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ORCIDThomas Fahringer
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- affiliation: University of Innsbruck, Austria
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2020 – today
- 2024
[j75]Fabian Knorr, Philip Salzmann, Peter Thoman, Thomas Fahringer:
Automatic Discovery of Collective Communication Patterns in Parallelized Task Graphs. Int. J. Parallel Program. 52(3): 171-186 (2024)- [c211]Stefan Pedratscher, Thomas Fahringer, Juan Aznar-Poveda:
Dynamic Workflow Scheduling in the Edge-Cloud Continuum: Optimizing Runtimes Under Budget Constraints. CLOUD 2024: 69-80 - [c210]Gianluca Palermo
, Gianmarco Accordi, Davide Gadioli, Yuedong Zhang, Emanuele Vitali, Bruno Guindani, Danilo Ardagna, Cristina Silvano, Andrea Rosario Beccari, Domenico Bonanni, Carmine Talarico, Filippo Lunghini, Akash Deep Biswas, Jan Martinovic, Martin Golasowski, Paulo Silva, Ada Böhm, Jakub Beránek, Jan Krenek, Branislav Jansik, Peter Thoman, Philip Salzmann, Thomas Fahringer, Torsten Schwede, Leila Tamara Alexander, Gerardo Tauriello, Janani Durairaj, Biagio Cosenza, Luigi Crisci, Andrew Emerson, Federico Ficarelli, Eric Lindahl, Sebastian Wingbermühle, Daniele Gregori, Silvano Coletti, Emanuele Sana, Philipp Gschwandtner:
LIGATE - LIgand Generator and portable drug discovery platform AT Exascale. CF (Companion) 2024 - [c209]Stefan Pedratscher, Sashko Ristov, Thomas Fahringer:
M2FaaS: Transparent and fault tolerant FaaSification of Node.js monolith code blocks. Software Engineering 2024: 129-130 - [c208]Laura Acosta-Garcia, Juan Aznar-Poveda, Antonio-Javier García-Sánchez, Joan García-Haro, Thomas Fahringer:
Proactive Adaptation of Data Rate in Mobile LoRa-Based IoT Devices Using Machine Learning. VTC Spring 2024: 1-5 - 2023
- [j74]Fabian Knorr, Peter Thoman, Thomas Fahringer:
Declarative Data Flow in a Graph-Based Distributed Memory Runtime System. Int. J. Parallel Program. 51(2-3): 150-171 (2023) - [j73]Laura Acosta-Garcia, Juan Aznar-Poveda, Antonio-Javier García-Sánchez, Joan García-Haro, Thomas Fahringer:
Dynamic transmission policy for enhancing LoRa network performance: A deep reinforcement learning approach. Internet Things 24: 100974 (2023) - [j72]Sasko Ristov, Stefan Pedratscher, Thomas Fahringer:
$xAFCL$xAFCL: Run Scalable Function Choreographies Across Multiple FaaS Systems. IEEE Trans. Serv. Comput. 16(1): 711-723 (2023) - [c207]Philip Salzmann, Fabian Knorr, Peter Thoman, Philipp Gschwandtner, Biagio Cosenza, Thomas Fahringer:
An Asynchronous Dataflow-Driven Execution Model For Distributed Accelerator Computing. CCGrid 2023: 82-93 - [c206]Gianluca Palermo, Gianmarco Accordi, Davide Gadioli, Emanuele Vitali, Cristina Silvano, Bruno Guindani, Danilo Ardagna, Andrea Rosario Beccari, Domenico Bonanni, Carmine Talarico, Filippo Lunghini, Jan Martinovic, Paulo Silva, Ada Bohm, Jakub Beránek, Jan Krenek, Branislav Jansik, Biagio Cosenza, Luigi Crisci, Peter Thoman, Philip Salzmann, Thomas Fahringer, Leila T. Alexander, Gerardo Tauriello, Torsten Schwede, Janani Durairaj, Andrew Emerson, Federico Ficarelli, Sebastian Wingbermühle, Eric Lindahl, Daniele Gregori, Emanuele Sana, Silvano Coletti, Philipp Gschwandtner:
Tunable and Portable Extreme-Scale Drug Discovery Platform at Exascale: the LIGATE Approach. CF 2023: 272-278 - [c205]Juan Aznar-Poveda, Tobias Pockstaller, Thomas Fahringer, Stefan Pedratscher, Zahra Najafabadi Samani:
SDKV: A Smart and Distributed Key-Value Store for the Edge-Cloud Continuum. UCC 2023: 2 - [i7]Rafael Ferreira da Silva, Rosa M. Badia, Venkat Bala, Debbie Bard, Peer-Timo Bremer, Ian Buckley, Silvina Caíno-Lores, Kyle Chard, Carole A. Goble, Shantenu Jha, Daniel S. Katz, Daniel E. Laney, Manish Parashar, Frédéric Suter, Nick Tyler, Thomas D. Uram, Ilkay Altintas, Stefan Andersson, William Arndt, Juan Aznar, Jonathan Bader, Bartosz Balis, Chris Blanton, Kelly Rosa Braghetto, Aharon Brodutch, Paul Brunk, Henri Casanova, Alba Cervera-Lierta, Justin Chigu, Tainã Coleman, Nick Collier, Iacopo Colonnelli, Frederik Coppens, Michael R. Crusoe, Will Cunningham, Bruno de Paula Kinoshita, Paolo Di Tommaso, Charles M. Doutriaux, Matthew Downton, Wael R. Elwasif, Bjoern Enders, Chris Erdmann, Thomas Fahringer, Ludmilla Figueiredo, Rosa Filgueira, Martin Foltin, Anne Fouilloux, Luiz Gadelha, Andy Gallo, Artur García-Sáez, et al.:
Workflows Community Summit 2022: A Roadmap Revolution. CoRR abs/2304.00019 (2023) - [i6]Gianluca Palermo, Gianmarco Accordi, Davide Gadioli, Emanuele Vitali, Cristina Silvano, Bruno Guindani, Danilo Ardagna, Andrea Rosario Beccari, Domenico Bonanni, Carmine Talarico, Filippo Lunghini, Jan Martinovic, Paulo Silva, Ada Bohm, Jakub Beránek, Jan Krenek, Branislav Jansik, Luigi Crisci, Biagio Cosenza, Peter Thoman, Philip Salzmann, Thomas Fahringer, Leila T. Alexander, Gerardo Tauriello, Torsten Schwede, Janani Durairaj, Andrew Emerson, Federico Ficarelli, Sebastian Wingbermühle, Eric Lindahl, Daniele Gregori, Emanuele Sana, Silvano Coletti, Philipp Gschwandtner:
Tunable and Portable Extreme-Scale Drug Discovery Platform at Exascale: the LIGATE Approach. CoRR abs/2304.09953 (2023) - 2022
- [j71]Peter Thoman, Markus Wippler, Robert Hranitzky, Philipp Gschwandtner, Thomas Fahringer:
Multi-GPU room response simulation with hardware raytracing. Concurr. Comput. Pract. Exp. 34(4) (2022) - [j70]Stefan Pedratscher, Sasko Ristov, Thomas Fahringer:
M2FaaS: Transparent and fault tolerant FaaSification of Node.js monolith code blocks. Future Gener. Comput. Syst. 135: 57-71 (2022) - [j69]Peter Thoman, Florian Tischler, Philip Salzmann, Thomas Fahringer:
The Celerity High-level API: C++20 for Accelerator Clusters. Int. J. Parallel Program. 50(3-4): 341-359 (2022) - [j68]Thanh-Phuong Pham, Thomas Fahringer:
Evolutionary Multi-Objective Workflow Scheduling for Volatile Resources in the Cloud. IEEE Trans. Cloud Comput. 10(3): 1780-1791 (2022) - [j67]Sasko Ristov, Dragi Kimovski, Thomas Fahringer:
FaaScinating Resilience for Serverless Function Choreographies in Federated Clouds. IEEE Trans. Netw. Serv. Manag. 19(3): 2440-2452 (2022) - [c204]Peter Thoman, Facundo Molina Heredia, Thomas Fahringer:
On the Compilation Performance of Current SYCL Implementations. IWOCL 2022: 6:1-6:12 - [c203]Sasko Ristov, Stefan Pedratscher, Thomas Fahringer:
xAFCL: Run Scalable Function Choreographies Across Multiple FaaS Systems. SERVICES 2022: 32 - [d3]Sasko Ristov, Stefan Pedratscher, Thomas Fahringer:
Concurrent execution of Monte Carlo serverless functions across AWS, Google, IBM, and Alibaba. IEEE DataPort, 2022
- 2021
- [j66]Sasko Ristov, Stefan Pedratscher, Thomas Fahringer:
AFCL: An Abstract Function Choreography Language for serverless workflow specification. Future Gener. Comput. Syst. 114: 368-382 (2021) - [j65]Sasko Ristov, Thomas Fahringer, Radu Prodan, Magdalena Kostoska, Marjan Gusev, Schahram Dustdar, Ewa Deelman:
Interhost Orchestration Platform Architecture for Ultrascale Cloud Applications. IEEE Internet Comput. 25(3): 23-30 (2021) - [j64]Philipp Gschwandtner, Alexander Hirsch, Peter Thoman, Peter Zangerl, Herbert Jordan, Thomas Fahringer:
The cluster coffer: Teaching HPC on the road. J. Parallel Distributed Comput. 155: 50-62 (2021) - [j63]Sasko Ristov, Stefan Pedratscher, Jakob Wallnoefer, Thomas Fahringer:
DAF: Dependency-Aware FaaSifier for Node.js Monolithic Applications. IEEE Softw. 38(1): 48-53 (2021) - [c202]Fabian Knorr, Peter Thoman, Thomas Fahringer:
ndzip: A High-Throughput Parallel Lossless Compressor for Scientific Data. DCC 2021: 103-112 - [c201]Philipp Gschwandtner, Ralf Kissmann, David Huber, Philip Salzmann, Fabian Knorr, Peter Thoman, Thomas Fahringer:
Porting Real-World Applications to GPU Clusters: A Celerity and Cronos Case Study. e-Science 2021: 90-98 - [c200]Fedor Smirnov, Behnaz Pourmohseni, Thomas Fahringer:
Apollo: Modular and Distributed Runtime System for Serverless Function Compositions on Cloud, Edge, and IoT Resources. HiPS@HPDC 2021: 5-8 - [c199]Peter Thoman, Daniel Gogl, Thomas Fahringer:
Sylkan: Towards a Vulkan Compute Target Platform for SYCL. IWOCL 2021: 3:1-3:12 - [c198]Fabian Knorr, Peter Thoman, Thomas Fahringer:
ndzip-gpu: efficient lossless compression of scientific floating-point data on GPUs. SC 2021: 93 - [c197]Fedor Smirnov, Chris Engelhardt, Jakob Mittelberger, Behnaz Pourmohseni, Thomas Fahringer:
Apollo: towards an efficient distributed orchestration of serverless function compositions in the cloud-edge continuum. UCC 2021: 10:1-10:10 - [c196]Rafael Ferreira da Silva, Henri Casanova, Kyle Chard, Ilkay Altintas, Rosa M. Badia, Bartosz Balis, Tainã Coleman, Frederik Coppens, Frank Di Natale, Bjoern Enders, Thomas Fahringer, Rosa Filgueira, Grigori Fursin, Daniel Garijo, Carole A. Goble, Dorran Howell, Shantenu Jha, Daniel S. Katz, Daniel E. Laney, Ulf Leser, Maciej Malawski, Kshitij Mehta, Loïc Pottier, Jonathan Ozik, J. Luc Peterson, Lavanya Ramakrishnan, Stian Soiland-Reyes, Douglas Thain, Matthew Wolf:
A Community Roadmap for Scientific Workflows Research and Development. WORKS 2021: 81-90 - [i5]Rafael Ferreira da Silva, Henri Casanova, Kyle Chard, Dan Laney, Dong H. Ahn, Shantenu Jha, Carole A. Goble, Lavanya Ramakrishnan, J. Luc Peterson, Bjoern Enders, Douglas Thain, Ilkay Altintas, Yadu N. Babuji, Rosa M. Badia, Vivien Bonazzi, Tainã Coleman, Michael R. Crusoe, Ewa Deelman, Frank Di Natale, Paolo Di Tommaso, Thomas Fahringer, Rosa Filgueira, Grigori Fursin, Alex Ganose, Björn A. Grüning, Daniel S. Katz, Olga A. Kuchar, Ana Kupresanin, Bertram Ludäscher, Ketan Maheshwari, Marta Mattoso, Kshitij Mehta, Todd S. Munson, Jonathan Ozik, Tom Peterka, Loic Pottier, Tim Randles, Stian Soiland-Reyes, Benjamín Tovar, Matteo Turilli, Thomas D. Uram, Karan Vahi, Michael Wilde, Matthew Wolf, Justin M. Wozniak:
Workflows Community Summit: Bringing the Scientific Workflows Community Together. CoRR abs/2103.09181 (2021) - [i4]Rafael Ferreira da Silva, Henri Casanova, Kyle Chard, Tainã Coleman, Dan Laney, Dong H. Ahn, Shantenu Jha, Dorran Howell, Stian Soiland-Reyes, Ilkay Altintas, Douglas Thain, Rosa Filgueira, Yadu N. Babuji, Rosa M. Badia, Bartosz Balis, Silvina Caíno-Lores, Scott Callaghan, Frederik Coppens, Michael R. Crusoe, Kaushik De, Frank Di Natale, Tu Mai Anh Do, Bjoern Enders, Thomas Fahringer, Anne Fouilloux, Grigori Fursin, Alban Gaignard, Alex Ganose, Daniel Garijo, Sandra Gesing, Carole A. Goble, Adil Hasan, Sebastiaan Huber, Daniel S. Katz, Ulf Leser, Douglas Lowe, Bertram Ludäscher, Ketan Maheshwari, Maciej Malawski, Rajiv Mayani, Kshitij Mehta, André Merzky, Todd S. Munson, Jonathan Ozik, Loïc Pottier, Sashko Ristov, Mehdi Roozmeh, Renan Souza, Frédéric Suter, Benjamín Tovar, Matteo Turilli, Karan Vahi, Alvaro Vidal-Torreira, Wendy R. Whitcup, Michael Wilde, Alan R. Williams, Matthew Wolf, Justin M. Wozniak:
Workflows Community Summit: Advancing the State-of-the-art of Scientific Workflows Management Systems Research and Development. CoRR abs/2106.05177 (2021) - [i3]Rafael Ferreira da Silva, Henri Casanova, Kyle Chard, Ilkay Altintas, Rosa M. Badia, Bartosz Balis, Tainã Coleman, Frederik Coppens, Frank Di Natale, Bjoern Enders, Thomas Fahringer, Rosa Filgueira, Grigori Fursin, Daniel Garijo, Carole A. Goble, Dorran Howell, Shantenu Jha, Daniel S. Katz, Daniel E. Laney, Ulf Leser, Maciej Malawski, Kshitij Mehta, Loïc Pottier, Jonathan Ozik, J. Luc Peterson, Lavanya Ramakrishnan, Stian Soiland-Reyes, Douglas Thain, Matthew Wolf:
A Community Roadmap for Scientific Workflows Research and Development. CoRR abs/2110.02168 (2021) - 2020
- [j62]Philipp Gschwandtner, Herbert Jordan, Peter Thoman, Thomas Fahringer:
AllScale API. Comput. Informatics 39(4): 808-837 (2020) - [j61]Fearghal O'Donncha, Roman Iakymchuk, Albert Akhriev, Philipp Gschwandtner, Peter Thoman, Thomas Heller, Xavier Aguilar, Kiril Dichev, Charles Gillan, Stefano Markidis, Erwin Laure, Emanuele Ragnoli, Vassilis Vassiliadis, Michael A. Johnston, Herbert Jordan, Thomas Fahringer:
AllScale toolchain pilot applications: PDE based solvers using a parallel development environment. Comput. Phys. Commun. 251: 107089 (2020) - [j60]Herbert Jordan, Philipp Gschwandtner, Peter Thoman, Peter Zangerl, Alexander Hirsch, Thomas Fahringer, Thomas Heller, Dietmar Fey:
The allscale framework architecture. Parallel Comput. 99: 102648 (2020) - [j59]Thanh-Phuong Pham, Juan José Durillo, Thomas Fahringer:
Predicting Workflow Task Execution Time in the Cloud Using A Two-Stage Machine Learning Approach. IEEE Trans. Cloud Comput. 8(1): 256-268 (2020) - [j58]Hamid Reza Faragardi, Mohammad Reza Saleh Sedghpour, Saber Fazliahmadi, Thomas Fahringer, Nayereh Rasouli:
GRP-HEFT: A Budget-Constrained Resource Provisioning Scheme for Workflow Scheduling in IaaS Clouds. IEEE Trans. Parallel Distributed Syst. 31(6): 1239-1254 (2020) - [j57]Roland Mathá, Sasko Ristov, Thomas Fahringer, Radu Prodan:
Simplified Workflow Simulation on Clouds based on Computation and Communication Noisiness. IEEE Trans. Parallel Distributed Syst. 31(7): 1559-1574 (2020) - [c195]Sohan Lal, Aksel Alpay, Philip Salzmann, Biagio Cosenza, Alexander Hirsch, Nicolai Stawinoga, Peter Thoman, Thomas Fahringer, Vincent Heuveline:
SYCL-Bench: A Versatile Cross-Platform Benchmark Suite for Heterogeneous Computing. Euro-Par 2020: 629-644 - [c194]Sohan Lal, Aksel Alpay, Philip Salzmann, Biagio Cosenza, Nicolai Stawinoga, Peter Thoman, Thomas Fahringer, Vincent Heuveline:
SYCL-Bench: A Versatile Single-Source Benchmark Suite for Heterogeneous Computing. IWOCL 2020: 10:1 - [c193]Peter Thoman, Markus Wippler, Robert Hranitzky, Thomas Fahringer:
RTX-RSim: Accelerated Vulkan Room Response Simulation for Time-of-Flight Imaging. IWOCL 2020: 17:1-17:11 - [p5]Gianluca Rizzo, Sasko Ristov, Thomas Fahringer, Marjan Gusev, Matija Dzanko, Ivana Bilic, Christian Esposito, Torsten Braun:
Emergency Networks for Post-Disaster Scenarios. Guide to Disaster-Resilient Communication Networks 2020: 271-298 - [p4]Sasko Ristov, Thomas Fahringer, David Peer, Thanh-Phuong Pham, Marjan Gusev, Carmen Mas Machuca:
Resilient Techniques Against Disruptions of Volatile Cloud Resources. Guide to Disaster-Resilient Communication Networks 2020: 379-400 - [d2]Sasko Ristov, Stefan Pedratscher, Thomas Fahringer:
Portable execution of serverless functions on AWS Lambda and IBM Cloud Functions. IEEE DataPort, 2020 - [i2]Fabian Knorr, Peter Thoman, Thomas Fahringer:
Datasets for Benchmarking Floating-Point Compressors. CoRR abs/2011.02849 (2020)
2010 – 2019
- 2019
- [j56]Marjan Gusev, Bojana Koteska, Magdalena Kostoska, Boro Jakimovski, Schahram Dustdar, Ognjen Scekic, Thomas Rausch, Stefan Nastic, Sasko Ristov, Thomas Fahringer:
A Deviceless Edge Computing Approach for Streaming IoT Applications. IEEE Internet Comput. 23(1): 37-45 (2019) - [j55]Saeid Dehnavi, Hamid Reza Faragardi, Mehdi Kargahi, Thomas Fahringer:
A reliability-aware resource provisioning scheme for real-time industrial applications in a Fog-integrated smart factory. Microprocess. Microsystems 70: 1-14 (2019) - [j54]Juan José Durillo, Philipp Gschwandtner, Klaus Kofler, Thomas Fahringer:
Multi-Objective region-Aware optimization of parallel programs. Parallel Comput. 83: 3-21 (2019) - [j53]Peter Thoman, Peter Zangerl, Thomas Fahringer:
Static Compiler Analyses for Application-specific Optimization of Task-Parallel Runtime Systems. J. Signal Process. Syst. 91(3-4): 303-320 (2019) - [c192]Philipp Gschwandtner, Herbert Jordan, Peter Thoman, Thomas Fahringer:
The AllScale API. eScience 2019: 488-497 - [c191]Peter Thoman, Philip Salzmann, Biagio Cosenza, Thomas Fahringer:
Celerity: High-Level C++ for Accelerator Clusters. Euro-Par 2019: 291-303 - [c190]Xavier Aguilar, Herbert Jordan, Thomas Heller, Alexander Hirsch, Thomas Fahringer, Erwin Laure:
An On-Line Performance Introspection Framework for Task-Based Runtime Systems. ICCS (1) 2019: 238-252 - [c189]Peter Zangerl, Peter Thoman, Thomas Fahringer:
Compiler Generated Progress Estimation for OpenMP Programs. PaCT 2019: 107-121 - 2018
- [j52]Hamid Reza Faragardi, Saeid Dehnavi, Thomas Nolte, Mehdi Kargahi, Thomas Fahringer:
An energy-aware resource provisioning scheme for real-time applications in a cloud data center. Softw. Pract. Exp. 48(10): 1734-1757 (2018) - [j51]Hamid Reza Faragardi, Maryam Vahabi, Hossein Fotouhi, Thomas Nolte, Thomas Fahringer:
An efficient placement of sinks and SDN controller nodes for optimizing the design cost of industrial IoT systems. Softw. Pract. Exp. 48(10): 1893-1919 (2018) - [j50]Peter Thoman, Kiril Dichev, Thomas Heller, Roman Iakymchuk, Xavier Aguilar, Khalid Hasanov, Philipp Gschwandtner, Pierre Lemarinier, Stefano Markidis, Herbert Jordan, Thomas Fahringer, Kostas Katrinis, Erwin Laure, Dimitrios S. Nikolopoulos:
A taxonomy of task-based parallel programming technologies for high-performance computing. J. Supercomput. 74(4): 1422-1434 (2018) - [c188]Thanh-Phuong Pham, Sasko Ristov, Thomas Fahringer:
Performance and Behavior Characterization of Amazon EC2 Spot Instances. IEEE CLOUD 2018: 73-81 - [c187]Herbert Jordan, Thomas Heller, Philipp Gschwandtner, Peter Zangerl, Peter Thoman, Dietmar Fey, Thomas Fahringer:
The AllScale Runtime Application Model. CLUSTER 2018: 445-455 - [c186]Shajulin Benedict, Philipp Gschwandtner, Thomas Fahringer:
TOEP: Threshold Oriented Energy Prediction Mechanism for MPI-OpenMP Hybrid Applications. IC3 2018: 1-6 - [c185]Peter Zangerl, Herbert Jordan, Peter Thoman, Philipp Gschwandtner, Thomas Fahringer:
Exploring the semantic gap in compiling embedded DSLs. SAMOS 2018: 195-201 - [d1]Herbert Jordan, Thomas Heller, Philipp Gschwandtner, Peter Zangerl, Peter Thoman, Dietmar Fey, Thomas Fahringer:
Dataset for "The AllScale Runtime Application Model" publication. Zenodo, 2018 - 2017
- [j49]Giorgis Georgakoudis, Hans Vandierendonck, Peter Thoman, Bronis R. de Supinski, Thomas Fahringer, Dimitrios S. Nikolopoulos:
SCALO: Scalability-Aware Parallelism Orchestration for Multi-Threaded Workloads. ACM Trans. Archit. Code Optim. 14(4): 54:1-54:25 (2017) - [c184]Peter Thoman, Peter Zangerl, Thomas Fahringer:
Task-parallel Runtime System Optimization Using Static Compiler Analysis. Conf. Computing Frontiers 2017: 201-210 - [c183]Klaus Kofler, Juan José Durillo, Philipp Gschwandtner, Thomas Fahringer:
A Region-Aware Multi-Objective Auto-Tuner for Parallel Programs. ICPP Workshops 2017: 190-199 - [c182]Peter Zangerl, Peter Thoman, Thomas Fahringer:
Characterizing Performance and Cache Impacts of Code Multi-versioning on Multicore Architectures. PDP 2017: 209-213 - [c181]Radu Prodan, Thomas Fahringer, Dragi Kimovski, Gabor Kecskemeti, Attila Csaba Marosi, Vlado Stankovski, Jonathan Becedas, Jose Julio Ramos, Craig Sheridan, Darren Whigham, Carlos Rodrigo Rubia Marcos:
Use Cases towards a Decentralized Repository for Transparent and Efficient Virtual Machine Operations. PDP 2017: 478-485 - [c180]Peter Thoman, Khalid Hasanov, Kiril Dichev, Roman Iakymchuk, Xavier Aguilar, Philipp Gschwandtner, Pierre Lemarinier, Stefano Markidis, Herbert Jordan, Erwin Laure, Kostas Katrinis, Dimitrios S. Nikolopoulos, Thomas Fahringer:
A Taxonomy of Task-Based Technologies for High-Performance Computing. PPAM (2) 2017: 264-274 - 2016
- [j48]Weiwei Chen, Rafael Ferreira da Silva, Ewa Deelman, Thomas Fahringer:
Dynamic and Fault-Tolerant Clustering for Scientific Workflows. IEEE Trans. Cloud Comput. 4(1): 49-62 (2016) - [c179]Dragi Kimovski, Nishant Saurabh, Sandi Gec, Polona Stefanic, Gabor Kecskemeti, Vlado Stankovski, Radu Prodan, Thomas Fahringer:
Towards an Environment for Efficient and Transparent Virtual Machine Operations: The ENTICE Approach. CloudNet 2016: 242-247 - [c178]Herbert Jordan, Peter Thoman, Peter Zangerl, Thomas Heller, Thomas Fahringer:
A Context-Aware Primitive for Nested Recursive Parallelism. Euro-Par Workshops 2016: 149-161 - [c177]Arne Hendricks, Thomas Heller, Herbert Jordan, Peter Thoman, Thomas Fahringer, Dietmar Fey:
The AllScale Runtime Interface - Theoretical Foundation and Concept. MTAGS@SC 2016: 13-19 - 2015
- [j47]Lars Hunger, Biagio Cosenza, Stefan Kimeswenger, Thomas Fahringer:
Spectral turning bands for efficient Gaussian random fields generation on GPUs and accelerators. Concurr. Comput. Pract. Exp. 27(16): 4122-4136 (2015) - [j46]Philipp Gschwandtner, Charalampos Chalios, Dimitrios S. Nikolopoulos, Hans Vandierendonck, Thomas Fahringer:
On the potential of significance-driven execution for energy-aware HPC. Comput. Sci. Res. Dev. 30(2): 197-206 (2015) - [j45]Dana Petcu, Gabriel Iuhasz, Daniel Pop, Domenico Talia, Jesús Carretero, Radu Prodan, Thomas Fahringer, Ivan Grasso, Ramón Doallo, María J. Martín, Basilio B. Fraguela, Roman Trobec, Matjaz Depolli, Francisco Almeida Rodriguez, Francisco de Sande, Georges Da Costa, Jean-Marc Pierson, Stergios V. Anastasiadis, Aristides Bartzokas, Christos Lolis, Pedro Gonçalves, Fabrice Brito, Nick Brown:
On Processing Extreme Data. Scalable Comput. Pract. Exp. 16(4): 467-490 (2015) - [j44]Georges Da Costa, Thomas Fahringer, Juan-Antonio Rico-Gallego, Ivan Grasso, Atanas Hristov, Helen D. Karatza, Alexey L. Lastovetsky, Fabrizio Marozzo, Dana Petcu, Georgios L. Stavrinides, Domenico Talia, Paolo Trunfio, Hrachya V. Astsatryan:
Exascale Machines Require New Programming Paradigms and Runtimes. Supercomput. Front. Innov. 2(2): 6-27 (2015) - [j43]Jesús Carretero, Javier García-Blas, David E. Singh, Florin Isaila, Alexey L. Lastovetsky, Thomas Fahringer, Radu Prodan, Peter Zangerl, Christi Symeonidou, Afshin Fassihi, Horacio Pérez Sánchez:
Acceleration of MPI mechanisms for sustainable HPC applications. Supercomput. Front. Innov. 2(2): 28-45 (2015) - [c176]Peter Thoman, Stefan Moosbrugger, Thomas Fahringer:
Optimizing Task Parallelism with Library-Semantics-Aware Compilation. Euro-Par 2015: 237-249 - [c175]Klaus Kofler, Biagio Cosenza, Thomas Fahringer:
Automatic Data Layout Optimizations for GPUs. Euro-Par 2015: 263-274 - [c174]Ivan Grasso, Marcel Ritter, Biagio Cosenza, Werner Benger, Günter Hofstetter, Thomas Fahringer:
Point Distribution Tensor Computation on Heterogeneous Systems. ICCS 2015: 160-169 - [c173]Shajulin Benedict, R. S. Rejitha, Philipp Gschwandtner, Radu Prodan, Thomas Fahringer:
Energy Prediction of OpenMP Applications Using Random Forest Modeling Approach. IPDPS Workshops 2015: 1251-1260 - [c172]Ferdinando Alessi, Peter Thoman, Giorgis Georgakoudis, Thomas Fahringer, Dimitrios S. Nikolopoulos:
Application-Level Energy Awareness for OpenMP. IWOMP 2015: 219-232 - [c171]Peter Thoman, Philipp Gschwandtner, Thomas Fahringer:
On the Quality of Implementation of the C++11 Thread Support Library. PDP 2015: 94-98 - [c170]Luis Ayuso, Juan José Durillo, Bernhard Kornberger, Martin Schifko, Thomas Fahringer:
Parallelization and Optimization of a CAD Model Processing Tool from the Automotive Industry to Distributed Memory Parallel Computers. PPAM (1) 2015: 377-388 - 2014
- [j42]Peter Thoman, Herbert Jordan, Thomas Fahringer:
Compiler multiversioning for automatic task granularity control. Concurr. Comput. Pract. Exp. 26(14): 2367-2385 (2014) - [j41]Hamid Mohammadi Fard, Radu Prodan, Thomas Fahringer:
Multi-objective list scheduling of workflow applications in distributed computing infrastructures. J. Parallel Distributed Comput. 74(3): 2152-2165 (2014) - [j40]Ivan Grasso, Simone Pellegrini, Biagio Cosenza, Thomas Fahringer:
A uniform approach for programming distributed heterogeneous computing systems. J. Parallel Distributed Comput. 74(12): 3228-3239 (2014) - [j39]Juan José Durillo, Thomas Fahringer:
From single- to multi-objective auto-tuning of programs: Advantages and implications. Sci. Program. 22(4): 285-297 (2014) - [c169]Luis Ayuso, Herbert Jordan, Thomas Fahringer, Bernhard Kornberger, Martin Schifko, Bernhard Höckner, Stefan Moosbrugger, Kevin Verma:
Parallelizing a CAD Model Processing Tool from the Automotive Industry. Euro-Par Workshops (1) 2014: 24-35 - [c168]Philipp Gschwandtner, Juan José Durillo, Thomas Fahringer:
Multi-Objective Auto-Tuning with Insieme: Optimization and Trade-Off Analysis for Time, Energy and Resource Usage. Euro-Par 2014: 87-98 - [c167]Lars Hunger, Biagio Cosenza, Stefan Kimeswenger, Thomas Fahringer:
Random Fields Generation on the GPU with the Spectral Turning Bands Method. Euro-Par 2014: 656-667 - [c166]Klaus Kofler, Dominik Steinhauser, Biagio Cosenza, Ivan Grasso, Sabine Schindler, Thomas Fahringer:
Kd-Tree Based N-Body Simulations with Volume-Mass Heuristic on the GPU. IPDPS Workshops 2014: 1256-1265 - [c165]Philipp Gschwandtner, Michael Knobloch, Bernd Mohr, Dirk Pleiter, Thomas Fahringer:
Modeling CPU Energy Consumption of HPC Applications on the IBM POWER7. PDP 2014: 536-543 - [c164]Jesús Carretero, Javier García Blas, David E. Singh, Florin Isaila, Thomas Fahringer, Radu Prodan, George Bosilca, Alexey L. Lastovetsky, Christi Symeonidou, Horacio Emilio Pérez Sánchez, José M. Cecilia:
Optimizations to enhance sustainability of MPI applications. EuroMPI/ASIA 2014: 145 - 2013
- [j38]Farrukh Nadeem, Thomas Fahringer:
Optimizing execution time predictions of scientific workflow applications in the Grid through evolutionary programming. Future Gener. Comput. Syst. 29(4): 926-935 (2013) - [j37]Kassian Plankensteiner, Radu Prodan, Matthias Janetschek, Thomas Fahringer, Johan Montagnat, David Rogers, Ian Harvey, Ian J. Taylor, Ákos Balaskó, Péter Kacsuk:
Fine-Grain Interoperability of Scientific Workflows in Distributed Computing Infrastructures. J. Grid Comput. 11(3): 429-455 (2013) - [j36]Hamid Mohammadi Fard, Radu Prodan, Thomas Fahringer:
A Truthful Dynamic Workflow Scheduling Mechanism for Commercial Multicloud Environments. IEEE Trans. Parallel Distributed Syst. 24(6): 1203-1212 (2013) - [c163]Herbert Jordan, Simone Pellegrini, Peter Thoman, Klaus Kofler, Thomas Fahringer:
INSPIRE: The insieme parallel intermediate representation. PACT 2013: 7-17 - [c162]Hamid Mohammadi Fard, Thomas Fahringer, Radu Prodan:
Budget-Constrained Resource Provisioning for Scientific Applications in Clouds. CloudCom (1) 2013: 315-322 - [c161]Adolfy Hoisie, Michael Gerndt, Shajulin Benedict, Thomas Fahringer, Vladimir Getov, Scott Pakin:
Topic 2: Performance Prediction and Evaluation - (Introduction). Euro-Par 2013: 28 - [c160]Peter Thoman, Herbert Jordan, Thomas Fahringer:
Adaptive Granularity Control in Task Parallel Programs Using Multiversioning. Euro-Par 2013: 164-177 - [c159]Herbert Jordan, Peter Thoman, Thomas Fahringer:
A High-Level IR Transformation System. Euro-Par Workshops 2013: 647-656 - [c158]Klaus Kofler, Ivan Grasso, Biagio Cosenza, Thomas Fahringer:
An automatic input-sensitive approach for heterogeneous task partitioning. ICS 2013: 149-160 - [c157]Ivan Grasso, Simone Pellegrini, Biagio Cosenza, Thomas Fahringer:
LibWater: heterogeneous distributed computing made easy. ICS 2013: 161-172 - [c156]Ivan Grasso, Klaus Kofler, Biagio Cosenza, Thomas Fahringer:
Automatic problem size sensitive task partitioning on heterogeneous parallel systems. PPoPP 2013: 281-282 - [c155]Muhammad Junaid Malik, Thomas Fahringer, Radu Prodan:
Execution time prediction for grid infrastructures based on runtime provenance data. WORKS@SC 2013: 48-57 - 2012
- [b4]Jun Qin, Thomas Fahringer:
Scientific Workflows - Programming, Optimization, and Synthesis with ASKALON and AWDL. Springer 2012, ISBN 978-3-642-30714-0, pp. I-XXI, 1-222 - [c154]Hamid Mohammadi Fard, Radu Prodan, Juan Jose Durillo Barrionuevo, Thomas Fahringer:
A Multi-objective Approach for Workflow Scheduling in Heterogeneous Environments. CCGRID 2012: 300-309 - [c153]Simone Pellegrini, Radu Prodan, Thomas Fahringer:
Tuning MPI Runtime Parameter Setting for High Performance Computing. CLUSTER Workshops 2012: 213-221 - [c152]Adán Kohler, Martin Radetzki, Philipp Gschwandtner, Thomas Fahringer:
Low-Latency Collectives for the Intel SCC. CLUSTER 2012: 346-354 - [c151]Simone Pellegrini, Torsten Hoefler, Thomas Fahringer:
On the Effects of CPU Caches on MPI Point-to-Point Communications. CLUSTER 2012: 495-503 - [c150]Muhammad Aleem, Radu Prodan, Thomas Fahringer:
The JavaSymphony Extensions for Parallel GPU Computing. ICPP 2012: 30-39 - [c149]Peter Thoman, Herbert Jordan, Simone Pellegrini, Thomas Fahringer:
Automatic OpenMP Loop Scheduling: A Combined Compiler and Runtime Approach. IWOMP 2012: 88-101 - [c148]Simone Pellegrini, Radu Prodan, Thomas Fahringer:
A Lightweight C++ Interface to MPI. PDP 2012: 3-10 - [c147]Simone Pellegrini, Torsten Hoefler, Thomas Fahringer:
Exact Dependence Analysis for Increased Communication Overlap. EuroMPI 2012: 89-99 - [c146]Herbert Jordan, Peter Thoman, Juan Jose Durillo Barrionuevo, Simone Pellegrini, Philipp Gschwandtner, Thomas Fahringer, Hans Moritsch:
A multi-objective auto-tuning framework for parallel codes. SC 2012: 10 - 2011
- [j35]Vlad Nae, Radu Prodan, Alexandru Iosup, Thomas Fahringer:
A new business model for massively multiplayer online games (abstracts only). SIGMETRICS Perform. Evaluation Rev. 39(3): 17 (2011) - [j34]Alexandru Iosup, Simon Ostermann, Nezih Yigitbasi, Radu Prodan, Thomas Fahringer, Dick H. J. Epema:
Performance Analysis of Cloud Computing Services for Many-Tasks Scientific Computing. IEEE Trans. Parallel Distributed Syst. 22(6): 931-945 (2011) - [c145]Hamid Mohammadi Fard, Radu Prodan, Georg Moser, Thomas Fahringer:
A Bi-Criteria Truthful Mechanism for Scheduling of Workflows in Clouds. CloudCom 2011: 599-605 - [c144]Philipp Gschwandtner, Thomas Fahringer, Radu Prodan:
Performance Analysis and Benchmarking of the Intel SCC. CLUSTER 2011: 139-149 - [c143]Muhammad Aleem, Radu Prodan, Thomas Fahringer:
Scheduling JavaSymphony Applications on Many-Core Parallel Computers. Euro-Par (1) 2011: 167-179 - [c142]Muhammad Junaid Malik, Thomas Fahringer, Radu Prodan:
Semi-automatic Composition of Ontologies for ASKALON Grid Workflows. Euro-Par Workshops (1) 2011: 169-180 - [c141]Peter Thoman, Klaus Kofler, Heiko Studt, John Thomson, Thomas Fahringer:
Automatic OpenCL Device Characterization: Guiding Optimized Kernel Design. Euro-Par (2) 2011: 438-452 - [c140]Simone Pellegrini, Radu Prodan, Thomas Fahringer:
Leveraging C++ Meta-programming Capabilities to Simplify the Message Passing Programming Model. EuroMPI 2011: 302-311 - [c139]Mario Lassnig, Thomas Fahringer, Vincent Garonne, Angelos Molfetas, Martin Barisits:
A similarity measure for time, frequency, and dependencies in large-scale workloads. SC 2011: 43:1-43:11 - [c138]Vlad Nae, Radu Prodan, Alexandru Iosup, Thomas Fahringer:
A new business model for massively multiplayer online games. ICPE 2011: 271-282 - 2010
- [b3]Mumtaz Siddiqui, Thomas Fahringer:
Grid Resource Management: On-demand Provisioning, Advance Reservation, and Capacity Planning of Grid Resources. Lecture Notes in Computer Science 5951, Springer 2010, ISBN 978-3-642-11578-3 - [j33]Zsolt Németh, Thomas Fahringer, Péter Kacsuk:
Special Section: DAPSYS, workshop on distributed and parallel systems. Future Gener. Comput. Syst. 26(3): 471-472 (2010) - [j32]Maximilian Berger, Thomas Fahringer:
Practical Experience from Porting and Executing the Wien2k Application on the EGEE Production Grid Infrastructure. J. Grid Comput. 8(2): 261-279 (2010) - [c137]Mario Lassnig, Thomas Fahringer, Vincent Garonne, Angelos Molfetas, Miguel Branco:
Identification, Modelling and Prediction of Non-periodic Bursts in Workloads. CCGRID 2010: 485-494 - [c136]Simone Pellegrini, Thomas Fahringer, Herbert Jordan, Hans Moritsch:
Automatic tuning of MPI runtime parameter settings by using machine learning. Conf. Computing Frontiers 2010: 115-116 - [c135]Herbert Jordan, Radu Prodan, Vlad Nae, Thomas Fahringer:
Dynamic load management for MMOGs in distributed environments. Conf. Computing Frontiers 2010: 337-346 - [c134]Muhammad Aleem, Radu Prodan, Thomas Fahringer:
On the Evaluation of JavaSymphony for Heterogeneous Multi-core Clusters. Euro-Par Workshops 2010: 23-30 - [c133]Muhammad Aleem, Radu Prodan, Thomas Fahringer:
JavaSymphony: A Programming and Execution Environment for Parallel and Distributed Many-Core Architectures. Euro-Par (2) 2010: 139-150 - [c132]Simon Ostermann, Kassian Plankensteiner, Radu Prodan, Thomas Fahringer:
GroudSim: An Event-Based Simulation Framework for Computational Grids and Clouds. Euro-Par Workshops 2010: 305-313 - [c131]Kassian Plankensteiner, Radu Prodan, Thomas Fahringer:
Scheduling Scientific Workflows to Meet Soft Deadlines in the Absence of Failure Models. Euro-Par (1) 2010: 367-378 - [c130]Vlad Nae, Radu Prodan, Thomas Fahringer:
Cost-efficient hosting and load balancing of Massively Multiplayer Online Games. GRID 2010: 9-16 - [c129]Simon Ostermann, Radu Prodan, Thomas Fahringer:
Dynamic Cloud provisioning for scientific Grid workflows. GRID 2010: 97-104 - [c128]Peter Thoman, Hans Moritsch, Thomas Fahringer:
Topology-Aware OpenMP Process Scheduling. IWOMP 2010: 96-108 - [p3]Simon Ostermann, Radu Prodan, Thomas Fahringer:
Resource Management for Hybrid Grid and Cloud Computing. Cloud Computing 2010: 179-194 - [i1]Radu Prodan, Vlad Nae, Thomas Fahringer:
Online Gaming in the Cloud. ERCIM News 2010(83): 47-48 (2010)
2000 – 2009
- 2009
- [j31]Hong Linh Truong, Peter Brunner, Vlad Nae, Thomas Fahringer:
DIPAS: A distributed performance analysis service for grid service-based workflows. Future Gener. Comput. Syst. 25(4): 385-398 (2009) - [c127]Farrukh Nadeem, Thomas Fahringer:
Using Templates to Predict Execution Time of Scientific Workflow Applications in the Grid. CCGRID 2009: 316-323 - [c126]Rubing Duan, Farrukh Nadeem, Jie Wang, Yun Zhang, Radu Prodan, Thomas Fahringer:
A Hybrid Intelligent Method for Performance Modeling and Prediction of Workflow Activities in Grids. CCGRID 2009: 339-347 - [c125]Simon Ostermann, Alexandru Iosup, Nezih Yigitbasi, Radu Prodan, Thomas Fahringer, Dick H. J. Epema:
A Performance Analysis of EC2 Cloud Computing Services for Scientific Computing. CloudComp 2009: 115-131 - [c124]Mario Lassnig, Thomas Fahringer, Vincent Garonne, Angelos Molfetas, Miguel Branco:
Stream Monitoring in Large-Scale Distributed Concealed Environments. eScience 2009: 156-163 - [c123]Kassian Plankensteiner, Radu Prodan, Thomas Fahringer:
A New Fault Tolerance Heuristic for Scientific Workflows in Highly Distributed Environments Based on Resubmission Impact. eScience 2009: 313-320 - [c122]Thomas Fahringer, Alexandru Iosup, Marian Bubak, Matei Ripeanu, Xian-He Sun, Hong Linh Truong:
Introduction. Euro-Par 2009: 95-96 - [c121]Vlad Nae, Radu Prodan, Thomas Fahringer:
Monitoring and Fault Tolerance for Real-Time Online Interactive Applications. Euro-Par Workshops 2009: 255-265 - [c120]Simon Ostermann, Radu Prodan, Thomas Fahringer:
Extending Grids with cloud resource management for scientific computing. GRID 2009: 42-49 - [c119]Jun Qin, Thomas Fahringer, Radu Prodan:
A novel graph based approach for automatic composition of high quality grid workflows. HPDC 2009: 167-176 - [c118]Vlad Nae, Radu Prodan, Thomas Fahringer, Alexandru Iosup:
The impact of virtualization on the performance of Massively Multiplayer Online Games. NETGAMES 2009: 1-6 - [c117]Radu Prodan, Vlad Nae, Thomas Fahringer, Herbert Jordan:
Dynamic Real-Time Resource Provisioning for Massively Multiplayer Online Games. PaCT 2009: 98-111 - [c116]Simone Pellegrini, Jie Wang, Thomas Fahringer, Hans Moritsch:
Optimizing MPI Runtime Parameter Settings by Using Machine Learning. PVM/MPI 2009: 196-206 - [c115]Farrukh Nadeem, Thomas Fahringer:
Predicting the execution time of grid workflow applications through local learning. SC 2009 - 2008
- [j30]Jürgen Hofer, Thomas Fahringer:
Grid Application Fault Diagnosis Using Wrapper Services and Machine Learning. Int. J. Cooperative Inf. Syst. 17(3): 283-299 (2008) - [j29]Radu Prodan, Thomas Fahringer:
Overhead Analysis of Scientific Workflows in Grid Environments. IEEE Trans. Parallel Distributed Syst. 19(3): 378-393 (2008) - [c114]Marek Wieczorek, Stefan Podlipnig, Radu Prodan, Thomas Fahringer:
Bi-criteria Scheduling of Scientific Workflows for the Grid. CCGRID 2008: 9-16 - [c113]Farrukh Nadeem, Radu Prodan, Thomas Fahringer:
Characterizing, Modeling and Predicting Dynamic Resource Availability in a Large Scale Multi-purpose Grid. CCGRID 2008: 348-357 - [c112]Jürgen Hofer, Thomas Fahringer:
Synthesizing Byzantine Fault-Tolerant Grid Application Wrapper Services. CCGRID 2008: 467-474 - [c111]Simon Ostermann, Kassian Plankensteiner, Radu Prodan, Thomas Fahringer, Alexandru Iosup:
Workflow Monitoring and Analysis Tool for ASKALON. CoreGRID Workshop on Grid Middleware 2008: 1-14 - [c110]Kassian Plankensteiner, Radu Prodan, Thomas Fahringer, Attila Kertész, Péter Kacsuk:
Fault Detection, Prevention and Recovery in Current Grid Workflow Systems. CoreGRID Workshop on Grid Middleware 2008: 1-13 - [c109]Farrukh Nadeem, Radu Prodan, Thomas Fahringer, Alexandru Iosup:
A Framework For Resource Availability Characterization And Online Prediction In The Grids. CoreGRID Integration Workshop 2008: 209-224 - [c108]Radu Prodan, Vlad Nae, Thomas Fahringer, Sergei Gorlatch, Frank Glinka, Alexander Ploß, Jens Müller-Iden:
A Grid Environment For Real-Time Multiplayer Online Games. CoreGRID Integration Workshop 2008: 225-236 - [c107]Jürgen Hofer, Thomas Fahringer:
Supporting Parameter Sweep Applications with Synthesized Grid Services. Euro-Par 2008: 26-36 - [c106]Vlad Nae, Radu Prodan, Thomas Fahringer:
Neural Network-Based Load Prediction for Highly Dynamic Distributed Online Games. Euro-Par 2008: 202-211 - [c105]Christoph Anthes, Thomas Fahringer, Dieter Kranzlmüller:
Real-Time Online Interactive Applications on the Grid (ROIA 2008). Euro-Par Workshops 2008: 327-328 - [c104]Vlad Nae, Herbert Jordan, Radu Prodan, Thomas Fahringer:
An Information System for Real-Time Online Interactive Applications. Euro-Par Workshops 2008: 361-370 - [c103]Sergei Gorlatch, Frank Glinka, Alexander Ploss, Jens Müller-Iden, Radu Prodan, Vlad Nae, Thomas Fahringer:
Enhancing Grids for Massively Multiplayer Online Computer Games. Euro-Par 2008: 466-477 - [c102]Justin Ferris, Mike Surridge, Ellis Rowland Watkins, Thomas Fahringer, Radu Prodan, Frank Glinka, Sergei Gorlatch, Christoph Anthes, Alexis Arragon, Christopher J. Rawlings, Arton Lipaj:
Edutain@Grid: A Business Grid Infrastructure for Real-Time On-Line Interactive Applications. GECON 2008: 152-162 - [c101]Jürgen Hofer, Thomas Fahringer:
A Multi-Perspective Taxonomy for Systematic Classification of Grid Faults. PDP 2008: 126-130 - [c100]Vlad Nae, Alexandru Iosup, Stefan Podlipnig, Radu Prodan, Dick H. J. Epema, Thomas Fahringer:
Efficient management of data center resources for massively multiplayer online games. SC 2008: 10 - [c99]Jun Qin, Thomas Fahringer:
A novel domain oriented approach for scientific grid workflow composition. SC 2008: 21 - [c98]Marek Wieczorek, Stefan Podlipnig, Radu Prodan, Thomas Fahringer:
Applying double auctions for scheduling of workflows on the Grid. SC 2008: 27 - [e3]Jörn Altmann, Dirk Neumann, Thomas Fahringer:
Grid Economics and Business Models, 5th International Workshop, GECON 2008, Las Palmas de Gran Canaria, Spain, August 26, 2008. Proceedings. Lecture Notes in Computer Science 5206, Springer 2008, ISBN 978-3-540-85484-5 [contents] - 2007
- [b2]Radu Prodan, Thomas Fahringer:
Grid Computing, Experiment Management, Tool Integration, and Scientific Workflows. Lecture Notes in Computer Science 4340, Springer 2007, ISBN 978-3-540-69261-4 - [j28]Yolanda Gil, Ewa Deelman, Mark H. Ellisman, Thomas Fahringer, Geoffrey C. Fox, Dennis Gannon, Carole A. Goble, Miron Livny, Luc Moreau, Jim Myers:
Examining the Challenges of Scientific Workflows. Computer 40(12): 24-32 (2007) - [j27]Hong Linh Truong, Schahram Dustdar, Thomas Fahringer:
Performance metrics and ontologies for Grid workflows. Future Gener. Comput. Syst. 23(6): 760-772 (2007) - [j26]Jürgen Hofer, Thomas Fahringer:
The Otho Toolkit - Synthesizing tailor-made scientific grid application wrapper services. Multiagent Grid Syst. 3(3): 281-298 (2007) - [j25]Mumtaz Siddiqui, Thomas Fahringer:
Semantically-enhanced on-demand resource provision and management for the grid. Multiagent Grid Syst. 3(3): 327-339 (2007) - [c97]Jun Qin, Marek Wieczorek, Kassian Plankensteiner, Thomas Fahringer:
Towards a Light-weight Workflow Engine in the Asklon Grid Environment. CoreGRID 2007: 239-251 - [c96]Alex Villazón, Muhammad Junaid Malik, Mumtaz Siddiqui, Thomas Fahringer:
Applying patterns for porting complex workflows onto the Grid. CoreGRID 2007: 265-275 - [c95]Mumtaz Siddiqui, Alex Villazón, Thomas Fahringer:
Semantic-Based On-demand Synthesis of Grid Activities for Automatic Workflow Generation. eScience 2007: 43-50 - [c94]Thomas Fahringer, Christoph Anthes, Alexis Arragon, Arton Lipaj, Jens Müller-Iden, Christopher J. Rawlings, Radu Prodan, Mike Surridge:
The edutain@grid Project. GECON 2007: 182-187 - [c93]Farrukh Nadeem, Radu Prodan, Thomas Fahringer:
Optimizing Performance of Automatic Training Phase for Application Performance Prediction in the Grid. HPCC 2007: 309-321 - [c92]Jürgen Hofer, Thomas Fahringer:
Grid Application Fault Diagnosis Using Wrapper Services and Machine Learning. ICSOC 2007: 233-244 - [c91]Rubing Duan, Radu Prodan, Thomas Fahringer:
Performance and cost optimization for multiple large-scale grid workflow applications. SC 2007: 12 - [c90]Jun Qin, Thomas Fahringer:
Advanced data flow support for scientific grid workflow applications. SC 2007: 42 - [p2]Thomas Fahringer, Radu Prodan, Rubing Duan, Jürgen Hofer, Farrukh Nadeem, Francesco Nerieri, Stefan Podlipnig, Jun Qin, Mumtaz Siddiqui, Hong Linh Truong, Alex Villazón, Marek Wieczorek:
ASKALON: A Development and Grid Computing Environment for Scientific Workflows. Workflows for e-Science, Scientific Workflows for Grids 2007: 450-471 - 2006
- [c89]Hong Linh Truong, Peter Brunner, Thomas Fahringer, Francesco Nerieri, Robert Samborski, Bartosz Balis, Marian Bubak, Kuba Rozkwitalski:
K-WfGrid Distributed Monitoring and Performance Analysis Services for Workflows in the Grid. e-Science 2006: 15 - [c88]Francesco Nerieri, Radu Prodan, Thomas Fahringer:
Kalipy: A Tool for Online Performance Analysis of Grid Workflows through Event Correlation. e-Science 2006: 18 - [c87]Jürgen Hofer, Thomas Fahringer:
Presenting Scientific Legacy Programs as Grid Services via Program Synthesis. e-Science 2006: 34 - [c86]Hong Linh Truong, Robert Samborski, Thomas Fahringer:
Towards a Framework for Monitoring and Analyzing QoS Metrics of Grid Services. e-Science 2006: 65 - [c85]Farrukh Nadeem, Muhammad Murtaza Yousaf, Radu Prodan, Thomas Fahringer:
Soft Benchmarks-Based Application Performance Prediction Using a Minimum Training Set. e-Science 2006: 71 - [c84]Marek Wieczorek, Mumtaz Siddiqui, Alex Villazón, Radu Prodan, Thomas Fahringer:
Applying Advance Reservation to Increase Predictability of Workflow Execution on the Grid. e-Science 2006: 82 - [c83]Francesco Nerieri, Radu Prodan, Thomas Fahringer, Hong Linh Truong:
Overhead Analysis of Grid Workflow Applications. GRID 2006: 17-24 - [c82]Rubing Duan, Radu Prodan, Thomas Fahringer:
Run-time Optimisation of Grid Workflow Applications. GRID 2006: 33-40 - [c81]Jürgen Hofer, Thomas Fahringer:
Specification-based Synthesis of Tailor-made Grid Service Wrappers for Scientific Legacy Codes. GRID 2006: 305-306 - [c80]Peter Brunner, Hong Linh Truong, Thomas Fahringer:
Performance Monitoring and Visualization of Grid Scientific Workflows in ASKALON. HPCC 2006: 170-179 - [c79]Rubing Duan, Radu Prodan, Thomas Fahringer:
Data Mining-based Fault Prediction and Detection on the Grid. HPDC 2006: 305-308 - [c78]Marek Wieczorek, Radu Prodan, Thomas Fahringer:
Dynamic Programming Based Approach for Bi-criteria Workflow Scheduling on the Grid. HPDC 2006: 381-382 - [c77]Thomas Fahringer:
Towards a sophisticated grid workflow development and computing environment. IPDPS 2006 - [c76]Bartosz Balis, Hong Linh Truong, Marian Bubak, Thomas Fahringer, Krzysztof Guzy, Kuba Rozkwitalski:
An Instrumentation Infrastructure for Grid Workflow Applications. OTM Conferences (2) 2006: 1305-1314 - [c75]Mumtaz Siddiqui, Alex Villazón, Thomas Fahringer:
Grid allocation and reservation - Grid capacity planning with negotiation-based advance reservation for optimized QoS. SC 2006: 103 - [e2]Thomas Fahringer:
Proceedings of the IASTED International Conference on Parallel and Distributed Computing and Networks, as part of the 24th IASTED International Multi-Conference on Applied Informatics, February 14-16 2006, Innsbruck, Austria. IASTED/ACTA Press 2006, ISBN 0-88986-570-1 [contents] - 2005
- [j24]Thomas Fahringer, Alexandru Jugravu, Sabri Pllana, Radu Prodan, Clovis Seragiotto Jr., Hong Linh Truong:
ASKALON: a tool set for cluster and Grid computing. Concurr. Pract. Exp. 17(2-4): 143-169 (2005) - [j23]Thomas Fahringer, Alexandru Jugravu:
JavaSymphony: a new programming paradigm to control and synchronize locality, parallelism and load balancing for parallel and distributed computing. Concurr. Pract. Exp. 17(7-8): 1005-1025 (2005) - [j22]Alexandru Jugravu, Thomas Fahringer:
JavaSymphony, a programming model for the Grid. Future Gener. Comput. Syst. 21(1): 239-247 (2005) - [j21]Hong Linh Truong, Thomas Fahringer, Schahram Dustdar:
Dynamic Instrumentation, Performance Monitoring and Analysis of Grid Scientific Workflows. J. Grid Comput. 3(1-2): 1-18 (2005) - [j20]Radu Prodan, Thomas Fahringer:
ZEN: a directive based experiment specification language for performance and parameter studies of parallel scientific applications. Int. J. High Perform. Comput. Netw. 3(2/3): 103-121 (2005) - [j19]Marek Wieczorek, Radu Prodan, Thomas Fahringer:
Scheduling of scientific workflows in the ASKALON grid environment. SIGMOD Rec. 34(3): 56-62 (2005) - [c74]Hong Linh Truong, Thomas Fahringer, Francesco Nerieri, Schahram Dustdar:
Performance metrics and ontology for describing performance data of grid workflows. CCGRID 2005: 301-308 - [c73]Thomas Fahringer, Jun Qin, S. Hainzer:
Specification of grid workflow applications with AGWL: an Abstract Grid Workflow Language. CCGRID 2005: 676-685 - [c72]Clovis Seragiotto Jr., Thomas Fahringer:
Performance analysis for distributed and parallel Java programs with Aksum. CCGRID 2005: 1024-1031 - [c71]Clovis Seragiotto Jr., Thomas Fahringer:
Analysis of Distributed Java Applications Using Dynamic Instrumentation. CLUSTER 2005: 1-10 - [c70]Mumtaz Siddiqui, Thomas Fahringer:
GridARM: Askalon's Grid Resource Management System. EGC 2005: 122-131 - [c69]Rubing Duan, Thomas Fahringer, Radu Prodan, Jun Qin, Alex Villazón, Marek Wieczorek:
Real World Workflow Applications in the Askalon Grid Environment. EGC 2005: 454-463 - [c68]Radu Prodan, Thomas Fahringer:
Optimising Parallel Applications on the Grid Using Irregular Array Distributions. EGC 2005: 527-537 - [c67]Hong Linh Truong, Thomas Fahringer:
Online Performance Monitoring and Analysis of Grid Scientific Workflows. EGC 2005: 1154-1164 - [c66]Hong Linh Truong, Thomas Fahringer:
Soft Computing Approach to Performance Analysis of Parallel and Distributed Programs. Euro-Par 2005: 50-60 - [c65]Allen D. Malony, Thomas Fahringer, Allan Snavely, Luís Silva:
Topic 2 - Performance Prediction and Evaluation. Euro-Par 2005: 93 - [c64]Alexandru Jugravu, Thomas Fahringer:
Scheduling Workflow Distributed Applications in JavaSymphony. Euro-Par 2005: 272-281 - [c63]Thomas Fahringer, Radu Prodan, Rubing Duan, Francesco Nerieri, Stefan Podlipnig, Jun Qin, Mumtaz Siddiqui, Hong Linh Truong, Alex Villazón, Marek Wieczorek:
ASKALON: a Grid application development and computing environment. GRID 2005: 122-131 - [c62]Alexandru Jugravu, Thomas Fahringer:
Advanced Resource Management and Scheduling of Workflow Applications in JavaSymphony. HiPC 2005: 235-246 - [c61]Rubing Duan, Radu Prodan, Thomas Fahringer:
DEE: A Distributed Fault Tolerant Workflow Enactment Engine for Grid Computing. HPCC 2005: 704-716 - [c60]Sabri Pllana, Thomas Fahringer:
Performance Prophet: A Performance Modeling and Prediction Tool for Parallel and Distributed Programs. ICPP Workshops 2005: 509-516 - [c59]Hong Linh Truong, Thomas Fahringer:
Self-Managing Sensor-Based Middleware for Performance Monitoring and Data Integration in Grids. IPDPS 2005 - [c58]Mumtaz Siddiqui, Thomas Fahringer, Jürgen Hofer, Ioan Toma:
Grid Resource Ontologies and Asymmetric Resource-Correlation. NODe/GSEM 2005: 205-219 - [c57]Jürgen Hofer, Alex Villazón, Mumtaz Siddiqui, Thomas Fahringer:
The Otho Toolkit: Generating Tailor-made Scientific Grid Application Wrappers. NODe/GSEM 2005: 323-337 - [c56]Hong Linh Truong, Bartosz Balis, Marian Bubak, Jakub Dziwisz, Thomas Fahringer, Andreas Hoheisel:
Towards Distributed Monitoring and Performance Analysis Services in the K-WfGrid Project. PPAM 2005: 156-163 - [c55]Marek Wieczorek, Radu Prodan, Thomas Fahringer:
Comparison of Workflow Scheduling Strategies on the Grid. PPAM 2005: 792-800 - [c54]Radu Prodan, Thomas Fahringer:
Dynamic scheduling of scientific workflow applications on the grid: a case study. SAC 2005: 687-694 - [c53]Mumtaz Siddiqui, Alex Villazón, Jürgen Hofer, Thomas Fahringer:
GLARE: A Grid Activity Registration, Deployment and Provisioning Framework. SC 2005: 52 - [e1]Thomas Fahringer, M. H. Hamza:
Proceedings of the IASTED International Conference on Parallel and Distributed Computing and Networks, part of the 23rd Multi-Conference on Applied Informatics, Innsbruck, Austria, February 15-17, 2005. IASTED/ACTA Press 2005, ISBN 0-88986-470-5 [contents] - 2004
- [j18]Radu Prodan, Thomas Fahringer:
ZENTURIO: A Grid Service-Based Tool for Optimising Parallel and Grid Applications. J. Grid Comput. 2(1): 15-29 (2004) - [j17]Radu Prodan, Thomas Fahringer:
ZENTURIO: a grid middleware-based tool for experiment management of parallel and distributed applications. J. Parallel Distributed Comput. 64(6): 693-707 (2004) - [j16]Hong Linh Truong, Thomas Fahringer:
SCALEA-G: A unified monitoring and performance analysis system for the grid. Sci. Program. 12(4): 225-237 (2004) - [c52]Sabri Pllana, Thomas Fahringer, Johannes Testori, Siegfried Benkner, Ivona Brandic:
Towards an UML Based Graphical Representation of Grid Workflow Applications. European Across Grids Conference 2004: 149-158 - [c51]Hong Linh Truong, Thomas Fahringer:
SCALEA-G: A Unified Monitoring and Performance Analysis System for the Grid. European Across Grids Conference 2004: 202-211 - [c50]Alexandru Jugravu, Thomas Fahringer:
JavaSymphony, a Programming Model for the Grid. International Conference on Computational Science 2004: 18-25 - [c49]Thomas Fahringer, Sabri Pllana, Alex Villazón:
A-GWL: Abstract Grid Workflow Language. International Conference on Computational Science 2004: 42-49 - [c48]Hong Linh Truong, Thomas Fahringer:
Performance Analysis, Data Sharing, and Tools Integration in Grids: New Approach Based on Ontology. International Conference on Computational Science 2004: 424-431 - [c47]Thomas Fahringer, Sabri Pllana, Johannes Testori:
Teuta: Tool Support for Performance Modeling of Distributed and Parallel Applications. International Conference on Computational Science 2004: 456-463 - [c46]Radu Prodan, Andreas Bonelli, Andreas Adelmann, Thomas Fahringer, Christoph W. Überhuber:
Benchmarking Parallel Three Dimensional FFT Kernels with ZENTURIO. International Conference on Computational Science 2004: 459-466 - 2003
- [b1]Thomas Fahringer, Bernhard Scholz:
Advanced Symbolic Analysis for Compilers: New Techniques and Algorithms for Symbolic Program Analysis and Optimization. Lecture Notes in Computer Science 2628, Springer 2003, ISBN 3-540-01185-4 - [j15]Hong Linh Truong, Thomas Fahringer:
SCALEA: a performance analysis tool for parallel programs. Concurr. Comput. Pract. Exp. 15(11-12): 1001-1025 (2003) - [c45]Hong Linh Truong, Thomas Fahringer:
On Utilizing Experiment Data Repository for Performance Analysis of Parallel Applications. Euro-Par 2003: 27-37 - [c44]Jeffrey K. Hollingsworth, Allen D. Malony, Jesús Labarta, Thomas Fahringer:
Performance Evaluation and Prediction. Euro-Par 2003: 87 - [c43]Radu Prodan, Thomas Fahringer:
From Web Services to OGSA: Experiences in Implementing an OGSA-based Grid Application. GRID 2003: 2-9 - [c42]Alexandru Jugravu, Thomas Fahringer:
On the Implementation of JavaSymphony. HIPS 2003: 34- - [c41]Radu Prodan, Thomas Fahringer:
A Web Service-Based Experiment Management System for the Grid. IPDPS 2003: 85 - [c40]Alexandru Jugravu, Thomas Fahringer:
On the Implementation of JavaSymphony. IPDPS 2003: 129 - [c39]Thomas Fahringer, Nicola Mazzocca, Massimiliano Rak, Sabri Pllana, Umberto Villano, Georg Madsen:
Performance Modeling of Scientific Applications: Scalability Analysis of LAPW0. PDP 2003: 5-12 - [c38]Radu Prodan, Thomas Fahringer, Michael Geissler, Georg Madsen, Franz Franchetti, Hans Moritsch:
On Using ZENTURIO for Performance and Parameter Studies on Cluster and Grid Architectures. PDP 2003: 185-192 - [c37]Clovis Seragiotto Jr., Thomas Fahringer, Michael Geissler, Georg Madsen, Hans Moritsch:
On Using Aksum for Semi-Automatically Searching of Performance Problems in Parallel and Distributed Programs. PDP 2003: 385-392 - 2002
- [j14]Thomas Fahringer, Krzysztof Sowa-Pieklo, Przemyslaw Czerwinski, Peter Brezany, Marian Bubak, Rainer Koppler, Roland Wismüller:
SPiDER - An advanced symbolic debugger for Fortran 90/HPF programs. Concurr. Comput. Pract. Exp. 14(2): 103-136 (2002) - [j13]Thomas Fahringer, Krzysztof Sowa-Pieklo:
Debugging real-world data-parallel programs with SPiDER. Future Gener. Comput. Syst. 18(6): 779-788 (2002) - [j12]Xian-He Sun, Thomas Fahringer, Mario Pantano:
SCALA: A Performance System For Scalable Computing. Int. J. High Perform. Comput. Appl. 16(4): 357-370 (2002) - [c36]Radu Prodan, Thomas Fahringer:
ZENTURIO: An Experiment Management System for Cluster and Grid Computing. CLUSTER 2002: 9-18 - [c35]Thomas Fahringer, Alexandru Jugravu, Beniamino Di Martino, Salvatore Venticinque, Hans Moritsch:
On the Evaluation of JavaSymphony for Cluster Applications. CLUSTER 2002: 394- - [c34]Hong Linh Truong, Thomas Fahringer:
SCALEA: A Performance Analysis Tool for Distributed and Parallel Programs. Euro-Par 2002: 75-85 - [c33]Thomas Fahringer, Clovis Seragiotto Jr.:
Automatic Search for Performance Problems in Parallel and Distributed Programs by Using Multi-experiment Analysis. HiPC 2002: 151-162 - [c32]Radu Prodan, Thomas Fahringer:
ZEN: A Directive-Based Language for Automatic Experiment Management of Distributed and Parallel Programs. ICPP 2002: 93-100 - [c31]Thomas Fahringer, Alexandru Jugravu:
JavaSymphony: new directives to control and synchronize locality, parallelism, and load balancing for cluster and GRID-computing. Java Grande 2002: 8-17 - [c30]Rocco Aversa, Beniamino Di Martino, Thomas Fahringer, Salvatore Venticinque:
On the Evaluation of the Distributed Objects and Mobile Agents Programming Models for a Distributed Optimization Application. PARA 2002: 233-242 - [c29]Hong Linh Truong, Thomas Fahringer, Michael Geissler, Georg Madsen:
Performance Analysis for MPI Applications with SCALEA. PVM/MPI 2002: 421-431 - [c28]Sabri Pllana, Thomas Fahringer:
On Customizing the UML for Modeling Performance-Oriented Applications. UML 2002: 259-274 - [c27]Sabri Pllana, Thomas Fahringer:
Parallel and distributed systems: UML based modeling of performance oriented parallel and distributed applications. WSC 2002: 497-505 - 2001
- [j11]Thomas Fahringer, Peter Blaha, A. Hössinger, J. Luitz, Eduard Mehofer, Hans Moritsch, Bernhard Scholz:
Development and performance analysis of real-world applications for distributed and parallel architectures. Concurr. Comput. Pract. Exp. 13(10): 841-868 (2001) - [c26]Thomas Fahringer, Krzysztof Sowa-Pieklo, J. Luitz, Hans Moritsch:
On Using SPiDER to Examine and Debug Real-World Data-Parallel Applications. PaCT 2001: 211-225 - [c25]Hong Linh Truong, Thomas Fahringer, Georg Madsen, Allen D. Malony, Hans Moritsch, Sameer Shende:
On using SCALEA for performance analysis of distributed and parallel programs. SC 2001: 34 - [c24]Thomas Fahringer, Clovis Seragiotto Jr.:
Modeling and detecting performance problems for distributed and parallel programs with JavaPSL. SC 2001: 35 - 2000
- [j10]Johann Blieberger, Thomas Fahringer, Bernhard Scholz:
Symbolic Cache Analysis for Real-Time Systems. Real Time Syst. 18(2/3): 181-215 (2000) - [j9]Thomas Fahringer, A. Pozgaj:
P3T+: A performance estimator for distributed and parallel programs. Sci. Program. 8(2): 73-93 (2000) - [j8]Thomas Fahringer, Bernhard Scholz:
A Unified Symbolic Evaluation Framework for Parallelizing Compilers. IEEE Trans. Parallel Distributed Syst. 11(11): 1105-1125 (2000) - [c23]Thomas Fahringer:
JavaSymphony: A System for Development of Locality-Oriented Distributed and Parallel Java Applications. CLUSTER 2000: 145-152 - [c22]Thomas Fahringer, Wolfgang E. Nagel:
Performance Evaluation and Prediction. Euro-Par 2000: 105-107 - [c21]Thomas Fahringer, Michael Gerndt, Graham D. Riley, Jesper Larsson Träff:
Specification of Performance Problems in MPI Programs with ASL. ICPP 2000: 51-60 - [c20]Thomas Fahringer, A. Pozgaj, Hans Moritsch, J. Luitz:
Evaluation of P3T+: A Performance Estimator for Distributed and Parallel Applications. IPDPS 2000: 229-234 - [c19]Thomas Fahringer, Michael Gerndt, Graham D. Riley, Jesper Larsson Träff:
On Performance Modeling for HPF Applications with ASL. ISHPC 2000: 191-204 - [c18]Thomas Fahringer, Michael Gerndt, Graham D. Riley, Jesper Larsson Träff:
Formalizing OpenMP Performance Properties with ASL. ISHPC 2000: 428-439 - [c17]Bernhard Scholz, Johann Blieberger, Thomas Fahringer:
Symbolic Pointer Analysis for Detecting Memory Leaks. PEPM 2000: 104-113 - [c16]Thomas Fahringer, Bernhard Scholz, Xian-He Sun:
Execution-driven performance analysis for distributed and parallel systems. Workshop on Software and Performance 2000: 204-215
1990 – 1999
- 1999
- [j7]Thomas Fahringer, Eduard Mehofer:
Buffer-Safe and Cost-Driven Communication Optimization. J. Parallel Distributed Comput. 57(1): 33-63 (1999) - [j6]Xian-He Sun, Mario Pantano, Thomas Fahringer:
Integrated Range Comparison for Data-Parallel Compilation Systems. IEEE Trans. Parallel Distributed Syst. 10(5): 448-458 (1999) - [c15]Xian-He Sun, Mario Pantano, Thomas Fahringer, Zhaohua Zhan:
SCALA: A Framework for Performance Evaluation of Scalable Computing. IPPS/SPDP Workshops 1999: 49-62 - 1998
- [j5]Thomas Fahringer:
Symbolic analysis techniques for program parallelization. Future Gener. Comput. Syst. 13(4-5): 385-396 (1998) - [j4]Thomas Fahringer:
Efficient Symbolic Analysis for Parallelizing Compilers and Performance Estimators. J. Supercomput. 12(3): 227-252 (1998) - [c14]Xian-He Sun, Mario Pantano, Thomas Fahringer:
Performance Range Comparison for Restructuring Compilation. ICPP 1998: 595-603 - [c13]Thomas Fahringer, Eduard Mehofer:
Problem and Machine Sensitive Communication Optimization. International Conference on Supercomputing 1998: 117-124 - 1997
- [c12]Thomas Fahringer, Eduard Mehofer:
Buffer-Safe Communication Optimization Based on Data Flow Analysis and Performance Prediction. IEEE PACT 1997: 189-200 - [c11]Thomas Fahringer:
Effective Symbolic Analysis to Support Parallelizing Compilers and Performance Analysis. HPCN Europe 1997: 781-790 - [c10]Thomas Fahringer:
Estimating Cache Performance for Sequential and Data Parallel Programs. HPCN Europe 1997: 840-849 - [c9]Thomas Fahringer, Bernhard Scholz:
Symbolic Evaluation for Parallelizing Compilers. International Conference on Supercomputing 1997: 261-268 - [c8]Thomas Fahringer:
Symbolic expression evaluation to support parallelizing compilers. PDP 1997: 173-180 - 1996
- [j3]Thomas Fahringer:
On estimating the useful work distribution of parallel programs under P3T: a static performance estimator. Concurr. Pract. Exp. 8(4): 261-282 (1996) - [j2]Thomas Fahringer:
Compile-Time Estimation of Communication Costs for Data Parallel Programs. J. Parallel Distributed Comput. 39(1): 46-65 (1996) - [c7]Thomas Fahringer:
Toward Symbolic Performance Prediction of Parallel Programs. IPPS 1996: 474-478 - 1995
- [j1]Thomas Fahringer:
Estimating and Optimizing Performance for Parallel Programs. Computer 28(11): 47-56 (1995) - [c6]Thomas Fahringer, Matthew Haines, Piyush Mehrotra:
On the Utility of Threads for Data Parallel Programming. International Conference on Supercomputing 1995: 51-59 - 1994
- [c5]Thomas Fahringer:
Automatically Estimating Network Contention of Parallel Programs. Computer Performance Evaluation 1994: 389-405 - [c4]Thomas Fahringer:
Evaluation Of Benchmark Performance Estimation For Parallel Fortran Programs On Massively Parallel SIMD And MIMD Computers. PDP 1994: 449-456 - [p1]Thomas Fahringer:
The Weight Finder - An Advanced Profiler for Fortran Programs. Automatic Parallelization 1994: 7-31 - 1993
- [c3]Thomas Fahringer, Hans P. Zima:
A Static Parameter Based Performance Prediction Tool for Parallel Programs. International Conference on Supercomputing 1993: 207-219 - [c2]Barbara M. Chapman, Thomas Fahringer, Hans P. Zima:
Automatic Support for Data Distribution on Distributed Memory Multiprocessor Systems. LCPC 1993: 184-199 - 1992
- [c1]Thomas Fahringer, Roman Blasko, Hans P. Zima:
Automatic performance prediction to support parallelization of Fortran programs for massively parallel systems. ICS 1992: 347-356
Coauthor Index
Juan José Durillo
aka: Juan Jose Durillo Barrionuevo
aka: Juan Jose Durillo Barrionuevo
[j65] [j57] [c181] [c179] [j45] [j43] [c173] [j41] [c164] [j37] [j36] [c162] [c155] [c154] [c153] [c150] [c148] [j35] [j34] [c145] [c144] [c143] [c142] [c140] [c138] [c135] [c134] [c133] [c132] [c131] [c130] [c129] [p3] [i1] [c126] [c125] [c123] [c121] [c120] [c119] [c118] [c117] [j29] [c114] [c113] [c111] [c110] [c109] [c108] [c106] [c104] [c103] [c102] [c100] [c98] [b2] [c94] [c93] [c91] [p2] [c88] [c85] [c84] [c83] [c82] [c79] [c78] [j24] [j20] [j19] [c69] [c68] [c63] [c61] [c55] [c54] [j18] [j17] [c46] [c43] [c41] [c38] [c36] [c32]
Sasko Ristov
aka: Sashko Ristov
aka: Sashko Ristov
[j75] [c210] [j74] [c207] [c206] [i6] [j71] [j69] [c204] [j64] [c202] [c201] [c199] [c198] [j62] [j61] [j60] [c195] [c194] [c193] [i2] [j53] [c192] [c191] [c189] [j50] [c187] [c185] [d1] [j49] [c184] [c182] [c180] [c178] [c177] [c176] [c172] [c171] [j42] [c163] [c160] [c159] [c149] [c146] [c141] [c128]
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