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[ICLR24] Official implementation of the paper “MagicDrive: Street View Generation with Diverse 3D Geometry Control”

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MagicDrive

✨ If you want video generation, please find the code at the video branch.

✨ Check out our new work MagicDrive3D on 3D scene generation!

arXiv web license star

This repository contains the implementation of the paper

MagicDrive: Street View Generation with Diverse 3D Geometry Control
Ruiyuan Gao1*, Kai Chen2*, Enze Xie3^, Lanqing Hong3, Zhenguo Li3, Dit-Yan Yeung2, Qiang Xu1^
1CUHK 2HKUST 3Huawei Noah's Ark Lab
*Equal Contribution ^Corresponding Authors

Abstract

Recent advancements in diffusion models have significantly enhanced the data synthesis with 2D control. Yet, precise 3D control in street view generation, crucial for 3D perception tasks, remains elusive. Specifically, utilizing Bird's-Eye View (BEV) as the primary condition often leads to challenges in geometry control (e.g., height), affecting the representation of object shapes, occlusion patterns, and road surface elevations, all of which are essential to perception data synthesis, especially for 3D object detection tasks. In this paper, we introduce MagicDrive, a novel street view generation framework, offering diverse 3D geometry controls including camera poses, road maps, and 3D bounding boxes, together with textual descriptions, achieved through tailored encoding strategies. Besides, our design incorporates a cross-view attention module, ensuring consistency across multiple camera views. With MagicDrive, we achieve high-fidelity street-view image & video synthesis that captures nuanced 3D geometry and various scene descriptions, enhancing tasks like BEV segmentation and 3D object detection.

News

  • [2024/06/07] MagicDrive can generate 60-frame videos! We release the config: rawbox_mv2.0t_0.4.3_60.yaml. Check out our demos on the project page.
  • [2024/06/07] We release pre-trained weight for 16-frame video generation. Check it out!
  • [2024/06/01] We holds the W-CODA workshop @ECCV2024. Challenge track 2 will use MagicDrive as the baseline. We will release more resournce in the near future. Stay tuned!

Method

In MagicDrive, we employ two strategies (cross-attention and additive encoder branch) to inject text prompt, camera pose, object boxes, and road maps as conditions for generation. We also propose cross-view attention module for multiview consistency.

image-20231011165634648

TODO

  • config and pretrained weight for base resolution (224x400)
  • demo for base resolution (224x400)
  • GUI for interactive bbox editing
  • train and test code release
  • config and pretrained weight for high resolution
  • train and test code for CVT and BEVFusion

Getting Started

Environment Setup

Clone this repo with submodules

git clone --recursive https://github.com/cure-lab/MagicDrive.git

The code is tested with Pytorch==1.10.2 and cuda 10.2 on V100 servers. To setup the python environment, follow:

# option1: to run GUI only
pip install -r requirements/gui.txt
# 😍 our GUI does not need mm-series packages.
# continue to install diffusers from `third_party`.

# option2: to run the full testing demo (and also test your env before training)
cd ${ROOT}
pip install -r requirements/dev.txt
# continue to install `third_party`s as following.

We opt to install the source code for the following packages, with cd ${FOLDER}; pip -vvv install .

# install third-party
third_party/
├── bevfusion -> based on db75150
├── diffusers -> based on v0.17.1 (afcca39)
└── xformers  -> based on v0.0.19 (8bf59c9), optional

see note about our xformers. If you have issues with the environment setup, please check FAQ first.

Setup default configuration for accelerate with

accelerate config

Our default log directory is ${ROOT}/magicdrive-log. Please be prepared.

Pretrained Weights

Our training is based on stable-diffusion-v1-5. We assume you put them at ${ROOT}/pretrained/ as follows:

{ROOT}/pretrained/stable-diffusion-v1-5/
├── text_encoder
├── tokenizer
├── unet
├── vae
└── ...

