default search action
Google
Google Scholar
Semantic Scholar
Internet Archive Scholar
CiteSeerX
ORCID30. ISC 2015: Frankfurt, Germany
- Julian M. Kunkel, Thomas Ludwig:
High Performance Computing - 30th International Conference, ISC High Performance 2015, Frankfurt, Germany, July 12-16, 2015, Proceedings. Lecture Notes in Computer Science 9137, Springer 2015, ISBN 978-3-319-20118-4 - Edmond Chow, Hartwig Anzt
, Jack J. Dongarra:
Asynchronous Iterative Algorithm for Computing Incomplete Factorizations on GPUs. 1-16 - Peng Zhang, Yu-Xiang Gao:
Matrix Multiplication on High-Density Multi-GPU Architectures: Theoretical and Experimental Investigations. 17-30 - Azzam Haidar, Tingxing Tim Dong, Stanimire Tomov, Piotr Luszczek, Jack J. Dongarra:
A Framework for Batched and GPU-Resident Factorization Algorithms Applied to Block Householder Transformations. 31-47 - Md. Mostofa Ali Patwary, Nadathur Rajagopalan Satish, Narayanan Sundaram, Jongsoo Park, Michael J. Anderson, Satya Gautam Vadlamudi, Dipankar Das, Sergey G. Pudov, Vadim O. Pirogov, Pradeep Dubey:
Parallel Efficient Sparse Matrix-Matrix Multiplication on Multicore Platforms. 48-57 - Khairul Kabir, Azzam Haidar, Stanimire Tomov, Jack J. Dongarra:
On the Design, Development, and Analysis of Optimized Matrix-Vector Multiplication Routines for Coprocessors. 58-73 - Yingbo Cui, Xiangke Liao, Shaoliang Peng, Yutong Lu, Canqun Yang, Bingqiang Wang, Chengkun Wu:
Large-Scale Neo-Heterogeneous Programming and Optimization of SNP Detection on Tianhe-2. 74-86 - Shashi M. Aithal, Stefan M. Wild:
ACCOLADES: A Scalable Workflow Framework for Large-Scale Simulation and Analyses of Automotive Engines. 87-95 - Paul F. Baumeister, Hans Boettiger, José R. Brunheroto, Thorsten Hater, Thilo Maurer, Andrea Nobile, Dirk Pleiter:
Accelerating LBM and LQCD Application Kernels by In-Memory Processing. 96-112 - Vladimir A. Mironov, Maria G. Khrenova, Alexander A. Moskovsky:
On Quantum Chemistry Code Adaptation for RSC PetaStream Architecture. 113-121 - Kiran Pamnany, Sanchit Misra, Md. Vasimuddin, Xing Liu, Edmond Chow, Srinivas Aluru:
Dtree: Dynamic Task Scheduling at Petascale. 122-138 - Iakovos Panourgias, Michèle Weiland, Mark Parsons, David Turland, Dave Barrett, Wayne P. Gaudin:
Feasibility Study of Porting a Particle Transport Code to FPGA. 139-154 - Paul Springer, Ahmed E. Ismail, Paolo Bientinesi:
A Scalable, Linear-Time Dynamic Cutoff Algorithm for Molecular Dynamics. 155-170 - Heng Wang, Shaoliang Peng, Yutong Lu, Chengkun Wu, Jiajun Wen, Jie Liu, Xiaoqian Zhu:
BWTCP: A Parallel Method for Constructing BWT in Large Collection of Genomic Reads. 171-178 - David Rohr, Matthias Bach, Gvozden Neskovic, Volker Lindenstruth, Christopher Pinke, Owe Philipsen:
Lattice-CSC: Optimizing and Building an Efficient Supercomputer for Lattice-QCD and to Achieve First Place in Green500. 179-196 - Xiangke Liao, Canqun Yang, Zhe Quan, Tao Tang, Cheng Chen:
An Efficient Clique-Based Algorithm of Compute Nodes Allocation for In-memory Checkpoint System. 197-211 - Alan Humphrey, Todd Harman, Martin Berzins, Philip J. Smith:
A Scalable Algorithm for Radiative Heat Transfer Using Reverse Monte Carlo Ray Tracing. 212-230 - Victor Getmanskiy, Vladimir Chalyshev, Dmitriy Kryzhanovsky, Igor Lopatin, Evgeny Leksikov:
