The following publications are possibly variants of this publication:
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- Designing High-Performance In-Memory Key-Value Operations with Persistent GPU Kernels and OpenSHMEMChing-Hsiang Chu, Sreeram Potluri, Anshuman Goswami, Manjunath Gorentla Venkata, Neena Imam, Chris J. Newburn. openshmem 2019: 148-164 [doi]
- Balancing Performance and Portability with Containers in HPC: An OpenSHMEM ExampleThomas Naughton, Lawrence Sorrillo, Adam Simpson, Neena Imam. openshmem 2018: 130-142 [doi]
- Merged Requests for Better Performance and Productivity in Multithreaded OpenSHMEMSwen Boehm, Swaroop Pophale, Matthew B. Baker, Manjunath Gorentla Venkata. openshmem 2018: 35-49 [doi]
- Performance Analysis of OpenSHMEM Applications with TAU CommanderJohn C. Linford, Samuel Khuvis, Sameer Shende, Allen D. Malony, Neena Imam, Manjunath Gorentla Venkata. openshmem 2018: 161-179 [doi]
- Tracking Memory Usage in OpenSHMEM Runtimes with the TAU Performance SystemNicholas Chaimov, Sameer Shende, Allen D. Malony, Manjunath Gorentla Venkata, Neena Imam. openshmem 2019: 167-179 [doi]
- OpenSHMEM over MPI as a Performance Contender: Thorough Analysis and OptimizationsMin-Si, Huansong Fu, Jeff R. Hammond, Pavan Balaji. openshmem 2022: 39-60 [doi]
- Designing a High Performance OpenSHMEM Implementation Using Universal Common Communication Substrate as a Communication MiddlewarePavel Shamis, Manjunath Gorentla Venkata, Stephen W. Poole, Aaron Welch, Tony Curtis. openshmem 2014: 1-13 [doi]