For something in between a pytorch and a karpathy/micrograd
This may not be the best deep learning framework, but it is a deep learning framework.
The Tensor class is a wrapper around a numpy array, except it does Tensor things.
pip3 install tinygradfrom tinygrad.tensor import Tensor
x = Tensor.eye(3)
y = Tensor([[2.0,0,-2.0]])
z = y.matmul(x).sum()
z.backward()
print(x.grad) # dz/dx
print(y.grad) # dz/dyimport torch
x = torch.eye(3, requires_grad=True)
y = torch.tensor([[2.0,0,-2.0]], requires_grad=True)
z = y.matmul(x).sum()
z.backward()
print(x.grad) # dz/dx
print(y.grad) # dz/dyIt turns out, a decent autograd tensor library is 90% of what you need for neural networks. Add an optimizer (SGD, RMSprop, and Adam implemented) from tinygrad.optim, write some boilerplate minibatching code, and you have all you need.
from tinygrad.tensor import Tensor
import tinygrad.optim as optim
from tinygrad.utils import layer_init_uniform
class TinyBobNet:
def __init__(self):
self.l1 = Tensor(layer_init_uniform(784, 128))
self.l2 = Tensor(layer_init_uniform(128, 10))
def forward(self, x):
return x.dot(self.l1).relu().dot(self.l2).logsoftmax()
model = TinyBobNet()
optim = optim.SGD([model.l1, model.l2], lr=0.001)
# ... and complete like pytorch, with (x,y) data
out = model.forward(x)
loss = out.mul(y).mean()
loss.backward()
optim.step()tinygrad supports GPUs through PyOpenCL. Not all ops are supported yet.
from tinygrad.tensor import Tensor
(Tensor.ones(4,4).cuda() + Tensor.ones(4,4).cuda()).cpu()python3 examples/efficientnet.pytinygrad will always be below 1000 lines. If it isn't, we will revert commits until tinygrad becomes smaller.
python -m pytest- Train an EfficientNet on ImageNet
- Make broadcasting work on the backward pass (simple please)
- EfficientNet backward pass
- Tensors on GPU (GPU support, must support Mac)
- Reduce code
- Increase speed
- Add features