README.md

luz

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Luz is a higher level API for torch providing abstractions to allow for much less verbose training loops.

This package is still under development.

It is heavily inspired by other higher level frameworks for deep learning, to cite a few:

Installation

You can install the released version from CRAN with:

install.packages("luz")

or the development version with:

remotes::install_github("mlverse/luz")

Example

Luz lets you take your torch nn_module definition and fit it to a dataloader, while handling the boring parts like moving data between devices, updating the weights, showing progress bars and tracking metrics.

Here's an example defining and training an Autoencoder for the MNIST dataset. We selected parts of the code to highlight luz functionality. You can find the full example code here.

net <- nn_module(
  "Net",
  initialize = function() {
    self$encoder <- nn_sequential(
      nn_conv2d(1, 6, kernel_size=5),
      nn_relu(),
      nn_conv2d(6, 16, kernel_size=5),
      nn_relu()
    )
    self$decoder <- nn_sequential(
      nn_conv_transpose2d(16, 6, kernel_size = 5),
      nn_relu(),
      nn_conv_transpose2d(6, 1, kernel_size = 5),
      nn_sigmoid()
    )
  },
  forward = function(x) {
    x %>%
      self$encoder() %>%
      self$decoder()
  }
)

Now that we have defined the Autoencoder architecture using torch::nn_module(), we can fit it using luz:

fitted <- net %>%
  setup(
    loss = nn_mse_loss(),
    optimizer = optim_adam
  ) %>%
  fit(train_dl, epochs = 1, valid_data = test_dl)


mlverse/torchlight documentation built on Sept. 19, 2024, 11:22 p.m.