Scaling Vision Transformers for Functional MRI with Flat Maps
Paper • 2510.13768 • Published
CortexMAE
CortexMAE is an fMRI foundation model trained on 2.1K hours of fMRI data from the Human Connectome Project using masked autoencoder. We release a family of models trained with different fMRI input representations:
- CortexMAE-P: a computationally efficient model based on the Schaefer-400 parcellation.
- CortexMAE-F: our flagship model based on fMRI flat maps.
- CortexMAE-V: a dense volume model based on an efficient cortex-only representation.
Installation
uv pip install cortex_mae
Or install the latest version from github
uv pip install "cortex_mae @ git+https://github.com/MedARC-AI/CortexMAE.git"
Or clone the repo and install locally
git clone https://github.com/MedARC-AI/CortexMAE.git
cd CortexMAE
uv sync --python 3.11
Quickstart
Load a pretrained model and compute embeddings on a preprocessed fMRI time series from OpenNeuro:
from cortex_mae import CortexMAE, resolve_file
model = CortexMAE.from_pretrained("cortex_mae_flat")
path = resolve_file(
"s3://openneuro.org/ds006072/NON_BIDS/ciftis/sub-1_Drug2_rsfMRI_uout_bpss_sr_noGSR_sm4.dtseries.nii",
anon=True,
)
embeds = model.run_embedding(path)
print(embeds.patch_embeds.shape) # (clips, tokens, dim)
See the quickstart notebook on colab for the full demo.
Pretrained models
We release default models for each input space:
| name | input space | shape | size |
|---|---|---|---|
cortex_mae_flat |
flat map | 224×560 | ViT-B |
cortex_mae_parcel |
Schaefer-400 | 400×1 | ViT-B |
cortex_mae_volume |
MNI cortex | 465×512 | ViT-B |
as well as >50 ablation variants covering data scale, model scale, alternative parcellations, etc. List all the available models with cortex_mae.list_models().
model = CortexMAE.from_pretrained("cortex_mae_flat") # default
model = CortexMAE.from_pretrained("cortex_mae_flat_r2") # repeat with new seed
model = CortexMAE.from_pretrained("cortex_mae_flat_d6") # depth-6 model
We also release the original configs (e.g. input_space_v3/flat_lr1e-3_1/pretrain/config.yaml) and logs for reproducibility.
Datasets
Benchmark datasets are distributed in HuggingFace Arrow format on the MedARC R2 bucket, maintained by Brainmarks. To request access, fill out this form, then configure credentials:
export AWS_ACCESS_KEY_ID=...
export AWS_SECRET_ACCESS_KEY=...
export AWS_ENDPOINT_URL_S3=... # Cloudflare R2 endpoint
The HCP-YA pretraining data are also available as webdataset shards. The data can be streamed from R2 during pretraining or downloaded locally.
License
Model weights are relased under CC-BY-NC 4.0 (LICENSE).
Citation
@inproceedings{lane2026scaling,
title={Scaling Vision Transformers for Functional MRI with Flat Maps},
author={Connor Lane and Mihir Tripathy and Leema Krishna Murali and Ratna Sagari Grandhi and Shamus Sim Zi Yang and Sam Gijsen and Debojyoti Das and Manish Ram and Utkarsh Kumar Singh and Cesar Kadir Torrico Villanueva and Yuxiang Wei and Will Beddow and Gianfranco Cortés and Suin Cho and Daniel Z. Kaplan and Benjamin Warner and Tanishq Mathew Abraham and Paul S. Scotti},
booktitle={ICML},
year={2026},
}
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