Today I’m going to share my configuration for running custom Anaconda Python with DGL (Deep Graph Library) and mxnet library, with GPU support via CUDA, running in Spark hosted in EMR. Actually, I have Redshift configuration as well, with support for gensim, tensorflow, keras, theano, pygpu, and cloudpickle. You can also install more libraries if needed. All this for Google to index keywords. Let’s begin.

My configuration uses EMR 5.17.2 and CUDA 9.2. When I’m writing it, there is EMR 5.27 available but it comes with the same CUDA version so I presume it should work as well. I’m also using Python 3.7.

First, create a cluster. Do not select mxnet as a provided library in EMR, we will install it later. As a master node use p3.8xlarge instance type — this instance must have GPU and this is where we will run DGL and mxnet. For slaves you can use anything, I’m going with 19 r3.4xlarge nodes (they don’t have GPU).

We need to install some custom libraries. I am using bootstrap script for that but you can just SSH into the host manually and run this code:

First, I’m making a symlink to not fill the disk while installing packages. Then in line 10 I download Anaconda. Finally, lines 15-23 install some additional libraries. Notice that in line 21 I install mxnet compiled for CUDA 9.2, and in line 22 the same for DGL. Also, s3fs is required for nice reading from s3.

When this is done and cluster is created, I replace Python for Zeppelin interpreter to point to /mnt/home/hadoop/anaconda/bin/python and add Redshift configuration. I do this with the following command line (this you need to run manually after the cluster is created):

Now, I need to tune default spark submit options:

This is not the full content! I omit some of my internal settings so generally don’t copy it blindly, just extend the zeppelin-env.sh file as needed. Important things are:
export LD_LIBRARY_PATH=/usr/local/cuda/lib64/ — this points to CUDA libraries
--conf spark.driver.maxResultSize=80G --num-executors 56 --executor-cores 5 --executor-memory 38G --driver-memory 90G --conf 'spark.dynamicAllocation.enabled=false' — this configures executors and memory. You need to tune it for your cluster size.

Now, restart Zeppelin. You should now be able to run:

Now you can create GPU context:

and it should work as a charm.

So now you have power of Spark — you can easily distribute job and use all slaves. And also, you have GPU at your hand, so whenever you use ndarray from mxnet, it can use the GPU power.

If you don’t want to use GPU, then just install these libraries instead:

and use mx.cpu() context. This works as well, obviously, much slower. For my use case GPU calculations were 80 times faster than when running on CPU.