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I am training PyTorch deep learning models on a Jupyter-Lab notebook, using CUDA on a Tesla K80 GPU to train. While doing training iterations, the 12 GB of GPU memory are used. I finish training by saving the model checkpoint, but want to continue using the notebook for further analysis (analyze intermediate results, etc.).

However, these 12 GB continue being occupied (as seen from nvtop) after finishing training. I would like to free up this memory so that I can use it for other notebooks.

My solution so far is to restart this notebook's kernel, but that is not solving my issue because I can't continue using the same notebook and its respective output computed so far.

6 Answers 6

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The answers so far are correct for the Cuda side of things, but there's also an issue on the ipython side of things.

When you have an error in a notebook environment, the ipython shell stores the traceback of the exception so you can access the error state with %debug. The issue is that this requires holding all variables that caused the error to be held in memory, and they aren't reclaimed by methods like gc.collect(). Basically all your variables get stuck and the memory is leaked.

Usually, causing a new exception will free up the state of the old exception. So trying something like 1/0 may help. However things can get weird with Cuda variables and sometimes there's no way to clear your GPU memory without restarting the kernel.

For more detail see these references:

https://github.com/ipython/ipython/pull/11572

How to save traceback / sys.exc_info() values in a variable?

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    "However things can get weird with Cuda variables and sometimes there's no way to clear your GPU memory without restarting the kernel" Wow are you serious? That's really bad... Apr 15, 2021 at 20:28
  • The 1/0 trick worked like a charm for me! Aug 23, 2022 at 17:57
  • traceback.clear_frames(sys.last_traceback) might work. Jupyter sucks.
    – HappyFace
    Jul 28, 2023 at 18:56
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If you just set object that uses a lot of memory to None like this:

obj = None

And after that you call

gc.collect() # Python thing

This is how you may avoid restarting the notebook.


If you still would like to see it clear from Nvidea smi or nvtop you may run:

torch.cuda.empty_cache() # PyTorch thing

to empty the PyTorch cache.

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  • 11
    I tried model = None and gc.collect() but it didn't clear any GPU memory
    – Glyph
    Sep 18, 2019 at 15:38
  • I usually use nvtop for checking GPU memory. Is that a good way to do it?
    – Glyph
    Sep 18, 2019 at 17:33
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    gc.collect is telling Python to do garbage collection, if you use nvidia tools you won't see it clear because PyTorch still has allocated cache, but it makes it available.
    – prosti
    Sep 18, 2019 at 18:06
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    Yeah, torch.cuda.empty_cache() may help you see it clear.
    – prosti
    Sep 18, 2019 at 18:08
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    it worked for me, in the same order. 1.- model = None, 2.- gc.collect(), 3.- torch.cuda.empty_cache() Jun 5, 2022 at 16:45
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with torch.no_grad():
    torch.cuda.empty_cache()
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    For me it always only worked with with torch.no_grad():
    – E.ws
    Mar 10, 2022 at 15:02
  • This post should be marked as the right answer! Worked for me. Sep 28, 2023 at 22:15
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Apparently you can't clear the GPU memory via a command once the data has been sent to the device. The reference is here in the Pytorch github issues BUT the following seems to work for me.

Context: I have pytorch running in Jupyter Lab in a Docker container and accessing two GPU's [0,1]. Two notebooks are running. The first is on a long job while the second I use for small tests. When I started doing this, repeated tests seemed to progressively fill the GPU memory until it maxed out. I tried all the suggestions: del, gpu cache clear, etc. Nothing worked until the following.

To clear the second GPU I first installed numba ("pip install numba") and then the following code:

from numba import cuda
 
cuda.select_device(1) # choosing second GPU 
cuda.close()

Note that I don't actually use numba for anything except clearing the GPU memory. Also I have selected the second GPU because my first is being used by another notebook so you can put the index of whatever GPU is required. Finally, while this doesn't kill the kernel in a Jupyter session, it does kill the tf session so you can't use this intermittently during a run to free up memory.

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  • I have a similar issue in Jupyter and your solution actually releases the memory, but after closing the device I cannot access it anymore RuntimeError: CUDA error: invalid argument Aug 3, 2023 at 14:51
  • @ArayKarjauv those are hard to diagnose. I used this nice step-by-step advice here for some problems I once had but I've never had what you're describing.
    – MikeB2019x
    Aug 3, 2023 at 16:58
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Never worked with PyTorch myself, but Google has several results which all basically say the same.. torch.cuda.empty_cache()

https://forums.fast.ai/t/clearing-gpu-memory-pytorch/14637

https://discuss.pytorch.org/t/how-can-we-release-gpu-memory-cache/14530

How to clear Cuda memory in PyTorch

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    torch.cuda.empty_cache() cleared the most of the used memory but I still have 2.7GB being used. It might be the memory being occupied by the model but I don't know how clear it. I tried model = None and gc.collect() from the other answer and it didn't work.
    – Glyph
    Sep 18, 2019 at 15:40
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If you have a variable called model, you can try to free up the memory it is taking up on the GPU (assuming it is on the GPU) by first freeing references to the memory being used with del model and then calling torch.cuda.empty_cache().

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