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2020 – today
- 2024
[c51]Andrea Giordano, Alessio De Rango, Donato D'Ambrosio, Marisa Gil, Davide Macrì, Xavier Martorell, Rocco Rongo, Gladys Utrera, Giuseppe Mendicino, William Spataro:
Cellular Automata on a Multi-GPU Architecture: A Technical Overview. PDP 2024: 253-259- 2023
- [j26]Alessio De Rango, Andrea Giordano, Giuseppe Mendicino, Rocco Rongo, William Spataro:
Tailoring load balancing of cellular automata parallel execution to the case of a two-dimensional partitioned domain. J. Supercomput. 79(8): 9273-9287 (2023) - [c50]Andrea Giordano, Donato D'Ambrosio, Davide Macrì
, Rocco Rongo, Gladys Utrera, Marisa Gil, William Spataro:
OpenCAL++: An object-oriented architecture for transparent Parallel Execution of Cellular Automata models. PDP 2023: 244-251 - 2022
- [j25]Pawel Renc, Tomasz Pecak, Alessio De Rango, William Spataro, Giuseppe Mendicino, Jaroslaw Was:
Towards efficient GPGPU Cellular Automata model implementation using persistent active cells. J. Comput. Sci. 59: 101538 (2022) - [c49]Andrea Giordano, Francesca Amelia, Salvatore Gigliotti, Rocco Rongo, William Spataro:
Load Balancing of the Parallel Execution of Two Dimensional Partitioned Cellular Automata. PDP 2022: 205-210 - [c48]Francesco Dell'Accio, Filomena Di Tommaso, Andrea Giordano, Rocco Rongo, William Spataro:
A Parallel Implementation of the Triangular Shepard Interpolation Method. PDP 2022: 234-237 - 2021
- [j24]Alessio De Rango, Luca Furnari, Andrea Giordano, Alfonso Senatore, Donato D'Ambrosio, William Spataro, Salvatore Straface, Giuseppe Mendicino:
OpenCAL system extension and application to the three-dimensional Richards equation for unsaturated flow. Comput. Math. Appl. 81: 133-158 (2021) - [j23]Andrea Giordano, Alessio De Rango, Rocco Rongo, Donato D'Ambrosio, William Spataro:
Dynamic Load Balancing in Parallel Execution of Cellular Automata. IEEE Trans. Parallel Distributed Syst. 32(2): 470-484 (2021) - [c47]Andrea Giordano, Donato D'Ambrosio, Alessio De Rango, Luca Furnari, Rocco Rongo, Alfonso Senatore, Giuseppe Mendicino, William Spataro:
Effectiveness of Dynamic Load Balancing in Parallel Execution of a Subsurface Flow Cellular Automata Model. WIVACE 2021: 85-96 - 2020
- [c46]Andrea Giordano, Donato D'Ambrosio, Rocco Rongo, William Spataro, Alessio De Rango:
Optimizing Cellular Automata Execution by Distributed Discrete Event Simulation Techniques. PDP 2020: 323-330
2010 – 2019
- 2019
- [j22]Alessio De Rango, Davide Spataro, William Spataro, Donato D'Ambrosio:
A first multi-GPU/multi-node implementation of the open computing abstraction layer. J. Comput. Sci. 32: 115-124 (2019) - [j21]William Spataro, Giuseppe A. Trunfio, Georgios Ch. Sirakoulis:
Editorial on the Special Issue on Parallel Computing in Modelling and Simulation. J. Parallel Distributed Comput. 134: 233-235 (2019) - [c45]Donato D'Ambrosio, Paola Arcuri, Mario D'Onghia, Marco Oliverio, Rocco Rongo, William Spataro, Andrea Giordano, Davide Spataro, Alessio De Rango, Giuseppe Mendicino, Salvatore Straface, Alfonso Senatore:
