Use with PyTorch
This document is a quick introduction to using datasets
with PyTorch, with a particular focus on how to get
torch.Tensor
objects out of our datasets, and how to use a PyTorch DataLoader
and a Hugging Face Dataset
with the best performance.
Dataset format
By default, datasets return regular python objects: integers, floats, strings, lists, etc.
To get PyTorch tensors instead, you can set the format of the dataset to pytorch
using Dataset.with_format():
>>> from datasets import Dataset
>>> data = [[1, 2],[3, 4]]
>>> ds = Dataset.from_dict({"data": data})
>>> ds = ds.with_format("torch")
>>> ds[0]
{'data': tensor([1, 2])}
>>> ds[:2]
{'data': tensor([[1, 2],
[3, 4]])}
A Dataset object is a wrapper of an Arrow table, which allows fast zero-copy reads from arrays in the dataset to PyTorch tensors.
To load the data as tensors on a GPU, specify the device
argument:
>>> import torch
>>> device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
>>> ds = ds.with_format("torch", device=device)
>>> ds[0]
{'data': tensor([1, 2], device='cuda: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 PyTorch formatted dataset outputs nested lists instead of a single tensor:
>>> from datasets import Dataset
>>> data = [[[1, 2],[3, 4]],[[5, 6],[7, 8]]]
>>> ds = Dataset.from_dict({"data": data})
>>> ds = ds.with_format("torch")
>>> ds[0]
{'data': [tensor([1, 2]), tensor([3, 4])]}
To get a single tensor, you must explicitly use the Array
feature type and specify the shape of your tensors:
>>> from datasets import Dataset, Features, Array2D
>>> data = [[[1, 2],[3, 4]],[[5, 6],[7, 8]]]
>>> features = Features({"data": Array2D(shape=(2, 2), dtype='int32')})
>>> ds = Dataset.from_dict({"data": data}, features=features)
>>> ds = ds.with_format("torch")
>>> ds[0]
{'data': tensor([[1, 2],
[3, 4]])}
>>> ds[:2]
{'data': tensor([[[1, 2],
[3, 4]],
[[5, 6],
[7, 8]]])}
Other feature types
ClassLabel data are properly converted to tensors:
>>> 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("torch")
>>> ds[:3]
{'label': tensor([0, 0, 1])}
String and binary objects are unchanged, since PyTorch only supports numbers.
The Image and Audio feature types are also supported:
>>> from datasets import Dataset, Features, Audio, Image
>>> images = ["path/to/image.png"] * 10
>>> features = Features({"image": Image()})
>>> ds = Dataset.from_dict({"image": images}, features=features)
>>> ds = ds.with_format("torch")
>>> ds[0]["image"].shape
torch.Size([512, 512, 4])
>>> ds[0]
{'image': tensor([[[255, 215, 106, 255],
[255, 215, 106, 255],
...,
[255, 255, 255, 255],
[255, 255, 255, 255]]], dtype=torch.uint8)}
>>> ds[:2]["image"].shape
torch.Size([2, 512, 512, 4])
>>> ds[:2]
{'image': tensor([[[[255, 215, 106, 255],
[255, 215, 106, 255],
...,
[255, 255, 255, 255],
[255, 255, 255, 255]]]], dtype=torch.uint8)}
>>> from datasets import Dataset, Features, Audio, Image
>>> audio = ["path/to/audio.wav"] * 10
>>> features = Features({"audio": Audio()})
>>> ds = Dataset.from_dict({"audio": audio}, features=features)
>>> ds = ds.with_format("torch")
>>> ds[0]["audio"]["array"]
tensor([ 6.1035e-05, 1.5259e-05, 1.6785e-04, ..., -1.5259e-05,
-1.5259e-05, 1.5259e-05])
>>> ds[0]["audio"]["sampling_rate"]
tensor(44100)
Data loading
Like torch.utils.data.Dataset
objects, a Dataset can be passed directly to a PyTorch DataLoader
:
>>> import numpy as np
>>> from datasets import Dataset
>>> from torch.utils.data import DataLoader
>>> data = np.random.rand(16)
>>> label = np.random.randint(0, 2, size=16)
