NeuPy v0.6.4
NeuPy is a Python library for Artificial Neural Networks. NeuPy supports many different types of Neural Networks from a simple perceptron to deep learning models.
Installation
$ pip install neupy
User Guide
 Install NeuPy
 Check the tutorials
 Learn more about NeuPy in the documentation
 Explore lots of different neural network algorithms.
 Read articles and learn more about Neural Networks.
 Open Issues and ask questions.
Articles and Notebooks
Growing Neural GasGrowing Neural Gas is an algorithm that learns topological structure of the data. Code that generates animation can be found in this ipython notebook 

Making Art with Growing Neural GasGrowing Neural Gas is another example of the algorithm that follows simple set of rules that on a large scale can generate complex patterns. Image on the left is a great example of the art style that can be generated with simple set fo rules. The main notebook that generates image can be found here 

SelfOrganizing Maps and ApplicationsSelfOrganazing Maps (SOM or SOFM) is a very simple and powerful algorithm that has a wide variety of applications. This articles covers some of them, including:


Visualizing CNN based on Pretrained VGG19This notebook shows how you can easely explore reasons behind convolutional network predictions and understand what type of features has been learned in different layers of the network. In addition, this notebook shows how to use neural network architectures in NeuPy, like VGG19, with pretrained parameters. 

Visualize Algorithms based on the BackpropagationImage on the left shows comparison between paths that different algorithm take along the descent path. It's interesting to see how much information about the algorithm can be extracted from simple trajectory paths. All of this covered and explained in the article. 

Hyperparameter optimization for Neural NetworksThis article covers different approaches for hyperparameter optimization.


The Art of SOFMIn this article, I just want to show how beautiful sometimes can be a neural network. I think, it’s quite rare that algorithm can not only extract knowledge from the data, but also produce something beautiful using exactly the same set of training rules without any modifications. 

Discrete Hopfield NetworkArticle with extensive theoretical background about Discrete Hopfield Network. It also has example that show advantages and limitations of the algorithm. Image on the left is a visulatization of the information stored in the network. This picture not only visualizes network's memory, ot shows everything network knows about the world. 

Create unique textstyle with SOFMThis article describes stepbystep solution that allow to generate unique styles with arbitrary text. 

Playing with MLP visualizationsThis notebook shows interesting ways to look inside of your MLP network. 

Exploring world with Value Iteration Network (VIN)One of the basic applications of the Value Iteration Network that learns how to find an optimal path between two points in the environment with obstacles. 

Features learned by Restricted Boltzmann Machine (RBM)Set of examples that use and explore knowledge extracted by Restricted Boltzmann Machine 