A General Computational Formalism for Networks of Structured Grids. NUMTA(1) 2019: 243-255 - [c44]Andrea Giordano, Alessio De Rango, Rocco Rongo, Donato D'Ambrosio, William Spataro:
A Dynamic Load Balancing Technique for Parallel Execution of Structured Grid Models. NUMTA(1) 2019: 278-290 - [c43]Andrea Giordano, Alessio De Rango, Donato D'Ambrosio, Rocco Rongo, William Spataro:
Strategies for Parallel Execution of Cellular Automata in Distributed Memory Architectures. PDP 2019: 406-413 - [c42]Andrea Giordano, Donato D'Ambrosio, Alessio De Rango, Alessio Portaro, William Spataro, Rocco Rongo:
Exploiting Distributed Discrete-Event Simulation Techniques for Parallel Execution of Cellular Automata. WIVACE 2019: 66-77 - 2018
- [j20]Giuseppe A. Trunfio, William Spataro, Georgios Ch. Sirakoulis:
Special issue on high performance computing in modeling and simulation. Concurr. Comput. Pract. Exp. 30(7) (2018) - [j19]Donato D'Ambrosio, Alessio De Rango, Marco Oliverio, Davide Spataro, William Spataro, Rocco Rongo, Giuseppe Mendicino, Alfonso Senatore:
The Open Computing Abstraction Layer for Parallel Complex Systems Modeling on Many-Core Systems. J. Parallel Distributed Comput. 121: 53-70 (2018) - [c41]Alessio De Rango, Pietro Napoli, Donato D'Ambrosio, William Spataro, Alberto Di Renzo, Francesco Di Maio:
Structured Grid-Based Parallel Simulation of a Simple DEM Model on Heterogeneous Systems. PDP 2018: 588-595 - 2017
- [j18]William Spataro, Giuseppe A. Trunfio, Georgios Ch. Sirakoulis:
High performance computing in modelling and simulation. Int. J. High Perform. Comput. Appl. 31(2): 117-118 (2017) - [j17]Davide Spataro, Donato D'Ambrosio, Giuseppe Filippone, Rocco Rongo, William Spataro, Davide Marocco:
The new SCIARA-fv3 numerical model and acceleration by GPGPU strategies. Int. J. High Perform. Comput. Appl. 31(2): 163-176 (2017) - [c40]Luca Surace, Massimiliano Patacchiola, Elena Battini Sönmez, William Spataro, Angelo Cangelosi:
Emotion recognition in the wild using deep neural networks and Bayesian classifiers. ICMI 2017: 593-597 - [c39]Donato D'Ambrosio, Alessio De Rango, Davide Spataro, Rocco Rongo, William Spataro:
Applications of the OpenCAL scientific library in the context of CFD: Applications to debris flows. ICNSC 2017: 720-725 - [c38]Davide Spataro, Paola Arcuri, Alessio De Rango, William Spataro, Donato D'Ambrosio, Alice Mari:
A Tracking Algorithm for Particle-Like Moving Objects. PDP 2017: 491-496 - [c37]Andrea Giordano, Alessio De Rango, Davide Spataro, Donato D'Ambrosio, Carlo Mastroianni, Gianluigi Folino, William Spataro:
Parallel Execution of Cellular Automata through Space Partitioning: The Landslide Simulation Sciddicas3-Hex Case Study. PDP 2017: 505-510 - [i2]Luca Surace, Massimiliano Patacchiola, Elena Battini Sonmez, William Spataro, Angelo Cangelosi:
Emotion Recognition in the Wild using Deep Neural Networks and Bayesian Classifiers. CoRR abs/1709.03820 (2017) - 2016
- [j16]Giuseppe Filippone, Donato D'Ambrosio, Davide Marocco, William Spataro:
Morphological Coevolution for Fluid Dynamical-Related Risk Mitigation. ACM Trans. Model. Comput. Simul. 26(3): 18:1-18:26 (2016) - [c36]Rahmat Hidayat, Davide Spataro, Elisa De Giorgio, William Spataro, Donato D'Ambrosio:
Multi-agent System with Multiple Group Modelling for Bird Flocking on GPU. PDP 2016: 680-685 - 2015
- [c35]Maurizio Macri, Alessio De Rango, Davide Spataro, Donato D'Ambrosio, William Spataro:
Efficient Lava Flows Simulations with OpenCL: A Preliminary Application for Civil Defence Purposes. 3PGCIC 2015: 328-335 - [c34]Giuseppe Filippone, William Spataro, Donato D'Ambrosio, Davide Spataro, Davide Marocco, Giuseppe A. Trunfio:
CUDA Dynamic Active Thread List Strategy to Accelerate Debris Flow Simulations. PDP 2015: 316-320 - 2014
- [j15]Federica Lucà, Donato D'Ambrosio, Gaetano Robustelli, Rocco Rongo, William Spataro:
Integrating geomorphology, statistic and numerical simulations for landslide invasion hazard scenarios mapping: An example in the Sorrento Peninsula (Italy). Comput. Geosci. 67: 163-172 (2014) - [c33]Donato D'Ambrosio, William Spataro, Roberto Parise, Rocco Rongo, Giuseppe Filippone, Davide Spataro, Giulio Iovine, Davide Marocco:
Lava Flow Modeling by the Sciara-Fv3 Parallel Numerical Code. PDP 2014: 330-338 - [c32]Giuseppe Filippone, Roberto Parise, Davide Spataro, Donato D'Ambrosio, Rocco Rongo, William Spataro:
Evolutionary Applications to Cellular Automata Models for Volcano Risk Mitigation. WIVACE 2014: 99-112 - 2013
- [j14]Salvatore Di Gregorio, Giuseppe Filippone, William Spataro, Giuseppe A. Trunfio:
Accelerating wildfire susceptibility mapping through GPGPU. J. Parallel Distributed Comput. 73(8): 1183-1194 (2013) - [j13]Louis D'Alotto, James F. Nystrom, William Spataro:
Special section on Cellular Automata. J. Supercomput. 65(2): 612-613 (2013) - [j12]Donato D'Ambrosio, Giuseppe Filippone, Davide Marocco, Rocco Rongo, William Spataro:
Efficient application of GPGPU for lava flow hazard mapping. J. Supercomput. 65(2): 630-644 (2013) - [c31]Bachisio Arca, Tiziano Ghisu, William Spataro, Giuseppe A. Trunfio:
GPU-Accelerated Optimization of Fuel Treatments for Mitigating Wildfire Hazard. ICCS 2013: 966-975 - [c30]Giuseppe Filippone, William Spataro, Donato D'Ambrosio, Davide Marocco:
A New Methodology for Mitigation of Lava Flow Invasion Hazard - Morphological Evolution of Protective Works by Parallel Genetic Algorithms. IJCCI 2013: 13-24 - [i1]Vena Pearl Bongolan, Rocco Rongo, Valeria Lupiano, Donato D'Ambrosio, William Spataro, Giulio Iovine:
A Probabilistic Approach to Risk Mapping for Mt. Etna. CoRR abs/1310.3360 (2013) - 2012
- [j11]Donato D'Ambrosio, Giuseppe Filippone, Rocco Rongo, William Spataro, Giuseppe A. Trunfio:
Cellular Automata and GPGPU: An Application to Lava Flow Modeling. Int. J. Grid High Perform. Comput. 4(3): 30-47 (2012) - [c29]Maria Vittoria Avolio, Salvatore Di Gregorio, William Spataro, Giuseppe A. Trunfio:
A Theorem about the Algorithm of Minimization of Differences for Multicomponent Cellular Automata. ACRI 2012: 289-298 - [c28]Roberto Parise, Donato D'Ambrosio, Giuseppe Spingola, Giuseppe Filippone, Rocco Rongo, Giuseppe A. Trunfio, William Spataro:
Swii2, a HTML5/WebGL Application for Cellular Automata Debris Flows Simulation. ACRI 2012: 444-453 - [c27]Donato D'Ambrosio, Rocco Rongo, William Spataro, Giuseppe A. Trunfio:
Optimizing Cellular Automata through a Meta-model Assisted Memetic Algorithm. PPSN (2) 2012: 317-326 - [c26]Donato D'Ambrosio, Salvatore Di Gregorio, Giuseppe Filippone, Rocco Rongo, William Spataro, Giuseppe A. Trunfio:
A Multi-GPU Approach to Fast Wildfire Hazard Mapping. SIMULTECH (Selected Papers) 2012: 183-195 - [c25]Donato D'Ambrosio, Salvatore Di Gregorio, Giuseppe Filippone, Rocco Rongo, William Spataro, Giuseppe A. Trunfio:
Fast Assessment of Wildfire Spatial Hazard with GPGPU. SIMULTECH 2012: 260-269 - 2011
- [j10]Giuseppe A. Trunfio, Donato D'Ambrosio, Rocco Rongo, William Spataro, Salvatore Di Gregorio:
A New Algorithm for Simulating Wildfire Spread through Cellular Automata. ACM Trans. Model. Comput. Simul. 22(1): 6:1-6:26 (2011) - [c24]Donato D'Ambrosio, Rocco Rongo, William Spataro, Giuseppe A. Trunfio:
Meta-model Assisted Evolutionary Optimization of Cellular Automata: An Application to the SCIARA Model. PPAM (2) 2011: 533-542 - [c23]Rocco Rongo, Valeria Lupiano, Maria Vittoria Avolio, Donato D'Ambrosio, William Spataro, Giuseppe A. Trunfio:
Cellular Automata Simulation of Lava Flows - Applications to Civil Defense and Land Use Planning with a Cellular Automata based Methodology. SIMULTECH 2011: 37-44 - [c22]William Spataro, Rocco Rongo, Valeria Lupiano, Maria Vittoria Avolio, Donato D'Ambrosio, Giuseppe A. Trunfio:
High Detailed Lava Flows Hazard Maps by a Cellular Automata Approach. SIMULTECH (Selected Papers) 2011: 85-99 - [c21]Marco Oliverio, William Spataro, Donato D'Ambrosio, Rocco Rongo, Giuseppe Spingola, Giuseppe A. Trunfio:
OpenMP parallelization of the SCIARA Cellular Automata lava flow model: performance analysis on shared-memory computers. ICCS 2011: 271-280 - 2010
- [c20]Maria Vittoria Avolio, Salvatore Di Gregorio, Valeria Lupiano, Paolo Mazzanti, William Spataro:
Application Context of the SCIDDICA Model Family for Simulations of Flow-Like Landslides. CSC 2010: 40-46 - [c19]William Spataro, Donato D'Ambrosio, Giuseppe Filippone, Rocco Rongo, Giuseppe Spingola, Pietro Zaccaro, Giuseppe Zito:
A Multithread Scientific Library for Complex Systems. CSC 2010: 47-54 - [c18]William Spataro, Maria Vittoria Avolio, Valeria Lupiano, Giuseppe A. Trunfio, Rocco Rongo, Donato D'Ambrosio:
The latest release of the lava flows simulation model SCIARA: First application to Mt Etna (Italy) and solution of the anisotropic flow direction problem on an ideal surface. ICCS 2010: 17-26 - [e1]Hamid R. Arabnia, George A. Gravvanis, Louis D'Alotto, James F. Nystrom, Ashu M. G. Solo, William Spataro, Emre Tokgoz:
Proceedings of the 2010 International Conference on Scientific Computing, CSC 2010, July 12-15, 2010, Las Vegas, Nevada, USA. CSREA Press 2010, ISBN 1-60132-137-6 [contents]
2000 – 2009
- 2009
- [c17]Giuseppe Zito, Donato D'Ambrosio, William Spataro, Giuseppe Spingola, Rocco Rongo, Maria Vittoria Avolio:
A Dynamically Load Balanced Cellular Automata Library for Scientific Computing. CSC 2009: 322-328 - [c16]Georgios Ch. Sirakoulis, Ioannis Karafyllidis, William Spataro:
A Computational Intelligent Oxidation Process Model and Its VLSI Implementation. CSC 2009: 329-335 - [c15]Maria Vittoria Avolio, Donato D'Ambrosio, Valeria Lupiano, Rocco Rongo, William Spataro:
Evaluating Lava Flow Hazard at Mount Etna (Italy) by a Cellular Automata Based Methodology. PPAM (2) 2009: 495-504 - 2008
- [j9]Rocco Rongo, William Spataro, Donato D'Ambrosio, Maria Vittoria Avolio, Giuseppe A. Trunfio, Salvatore Di Gregorio:
Lava Flow Hazard Evaluation Through Cellular Automata and Genetic Algorithms: an Application to Mt Etna Volcano. Fundam. Informaticae 87(2): 247-267 (2008) - [c14]Maria Vittoria Avolio, Donato D'Ambrosio, Salvatore Di Gregorio, Valeria Lupiano, Rocco Rongo, William Spataro, Giuseppe A. Trunfio:
Evaluating Cellular Automata Models by Evolutionary Multiobjective Calibration. ACRI 2008: 114-119 - [c13]William Spataro, Donato D'Ambrosio, Maria Vittoria Avolio, Rocco Rongo, Salvatore Di Gregorio:
Complex Systems Modeling with Cellular Automata and Genetic Algorithms: An Application to Lava Flows. CSC 2008: 44-50 - [c12]Giuseppe Spingola, Donato D'Ambrosio, William Spataro, Rocco Rongo, Giuseppe Zito:
Modeling Complex Natural Phenomena with the libAuToti Cellular Automata Library: An example of Application to Lava Flows Simulation. PDPTA 2008: 277-283 - 2007
- [j8]Donato D'Ambrosio, Giulio Iovine, William Spataro, Hideaki Miyamoto:
A macroscopic collisional model for debris-flows simulation. Environ. Model. Softw. 22(10): 1417-1436 (2007) - [j7]Donato D'Ambrosio, William Spataro:
Parallel evolutionary modelling of geological processes. Parallel Comput. 33(3): 186-212 (2007) - [c11]Maria Vittoria Avolio, Donato D'Ambrosio, Salvatore Di Gregorio, Rocco Rongo, William Spataro, Giuseppe A. Trunfio:
Modelling Macroscopic Phenomena with Cellular Automata and Parallel Genetic Algorithms: An Application to Lava Flows. International Conference on Computational Science (1) 2007: 866-873 - 2006
- [j6]Donato D'Ambrosio, William Spataro, Giulio Iovine:
Parallel genetic algorithms for optimising cellular automata models of natural complex phenomena: An application to debris flows. Comput. Geosci. 32(7): 861-875 (2006) - [j5]Maria Vittoria Avolio, Gino Mirocle Crisci, Salvatore Di Gregorio, Rocco Rongo, William Spataro, Giuseppe A. Trunfio:
SCIARA γ2: An improved cellular automata model for lava flows and applications to the 2002 Etnean crisis. Comput. Geosci. 32(7): 876-889 (2006) - [j4]Maria Vittoria Avolio, Gino Mirocle Crisci, Salvatore Di Gregorio, Rocco Rongo, William Spataro, Donato D'Ambrosio:
Pyroclastic flows modelling using cellular automata. Comput. Geosci. 32(7): 897-911 (2006) - [c10]Donato D'Ambrosio, Rocco Rongo, William Spataro, Maria Vittoria Avolio, Valeria Lupiano:
Lava Invasion Susceptibility Hazard Mapping Through Cellular Automata. ACRI 2006: 452-461 - 2005
- [j3]Gino Mirocle Crisci, Salvatore Di Gregorio, Rocco Rongo, William Spataro:
PYR: a Cellular Automata model for pyroclastic flows and application to the 1991 Mt. Pinatubo eruption. Future Gener. Comput. Syst. 21(7): 1019-1032 (2005) - 2004
