# icefall dockerfile

## Download from dockerhub

You can find pre-built docker image for icefall at the following address:

  <https://hub.docker.com/r/k2fsa/icefall/tags>

Example usage:

```bash
docker run --gpus all --rm -it  k2fsa/icefall:torch1.13.0-cuda11.6 /bin/bash
```


## Build from dockerfile

2 sets of configuration are provided - (a) Ubuntu18.04-pytorch1.12.1-cuda11.3-cudnn8, and (b) Ubuntu18.04-pytorch1.7.1-cuda11.0-cudnn8.

If your NVIDIA driver supports CUDA Version: 11.3, please go for case (a) Ubuntu18.04-pytorch1.12.1-cuda11.3-cudnn8.

Otherwise, since the older PyTorch images are not updated with the [apt-key rotation by NVIDIA](https://developer.nvidia.com/blog/updating-the-cuda-linux-gpg-repository-key), you have to go for case (b) Ubuntu18.04-pytorch1.7.1-cuda11.0-cudnn8. Ensure that your NVDIA driver supports at least CUDA 11.0.

You can check the highest CUDA version within your NVIDIA driver's support with the `nvidia-smi` command below. In this example, the highest CUDA version is 11.0, i.e. case (b) Ubuntu18.04-pytorch1.7.1-cuda11.0-cudnn8.

```bash
$ nvidia-smi
Tue Sep 20 00:26:13 2022
+-----------------------------------------------------------------------------+
| NVIDIA-SMI 450.119.03   Driver Version: 450.119.03   CUDA Version: 11.0     |
|-------------------------------+----------------------+----------------------+
| GPU  Name        Persistence-M| Bus-Id        Disp.A | Volatile Uncorr. ECC |
| Fan  Temp  Perf  Pwr:Usage/Cap|         Memory-Usage | GPU-Util  Compute M. |
|                               |                      |               MIG M. |
|===============================+======================+======================|
|   0  TITAN RTX           On   | 00000000:03:00.0 Off |                  N/A |
| 41%   31C    P8     4W / 280W |     16MiB / 24219MiB |      0%      Default |
|                               |                      |                  N/A |
+-------------------------------+----------------------+----------------------+
|   1  TITAN RTX           On   | 00000000:04:00.0 Off |                  N/A |
| 41%   30C    P8    11W / 280W |      6MiB / 24220MiB |      0%      Default |
|                               |                      |                  N/A |
+-------------------------------+----------------------+----------------------+

+-----------------------------------------------------------------------------+
| Processes:                                                                  |
|  GPU   GI   CI        PID   Type   Process name                  GPU Memory |
|        ID   ID                                                   Usage      |
|=============================================================================|
|    0   N/A  N/A      2085      G   /usr/lib/xorg/Xorg                  9MiB |
|    0   N/A  N/A      2240      G   /usr/bin/gnome-shell                4MiB |
|    1   N/A  N/A      2085      G   /usr/lib/xorg/Xorg                  4MiB |
+-----------------------------------------------------------------------------+

```

## Building images locally
If your environment requires a proxy to access the Internet, remember to add those information into the Dockerfile directly.
For most cases, you can uncomment these lines in the Dockerfile and add in your proxy details.

```dockerfile
ENV http_proxy=http://aaa.bb.cc.net:8080 \
    https_proxy=http://aaa.bb.cc.net:8080
```

Then, proceed with these commands.

### If you are case (a), i.e. your NVIDIA driver supports CUDA version >= 11.3:

```bash
cd docker/Ubuntu18.04-pytorch1.12.1-cuda11.3-cudnn8
docker build -t icefall/pytorch1.12.1 .
```

### If you are case (b), i.e. your NVIDIA driver can only support CUDA versions 11.0 <= x < 11.3:
```bash
cd docker/Ubuntu18.04-pytorch1.7.1-cuda11.0-cudnn8
docker build -t icefall/pytorch1.7.1 .
```

## Running your built local image
Sample usage of the GPU based images. These commands are written with case (a) in mind, so please make the necessary changes to your image name if you are case (b).
Note: use [nvidia-docker](https://github.com/NVIDIA/nvidia-docker) to run the GPU images.

```bash
docker run -it --runtime=nvidia --shm-size=2gb --name=icefall --gpus all icefall/pytorch1.12.1
```

### Tips:
1. Since your data and models most probably won't be in the docker, you must use the -v flag to access the host machine. Do this by specifying `-v {/path/in/host/machine}:{/path/in/docker}`.

2. Also, if your environment requires a proxy, this would be a good time to add it in too: `-e http_proxy=http://aaa.bb.cc.net:8080 -e https_proxy=http://aaa.bb.cc.net:8080`.

Overall, your docker run command should look like this.

```bash
docker run -it --runtime=nvidia --shm-size=2gb --name=icefall --gpus all -v {/path/in/host/machine}:{/path/in/docker} -e http_proxy=http://aaa.bb.cc.net:8080 -e https_proxy=http://aaa.bb.cc.net:8080 icefall/pytorch1.12.1
```

You can explore more docker run options [here](https://docs.docker.com/engine/reference/commandline/run/) to suit your environment.

### Linking to icefall in your host machine

If you already have icefall downloaded onto your host machine, you can use that repository instead so that changes in your code are visible inside and outside of the container.

Note: Remember to set the -v flag above during the first run of the container, as that is the only way for your container to access your host machine.
Warning: Check that the icefall in your host machine is visible from within your container before proceeding to the commands below.

Use these commands once you are inside the container.

```bash
rm -r /workspace/icefall
ln -s {/path/in/docker/to/icefall} /workspace/icefall
```

## Starting another session in the same running container.
```bash
docker exec -it icefall /bin/bash
```

## Restarting a killed container that has been run before.
```bash
docker start -ai icefall
```

## Sample usage of the CPU based images:
```bash
docker run -it icefall /bin/bash
```