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Assuming you don't want to run the program interactively because this is a large job, you can submit a job via qsub, just be sure to add the '<tt>-l cuda=true</tt>' directive.
Assuming you don't want to run the program interactively because this is a large job, you can submit a job via sbatch, just be sure to add the '<tt>--gres=gpu:1</tt>' directive.

Revision as of 11:12, 10 May 2019

CUDA Overview

CUDA is a feature set for programming nVidia GPUs. We have many dwarf nodes that are CUDA-enabled with 1-2 GPUs and most of the Wizard nodes have 4 GPUs each. Most of these are consumer grade nVidia 1080 Ti graphics cards that are good for accelerating 32-bit calculations. Dwarf38 has two nVidia 980 Ti graphic cards and dwarf39 has two nVidia 1080 Ti graphics cards that are available for anybody to use but you'll need to email beocat@cs.ksu.edu to request being added to the GPU priority group then you'll need to submit jobs with --partition=ksu-gen-gpu.q. Wizard20 and wizard21 each have two nVidia P100 cards that are much more costly than the consumer grade 1080Ti cards but can accelerate 64-bit calculations much better.

Training videos

CUDA Programming Model Overview: http://www.youtube.com/watch?v=aveYOlBSe-Y <HTML5video type="youtube" width="800" height="480" autoplay="false">aveYOlBSe-Y</HTML5video>

CUDA Programming Basics Part I (Host functions): http://www.youtube.com/watch?v=79VARRFwQgY <HTML5video type="youtube" width="800" height="480" autoplay="false">79VARRFwQgY</HTML5video>

CUDA Programming Basics Part II (Device functions): http://www.youtube.com/watch?v=G5-iI1ogDW4 <HTML5video type="youtube" width="800" height="480" autoplay="false">G5-iI1ogDW4</HTML5video>

Compiling CUDA Applications

nvcc is the compiler for CUDA applications. When compiling your applications manually you will need to keep 3 things in mind:

  • The CUDA development headers are located here: /opt/cuda/sdk/common/inc
  • The CUDA architecture is: sm_30
  • The CUDA SDK is currently not available on the headnode. (compile on the nodes with CUDA, either in your jobscript or interactively via srun -n 1 --gres=gpu:1 --pty bash)
  • Do not run your cuda applications on the headnode. I cannot guarantee it will run, and it will give you terrible results if it does run.

Putting it all together you can compile CUDA applications as follows:

nvcc -I  /opt/cuda/sdk/common/inc -arch sm_30 <source>.cu -o <output>

Example

Create your Application

Copy the following Application into Beocat as vecadd.cu

//  Kernel definition, see also section 4.2.3 of Nvidia Cuda Programming Guide
__global__  void vecAdd(float* A, float* B, float* C)
{
            // threadIdx.x is a built-in variable  provided by CUDA at runtime
            int i = threadIdx.x;
       A[i]=0;
       B[i]=i;
       C[i] = A[i] + B[i];
}

#include  <stdio.h>
#define  SIZE 10
int  main()
{
   int N=SIZE;
   float A[SIZE], B[SIZE], C[SIZE];
   float *devPtrA;
   float *devPtrB;
   float *devPtrC;
   int memsize= SIZE * sizeof(float);

   cudaMalloc((void**)&devPtrA, memsize);
   cudaMalloc((void**)&devPtrB, memsize);
   cudaMalloc((void**)&devPtrC, memsize);
   cudaMemcpy(devPtrA, A, memsize,  cudaMemcpyHostToDevice);
   cudaMemcpy(devPtrB, B, memsize,  cudaMemcpyHostToDevice);
   // __global__ functions are called:  Func<<< Dg, Db, Ns  >>>(parameter);
   vecAdd<<<1, N>>>(devPtrA,  devPtrB, devPtrC);
   cudaMemcpy(C, devPtrC, memsize,  cudaMemcpyDeviceToHost);

   for (int i=0; i<SIZE; i++)
        printf("C[%d]=%f\n",i,C[i]);

  cudaFree(devPtrA);
  cudaFree(devPtrA);
  cudaFree(devPtrA);

}

Gain Access to a CUDA-capable Node

See our advanced scheduler documentation

Compile Your Application

nvcc -I /opt/cuda/sdk/common/inc -arch sm_30 vecadd.cu -o vecadd

This will create a program with the name 'vecadd' (specified by the '-o' flag).

Run Your Application

Run the program as you usually would, namely

./vecadd

Assuming you don't want to run the program interactively because this is a large job, you can submit a job via sbatch, just be sure to add the '--gres=gpu:1' directive.