Street-view Generation with MagicDrive

Download our pretrained weight for MagicDrive from onedrive and put it in ${ROOT}/pretrained/

Run our demo

👍 We recommend users run our interactive GUI first, because we have minimized the dependencies for the GUI demo.

cd ${ROOT}
python demo/interactive_gui.py
# a gradio-based gui, use your web browser

As suggested by #37, prompt is configurable through GUI!

gui

Run our demo for camera view generation.

cd ${ROOT}
python demo/run.py resume_from_checkpoint=magicdrive-log/SDv1.5mv-rawbox_2023-09-07_18-39_224x400

The generated images will be located in magicdrive-log/test. More information can be find in demo doc.

Train MagicDrive

Prepare Data

We prepare the nuScenes dataset similar to bevfusion's instructions. Specifically,

  1. Download the nuScenes dataset from the website and put them in ./data/. You should have these files:

    data/nuscenes
    ├── maps
    ├── mini
    ├── samples
    ├── sweeps
    ├── v1.0-mini
    └── v1.0-trainval
  2. Generate mmdet3d annotation files by:

    python tools/create_data.py nuscenes --root-path ./data/nuscenes \
      --out-dir ./data/nuscenes_mmdet3d_2 --extra-tag nuscenes

    You should have these files:

    data/nuscenes_mmdet3d_2
    ├── nuscenes_dbinfos_train.pkl (-> ${bevfusion-version}/nuscenes_dbinfos_train.pkl)
    ├── nuscenes_gt_database (-> ${bevfusion-version}/nuscenes_gt_database)
    ├── nuscenes_infos_train.pkl
    └── nuscenes_infos_val.pkl

    Note: As shown above, some files can be soft-linked with the original version from bevfusion. If some of the files is located in data/nuscenes, you can move them to data/nuscenes_mmdet3d_2 manually.

  3. (Optional) To accelerate data loading, we prepared cache files in h5 format for BEV maps. They can be generated through tools/prepare_map_aux.py with different configs in configs/dataset. For example:

    python tools/prepare_map_aux.py +process=train
    python tools/prepare_map_aux.py +process=val

    You will have files like ./val_tmp.h5 and ./train_tmp.h5. You have to rename the cache files correctly after generating them. Our default is

    data/nuscenes_map_aux
    ├── train_26x200x200_map_aux_full.h5 (42G)
    └── val_26x200x200_map_aux_full.h5 (9G)

Train the model

Launch training with (with 8xV100):

accelerate launch --mixed_precision fp16 --gpu_ids all --num_processes 8 tools/train.py \
  +exp=224x400 runner=8gpus

During training, you can check tensorboard for the log and intermediate results.

Besides, we provides debug config to test your environment and data loading process (with 2xV100):

accelerate launch --mixed_precision fp16 --gpu_ids all --num_processes 2 tools/train.py \
  +exp=224x400 runner=debug runner.validation_before_run=true

Test the model

After training, you can test your model for driving view generation through:

python tools/test.py resume_from_checkpoint=${YOUR MODEL}
# take our pretrained model as an example
python tools/test.py resume_from_checkpoint=magicdrive-log/SDv1.5mv-rawbox_2023-09-07_18-39_224x400

Please find the results in ./magicdrive-log/test/.

Quantitative Results

Compare MagicDrive with other methods for generation quality:

main_results

Training support with images generated from MagicDrive:

trainability

More results can be found in the main paper.

Qualitative Results

More results can be found in the main paper.

editings

Video Generation

🎉 Please find the code at the video branch.

Videos generated by MagicDrive (click the image to see the video).

2_7_gen

3_7_gen

Cite Us

@inproceedings{gao2023magicdrive,
  title={{MagicDrive}: Street View Generation with Diverse 3D Geometry Control},
  author={Gao, Ruiyuan and Chen, Kai and Xie, Enze and Hong, Lanqing and Li, Zhenguo and Yeung, Dit-Yan and Xu, Qiang},
  booktitle = {International Conference on Learning Representations},
  year={2024}
}

Credit

We adopt the following open-sourced projects:

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[ICLR24] Official implementation of the paper “MagicDrive: Street View Generation with Diverse 3D Geometry Control”

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