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ORCIDLukasz Szustak
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2020 – today
- 2024
[j21]Marco Lapegna
, Valeria Mele, Raffaele Montella, Lukasz Szustak:
Special Issue on the pervasive nature of HPC (PN-HPC). Concurr. Comput. Pract. Exp. 36(10) (2024)- [j20]Derek Groen, Nikela Papadopoulou, Petros Anastasiadis, Marcin Lawenda, Lukasz Szustak, Sergiy Gogolenko, Hamid Arabnejad, Alireza Jahani:
Large-Scale Parallelization of Human Migration Simulation. IEEE Trans. Comput. Soc. Syst. 11(2): 2135-2146 (2024) - 2023
- [j19]Lukasz Szustak, Marcin Lawenda, Sebastian Arming, Gregor Bankhamer, Christoph Schweimer, Robert Elsässer:
Profiling and optimization of Python-based social sciences applications on HPC systems by means of task and data parallelism. Future Gener. Comput. Syst. 148: 623-635 (2023) - [j18]Pawel Bratek, Lukasz Szustak, Roman Wyrzykowski, Tomasz Olas:
Reducing energy consumption using heterogeneous voltage frequency scaling of data-parallel applications for multicore systems. J. Parallel Distributed Comput. 175: 121-133 (2023) - [c16]Pawel Bratek, Lukasz Szustak, Jaroslaw Zola:
Parallel Auto-Scheduling of Counting Queries in Machine Learning Applications on HPC Systems. Euro-Par Workshops 2023: 327-333 - 2022
- [j17]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) - 2021
- [j16]Luisa Carracciuolo, Valeria Mele, Lukasz Szustak:
About the granularity portability of block-based Krylov methods in heterogeneous computing environments. Concurr. Comput. Pract. Exp. 33(4) (2021) - [j15]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) - [j14]Kamil Halbiniak, Tomasz Olas, Lukasz Szustak, Adam Kulawik, Marco Lapegna:
Dynamic workload prediction and distribution in numerical modeling of solidification on multi-/manycore architectures. Concurr. Comput. Pract. Exp. 33(11) (2021) - [j13]Lukasz Szustak, Roman Wyrzykowski, Lukasz Kuczynski, Tomasz Olas:
Architectural Adaptation and Performance-Energy Optimization for CFD Application on AMD EPYC Rome. IEEE Trans. Parallel Distributed Syst. 32(12): 2852-2866 (2021) - [c15]Pawel Bratek, Lukasz Szustak, Roman Wyrzykowski, Tomasz Olas, Tomasz Chmiel:
Heterogeneous Voltage Frequency Scaling of Data-Parallel Applications for Energy Saving on Homogeneous Multicore Platforms. Euro-Par Workshops 2021: 141-153 - [c14]Pawel Bratek, Lukasz Szustak, Jaroslaw Zola:
Parallelization and Auto-scheduling of Data Access Queries in ML Workloads. Euro-Par Workshops 2021: 525-529 - 2020
- [j12]Giuliano Laccetti, Marco Lapegna, Valeria Mele, Diego Romano, Lukasz Szustak:
Performance enhancement of a dynamic K-means algorithm through a parallel adaptive strategy on multicore CPUs. J. Parallel Distributed Comput. 145: 34-41 (2020) - [j11]Lukasz Szustak, Roman Wyrzykowski, Tomasz Olas, Valeria Mele:
Correlation of Performance Optimizations and Energy Consumption for Stencil-Based Application on Intel Xeon Scalable Processors. IEEE Trans. Parallel Distributed Syst. 31(11): 2582-2593 (2020)
2010 – 2019
- 2019
- [j10]Lukasz Szustak, Pawel Bratek:
Performance portable parallel programming of heterogeneous stencils across shared-memory platforms with modern Intel processors. Int. J. High Perform. Comput. Appl. 33(3) (2019) - [j9]Lukasz Szustak, Kamil Halbiniak, Roman Wyrzykowski, Ondrej Jakl:
Unleashing the performance of ccNUMA multiprocessor architectures in heterogeneous stencil computations. J. Supercomput. 75(12): 7765-7777 (2019) - [c13]Lukasz Szustak, Roman Wyrzykowski, Kamil Halbiniak, Pawel Bratek:
Toward Heterogeneous MPI+MPI Programming: Comparison of OpenMP and MPI Shared Memory Models. Euro-Par Workshops 2019: 270-281 - [c12]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
