István Zoltán Reguly
István Zoltán Reguly
Associate Professor, Pázmány Péter Catholic University, Hungary
Bestätigte E-Mail-Adresse bei - Startseite
Zitiert von
Zitiert von
AmgX: A library for GPU accelerated algebraic multigrid and preconditioned iterative methods
M Naumov, M Arsaev, P Castonguay, J Cohen, J Demouth, J Eaton, ...
SIAM Journal on Scientific Computing 37 (5), S602-S626, 2015
Using GPUs to accelerate computational diffusion MRI: From microstructure estimation to tractography and connectomes
M Hernandez-Fernandez, I Reguly, S Jbabdi, M Giles, S Smith, ...
Neuroimage 188, 598-615, 2019
A comparison between parallelization approaches in molecular dynamics simulations on GPUs
L Rovigatti, P Šulc, IZ Reguly, F Romano
Journal of computational chemistry 36 (1), 1-8, 2015
Op2: An active library framework for solving unstructured mesh-based applications on multi-core and many-core architectures
GR Mudalige, MB Giles, I Reguly, C Bertolli, PHJ Kelly
2012 Innovative Parallel Computing (InPar), 1-12, 2012
Efficient sparse matrix-vector multiplication on cache-based GPUs
M Giles
2012 Innovative Parallel Computing (InPar), 1-12, 2012
The ops domain specific abstraction for multi-block structured grid computations
IZ Reguly, GR Mudalige, MB Giles, D Curran, S McIntosh-Smith
2014 Fourth International Workshop on Domain-Specific Languages and High …, 2014
Trends in high-performance computing for engineering calculations
MB Giles, I Reguly
Philosophical Transactions of the Royal Society A: Mathematical, Physical …, 2014
Acceleration of a full-scale industrial cfd application with op2
IZ Reguly, GR Mudalige, C Bertolli, MB Giles, A Betts, PHJ Kelly, ...
IEEE Transactions on Parallel and Distributed Systems 27 (5), 1265-1278, 2015
Loop tiling in large-scale stencil codes at run-time with OPS
IZ Reguly, GR Mudalige, MB Giles
IEEE Transactions on Parallel and Distributed Systems 29 (4), 873-886, 2017
Finite element algorithms and data structures on graphical processing units
IZ Reguly, MB Giles
International Journal of Parallel Programming 43, 203-239, 2015
Designing OP2 for GPU architectures
MB Giles, GR Mudalige, B Spencer, C Bertolli, I Reguly
Journal of Parallel and Distributed Computing 73 (11), 1451-1460, 2013
Productivity, performance, and portability for computational fluid dynamics applications
IZ Reguly, GR Mudalige
Computers & Fluids 199, 104425, 2020
Vectorizing unstructured mesh computations for many-core architectures
IZ Reguly, E László, GR Mudalige, MB Giles
Proceedings of Programming Models and Applications on Multicores and …, 2014
GPU implementation of finite difference solvers
M Giles, E László, I Reguly, J Appleyard, J Demouth
2014 Seventh Workshop on High Performance Computational Finance, 1-8, 2014
Design and initial performance of a high-level unstructured mesh framework on heterogeneous parallel systems
GR Mudalige, MB Giles, J Thiyagalingam, IZ Reguly, C Bertolli, PHJ Kelly, ...
Parallel Computing 39 (11), 669-692, 2013
Microsimulation based quantitative analysis of COVID-19 management strategies
IZ Reguly, D Csercsik, J Juhász, K Tornai, Z Bujtár, G Horváth, ...
PLoS computational biology 18 (1), e1009693, 2022
Large-scale performance of a DSL-based multi-block structured-mesh application for Direct Numerical Simulation
GR Mudalige, IZ Reguly, SP Jammy, CT Jacobs, MB Giles, ND Sandham
Journal of Parallel and Distributed Computing 131, 130-146, 2019
The VOLNA-OP2 tsunami code (version 1.5)
IZ Reguly, D Giles, D Gopinathan, L Quivy, JH Beck, MB Giles, S Guillas, ...
Geoscientific Model Development 11 (11), 4621-4635, 2018
Performance analysis of a high-level abstractions-based hydrocode on future computing systems
GR Mudalige, IZ Reguly, MB Giles, AC Mallinson, WP Gaudin, ...
High Performance Computing Systems. Performance Modeling, Benchmarking, and …, 2015
Op2-clang: A source-to-source translator using clang/llvm libtooling
GD Balogh, GR Mudalige, IZ Reguly, SF Antao, C Bertolli
2018 IEEE/ACM 5th Workshop on the LLVM Compiler Infrastructure in HPC (LLVM …, 2018
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20