand-new computer,
no python packages (even python itself!) and relevant libraries are installed.
It may also be useful when you start new python project. In this case,
you will partially execute the following steps.
Setup Python Virtual Environment
Assumption
- Use python3
- Make directory for pyenv in "/home//Documents"
- Root directory of your python virtual env is in "/home//Work/py352_ws"
- "/home//Work/py352_ws/" is your working directory
Setup procedure
- Install required packages
$ sudo apt-get install git gcc make openssl libssl-dev libbz2-dev libreadline-dev libsqlite3-dev
- Install tkinter(This is required to use matplotlib in virtualenv)
$ sudo apt-get install python3-tk python-tk tk-dev
- Install pyenv
$ cd ~
$ git clone git://github.com/yyuu/pyenv.git ./pyenv
$ mkdir -p ./pyenv/versions ./pyenv/shims
- Set paths Add the following description in ~/.bashrc
export PYENV_ROOT=${HOME}/Documents/pyenv
if [ -d "${PYENV_ROOT}" ]; then
export PATH=${PYENV_ROOT}/bin:$PATH
eval "$(pyenv init -)"
fi
And then execute the follows.
$ exec $SHELL -l
$ . ~/.bashrc
- Install pyenv-virtualenv
$ cd $PYENV_ROOT/plugins
$ git clone git://github.com/yyuu/pyenv-virtualenv.git
- Install python 3.5.2
$ pyenv install 3.5.2
- Setup local pyenv
$ mkdir -p ~/Work/py352_ws
$ pyenv virtualenv 3.5.2 <name of this environment>
can be like py352_env, python3_env, or anything you like.
Here, it's assumed that you named the environment as "py352_env".
$ cd ~/Work/py352_ws
$ pyenv local py352_env
$ pip install --upgrade pip
Example
MNIST
- Run neural network for mnist.
cd <path-to-dnnet>/examples/mnist
python mnist.py
If you get an error "ImportError: Python is not installed as a framework.", it might be because of matplotlib issue.(This happened to me when working with MacOS.)
In the case, please try the follow.
cd ~/.matplotlib
echo "backend: TkAgg" >> matplotlibrc
Use in your project
If you pip installed dnnet
from dnnet.neuralnet import NeuralNetwork
If you git cloned dnnet
import sys
sys.path.append('<path-to-dnnet-root-dir>')
from dnnet.neuralnet import NeuralNetwork
For example, if dnnet directory is in ~/Work/dnnet, do like below.
import os
import sys
sys.path.append(os.path.join(os.getenv('HOME'), 'Work/dnnet'))
from dnnet.neuralnet import NeuralNetwork
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