Use with JAX
This document is a quick introduction to using datasets
with JAX, with a particular focus on how to get
jax.Array
objects out of our datasets, and how to use them to train JAX models.
jax
and jaxlib
are required to reproduce to code above, so please make sure you
install them as pip install datasets[jax]
.
Dataset format
By default, datasets return regular Python objects: integers, floats, strings, lists, etc., and string and binary objects are unchanged, since JAX only supports numbers.
To get JAX arrays (numpy-like) instead, you can set the format of the dataset to jax
:
>>> from datasets import Dataset
>>> data = [[1, 2], [3, 4]]
>>> ds = Dataset.from_dict({"data": data})
>>> ds = ds.with_format("jax")
>>> ds[0]
{'data': DeviceArray([1, 2], dtype=int32)}
>>> ds[:2]
{'data': DeviceArray([
[1, 2],
[3, 4]], dtype=int32)}
A Dataset object is a wrapper of an Arrow table, which allows fast reads from arrays in the dataset to JAX arrays.
Note that the exact same procedure applies to DatasetDict
objects, so that
when setting the format of a DatasetDict
to jax
, all the Dataset
s there
will be formatted as jax
:
>>> from datasets import DatasetDict
>>> data = {"train": {"data": [[1, 2], [3, 4]]}, "test": {"data": [[5, 6], [7, 8]]}}
>>> dds = DatasetDict.from_dict(data)
>>> dds = dds.with_format("jax")
>>> dds["train"][:2]
{'data': DeviceArray([
[1, 2],
[3, 4]], dtype=int32)}
Another thing you’ll need to take into consideration is that the formatting is not applied until you actually access the data. So if you want to get a JAX array out of a dataset, you’ll need to access the data first, otherwise the format will remain the same.
Finally, to load the data in the device of your choice, you can specify the device
argument,
but note that jaxlib.xla_extension.Device
is not supported as it’s not serializable with neither
pickle
not dill
, so you’ll need to use its string identifier instead:
>>> import jax
>>> from datasets import Dataset
>>> data = [[1, 2], [3, 4]]
>>> ds = Dataset.from_dict({"data": data})
>>> device = str(jax.devices()[0]) # Not casting to `str` before passing it to `with_format` will raise a `ValueError`
>>> ds = ds.with_format("jax", device=device)
>>> ds[0]
{'data': DeviceArray([1, 2], dtype=int32)}
>>> ds[0]["data"].device()
TFRT_CPU_0
>>> assert ds[0]["data"].device() == jax.devices()[0]
True
Note that if the device
argument is not provided to with_format
then it will use the default
device which is jax.devices()[0]
.
N-dimensional arrays
If your dataset consists of N-dimensional arrays, you will see that by default they are considered as nested lists.
In particular, a JAX formatted dataset outputs a DeviceArray
object, which is a numpy-like array, so it does not
need the Array
feature type to be specified as opposed to PyTorch or TensorFlow formatters.
>>> from datasets import Dataset
>>> data = [[[1, 2],[3, 4]], [[5, 6],[7, 8]]]
>>> ds = Dataset.from_dict({"data": data})
>>> ds = ds.with_format("jax")
>>> ds[0]
{'data': DeviceArray([[1, 2],
[3, 4]], dtype=int32)}
Other feature types
ClassLabel data is properly converted to arrays:
>>> from datasets import Dataset, Features, ClassLabel
>>> labels = [0, 0, 1]
>>> features = Features({"label": ClassLabel(names=["negative", "positive"])})
>>> ds = Dataset.from_dict({"label": labels}, features=features)
>>> ds = ds.with_format("jax")
>>> ds[:3]
{'label': DeviceArray([0, 0, 1], dtype=int32)}
String and binary objects are unchanged, since JAX only supports numbers.
The Image and Audio feature types are also supported.
To use the Image feature type, you’ll need to install the vision
extra as
pip install datasets[vision]
.
>>> from datasets import Dataset, Features, Image
>>> images = ["path/to/image.png"] * 10
>>> features = Features({"image": Image()})
>>> ds = Dataset.from_dict({"image": images}, features=features)
>>> ds = ds.with_format("jax")
>>> ds[0]["image"].shape
(512, 512, 3)
>>> ds[0]
{'image': DeviceArray([[[ 255, 255, 255],
[ 255, 255, 255],
...,
[ 255, 255, 255],
[ 255, 255, 255]]], dtype=uint8)}
>>> ds[:2]["image"].shape
(2, 512, 512, 3)
>>> ds[:2]
{'image': DeviceArray([[[[ 255, 255, 255],
[ 255, 255, 255],
...,
[ 255, 255, 255],
[ 255, 255, 255]]]], dtype=uint8)}
To use the Audio feature type, you’ll need to install the audio
extra as
pip install datasets[audio]
.
>>> from datasets import Dataset, Features, Audio
>>> audio = ["path/to/audio.wav"] * 10
>>> features = Features({"audio": Audio()})
>>> ds = Dataset.from_dict({"audio": audio}, features=features)
>>> ds = ds.with_format("jax")
>>> ds[0]["audio"]["array"]
DeviceArray([-0.059021 , -0.03894043, -0.00735474, ..., 0.0133667 ,
0.01809692, 0.00268555], dtype=float32)
>>> ds[0]["audio"]["sampling_rate"]
DeviceArray(44100, dtype=int32, weak_type=True)
Data loading
JAX doesn’t have any built-in data loading capabilities, so you’ll need to use a library such
as PyTorch to load your data using a DataLoader
or TensorFlow
using a tf.data.Dataset
. Citing the JAX documentation on this topic:
“JAX is laser-focused on program transformations and accelerator-backed NumPy, so we don’t
include data loading or munging in the JAX library. There are already a lot of great data loaders
out there, so let’s just use them instead of reinventing anything. We’ll grab PyTorch’s data loader,
and make a tiny shim to make it work with NumPy arrays.”.
So that’s the reason why JAX-formatting in datasets
is so useful, because it lets you use
any model from the HuggingFace Hub with JAX, without having to worry about the data loading
part.
Using with_format('jax')
The easiest way to get JAX arrays out of a dataset is to use the with_format('jax')
method. Lets assume
that we want to train a neural network on the MNIST dataset available
at the HuggingFace Hub at https://huggingface.co./datasets/mnist.
>>> from datasets import load_dataset
>>> ds = load_dataset("mnist")
>>> ds = ds.with_format("jax")
>>> ds["train"][0]
{'image': DeviceArray([[ 0, 0, 0, ...],
[ 0, 0, 0, ...],
...,
[ 0, 0, 0, ...],
[ 0, 0, 0, ...]], dtype=uint8),
'label': DeviceArray(5, dtype=int32)}
Once the format is set we can feed the dataset to the JAX model in batches using the Dataset.iter()
method:
>>> for epoch in range(epochs):
... for batch in ds["train"].iter(batch_size=32):
... x, y = batch["image"], batch["label"]
... ...