- [c9]William Spataro, Donato D'Ambrosio, Rocco Rongo, Giuseppe A. Trunfio:
An Evolutionary Approach for Modelling Lava Flows Through Cellular Automata. ACRI 2004: 725-734 - 2003
- [c8]Gino Mirocle Crisci, Salvatore Di Gregorio, Rocco Rongo, William Spataro:
A Cellular Automata Model for Simulating Pyroclastic Flows and First Application to 1991 Pinatubo Eruption. International Conference on Computational Science 2003: 333-342 - 2002
- [c7]Donato D'Ambrosio, Salvatore Di Gregorio, Giulio Iovine, Valeria Lupiano, Rocco Rongo, William Spataro:
Modelling Surface Flows for Macroscopic Phenomena by Cellular Automata: An Application to Debris Flows. ACRI 2002: 304-314 - 2000
- [c6]Marco Villani, Mariangela Mazzanti, Marco Padovani, Massimo Andretta, Roberto Serra, Salvatore Di Gregorio, Rocco Rongo, William Spataro:
A New Dynamical Model of Biodegradation. ACRI 2000: 161-169
1990 – 1999
- 1999
- [c5]Massimo Andretta, Mariangela Mazzanti, Roberto Serra, Marco Villani, Salvatore Di Gregorio, Rocco Rongo, William Spataro:
Cellular automata model for parallel simulation of contamination processes by oil in porous soils. PARCO 1999: 56-62 - 1997
- [j2]Salvatore Di Gregorio, Rocco Rongo, William Spataro, Giandomenico Spezzano, Domenico Talia:
High performance scientific computing by a parallel cellular environment. Future Gener. Comput. Syst. 12(5): 357-369 (1997) - 1996
- [c4]Salvatore Di Gregorio, Rocco Rongo, Roberto Serra, William Spataro, Marco Villani:
Simulation of Water Flow through a Porous Soil by Cellular Automaton Model. ACRI 1996: 79-88 - [c3]Salvatore Di Gregorio, Rocco Rongo, William Spataro, Giandomenico Spezzano, Domenico Talia:
A Parallel Cellular Environment for High Performance Scientific Computing. HPCN Europe 1996: 514-521 - [c2]Salvatore Di Gregorio, Rocco Rongo, Roberto Serra, William Spataro, Giandomenico Spezzano, Domenico Talia, Marco Villani:
Parallel Simulation of Soil Contamination by Cellular Automata. Parcella 1996: 295-297 - 1995
- [j1]Mario Cannataro, Salvatore Di Gregorio, Rocco Rongo, William Spataro, Giandomenico Spezzano, Domenico Talia:
A Parallel Cellular Automata Environment on Multicomputers for Computational Science. Parallel Comput. 21(5): 803-823 (1995) - [c1]Salvatore Di Gregorio, D. C. Festa, Rocco Rongo, William Spataro, Giandomenico Spezzano, Domenico Talia:
A Microscopic Freeway Traffic Simulator on a Highly Parallel System. PARCO 1995: 69-76
Coauthor Index
[c51] [c50] [j24] [j23] [c47] [c46] [j22] [c45] [c44] [c43] [c42] [j19] [c41] [j17] [c39] [c38] [c37] [j16] [c36] [c35] [c34] [j15] [c33] [c32] [j12] [c30] [i1] [j11] [c28] [c27] [c26] [c25] [j10] [c24] [c23] [c22] [c21] [c19] [c18] [c17] [c15] [j9] [c14] [c13] [c12] [j8] [j7] [c11] [j6] [j4] [c10] [c9] [c7]
[c51] [j26] [c50] [c49] [c48] [j23] [c47] [c46] [c45] [c44] [c43] [c42] [j19] [j17] [c39] [j15] [c33] [c32] [j12] [i1] [j11] [c28] [c27] [c26] [c25] [j10] [c24] [c23] [c22] [c21] [c19] [c18] [c17] [c15] [j9] [c14] [c13] [c12] [c11] [j5] [j4] [c10] [j3] [c9] [c8] [c7] [c6] [c5] [j2] [c4] [c3] [c2] [j1] [c1]
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