>>> ds = Dataset.from_dict({"data": data, "label": label}).with_format("torch")
>>> dataloader = DataLoader(ds, batch_size=4)
>>> for batch in dataloader:
... print(batch)
{'data': tensor([0.0047, 0.4979, 0.6726, 0.8105]), 'label': tensor([0, 1, 0, 1])}
{'data': tensor([0.4832, 0.2723, 0.4259, 0.2224]), 'label': tensor([0, 0, 0, 0])}
{'data': tensor([0.5837, 0.3444, 0.4658, 0.6417]), 'label': tensor([0, 1, 0, 0])}
{'data': tensor([0.7022, 0.1225, 0.7228, 0.8259]), 'label': tensor([1, 1, 1, 1])}
Optimize data loading
There are several ways you can increase the speed your data is loaded which can save you time, especially if you are working with large datasets. PyTorch offers parallelized data loading, retrieving batches of indices instead of individually, and streaming to iterate over the dataset without downloading it on disk.
Use multiple Workers
You can parallelize data loading with the num_workers
argument of a PyTorch DataLoader
and get a higher throughput.
Under the hood, the DataLoader
starts num_workers
processes.
Each process reloads the dataset passed to the DataLoader
and is used to query examples.
Reloading the dataset inside a worker doesn’t fill up your RAM, since it simply memory-maps the dataset again from your disk.
>>> import numpy as np
>>> from datasets import Dataset, load_from_disk
>>> from torch.utils.data import DataLoader
>>> data = np.random.rand(10_000)
>>> Dataset.from_dict({"data": data}).save_to_disk("my_dataset")
>>> ds = load_from_disk("my_dataset").with_format("torch")
>>> dataloader = DataLoader(ds, batch_size=32, num_workers=4)
Use a BatchSampler
By default, the PyTorch DataLoader
load batches of data from a dataset one by one like this:
batch = [dataset[idx] for idx in range(start, end)]
Unfortunately, this does numerous read operations on the dataset. It is more efficient to query batches of examples using a list:
batch = dataset[start:end]
# or
batch = dataset[list_of_indices]
For the PyTorch DataLoader
to query batches using a list, you can use a BatchSampler
:
>>> from torch.utils.data.sampler import BatchSampler, RandomSampler
>>> sampler = BatchSampler(RandomSampler(ds), batch_size=32, drop_last=False)
>>> dataloader = DataLoader(ds, sampler=sampler)
Moreover, this is particularly useful if you used set_transform
to apply a transform on-the-fly when examples are accessed.
You must use a BatchSampler
if you want the transform to be given full batches instead of receiving batch_size
times one single element.
Stream data
Loading a dataset in streaming mode allows one to iterate over the dataset without downloading it on disk.
An iterable dataset from datasets
inherits from torch.utils.data.IterableDataset
so you can pass it to a DataLoader
:
>>> import numpy as np
>>> from datasets import Dataset, load_dataset
>>> from torch.utils.data import DataLoader
>>> data = np.random.rand(10_000)
>>> Dataset.from_dict({"data": data}).push_to_hub("<username>/my_dataset") # Upload to the Hugging Face Hub
>>> ds = load_dataset("<username>/my_dataset", streaming=True, split="train")
>>> dataloader = DataLoader(ds, batch_size=32)
If the dataset is split in several shards (i.e. if the dataset consists of multiple data files), then you can stream in parallel using num_workers
:
>>> ds = load_dataset("c4", "en", streaming=True, split="train")
>>> ds.n_shards
1024
>>> dataloader = DataLoader(ds, batch_size=32, num_workers=4)
In this case each worker will be given a subset of the list of shards to stream from.