github/tinygrad
1
1
Fork 0
mirror of https://github.com/tinygrad/tinygrad.git synced 2026-04-29 03:00:14 -04:00
Code Issues Packages Projects Releases Wiki Activity
Files
1eb0e0cb3fb35b7f8def37a56525981ef2b41641
tinygrad/test/test_nn.py
Diogo 57d3aa76a5 Windows & Ubuntu CLANG CI support (#1011) 
* matrix strategy

* push env to GITHUB_ENV

* use printf instead of echo

* use temp helper function for cross os paths

* use path join

* switched to using temp helper function

* skip test on windows due to memory limit

* small fix

* removed semi

* touchups

* clean up

* seperate tests

* test changes to test_utils on windows

* small refactor

* more cleanups

* undo helpers change

* only skip if in CI and WINDOWS
2023-06-19 09:33:24 -07:00

247 lines
8.4 KiB
Python
Executable File
Raw Blame History

#!/usr/bin/env python
import unittest
import numpy as np
from extra.utils import WINDOWS
from tinygrad.helpers import getenv
from tinygrad.jit import TinyJit
from tinygrad.tensor import Tensor, Device
from tinygrad.nn import BatchNorm2d, Conv2d, ConvTranspose2d, Linear, GroupNorm, LayerNorm, LayerNorm2d, Embedding, InstanceNorm
import torch
class TestNN(unittest.TestCase):
def test_batchnorm2d(self, training=False):
szs = [4, 8, 16, 32]
for sz in szs:
# create in tinygrad
Tensor.training = training
bn = BatchNorm2d(sz, eps=1e-5, track_running_stats=training)
bn.weight = Tensor.randn(sz)
bn.bias = Tensor.randn(sz)
bn.running_mean = Tensor.randn(sz)
bn.running_var = Tensor.randn(sz)
bn.running_var.numpy()[bn.running_var.numpy() < 0] = 0
# create in torch
with torch.no_grad():
tbn = torch.nn.BatchNorm2d(sz).eval()
tbn.training = training
tbn.weight[:] = torch.tensor(bn.weight.numpy())
tbn.bias[:] = torch.tensor(bn.bias.numpy())
tbn.running_mean[:] = torch.tensor(bn.running_mean.numpy())
tbn.running_var[:] = torch.tensor(bn.running_var.numpy())
np.testing.assert_allclose(bn.running_mean.numpy(), tbn.running_mean.detach().numpy(), rtol=1e-5, atol=1e-6)
np.testing.assert_allclose(bn.running_var.numpy(), tbn.running_var.detach().numpy(), rtol=1e-5, atol=1e-6)
# trial
inn = Tensor.randn(2, sz, 3, 3)
# in tinygrad
outt = bn(inn)
# in torch
toutt = tbn(torch.tensor(inn.cpu().numpy()))
# close
np.testing.assert_allclose(outt.numpy(), toutt.detach().numpy(), rtol=5e-4, atol=1e-6)
np.testing.assert_allclose(bn.running_mean.numpy(), tbn.running_mean.detach().numpy(), rtol=1e-5, atol=1e-6)
np.testing.assert_allclose(bn.running_var.numpy(), tbn.running_var.detach().numpy(), rtol=1e-5, atol=1e-6)
def test_batchnorm2d_training(self):
self.test_batchnorm2d(True)
def test_linear(self):
def _test_linear(x):
# create in tinygrad
model = Linear(in_dim, out_dim)
z = model(x)
# create in torch
with torch.no_grad():
torch_layer = torch.nn.Linear(in_dim, out_dim).eval()
torch_layer.weight[:] = torch.tensor(model.weight.numpy(), dtype=torch.float32)
torch_layer.bias[:] = torch.tensor(model.bias.numpy(), dtype=torch.float32)
torch_x = torch.tensor(x.cpu().numpy(), dtype=torch.float32)
torch_z = torch_layer(torch_x)
# test
np.testing.assert_allclose(z.numpy(), torch_z.detach().numpy(), atol=5e-4, rtol=1e-5)
BS, T, in_dim, out_dim = 4, 2, 8, 16
_test_linear(Tensor.randn(BS, in_dim))
_test_linear(Tensor.randn(BS, T, in_dim)) # test with more dims
def test_conv2d(self):
BS, C1, H, W = 4, 16, 224, 224
C2, K, S, P = 64, 7, 2, 1
# create in tinygrad
layer = Conv2d(C1, C2, kernel_size=K, stride=S, padding=P)
# create in torch
with torch.no_grad():
torch_layer = torch.nn.Conv2d(C1, C2, kernel_size=K, stride=S, padding=P).eval()
torch_layer.weight[:] = torch.tensor(layer.weight.numpy(), dtype=torch.float32)
torch_layer.bias[:] = torch.tensor(layer.bias.numpy(), dtype=torch.float32)
# test
x = Tensor.uniform(BS, C1, H, W)
z = layer(x)
torch_x = torch.tensor(x.cpu().numpy())
torch_z = torch_layer(torch_x)
np.testing.assert_allclose(z.numpy(), torch_z.detach().numpy(), atol=5e-4, rtol=1e-5)
@unittest.skipIf(getenv("CI", "") != "" and WINDOWS, "runs out of memory in CI")
def test_conv_transpose2d(self):
BS, C1, H, W = 4, 16, 224, 224
C2, K, S, P = 64, 7, 2, 1
# create in tinygrad
layer = ConvTranspose2d(C1, C2, kernel_size=K, stride=S, padding=P)
# create in torch
with torch.no_grad():
torch_layer = torch.nn.ConvTranspose2d(C1, C2, kernel_size=K, stride=S, padding=P).eval()
