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ORCIDJournal of Supercomputing Frontiers and Innovations, Volume 3
Volume 3, Number 1, 2016
- Suo Guang:
NR-MPI: A Non-stop and Fault Resilient MPI Supporting Programmer Defined Data Backup and Restore for E-scale Super Computing Systems. 4-21 - Ilya I. Levin
, Alexey I. Dordopulo, Alexander M. Fedorov, Igor A. Kalyaev:
Reconfigurable computer systems: from the first FPGAs towards liquid cooling systems. 22-40 - Alexander V. Goncharsky, Sergey Y. Romanov, Sergey Y. Seryozhnikov:
Supercomputer technologies in tomographic imaging applications. 41-66 - Alexander A. Moskovsky, Egor A. Druzhinin, Alexey B. Shmelev, Vladimir A. Mironov, Andrey Semin:
Server Level Liquid Cooling: Do Higher System Temperatures Improve Energy Efficiency? 67-74 - Michael Kuhn, Julian M. Kunkel, Thomas Ludwig:
Data Compression for Climate Data. 75-94
Volume 3, Number 2, 2016
- Fabrice Mizero, Malathi Veeraraghavan, Qian Liu, Robert D. Russell, John M. Dennis:
A Dynamic Congestion Management System for InfiniBand Networks. 5-20 - Michaël Krajecki, Julien Loiseau, François Alin, Christophe Jaillet:
Many-Core Approaches to Combinatorial Problems: case of the Langford Problem. 21-37 - John L. Gustafson:
A Radical Approach to Computation with Real Numbers. 38-53 - Jakub Chrzeszczyk, Andrew Howard, Andrzej Chrzeszczyk, Ben Swift, Peter Davis, Jonathan Low, Tin Wee Tan, Kenneth Ban Hon Kim:
InfiniCloud 2.0: distributing High Performance Computing across continents. 54-71 - Dmitry A. Nikitenko, Sergey A. Zhumatiy, Pavel A. Shvets:
Making Large-Scale Systems Observable - Another Inescapable Step Towards Exascale. 72-79 - Mikhail A. Naumenko, Vyacheslav V. Samarin:
Application of CUDA technology to calculation of ground states of few-body nuclei by Feynman's continual integrals method. 80-95
Volume 3, Number 3, 2016
- Iosif B. Meyerov, Sergey I. Bastrakov, Igor A. Surmin, Alexey V. Bashinov, Evgeny S. Efimenko, Artem V. Korzhimanov, Alexander A. Muraviev, Arkady A. Gonoskov:
Hybrid CPU + Xeon Phi implementation of the Particle-in-Cell method for plasma simulation. 5-10 - G. Matthijs van Waveren, Ahmed Seif El Nawasany, Nasr Hassanein, David Moon, Niall O'Byrnes, Alain Clo, Karthikeyan Murugan, Antonio Arena:
Easy Access to HPC Resources through the Application GUI. 11-18 - Jan Fabian Schmid, Julian M. Kunkel:
Predicting I/O Performance in HPC Using Artificial Neural Networks. 19-33 - Julian Martin Kunkel:
Analyzing Data Properties using Statistical Sampling - Illustrated on Scientific File Formats. 34-39 - Jirí Jaros, Filip Vaverka, Bradley E. Treeby:
Spectral Domain Decomposition Using Local Fourier Basis: Application to Ultrasound Simulation on a Cluster of GPUs. 40-55 - Kedar Kulkarni, Shreeya Badhe, Geetanjali Gadre:
HCA aware Parallel Communication Library: A feasibility study for offloading MPI requirements. 56-60 - Alexander S. Antonov, Alexey V. Frolov, Hiroaki Kobayashi, Igor N. Konshin, Alexey M. Teplov, Vadim V. Voevodin, Vladimir V. Voevodin:
Parallel Processing Model for Cholesky Decomposition Algorithm in AlgoWiki Project. 61-70 - Mariem El Afrit, Yann Le Du, Rafaël Del Pino, Guolin Zhang:
Data merging for the cultural heritage imaging based on Chebfun approach. 71-83
Volume 3, Number 4, 2016
- Will Usher, Ingo Wald, Aaron Knoll, Michael E. Papka, Valerio Pascucci:
In Situ Exploration of Particle Simulations with CPU Ray Tracing. 4-18 - Brad Whitlock, Earl P. N. Duque:
In Situ Visualization and Production of Extract Databases. 19-29 - Alexander Matthes, Axel Huebl, René Widera, Sebastian Grottel, Stefan Gumhold, Michael Bussmann:
In situ, steerable, hardware-independent and data-structure agnostic visualization with ISAAC. 30-48 - James Kress, Randy Michael Churchill, Scott Klasky, Mark Kim, Hank Childs, David Pugmire:
Preparing for In Situ Processing on Upcoming Leading-edge Supercomputers. 49-65 - Konstantin S. Stefanov, Alexey A. Gradskov:
Analysis of CPU Usage Data Properties and their possible impact on Performance Monitoring. 66-73 - Mikhail S. Malovichko, Nikolay I. Khokhlov, Nikolay B. Yavich, Michael S. Zhdanov:
Parallel algorithm for 3D modeling of monochromatic acoustic field by the method of integral equations. 74-78
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