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Frequently Asked Questions (To be updated)

We list some common troubles faced by many users and their corresponding solutions here. Feel free to enrich the list if you find any frequent issues and have ways to help others to solve them. If the contents here do not cover your issue, please create an issue using the provided templates and make sure you fill in all required information in the template.

MMCV Installation

  • Compatibility issue between MMCV and MMDetection; "ConvWS is already registered in conv layer"; "AssertionError: MMCV==xxx is used but incompatible. Please install mmcv>=xxx, <=xxx."

Compatible MMCV, MMDetection and MMRotate versions are shown as below. Please install the correct version of them to avoid installation issues.

MMRotate MMEngine MMCV MMDetection
dev-1.x 0.6.0 <= mmengine < 1.0.0 2.0.0rc4 <= mmcv < 2.1.0 3.0.0rc6 <= mmdet < 3.2.0
1.0.0rc1 0.1.0 <= mmengine < 1.0.0 2.0.0rc2 <= mmcv < 2.1.0 3.0.0rc5 <= mmdet < 3.1.0
1.0.0rc0 0.1.0 <= mmengine < 1.0.0 2.0.0rc2 <= mmcv < 2.1.0 3.0.0rc2 <= mmdet < 3.1.0

Note:

  1. If you want to install mmrotate-v0.x, the compatible MMRotate and MMCV versions table can be found at here. Please choose the correct version of MMCV to avoid installation issues.
  2. In MMCV-v2.x, mmcv-full is rename to mmcv, if you want to install mmcv without CUDA ops, you can install mmcv-lite.
  • "No module named 'mmcv.ops'"; "No module named 'mmcv._ext'".

    1. Uninstall existing mmcv-lite in the environment using pip uninstall mmcv-lite.
    2. Install mmcv following the installation instruction.

PyTorch/CUDA Environment

  • "invalid device function" or "no kernel image is available for execution".

    1. Check if your cuda runtime version (under /usr/local/), nvcc --version and conda list cudatoolkit version match.
    2. Run python mmdet/utils/collect_env.py to check whether PyTorch, torchvision, and MMCV are built for the correct GPU architecture. You may need to set TORCH_CUDA_ARCH_LIST to reinstall MMCV. The GPU arch table could be found here, i.e. run TORCH_CUDA_ARCH_LIST=7.0 pip install mmcv-full to build MMCV for Volta GPUs. The compatibility issue could happen when using old GPUS, e.g., Tesla K80 (3.7) on colab.
    3. Check whether the running environment is the same as that when mmcv/mmdet has compiled. For example, you may compile mmcv using CUDA 10.0 but run it on CUDA 9.0 environments.
  • "undefined symbol" or "cannot open xxx.so".

    1. If those symbols are CUDA/C++ symbols (e.g., libcudart.so or GLIBCXX), check whether the CUDA/GCC runtimes are the same as those used for compiling mmcv, i.e. run python mmdet/utils/collect_env.py to see if "MMCV Compiler"/"MMCV CUDA Compiler" is the same as "GCC"/"CUDA_HOME".
    2. If those symbols are PyTorch symbols (e.g., symbols containing caffe, aten, and TH), check whether the PyTorch version is the same as that used for compiling mmcv.
    3. Run python mmdet/utils/collect_env.py to check whether PyTorch, torchvision, and MMCV are built by and running on the same environment.
  • "setuptools.sandbox.UnpickleableException: DistutilsSetupError("each element of 'ext_modules' option must be an Extension instance or 2-tuple")"

    1. If you are using miniconda rather than anaconda, check whether Cython is installed as indicated in #3379. You need to manually install Cython first and then run command pip install -r requirements.txt.
    2. You may also need to check the compatibility between the setuptools, Cython, and PyTorch in your environment.
  • "Segmentation fault".

    1. Check you GCC version and use GCC 5.4. This usually caused by the incompatibility between PyTorch and the environment (e.g., GCC < 4.9 for PyTorch). We also recommend the users to avoid using GCC 5.5 because many feedbacks report that GCC 5.5 will cause "segmentation fault" and simply changing it to GCC 5.4 could solve the problem.

    2. Check whether PyTorch is correctly installed and could use CUDA op, e.g. type the following command in your terminal.

      python -c 'import torch; print(torch.cuda.is_available())'

      And see whether they could correctly output results.

    3. If Pytorch is correctly installed, check whether MMCV is correctly installed.

      python -c 'import mmcv; import mmcv.ops'

      If MMCV is correctly installed, then there will be no issue of the above two commands.

    4. If MMCV and Pytorch is correctly installed, you man use ipdb, pdb to set breakpoints or directly add 'print' in mmdetection code and see which part leads the segmentation fault.

E2CNN

  • "ImportError: cannot import name 'container_bacs' from 'torch._six'"

    1. This is because container_abcs has been removed since PyTorch 1.9.

    2. Replace

      from torch.six import container_abcs

      in python3.7/site-packages/e2cnn/nn/modules/module_list.py with

      TORCH_MAJOR = int(torch.__version__.split('.')[0])
      TORCH_MINOR = int(torch.__version__.split('.')[1])
      if TORCH_MAJOR ==1 and TORCH_MINOR < 8:
          from torch.six import container_abcs
      else:
          import collections.abs as container_abcs
    3. Or downgrade the version of Pytorch.

Training

  • "Loss goes Nan"

    1. Check if the dataset annotations are valid: zero-size bounding boxes will cause the regression loss to be Nan due to the commonly used transformation for box regression. Some small size (width or height are smaller than 1) boxes will also cause this problem after data augmentation (e.g., instaboost). So check the data and try to filter out those zero-size boxes and skip some risky augmentations on the small-size boxes when you face the problem.
    2. Reduce the learning rate: the learning rate might be too large due to some reasons, e.g., change of batch size. You can rescale them to the value that could stably train the model.
    3. Extend the warmup iterations: some models are sensitive to the learning rate at the start of the training. You can extend the warmup iterations, e.g., change the warmup_iters from 500 to 1000 or 2000.
    4. Add gradient clipping: some models requires gradient clipping to stabilize the training process. The default of grad_clip is None, you can add gradient clippint to avoid gradients that are too large, i.e., set optimizer_config=dict(_delete_=True, grad_clip=dict(max_norm=35, norm_type=2)) in your config file. If your config does not inherits from any basic config that contains optimizer_config=dict(grad_clip=None), you can simply add optimizer_config=dict(grad_clip=dict(max_norm=35, norm_type=2)).
  • "GPU out of memory"

    1. There are some scenarios when there are large amounts of ground truth boxes, which may cause OOM during target assignment. You can set gpu_assign_thr=N in the config of assigner thus the assigner will calculate box overlaps through CPU when there are more than N GT boxes.
    2. Set with_cp=True in the backbone. This uses the sublinear strategy in PyTorch to reduce GPU memory cost in the backbone.
    3. Try mixed precision training by setting fp16 = dict(loss_scale='dynamic') in the config file.
  • "RuntimeError: Expected to have finished reduction in the prior iteration before starting a new one"

    1. This error indicates that your module has parameters that were not used in producing loss. This phenomenon may be caused by running different branches in your code in DDP mode.
    2. You can set find_unused_parameters = True in the config to solve the above problems or find those unused parameters manually.

Evaluation

  • COCO Dataset, AP or AR = -1
    1. According to the definition of COCO dataset, the small and medium areas in an image are less than 1024 (32*32), 9216 (96*96), respectively.
    2. If the corresponding area has no object, the result of AP and AR will set to -1.