/storch

GPU accelerated deep learning and numeric computing for Scala 3.

Primary LanguageScalaApache License 2.0Apache-2.0

Storch - GPU Accelerated Deep Learning for Scala 3

Storch is a Scala library for fast tensor computations and deep learning, based on PyTorch.

Like PyTorch, Storch provides

  • A NumPy like API for working with tensors
  • GPU support
  • Automatic differentiation
  • A neural network API for building and training neural networks.

Storch aims to close to the Python API to make porting existing models and the life of people already familiar with PyTorch easier.

For documentation, see https://storch.dev

Example:

val data = Seq(0,1,2,3)
// data: Seq[Int] = List(0, 1, 2, 3)
val t1 = torch.Tensor(data)
// t1: Tensor[Int32] = dtype=int32, shape=[4], device=CPU 
// [0, 1, 2, 3]
t1.equal(torch.arange(0,4))
// res0: Boolean = true
val t2 = t1.to(dtype=float32)
// t2: Tensor[Float32] = dtype=float32, shape=[4], device=CPU 
// [0,0000, 1,0000, 2,0000, 3,0000]
val t3 = t1 + t2
// t3: Tensor[Float32] = dtype=float32, shape=[4], device=CPU 
// [0,0000, 2,0000, 4,0000, 6,0000]

val shape = Seq(2l,3l)
// shape: Seq[Long] = List(2, 3)
val randTensor = torch.rand(shape)
// randTensor: Tensor[Float32] = dtype=float32, shape=[2, 3], device=CPU 
// [[0,4341, 0,9738, 0,9305],
//  [0,8987, 0,1122, 0,3912]]
val zerosTensor = torch.zeros(shape, dtype=torch.int64)
// zerosTensor: Tensor[Int64] = dtype=int64, shape=[2, 3], device=CPU 
// [[0, 0, 0],
//  [0, 0, 0]]

val x = torch.ones(Seq(5))
// x: Tensor[Float32] = dtype=float32, shape=[5], device=CPU 
// [1,0000, 1,0000, 1,0000, 1,0000, 1,0000]
val w = torch.randn(Seq(5, 3), requiresGrad=true)
// w: Tensor[Float32] = dtype=float32, shape=[5, 3], device=CPU 
// [[0,8975, 0,5484, 0,2307],
//  [0,2689, 0,7430, 0,6446],
//  [0,9503, 0,6342, 0,7523],
//  [0,5332, 0,7497, 0,3665],
//  [0,3376, 0,6040, 0,5033]]
val b = torch.randn(Seq(3), requiresGrad=true)
// b: Tensor[Float32] = dtype=float32, shape=[3], device=CPU 
// [0,2638, 0,9697, 0,3664]
val z = (x matmul w) + b
// z: Tensor[Float32] = dtype=float32, shape=[3], device=CPU 
// [3,2513, 4,2490, 2,8640]