Optimizing Processes Mapping for Tasks with Non-uniform Data Exchange Run on Cluster with Different Interconnects. 231-239 - Michael Kuhn:
Dynamically Adaptable I/O Semantics for High Performance Computing. 240-256 - Julian M. Kunkel, Michaela Zimmer, Eugen Betke:
Predicting Performance of Non-contiguous I/O with Machine Learning. 257-273 - Christopher Bartz, Konstantinos Chasapis, Michael Kuhn, Petra Nerge, Thomas Ludwig:
A Best Practice Analysis of HDF 5 5 and NetCDF- 4 4 Using Lustre. 274-281 - Yuichi Tsujita, Atsushi Hori, Yutaka Ishikawa:
Striping Layout Aware Data Aggregation for High Performance I/O on a Lustre File System. 282-290 - Latchesar Ionkov, Michael Lang:
Hop: Elastic Consistency for Exascale Data Stores. 291-306 - Pablo Graubner, Patrick Heckmann, Bernd Freisleben:
Energy-Efficient Data Processing Through Data Sparsing with Artifacts. 307-322 - Peter M. Kogge:
Updating the Energy Model for Future Exascale Systems. 323-339 - Alexander Breuer, Alexander Heinecke, Leonhard Rannabauer, Michael Bader:
High-Order ADER-DG Minimizes Energy- and Time-to-Solution of SeisSol. 340-357 - Sandra Wienke, Hristo Iliev, Dieter an Mey, Matthias S. Müller:
Modeling the Productivity of HPC Systems on a Computing Center Scale. 358-375 - Torsten Wilde, Axel Auweter, Hayk Shoukourian, Arndt Bode:
Taking Advantage of Node Power Variation in Homogenous HPC Systems to Save Energy. 376-393 - Aniruddha Marathe, Peter E. Bailey, David K. Lowenthal, Barry Rountree, Martin Schulz, Bronis R. de Supinski:
A Run-Time System for Power-Constrained HPC Applications. 394-408 - Isa Ahmet Güney, Abdullah Yildiz, Ismail Ugur Bayindir, Kemal Cagri Serdaroglu, Utku Bayik, Gurhan Kucuk:
A Machine Learning Approach for a Scalable, Energy-Efficient Utility-Based Cache Partitioning. 409-421 - Siew Hoon Leong, Dieter Kranzlmüller:
A Case Study - Cost of Preemption for Urgent Computing on SuperMUC. 422-433 - Hari Subramoni, Ammar Ahmad Awan, Khaled Hamidouche, Dmitry Pekurovsky, Akshay Venkatesh, Sourav Chakraborty, Karen Tomko, Dhabaleswar K. Panda:
Designing Non-blocking Personalized Collectives with Near Perfect Overlap for RDMA-Enabled Clusters. 434-453 - Sébastien Rumley, Madeleine Glick, Simon D. Hammond, Arun Rodrigues, Keren Bergman:
Design Methodology for Optimizing Optical Interconnection Networks in High Performance Systems. 454-471 - Andreea Anghel, Germán Rodríguez, Bogdan Prisacari, Cyriel Minkenberg, Gero Dittmann:
Quantifying Communication in Graph Analytics. 472-487 - Kenneth Moreland, Ron A. Oldfield:
Formal Metrics for Large-Scale Parallel Performance. 488-496 - Christoph Pospiech:
Hunting Down Load Imbalance: A Moving Target. 497-505 - Joshua Higgins, Violeta Holmes, Colin C. Venters:
Orchestrating Docker Containers in the HPC Environment. 506-513 - Zaphiris Christidis:
Performance and Scaling of WRF on Three Different Parallel Supercomputers. 514-528
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
last updated on 2025-12-05 22:21 CET by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint
dblp was originally created in 1993 at:
since 2018, dblp has been operated and maintained by:
the dblp computer science bibliography is funded and supported by:
