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Over the summer, I started to learn CUDA C because the nVIDIA performance claims were simply unbelievable. This past week, I started another semester of my undergrad studies. My major is computer science.

One of the classes I am taking this semester is undergrad research and want to further practice with CUDA C. Does anyone have any ideas on what I can work on? My goal of doing the research is to further learn about CUDA C and then by the end of the research have a better understanding when CUDA C should be used in solving problems.


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closed as too broad by gnat, rene, gunr2171, TylerH, Lynn Crumbling May 4 '15 at 20:21

There are either too many possible answers, or good answers would be too long for this format. Please add details to narrow the answer set or to isolate an issue that can be answered in a few paragraphs.If this question can be reworded to fit the rules in the help center, please edit the question.

possible duplicate of How are you taking advantage of Multicore? – Hans Passant Aug 28 '10 at 15:53
Thanks for the link, Hans. I will check out this post and see what ideas it gives me. – learningCSharp Aug 28 '10 at 16:23
try c++ expression template + cuda – Anycorn Aug 28 '10 at 18:27

Take some compute intensive task and try a CUDA implementation?
If you are interested in image processng try something from OpenCV - you have the C ( and SSE assember) for the algorithms, converting into CUDA analysing where you get a performance gain - and how it scales, should be a good project. If you want something more ambitious a CUDA implementation of parts of FFMPEG would be useful.

ps. Remember in an ugrad project you are being marked on the analysis of the algorithm, not the coding standards - so don't get carried away with writing huge amounts of infrastructure/library code.

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How about you look at a typical problem discussed in the Numerical Recipes book. Then pick a linear algebra problem such as the LU decomposition and implement it using CUDA. Benchmark it and try to understand your results.

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Maybe try to implement some kind of optimization or data fitting routines. These are very easy to parallelize, and getting 20x speedups is quite easy.

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