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PyOpenCL-based deep learning playground with autograd, kernels, and high-level APIs.

Project description

netcl - PyOpenCL Deep Learning Playground

netcl is an experimental PyOpenCL-based deep learning framework. It combines low-level kernels (conv/matmul/elementwise) with a lightweight autograd engine and a compact high-level API (layers, trainer, optimizers).

Installation

pip install netcl

Requirements: Python >= 3.10, NumPy, PyOpenCL, and an available OpenCL device (GPU or CPU).

Quick Start (toy MLP, high-level)

import numpy as np
from netcl.core.device import manager
from netcl.nn.layers import Sequential, Flatten, Linear, ReLU
from netcl.nn import functional
from netcl.optim import Adam
from netcl.trainer import Trainer
from netcl.data.dataloader import DataLoader

queue = manager.default(device="gpu").queue  # or device="cpu"

model = Sequential(
    Flatten(),
    Linear(queue, 28 * 28, 128),
    ReLU(),
    Linear(queue, 128, 10),
)
opt = Adam(model.parameters(), lr=1e-3)
trainer = Trainer(model, opt, device_queue=queue)

# Toy data
x = np.random.randn(256, 1, 28, 28).astype(np.float32)
y = np.random.randint(0, 10, size=(256,))
loader = DataLoader(list(zip(x, y)), batch_size=32, shuffle=True, device_queue=queue)

trainer.fit(loader, epochs=1, loss_fn=functional.cross_entropy)

Small CNN (layers + BatchNorm)

import numpy as np
from netcl.core.device import manager
from netcl.nn import build_sequential, fast_bn_cnn_config, functional
from netcl.optim import AdamW
from netcl.trainer import Trainer
from netcl.data.dataloader import DataLoader

queue = manager.default(device="gpu").queue
model = build_sequential(queue, fast_bn_cnn_config(in_ch=3, num_classes=10))
opt = AdamW(model.parameters(), lr=1e-3, weight_decay=5e-4)
trainer = Trainer(model, opt, device_queue=queue)

x = np.random.randn(512, 3, 32, 32).astype(np.float32)
y = np.random.randint(0, 10, size=(512,))
loader = DataLoader(list(zip(x, y)), batch_size=64, shuffle=True, device_queue=queue)

trainer.fit(loader, epochs=1, loss_fn=functional.cross_entropy)

Declarative Model Config

from netcl.core.device import manager
from netcl.nn import build_sequential

queue = manager.default(device="gpu").queue
config = [
    {"type": "Conv2d", "args": {"in_channels": 3, "out_channels": 16, "kernel_size": 3, "stride": 1, "pad": 1}},
    {"type": "ReLU"},
    {"type": "MaxPool2d", "args": {"kernel_size": 2, "stride": 2}},
    {"type": "Flatten"},
    {"type": "Linear", "args": {"in_features": 16 * 16 * 16, "out_features": 10}},
]
model = build_sequential(queue, config)

Autograd (explicit Tape)

import numpy as np
from netcl import autograd as ag
from netcl.core.device import manager
from netcl.core.tensor import Tensor

queue = manager.default(device="gpu").queue
x = Tensor.from_host(queue, np.random.randn(8, 4).astype(np.float32))
w = Tensor.from_host(queue, np.random.randn(4, 3).astype(np.float32))

x_node = ag.tensor(x, requires_grad=True)
w_node = ag.tensor(w, requires_grad=True)

# y = relu(x @ w)
logits = ag.relu(ag.matmul_op(x_node, w_node))
target = ag.tensor(Tensor.from_host(queue, np.zeros((8, 3), dtype=np.float32)))
loss = ag.mse_loss(logits, target)

# backward
ag.Tape().backward(loss)

DataLoader + CPU Transforms

import numpy as np
from netcl.core.device import manager
from netcl.data.dataloader import DataLoader
from netcl.data.filters import to_float, normalize

queue = manager.default(device="gpu").queue
x = np.random.randint(0, 255, size=(128, 3, 32, 32), dtype=np.uint8)
y = np.random.randint(0, 10, size=(128,))

transforms = [
    to_float(scale=255.0),
    normalize(mean=(0.5, 0.5, 0.5), std=(0.25, 0.25, 0.25)),
]
loader = DataLoader(list(zip(x, y)), batch_size=32, shuffle=True, transforms=transforms, device_queue=queue)

Save & Load (Sequential)

Serialization supports Sequential with: Conv2d, Linear, ReLU, LeakyReLU, Sigmoid, Tanh, Dropout, MaxPool2d, Flatten.

from netcl.io.serialization import save_model, load_model
save_model(model, "model_artifact")
model2 = load_model("model_artifact")

Key Features

  • Autograd: Tape-based with backward for matmul, conv2d, pooling, elementwise, norms, and common losses.
  • Layers: Linear, Conv2d, BatchNorm2d, Sequential, build_sequential configs.
  • Optimizers: SGD, Momentum, Adam, AdamW, RMSProp, schedulers, and AMPGradScaler.
  • Data: DataLoader with prefetch, async device transfer, and CPU transforms.
  • Ops: Matmul, conv2d, depthwise/transpose conv, softmax, reductions, padding.
  • Serialization: save_model/load_model for Sequential models.

Notes

  • Mixed precision is experimental; it is disabled on the CPU backend.
  • Conv2d algorithms can be tuned via env flags like NETCL_CONV_AUTOTUNE=1.

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