Learn how Jacket, GPUs, and MATLAB can deliver magnitudes of performance improvement over CPU-based solutions for Power flow studies. AccelerEyes, in collaboration with the Indian Institute of Technology in Roorkee, has developed this case study to illustrate the ability to study power flow models on graphics processing units using Jacket and MATLAB. Implementation on the GPU is 35 times faster than CPU alternatives. http://www.accelereyes.com/resources/powerflow
Jacket and GPUs show promise in Neuroscience with fMRI and SPM
For those of you interested in neuroscience and neuroimaging, you have probably heard of a software capability called SPM or Statistical Parametric Mapping developed by a group at University College London. Well, a group at Georgia Tech has been doing some work with Jacket and CUDA on SPM and have produced some initial results that show some promise. Being able to speed up the image analysis of functional MRI can benefit the medical community in a big way. AccelerEyes has been supporting these efforts at Georgia Tech and with the permission of the authors we have produced an initial look at their work. Enjoy. http://www.accelereyes.com/resources/spm-fmri
Median Filtering: CUDA tips and tricks
Last week we posted a video recording from NVIDIA’s GTC09 conference. In the video, I walked through median filtering, presenting the vanilla implementation and then walking through progressive CUDA optimizations. A comment on that post suggested trying some other compiler flags, and it sparked a new series of experiments. In the original video, we started with a vanilla CPU implementation of 3×3 median filtering. We then ported this to the GPU to realize some immediate gains, but then we started a string of optimizations to see how far we could drive up performance: switching to textured memory, switching to shared memory, switching the internal sorting of pixels, etc. The conclusion: pay attention to the resource usage reported by nvcc (registers, …
A case study in CUDA optimization
Jimi Malcolm, VP of Engineering and Co-founder of AccelerEyes takes about 15 minutes to share CUDA optimization strategies to maximize performance of CUDA code. Watch the video below to find out what needs to go into strategizing CUDA development to maximize performance. Jimi uses Median Filtering for this case study. Get the Flash Player to see this player.
Streaming data to the GPU
Learn how to stream data directly to the GPU using the Jacket SDK.
Jacket in a GPU Cloud
Wow! Jacket is now running MATLAB on a GPU cloud server from Penguin Computing! We were setting up demos today at SuperComputing 2009 and just got things setup inside Penguin Computing’s booth. Jacket is now running as compiled MATLAB code on Penguin Computing’s POD (Penguin on Demand) cloud service! The OpenGL visualizations are running without a hitch through VGL, so for everyone on the forums, this seems like another effective method of running Jacket remotely — at least on Linux. Does anyone know if VGL runs under windows? Penguin Computing was using it quite effecitvely – their setup was very slick!
Developer SDK Upgrade
In Jacket v1.1, an optional Developer SDK Upgrade is available. This upgrade provides the ability for you to integrate custom CUDA code for use with MATLAB. With a few simple jkt functions (which mimic standard MEX API functions), you can integrate custom CUDA kernels into Jacket. This task is as simple as replacing the main function in your program with jktFunction, which is used in the place of mexFunction for integration of CUDA code into MATLAB and Jacket. This serves an an entry point to Jacket’s runtime. Within a jktFunction, you have access to several jkt API functions to do tasks such as getting input from MATLAB, allocating device memory, calling the CUDA kernels, and casting the kernel’s output to …
LAPACK Functions in Jacket (eig, inv, etc.)
One of the questions people commonly ask us is: When will Jacket support LAPACK features such as eigenvalue decomposition, matrix inverse, system solvers, etc.? The reason this question is so popular is that people recognize that these kinds of problems are well-suited for the GPU and will end up giving great performance boosts for Jacket users. We are looking forward to delivering these functions in Jacket. Jacket is currently built on top of CUDA. For reasons why we like CUDA, see our previous blog post about OpenCL. While NVIDIA is busy building from CUDA from the ground up, we are busy building Jacket from the top (MATLAB) down. NVIDIA is working hard to promote and develop LAPACK libraries directly into …
Data-parallelism vs Task-parallelism
In order to understand how Jacket works, it is important to understand the difference between data parallelism and task parallelism. There are many ways to define this, but simply put and in our context: Task parallelism is the simultaneous execution on multiple cores of many different functions across the same or different datasets. Data parallelism (aka SIMD) is the simultaneous execution on multiple cores of the same function across the elements of a dataset. Jacket focuses on exploiting data parallelism or SIMD computations. The vectorized MATLAB language is especially conducive to good SIMD operations (more so than a non-vectorized language such as C/C++). And if you’re going to need a vectorized notation to achieve SIMD computation, why not choose the …
The NVIDIA MEX-Plugin & Jacket
One of the first questions people ask when considering Jacket for GPU MATLAB computing is the following: How is Jacket different from the MATLAB plugin on the NVIDIA website (found here: http://developer.nvidia.com/object/matlab_cuda.html)? The short answer to this is that the NVIDIA MEX-plugin requires you to write CUDA code, while Jacket does not. This has many implications and ends up resulting in a lot of advantages for you as a MATLAB programmer. First let’s describe the features of the MEX-plugin: You write CUDA code that solves your problem. You use the MEX configuration files provided by NVIDIA to compile your CUDA code into a MEX file that is callable by MATLAB. MATLAB calls your MEX file, moves data out to the …