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Vinod Tipparaju

Researcher at Oak Ridge National Laboratory

Publications -  52
Citations -  2504

Vinod Tipparaju is an academic researcher from Oak Ridge National Laboratory. The author has contributed to research in topics: Scalability & Shared memory. The author has an hindex of 19, co-authored 52 publications receiving 2055 citations. Previous affiliations of Vinod Tipparaju include Pacific Northwest National Laboratory & Cray.

Papers
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Proceedings ArticleDOI

The Scalable Heterogeneous Computing (SHOC) benchmark suite

Anthony Danalis, +7 more
TL;DR: The Scalable HeterOgeneous Computing benchmark suite (SHOC) is a spectrum of programs that test the performance and stability of scalable heterogeneous computing systems and includes benchmark implementations in both OpenCL and CUDA in order to provide a comparison of these programming models.
Journal ArticleDOI

NWChem: Past, present, and future

Edoardo Aprà, +113 more
- 14 May 2020 - 
TL;DR: The NWChem computational chemistry suite is reviewed, including its history, design principles, parallel tools, current capabilities, outreach, and outlook.
Journal ArticleDOI

Advances, Applications and Performance of the Global Arrays Shared Memory Programming Toolkit

Jarek Nieplocha, +5 more
TL;DR: Compatibility of GA with MPI enables the programmer to take advatage of the existing MPI software/libraries when available and appropriate, and demonstrates the attractiveness of using higher level abstractions to write parallel code.
Journal ArticleDOI

NWChem: Past, Present, and Future

Edoardo Aprà, +113 more
- 25 Apr 2020 - 
TL;DR: The NWChem computational chemistry suite as discussed by the authors provides tools to support and guide experimental efforts and for the prediction of atomistic and electronic properties by using first-principledriven methodologies to model complex chemical and materials processes.
Journal ArticleDOI

High Performance Remote Memory Access Communication: The Armci Approach

J. Nieplocha, +3 more
TL;DR: The model, addresses challenges of portable implementations, and demonstrates that ARMCI delivers high performance on a variety of platforms, with special emphasis on the latency hiding mechanisms and ability to optimize noncotiguous data transfers.