torch_layer.weight[:] = torch.tensor(layer.weight.numpy(), dtype=torch.float32)
torch_layer.bias[:] = torch.tensor(layer.bias.numpy(), dtype=torch.float32)
# test
x = Tensor.uniform(BS, C1, H, W)
z = layer(x)
torch_x = torch.tensor(x.cpu().numpy())
torch_z = torch_layer(torch_x)
np.testing.assert_allclose(z.numpy(), torch_z.detach().numpy(), atol=5e-4, rtol=1e-5)
def test_groupnorm(self):
BS, H, W, C, G = 20, 10, 10, 6, 3
# create in tinygrad
layer = GroupNorm(G, C)
# create in torch
with torch.no_grad():
torch_layer = torch.nn.GroupNorm(G, C).eval()
torch_layer.weight[:] = torch.tensor(layer.weight.numpy(), dtype=torch.float32)
torch_layer.bias[:] = torch.tensor(layer.bias.numpy(), dtype=torch.float32)
# test
x = Tensor.randn(BS, C, H, W)
z = layer(x)
torch_x = torch.tensor(x.cpu().numpy())
torch_z = torch_layer(torch_x)
np.testing.assert_allclose(z.numpy(), torch_z.detach().numpy(), atol=5e-3, rtol=5e-3)
def test_layernorm(self):
N, C, H, W = 20, 5, 10, 10
# create in tinygrad
layer = LayerNorm([H, W])
# create in torch
with torch.no_grad():
torch_layer = torch.nn.LayerNorm([H, W]).eval()
torch_layer.weight[:] = torch.tensor(layer.weight.numpy(), dtype=torch.float32)
torch_layer.bias[:] = torch.tensor(layer.bias.numpy(), dtype=torch.float32)
# test
x = Tensor.randn(N, C, H, W)
z = layer(x)
torch_x = torch.tensor(x.cpu().numpy())
torch_z = torch_layer(torch_x)
np.testing.assert_allclose(z.numpy(), torch_z.detach().numpy(), atol=5e-3, rtol=5e-3)
def test_layernorm_2d(self):
N, C, H, W = 20, 5, 10, 10
# create in tinygrad
layer = LayerNorm2d(C)
# create in torch
with torch.no_grad():
torch_layer = torch.nn.LayerNorm([C]).eval()
torch_layer.weight[:] = torch.tensor(layer.weight.numpy(), dtype=torch.float32)
torch_layer.bias[:] = torch.tensor(layer.bias.numpy(), dtype=torch.float32)
# test
x = Tensor.randn(N, C, H, W)
z = layer(x)
torch_x = torch.tensor(x.cpu().numpy())
torch_z = torch_layer(torch_x.permute(0,2,3,1)).permute(0,3,1,2)
def test_instancenorm_2d(self):
N, C, H, W = 20, 5, 10, 10
# create in tinygrad
layer = InstanceNorm(C)
# create in torch
with torch.no_grad():
torch_layer = torch.nn.InstanceNorm2d(C, affine=True).eval()
torch_layer.weight[:] = torch.tensor(layer.weight.numpy(), dtype=torch.float32)
torch_layer.bias[:] = torch.tensor(layer.bias.numpy(), dtype=torch.float32)
# test
x = Tensor.randn(N, C, H, W)
z = layer(x)
torch_x = torch.tensor(x.cpu().numpy())
torch_z = torch_layer(torch_x)
np.testing.assert_allclose(z.numpy(), torch_z.detach().numpy(), atol=5e-3, rtol=5e-3)
np.testing.assert_allclose(z.numpy(), torch_z.detach().numpy(), atol=5e-3, rtol=5e-3)
def test_instancenorm_3d(self):
N, C, D, H, W = 20, 5, 3, 10, 10
# create in tinygrad
layer = InstanceNorm(C)
# create in torch
with torch.no_grad():
torch_layer = torch.nn.InstanceNorm3d(C, affine=True).eval()
torch_layer.weight[:] = torch.tensor(layer.weight.numpy(), dtype=torch.float32)
torch_layer.bias[:] = torch.tensor(layer.bias.numpy(), dtype=torch.float32)
# test
x = Tensor.randn(N, C, D, H, W)
z = layer(x)
torch_x = torch.tensor(x.cpu().numpy())
torch_z = torch_layer(torch_x)
np.testing.assert_allclose(z.numpy(), torch_z.detach().numpy(), atol=5e-3, rtol=5e-3)
np.testing.assert_allclose(z.numpy(), torch_z.detach().numpy(), atol=5e-3, rtol=5e-3)
def test_embedding(self):
B, T, C, VS = 4, 10, 20, 28
# create in tinygrad
layer = Embedding(VS, C)
with torch.no_grad():
torch_layer = torch.nn.Embedding(VS, C).eval()
torch_layer.weight[:] = torch.tensor(layer.weight.numpy(), dtype=torch.float32)
# test
x = Tensor(np.random.randint(0, VS, (B, T)).astype(np.float32))
z = layer(x)
torch_x = torch.tensor(x.cpu().numpy().astype(np.int32))
torch_z = torch_layer(torch_x)
np.testing.assert_allclose(z.numpy(), torch_z.detach().numpy(), atol=1e-8, rtol=1e-8)
# test with jit enabled
@TinyJit
def layer_jit(x):
return layer(x).realize()
for _ in range(3):
x = Tensor(np.random.randint(0, VS, (B, T)).astype(np.float32))
z = layer_jit(x)
torch_x = torch.tensor(x.cpu().numpy().astype(np.int32))
torch_z = torch_layer(torch_x)
np.testing.assert_allclose(z.numpy(), torch_z.detach().numpy(), atol=1e-8, rtol=1e-8)
if __name__ == '__main__':
unittest.main()
Reference in New Issue View Git Blame Copy Permalink