- [j8]Lukasz Szustak, Kamil Halbiniak, Lukasz Kuczynski, Joanna Wróbel, Adam Kulawik:
Porting and optimization of solidification application for CPU-MIC hybrid platforms. Int. J. High Perform. Comput. Appl. 32(4): 523-539 (2018) - [j7]Kamil Halbiniak, Roman Wyrzykowski, Lukasz Szustak, Tomasz Olas:
Assessment of offload-based programming environments for hybrid CPU-MIC platforms in numerical modeling of solidification. Simul. Model. Pract. Theory 87: 48-72 (2018) - [j6]Lukasz Szustak:
Strategy for data-flow synchronizations in stencil parallel computations on multi-/manycore systems. J. Supercomput. 74(4): 1534-1546 (2018) - [c11]Alexey L. Lastovetsky, Muhammad Fahad, Hamidreza Khaleghzadeh, Semyon Khokhriakov, Ravi Reddy, Arsalan Shahid, Lukasz Szustak, Roman Wyrzykowski:
How Pre-multicore Methods and Algorithms Perform in Multicore Era. ISC Workshops 2018: 527-539 - 2017
- [j5]Alexey L. Lastovetsky, Lukasz Szustak, Roman Wyrzykowski:
Model-Based Optimization of EULAG Kernel on Intel Xeon Phi Through Load Imbalancing. IEEE Trans. Parallel Distributed Syst. 28(3): 787-797 (2017) - [c10]Lukasz Szustak, Roman Wyrzykowski, Ondrej Jakl:
Islands-of-Cores Approach for Harnessing SMP/NUMA Architectures in Heterogeneous Stencil Computations. PaCT 2017: 351-364 - 2016
- [c9]Tania Malik, Lukasz Szustak, Roman Wyrzykowski, Alexey L. Lastovetsky:
Network-Aware Optimization of MPDATA on Homogeneous Multi-core Clusters with Heterogeneous Network. ICA3PP Workshops 2016: 30-42 - [c8]Lukasz Szustak, Kamil Halbiniak, Adam Kulawik, Roman Wyrzykowski, Piotr Uminski, Marcin Sasinowski:
Using hStreams Programming Library for Accelerating a Real-Life Application on Intel MIC. ICA3PP Workshops 2016: 373-382 - 2015
- [j4]Krzysztof Andrzej Rojek, Milosz Ciznicki, Bogdan Rosa, Piotr Kopta, Michal Kulczewski, Krzysztof Kurowski, Zbigniew Pawel Piotrowski, Lukasz Szustak, Damian Karol Wójcik, Roman Wyrzykowski:
Adaptation of fluid model EULAG to graphics processing unit architecture. Concurr. Comput. Pract. Exp. 27(4): 937-957 (2015) - [j3]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) - [c7]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 - [i1]Alexey L. Lastovetsky, Lukasz Szustak, Roman Wyrzykowski:
Model-based optimization of MPDATA on Intel Xeon Phi through load imbalancing. CoRR abs/1507.01265 (2015) - 2014
- [j2]Roman Wyrzykowski, Lukasz Szustak, Krzysztof Rojek:
Parallelization of 2D MPDATA EULAG algorithm on hybrid architectures with GPU accelerators. Parallel Comput. 40(8): 425-447 (2014) - 2013
- [c6]Roman Wyrzykowski, Lukasz Szustak, Krzysztof Rojek, Adam Tomas:
Towards Efficient Decomposition and Parallelization of MPDATA on Hybrid CPU-GPU Cluster. LSSC 2013: 457-464 - [c5]Krzysztof Rojek, Lukasz Szustak, Roman Wyrzykowski:
Performance Analysis for Stencil-Based 3D MPDATA Algorithm on GPU Architecture. PPAM (1) 2013: 145-154 - [c4]Lukasz Szustak, Krzysztof Rojek, Pawel Gepner:
Using Intel Xeon Phi Coprocessor to Accelerate Computations in MPDATA Algorithm. PPAM (1) 2013: 582-592 - 2012
- [j1]Roman Wyrzykowski, Krzysztof Rojek, Lukasz Szustak:
Model-driven adaptation of double-precision matrix multiplication to the Cell processor architecture. Parallel Comput. 38(4-5): 260-276 (2012) - 2011
- [c3]Roman Wyrzykowski, Krzysztof Rojek, Lukasz Szustak:
Using Blue Gene/P and GPUs to Accelerate Computations in the EULAG Model. LSSC 2011: 670-677 - [c2]Krzysztof Rojek, Lukasz Szustak:
Parallelization of EULAG Model on Multicore Architectures with GPU Accelerators. PPAM (2) 2011: 391-400
2000 – 2009
- 2009
- [c1]Krzysztof Rojek, Lukasz Szustak:
Adaptation of Double-Precision Matrix Multiplication to the Cell Broadband Engine Architecture. PPAM (1) 2009: 535-546
Coauthor Index
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