GSoC 2015 Results: Success!

This summer has been an exciting time for the STE||AR Group’s GSoC mentors and students alike! We were very pleased with the dedication and effort of all five of our participants. Our students made contributions to three of our software products: HPX, a distributed C++ runtime system which comes with a standards compliant API and allows users to scale their applications across thousands of machines; LibGeoDecomp, an auto-parallizing library for petascale computer simulations which is able to take advantage of HPX to better adapt fluctuating workloads to the system; and LibFlatArray, a highly efficient multidimensional array library which provides an object-oriented interface but stores data in a vectorization-friendly Struct-of-Arrays format. Just like these three products can work together as a tightly integrated stack, our goal with the GSoC projects was to create synergy between them and steer our development towards a common goal: increase the adaptivity and efficiency of our software. Below are the summaries of our student’s projects:

Implementation of a New Resource Manager in HPX- Nidhi Makhijani

This project set out to properly assign hardware resources to executors, which are C++ objects that dictate the way that a thread should be executed. Nidhi was able to allocate resources to an executor when it was created and return the resources when it stops. Additionally, Nidhi laid the groundwork for dynamic allocation where the resource manager can monitor and share resources amongst all of the running executors.

SIMD Wrapper for ARM NEON, Intel AVX512 & KNC in LibFlatArray- Larry Xiao

Vectorization is imperative for writing highly efficient numerical kernels. The goal of this project was to extend the already existing SIMD wrappers in LibFlatArray to more architectures (e.g. ARM NEON, Intel AVX512, & KNC) and to extend the capabilities of these wrappers. Larry set out to study the different ISA (Instruction Set Architecture), and make the library run efficiently on these architectures.

CSV Formatted Performance Counters for HPX- Devang Bacharwar

HPX provides users with a uniform interface to access arbitrary system information from anywhere in the system. Devang’s project has now allowed users to request these counters in a CSV format. Additionally, he has enabled the ability to get timestamps with each value as well. These features will make it easier for HPX users to perform analysis on the performance data gathered from an application.

Integrate a C++AMP Kernel with HPX- Marcin Copik
The HPX runtime system can coordinate the execution and synchronization of OpenCL kernels on arbitrary OpenCL devices, such as GPUs, in a system. In his GSoC project, Marcin used a C++ AMP compiler to produce an OpenCL kernel from a parallel algorithm implemented by HPX. Marcin integrated the Kalmar AMP compiler into the HPX build system, transformed a parallel for each algorithm into an OpenCL kernel, dispatched the kernel to a GPU and synchronized the result with a concurrently running HPX application.

A Flexible IO Infrastructure for LibGeoDecomp- Konstantin Kronfeldner

In LibGeoDecomp, users are able to read from and write to arbitrary regions of the simulation space. These operations are carried out by objects which we call Steerers and Writers. Over the summer, Konstantin has added the ability for these Steerers and Writers to be dynamically created and destroyed. LibGeoDecomp is typically used on supercomputers, where jobs are executed non-interactively via a batch system. Konstantin’s extensions enable users to interact with the application at runtime. They can view and modify the simulation model dynamically. The benefit of this is a significantly lower turnaround time for domain scientists who need to carry out many computational experiments.

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