fonet alternatives and similar packages
Based on the "Machine Learning" category.
Alternatively, view fonet alternatives based on common mentions on social networks and blogs.
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Gorgonia
Gorgonia is a library that helps facilitate machine learning in Go. -
gosseract
Go package for OCR (Optical Character Recognition), by using Tesseract C++ library -
m2cgen
Transform ML models into a native code (Java, C, Python, Go, JavaScript, Visual Basic, C#, R, PowerShell, PHP, Dart, Haskell, Ruby, F#, Rust) with zero dependencies -
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gago
:four_leaf_clover: Evolutionary optimization library for Go (genetic algorithm, partical swarm optimization, differential evolution) -
ocrserver
A simple OCR API server, seriously easy to be deployed by Docker, on Heroku as well -
onnx-go
onnx-go gives the ability to import a pre-trained neural network within Go without being linked to a framework or library. -
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shield
Bayesian text classifier with flexible tokenizers and storage backends for Go -
neat
Plug-and-play, parallel Go framework for NeuroEvolution of Augmenting Topologies (NEAT). -
go-featureprocessing
๐ฅ Fast, simple sklearn-like feature processing for Go -
neural-go
A multilayer perceptron network implemented in Go, with training via backpropagation. -
go-cluster
k-modes and k-prototypes clustering algorithms implementation in Go
InfluxDB - Power Real-Time Data Analytics at Scale
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README
fonet
fonet is a deep neural network package for Go. It's mainly created because I wanted to learn about neural networks and create my own package. I'm planning to continue the development of the package and add more function to it, for example exporting/importing a model.
Install
It's the same as everywhere, you just have to run the
go get github.com/Fontinalis/fonet
Usage
I focused (and still focusing) on creating an easy to use package, but let me know if something is not clear.
Creating a network
As in the xor example, it's not so complicated to create a network.
When you creating the network, you always have to define the layers.
n := fonet.NewNetwork([]int{2, 3, 1})
/*
2 nodes in the INPUT LAYER
3 nodes in the HIDDEN LAYER
1 node in the OUTPUT LAYER
*/
But my goal was also to create a package, which can create deep neural networks too, so here is another example for that.
n := fonet.NewNetwork([]int{6, 12, 8, 4})
/*
6 nodes in the INPUT LAYER
12 nodes in the HIDDEN LAYER (1)
8 nodes in the HIDDEN LAYER (2)
4 nodes in the OUTPUT LAYER
*/
Train the network
After creating the network, you have to train your network. To do that, you have to specify your training set, which should be like the next
var trainingData = [][][]float64{
[][]float64{ // The actual training sample
[]float64{
/*
The INPUT data
*/
},
[]float64{
/*
The OUTPUT data
*/
},
},
}
After giving the training data, you can set the epoch and the learning rate.
n.Train(trainingData, epoch, lrate, true)
// Train(trainingData [][][]float64, epochs int, lrate float64, debug bool)
Note: When 'debug' is true, it'll show when and which epoch is finished
Predict the output
After training your network, using the Predict(..) function you can calculate the output for the given input.
In the case of XOR, it looks like the next
input := []float64{
1,
1,
}
out := n.Predict(input)