Scaling Vision with Sparse Mixture of Experts
This repository contains the code for training and fine-tuning Sparse MoE models for vision (V-MoE) on ImageNet-21k, reproducing the results presented in the paper:
- Scaling Vision with Sparse Mixture of Experts, by Carlos Riquelme, Joan Puigcerver, Basil Mustafa, Maxim Neumann, Rodolphe Jenatton, AndrΓ© Susano Pinto, Daniel Keysers, and Neil Houlsby.
We will soon provide a colab analysing one of the models that we have released, as well as "config" files to train from scratch and fine-tune checkpoints. Stay tuned.
We also provide checkpoints, a notebook, and a config for Efficient Ensemble of Experts (E3), presented in the paper:
- Sparse MoEs meet Efficient Ensembles, by James Urquhart Allingham, Florian Wenzel, Zelda E Mariet, Basil Mustafa, Joan Puigcerver, Neil Houlsby, Ghassen Jerfel, Vincent Fortuin, Balaji Lakshminarayanan, Jasper Snoek, Dustin Tran,Carlos Riquelme Ruiz, and Rodolphe Jenatton.
Installation
Simply clone this repository.
The file requirements.txt
contains the requirements that can be installed
via PyPi. However, we recommend installing jax
, flax
and optax
directly from GitHub, since we use some of the latest features that are not part
of any release yet.
In addition, you also have to clone the Vision Transformer repository, since we use some parts of it.
If you want to use RandAugment to train models (which we recommend if you train
on ImageNet-21k or ILSVRC2012 from scratch), you must also clone the
Cloud TPU repository, and name it
cloud_tpu
.
Checkpoints
We release the checkpoints containing the weights of some models that we trained
on ImageNet (either ILSVRC2012 or ImageNet-21k). All checkpoints contain an
index file (with .index
extension) and one or multiple data files (
with extension .data-nnnnn-of-NNNNN
, called shards). In the following
list, we indicate only the prefix of each checkpoint.
We recommend using gsutil to
obtain the full list of files, download them, etc.
- V-MoE S/32, 8 experts on the last two odd blocks, trained from scratch on
ILSVRC2012 with RandAugment for 300 epochs:
gs://vmoe_checkpoints/vmoe_s32_last2_ilsvrc2012_randaug_light1
.- Fine-tuned on ILSVRC2012 with a resolution of 384 pixels:
gs://vmoe_checkpoints/vmoe_s32_last2_ilsvrc2012_randaug_light1_ft_ilsvrc2012
- Fine-tuned on ILSVRC2012 with a resolution of 384 pixels:
- V-MoE S/32, 8 experts on the last two odd blocks, trained from scratch on
ILSVRC2012 with RandAugment for 1000 epochs:
gs://vmoe_checkpoints/vmoe_s32_last2_ilsvrc2012_randaug_medium
. - V-MoE B/16, 8 experts on every odd block, trained from scratch on ImageNet-21k
with RandAugment:
gs://vmoe_checkpoints/vmoe_b16_imagenet21k_randaug_strong
.- Fine-tuned on ILSVRC2012 with a resolution of 384 pixels:
gs://vmoe_checkpoints/vmoe_b16_imagenet21k_randaug_strong_ft_ilsvrc2012
- Fine-tuned on ILSVRC2012 with a resolution of 384 pixels:
- E3 S/32, 8 experts on the last two odd blocks, with two ensemble
members (i.e., the 8 experts are partitioned into two groups), trained from
scratch on ILSVRC2012 with RandAugment for 300 epochs:
gs://vmoe_checkpoints/eee_s32_last2_ilsvrc2012
- Fine-tuned on CIFAR100:
gs://vmoe_checkpoints/eee_s32_last2_ilsvrc2012_ft_cifar100
- Fine-tuned on CIFAR100:
Disclaimers
This is not an officially supported Google product.