In this tutorial, we will look at how to run CUDA programs on Bacalhau. CUDA (Compute Unified Device Architecture) is an extension of C/C++ programming. It is a parallel computing platform and programming model created by NVIDIA. It helps developers speed up their applications by harnessing the power of GPU accelerators.
In addition to accelerating high-performance computing (HPC) and research applications, CUDA has also been widely adopted across consumer and industrial ecosystems. CUDA also makes it easy for developers to take advantage of all the latest GPU architecture innovations
Architecturally, the CPU is composed of just a few cores with lots of cache memory that can handle a few software threads at a time. In contrast, a GPU is composed of hundreds of cores that can handle thousands of threads simultaneously.
Computations like matrix multiplication could be done much faster on GPU than on CPU
To get started, you need to install the Bacalhau client, see more information here
You'll need to have the following installed:
NVIDIA GPU
CUDA drivers installed
nvcc
installed
Checking if nvcc
is installed:
Downloading the programs:
00-hello-world.cu
:
This example represents a standard C++ program that inefficiently utilizes GPU resources due to the use of non-parallel loops.
02-cuda-hello-world-faster.cu
:
In this example we utilize Vector addition using CUDA and allocate the memory in advance and copy the memory to the GPU using cudaMemcpy so that it can utilize the HBM (High Bandwidth memory of the GPU). Compilation and execution occur faster (1.39 seconds) compared to the previous example (8.67 seconds).
To submit a job, run the following Bacalhau command:
bacalhau docker run
: call to Bacalhau
-i https://raw.githubusercontent.com/tristanpenman/cuda-examples/master/02-cuda-hello-world-faster.cu
: URL path of the input data volumes downloaded from a URL source.
nvidia/cuda:11.2.0-cudnn8-devel-ubuntu18.04
: Docker container for executing CUDA programs (you need to choose the right CUDA docker container). The container should have the tag of "devel" in them.
nvcc --expt-relaxed-constexpr -o ./outputs/hello ./inputs/02-cuda-hello-world-faster.cu
: Compilation using the nvcc compiler and save it to the outputs directory as hello
Note that there is ;
between the commands: -- /bin/bash -c 'nvcc --expt-relaxed-constexpr -o ./outputs/hello ./inputs/02-cuda-hello-world-faster.cu; ./outputs/hello
The ";" symbol allows executing multiple commands sequentially in a single line.
./outputs/hello
: Execution hello binary: You can combine compilation and execution commands.
Note that the CUDA version will need to be compatible with the graphics card on the host machine
When a job is submitted, Bacalhau prints out the related job_id
. We store that in an environment variable so that we can reuse it later on:
Job status: You can check the status of the job using bacalhau job list
.
When it says Published
or Completed
, that means the job is done, and we can get the results.
Job information: You can find out more information about your job by using bacalhau job describe
.
Job download: You can download your job results directly by using bacalhau job get
. Alternatively, you can choose to create a directory to store your results. In the command below, we created a directory (results
) and downloaded our job output to be stored in that directory.
To view the file, run the following command:
If you have questions or need support or guidance, please reach out to the Bacalhau team via Slack (#general channel).