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2020 – today
- 2024
[c45]Pawel Poczekajlo
, Leonid V. Moroz, Ewa Deelman, Pawel Gepner:
Modified CORDIC Algorithm for Givens Rotator. ICCS (6) 2024: 101-114- [c44]Ilona Jacyna-Golda, Pawel Gepner, Jerzy Krawiec, Kamil Halbiniak, Andrzej Jankowski, Martyna Wybraniak-Kujawa:
Enhancing Computational Science Education Through Practical Applications: Leveraging Predictive Analytics in Box Meal Services. ICCS (7) 2024: 383-397 - 2023
- [j9]Pawel Rosciszewski, Adam Krzywaniak, Sergio Iserte, Krzysztof Rojek, Pawel Gepner:
Optimizing throughput of Seq2Seq model training on the IPU platform for AI-accelerated CFD simulations. Future Gener. Comput. Syst. 147: 149-162 (2023) - [c43]Krzysztof Rojek, Roman Wyrzykowski, Pawel Gepner:
Chemical Mixing Simulations with Integrated AI Accelerator. ICCS (2) 2023: 494-508 - [c42]Pawel Gepner, Martyna Wybraniak-Kujawa, Jerzy Krawiec, Andrzej Kaminski, Kamil Halbiniak:
Empirical Studies of Students Behaviour Using Scottie-Go Block Tools to Develop Problem-Solving Experience. ICCS (5) 2023: 707-721 - [c41]Hatem Ltaief, Yuxi Hong, Adel Dabah, Rabab Alomairy, Sameh Abdulah, Chris Goreczny, Pawel Gepner, Matteo Ravasi, Damien Gratadour, David E. Keyes:
Steering Customized AI Architectures for HPC Scientific Applications. ISC 2023: 125-143 - 2022
- [j8]Kamil Halbiniak, Roman Wyrzykowski, Lukasz Szustak, Adam Kulawik, Norbert Meyer, Pawel Gepner:
Performance exploration of various C/C++ compilers for AMD EPYC processors in numerical modeling of solidification. Adv. Eng. Softw. 166: 103078 (2022) - [j7]Leonid V. Moroz, Volodymyr Samotyy, Zbigniew Kokosinski, Pawel Gepner:
Simple Multiple Precision Algorithms for Exponential Functions [Tips & Tricks]. IEEE Signal Process. Mag. 39(4): 130-137 (2022) - [c40]Martyna Wybraniak-Kujawa, Pawel Gepner, Pawel Bratek:
Human personality in IT projects. KES 2022: 4190-4199 - [c39]Pawel Rosciszewski, Adam Krzywaniak, Sergio Iserte, Krzysztof Rojek, Pawel Gepner:
Adaptation of AI-Accelerated CFD Simulations to the IPU Platform. PPAM (2) 2022: 223-235 - 2021
- [j6]Kamil Halbiniak, Lukasz Szustak, Tomasz Olas, Roman Wyrzykowski, Pawel Gepner:
Exploration of OpenCL Heterogeneous Programming for Porting Solidification Modeling to CPU-GPU Platforms. Concurr. Comput. Pract. Exp. 33(4) (2021) - [c38]Pawel Gepner:
Machine Learning and High-Performance Computing Hybrid Systems, a New Way of Performance Acceleration in Engineering and Scientific Applications. FedCSIS 2021: 27-36 - [c37]Krzysztof Rojek, Roman Wyrzykowski, Pawel Gepner:
AI-Accelerated CFD Simulation Based on OpenFOAM and CPU/GPU Computing. ICCS (2) 2021: 373-385
2010 – 2019
- 2019
- [c36]Kamil Halbiniak, Lukasz Szustak, Adam Kulawik, Pawel Gepner:
Performance Optimizations for Parallel Modeling of Solidification with Dynamic Intensity of Computation. PPAM (1) 2019: 370-381 - 2018
- [c35]Stefka Fidanova, Gabriel Luque, Olympia Roeva, Marcin Paprzycki, Pawel Gepner:
Hybrid Ant Colony Optimization Algorithm for Workforce Planning. FedCSIS 2018: 233-236 - 2017
- [j5]Pawel Gepner:
Using AVX2 Instruction Set to Increase Performance of High Performance Computing Code. Comput. Informatics 36(5): 1001-1018 (2017) - [c34]Stefka Fidanova, Gabriel Luque, Olympia Roeva, Marcin Paprzycki, Pawel Gepner:
Ant Colony Optimization Algorithm for Workforce Planning. FedCSIS 2017: 415-419 - [c33]Tomasz Olas, Wojciech K. Mleczko, Marcin Wozniak, Robert K. Nowicki, Pawel Gepner:
Performance Evaluation of DBN Learning on Intel Multi- and Manycore Architectures. PPAM (1) 2017: 565-575 - 2016
- [c32]Stefka Fidanova, Olympia Roeva, Pawel Gepner, Marcin Paprzycki:
InterCriteria Analysis of ACO Start Startegies. FedCSIS 2016: 547-550 - 2015
- [j4]Lukasz Szustak, Krzysztof Rojek, Tomasz Olas, Lukasz Kuczynski, Kamil Halbiniak, Pawel Gepner:
Adaptation of MPDATA Heterogeneous Stencil Computation to Intel Xeon Phi Coprocessor. Sci. Program. 2015: 642705:1-642705:14 (2015) - [c31]Olympia Roeva, Peter Vassilev, Stefka Fidanova, Pawel Gepner:
InterCriteria Analysis of a model parameters identification using genetic algorithm. FedCSIS 2015: 501-506 - [c30]Hassan AbouEisha, Mikhail Ju. Moshkov, Konrad Jopek, Pawel Gepner, Jacek Kitowski, Maciej Paszynski:
Towards Green Multi-frontal Solver for Adaptive Finite Element Method. ICCS 2015: 984-993 - [c29]Pawel Gepner:
Intel Architecture and Technology for Future HPC System Building Blocks. ISPDC 2015: 5 - [c28]Dan Grigoras, Pawel Gepner:
The Distributed Mobile Cloud Supporting the Internet of Things. ISPDC 2015: 9-16 - [c27]Lukasz Szustak, Kamil Halbiniak, Adam Kulawik, Joanna Wróbel, Pawel Gepner:
Toward Parallel Modeling of Solidification Based on the Generalized Finite Difference Method Using Intel Xeon Phi. PPAM (1) 2015: 411-422 - 2014
- [j3]Pawel Gepner, Victor Gamayunov, David L. Fraser, Eric Houdard, Ludovic Sauge, Damien Déclat, Mathieu Dubois:
Evaluation of DGEMM Implementation on Intel Xeon Phi Coprocessor. J. Comput. 9(7): 1566-1571 (2014) - [j2]Milosz Ciznicki, Michal Kierzynka, Piotr Kopta, Krzysztof Kurowski, Pawel Gepner:
Benchmarking JPEG 2000 implementations on modern CPU and GPU architectures. J. Comput. Sci. 5(2): 90-98 (2014) - [c26]Ivan Lirkov, Marcin Paprzycki, Maria Ganzha, Stanislav Sedukhin, Pawel Gepner:
Performance analysis of scalable algorithms for 3D linear transforms. FedCSIS 2014: 613-622 - [c25]Pawel Gepner, Victor Gamayunov, Wieslawa Litke, Ludovic Sauge, Cyril Mazauric:
Evaluation of Intel Xeon E5-2600v2 based cluster for technical computing workloads. HPCS 2014: 919-926 - 2013
- [c24]Ivan Lirkov, Marcin Paprzycki, Maria Ganzha, Pawel Gepner:
Performance Evaluation of MPI/OpenMP Algorithm for 3D Time Dependent Problems. FedCSIS (Position Papers) 2013: 27-32 - [c23]Alexander Vazhenin, Yutaka Watanobe, Kensaku Hayashi, Michal Drozdowicz, Maria Ganzha, Marcin Paprzycki, Katarzyna Wasielewska, Pawel Gepner:
Agent-based Resource Management in Tsunami Modeling. FedCSIS 2013: 1047-1052 - [c22]Stelios Sotiriadis, Nik Bessis, Pawel Gepner, Nicolas Markatos:
Analysis of Requirements for Virtual Machine Migration in Dynamic Clouds. ISPDC 2013: 116-123 - [c21]Milosz Ciznicki, Piotr Kopta, Michal Kulczewski, Krzysztof Kurowski, Pawel Gepner:
Elliptic Solver Performance Evaluation on Modern Hardware Architectures. PPAM (1) 2013: 155-165 - [c20]Lukasz Szustak, Krzysztof Rojek, Pawel Gepner:
Using Intel Xeon Phi Coprocessor to Accelerate Computations in MPDATA Algorithm. PPAM (1) 2013: 582-592 - 2012
- [c19]Pawel Gepner, Victor Gamayunov, David L. Fraser:
Effective Implementation of DGEMM on Modern Multicore CPU. ICCS 2012: 126-135 - [c18]Milosz Ciznicki, Michal Kierzynka, Piotr Kopta, Krzysztof Kurowski, Pawel Gepner:
