package torch
Install
Dune Dependency
Authors
Maintainers
Sources
md5=e8681bb78ee902c7df73d8569ac92ed9
sha512=335064169516f456f1f123e52ec8ab1b5e0c7f9d036bd72e0171b19a2a57c2eb8ea70d1a64ae0d43b05775307d7a017b742f6f6af9d44e3e4d6dc57f478b15a3
Description
The ocaml-torch project provides some OCaml bindings for the PyTorch library. This brings to OCaml NumPy-like tensor computations with GPU acceleration and tape-based automatic differentiation.
Published: 12 Dec 2019
README
ocaml-torch
ocaml-torch provides some ocaml bindings for the PyTorch tensor library. This brings to OCaml NumPy-like tensor computations with GPU acceleration and tape-based automatic differentiation.
These bindings use the PyTorch C++ API and are mostly automatically generated. The current GitHub tip corresponds to PyTorch v1.3.0.
Opam Installation
The opam package can be installed using the following command. This automatically installs the CPU version of libtorch.
opam install torch
You can then compile some sample code, see some instructions below. ocaml-torch can also be used in interactive mode via utop or ocaml-jupyter.
Here is a sample utop session.
Build a Simple Example
To build a first torch program, create a file example.ml
with the following content.
open Torch
let () =
let tensor = Tensor.randn [ 4; 2 ] in
Tensor.print tensor
Then create a dune
file with the following content:
(executables
(names example)
(libraries torch))
Run dune exec example.exe
to compile the program and run it!
Alternatively you can first compile the code via dune build example.exe
then run the executable _build/default/example.exe
(note that building the bytecode target example.bc
may not work on macos).
Tutorials
Examples
Below is an example of a linear model trained on the MNIST dataset (full code).
(* Create two tensors to store model weights. *)
let ws = Tensor.zeros [image_dim; label_count] ~requires_grad:true in
let bs = Tensor.zeros [label_count] ~requires_grad:true in
let model xs = Tensor.(mm xs ws + bs) in
for index = 1 to 100 do
(* Compute the cross-entropy loss. *)
let loss =
Tensor.cross_entropy_for_logits (model train_images) ~targets:train_labels
in
Tensor.backward loss;
(* Apply gradient descent, disable gradient tracking for these. *)
Tensor.(no_grad (fun () ->
ws -= grad ws * f learning_rate;
bs -= grad bs * f learning_rate));
(* Compute the validation error. *)
let test_accuracy =
Tensor.(argmax (model test_images) = test_labels)
|> Tensor.to_kind ~kind:(T Float)
|> Tensor.sum
|> Tensor.float_value
|> fun sum -> sum /. test_samples
in
printf "%d %f %.2f%%\n%!" index (Tensor.float_value loss) (100. *. test_accuracy);
done
A simplified version of char-rnn illustrating character level language modeling using Recurrent Neural Networks.
Neural Style Transfer applies the style of an image to the content of another image. This uses some deep Convolutional Neural Network.
Models and Weights
Various pre-trained computer vision models are implemented in the vision library. The weight files can be downloaded at the following links:
ResNet-18 weights.
ResNet-34 weights.
ResNet-50 weights.
ResNet-101 weights.
ResNet-152 weights.
DenseNet-121 weights.
DenseNet-161 weights.
DenseNet-169 weights.
SqueezeNet 1.0 weights.
SqueezeNet 1.1 weights.
VGG-13 weights.
VGG-16 weights.
AlexNet weights.
Inception-v3 weights.
MobileNet-v2 weights.
EfficientNet b0 weights, b1 weights, b2 weights, b3 weights, b4 weights.
Running the pre-trained models on some sample images can the easily be done via the following commands.
dune exec examples/pretrained/predict.exe path/to/resnet18.ot tiger.jpg
Alternative Installation Options
These alternative ways to install ocaml-torch could be useful to run with GPU acceleration enabled.
Option 1: Using PyTorch pre-built Binaries
The libtorch library can be downloaded from the PyTorch website (1.3.0 cpu version).
Download and extract the libtorch library then to build all the examples run:
export LIBTORCH=/path/to/libtorch
git clone https://github.com/LaurentMazare/ocaml-torch.git
cd ocaml-torch
make all
Option 2: Using PyTorch Conda package
Conda packages for PyTorch 1.1 can be used via the following command.
conda create -n torch
source activate torch
conda install pytorch-cpu=1.3.0 -c pytorch
# Or for the CUDA version
# conda install pytorch=1.3.0 -c pytorch
git clone https://github.com/LaurentMazare/ocaml-torch.git
cd ocaml-torch
make all
Dependencies (15)
- stdio
- sexplib
- ppx_sexp_conv
- ppx_expect
- ppx_custom_printf
- ocaml-compiler-libs
-
ocaml
>= "4.07"
- npy
-
libtorch
= "1.3.1"
- dune-configurator
-
dune
>= "1.3.0"
- ctypes-foreign
-
ctypes
>= "0.11"
- cmdliner
-
base
>= "v0.11.0" & < "v0.17"
Dev Dependencies
None
Used by
None
Conflicts
None