safetensors is a brand new, easy, quick, and secure file format for storing tensors. The design of the file format and its authentic implementation are being led
by Hugging Face, and it’s getting largely adopted of their fashionable ‘transformers’ framework. The safetensors R bundle is a pure-R implementation, permitting to each learn and write safetensor information.
The preliminary model (0.1.0) of safetensors is now on CRAN.
Motivation
The principle motivation for safetensors within the Python group is safety. As famous
within the official documentation:
The principle rationale for this crate is to take away the necessity to use pickle on PyTorch which is utilized by default.
Pickle is taken into account an unsafe format, because the motion of loading a Pickle file can
set off the execution of arbitrary code. This has by no means been a priority for torch
for R customers, for the reason that Pickle parser that’s included in LibTorch solely helps a subset
of the Pickle format, which doesn’t embrace executing code.
Nevertheless, the file format has extra benefits over different generally used codecs, together with:
-
Help for lazy loading: You’ll be able to select to learn a subset of the tensors saved within the file.
-
Zero copy: Studying the file doesn’t require extra reminiscence than the file itself.
(Technically the present R implementation does makes a single copy, however that may
be optimized out if we actually want it in some unspecified time in the future). -
Easy: Implementing the file format is straightforward, and doesn’t require advanced dependencies.
Which means it’s an excellent format for exchanging tensors between ML frameworks and
between completely different programming languages. As an illustration, you possibly can write a safetensors file
in R and cargo it in Python, and vice-versa.
There are extra benefits in comparison with different file codecs widespread on this house, and
you possibly can see a comparability desk right here.
Format
The safetensors format is described within the determine under. It’s principally a header file
containing some metadata, adopted by uncooked tensor buffers.
Primary utilization
safetensors might be put in from CRAN utilizing:
set up.packages("safetensors")
We are able to then write any named checklist of torch tensors:
library(torch)
library(safetensors)
<- checklist(
tensors x = torch_randn(10, 10),
y = torch_ones(10, 10)
)
str(tensors)
#> Record of two
#> $ x:Float [1:10, 1:10]
#> $ y:Float [1:10, 1:10]
<- tempfile()
tmp safe_save_file(tensors, tmp)
It’s doable to cross extra metadata to the saved file by offering a metadata
parameter containing a named checklist.
Studying safetensors information is dealt with by safe_load_file
, and it returns the named
checklist of tensors together with the metadata
attribute containing the parsed file header.
<- safe_load_file(tmp)
tensors str(tensors)
#> Record of two
#> $ x:Float [1:10, 1:10]
#> $ y:Float [1:10, 1:10]
#> - attr(*, "metadata")=Record of two
#> ..$ x:Record of three
#> .. ..$ form : int [1:2] 10 10
#> .. ..$ dtype : chr "F32"
#> .. ..$ data_offsets: int [1:2] 0 400
#> ..$ y:Record of three
#> .. ..$ form : int [1:2] 10 10
#> .. ..$ dtype : chr "F32"
#> .. ..$ data_offsets: int [1:2] 400 800
#> - attr(*, "max_offset")= int 929
Presently, safetensors solely helps writing torch tensors, however we plan so as to add
help for writing plain R arrays and tensorflow tensors sooner or later.
Future instructions
The subsequent model of torch will use safetensors
as its serialization format,
which means that when calling torch_save()
on a mannequin, checklist of tensors, or different
varieties of objects supported by torch_save
, you’re going to get a sound safetensors file.
That is an enchancment over the earlier implementation as a result of:
-
It’s a lot sooner. Greater than 10x for medium sized fashions. Might be much more for giant information.
This additionally improves the efficiency of parallel dataloaders by ~30%. -
It enhances cross-language and cross-framework compatibility. You’ll be able to prepare your mannequin
in R and use it in Python (and vice-versa), or prepare your mannequin in tensorflow and run it
with torch.
If you wish to strive it out, you possibly can set up the event model of torch with:
::install_github("mlverse/torch") remotes
Picture by Nick Fewings on Unsplash
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Quotation
For attribution, please cite this work as
Falbel (2023, June 15). Posit AI Weblog: safetensors 0.1.0. Retrieved from https://blogs.rstudio.com/tensorflow/posts/2023-06-15-safetensors/
BibTeX quotation
@misc{safetensors, creator = {Falbel, Daniel}, title = {Posit AI Weblog: safetensors 0.1.0}, url = {https://blogs.rstudio.com/tensorflow/posts/2023-06-15-safetensors/}, yr = {2023} }