Benchmarking Data and Compute Intensive Applications on Modern CPU and GPU Architectures. ICCS 2012: 1900-1909 - 2011
- [j1]Pawel Gepner, David L. Fraser, Michal Filip Kowalik, Kazimierz Wackowski:
Evaluating New Architectural Features of the Intel(R) Xeon(R) 7500 Processor for HPC Workloads. Comput. Sci. 12: 5-18 (2011) - [c17]Ivan Lirkov, Marcin Paprzycki, Maria Ganzha, Pawel Gepner:
Parallel alternating directions algorithm for 3D Stokes equation. FedCSIS 2011: 443-450 - [c16]Pawel Gepner, Victor Gamayunov, David L. Fraser:
The 2nd Generation Intel Core Processor. Architectural Features Supporting HPC. ISPDC 2011: 17-24 - [c15]Tomasz Olas, Roman Wyrzykowski, Pawel Gepner:
Parallel FEM Adaptation on Hierarchical Architectures. PPAM (1) 2011: 194-205 - [c14]Piotr Kopta, Michal Kulczewski, Krzysztof Kurowski, Tomasz Piontek, Pawel Gepner, Mariusz Puchalski, Jacek Komasa:
Parallel application benchmarks and performance evaluation of the Intel Xeon 7500 family processors. ICCS 2011: 372-381 - [c13]Maciej Malawski, Jan Meizner, Marian Bubak, Pawel Gepner:
Component Approach to Computational Applications on Clouds. ICCS 2011: 432-441 - [c12]Pawel Gepner, Victor Gamayunov, David L. Fraser:
Early performance evaluation of AVX for HPC. ICCS 2011: 452-460 - 2010
- [c11]Michele Martone, Salvatore Filippone, Pawel Gepner, Marcin Paprzycki, Salvatore Tucci:
Use of Hybrid Recursive CSR/COO Data Structures in Sparse Matrices-Vector Multiplication. IMCSIT 2010: 327-335 - [c10]Pawel Gepner, Michal Filip Kowalik, David L. Fraser, Kazimierz Wackowski:
Early Performance Evaluation of New Six-Core Intel® Xeon® 5600 Family Processors for HPC. ISPDC 2010: 117-124
2000 – 2009
- 2009
- [c9]Pawel Gepner, David L. Fraser, Michal Filip Kowalik, R. Tylman:
New multi-core Intel Xeon processors help design energy efficient solution for high performance computing. IMCSIT 2009: 567-571 - [c8]Pawel Gepner, David L. Fraser, Michal Filip Kowalik:
Evaluating Performance of New Quad-Core Intel®Xeon®5500 Family Processors for HPC. PPAM (1) 2009: 1-10 - [c7]Tomasz Olas, Robert Lesniak, Roman Wyrzykowski, Pawel Gepner:
Parallel Adaptive Finite Element Package with Dynamic Load Balancing for 3D Thermo-Mechanical Problems. PPAM (1) 2009: 299-311 - 2008
- [c6]Pawel Gepner:
Intel's Technology Vision and Products for HPC. ICCS (1) 2008: 42 - [c5]Pawel Gepner, David L. Fraser, Michal Filip Kowalik:
Second Generation Quad-Core Intel Xeon Processors Bring 45 nm Technology and a New Level of Performance to HPC Applications. ICCS (1) 2008: 417-426 - 2007
- [c4]Pawel Gepner, David L. Fraser, Michal Filip Kowalik:
Performance Evolution and Power Benefits of Cluster System Utilizing Quad-Core and Dual-Core Intel Xeon Processors. PPAM 2007: 20-28 - 2006
- [c3]Pawel Gepner, Michal Filip Kowalik:
Multi-Core Processors: New Way to Achieve High System Performance. PARELEC 2006: 9-13 - 2003
- [c2]Kazimierz Wackowski, Pawel Gepner:
Hyper-Threading Technology Speeds Clusters. PPAM 2003: 17-26 - 2001
- [c1]Pawel Gepner:
Overview of IA-64 Explicitly Parallel Instruction Computing Architecture. PPAM 2001: 331-339
Coauthor Index
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last updated on 2024-08-03 21:09 CEST by the dblp team
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