Resultado final
A prototype compiler that translates the API of Deliverables D3.1 and D3.2 to the interface offered by the runtime system of Deliverable D4.1
Installation, integration, and deployment of the AllScale environment and pilot applications (b)Defines the guidelines, tools and procedures for integrating the AllScale environment and all pilot applications (outcome of T6.3).
Testing, evaluation and tuning of the AllScale environment with the pilot applicationsDescribes the different evaluation criteria and the results of the validation activities performed for every pilot application (outcome of Task 6.4) on the AllScale computing infrastructure.
API implementation for recursive parallelism (b)A C++ implementation of the AllScale API comprising the Core and User API, being compatible to state-of-the-art C++ compilers.
Early AllScale runtime system prototypeA first proto-type of the runtime system implementing the interface defined by Deliverable D4.1 providing a unified scheduling interface and an implementation of it focusing on high resource utilisation within shared memory systems.
Full AllScale Compiler prototypeAn extended version of Deliverable D3.3 adding automated porting support targeting (i) distributed memory systems and (ii) accelerators as well as (iii) facilities creating and restoring local checkpoints.
API implementation for recursive parallelism (a)A C++ implementation of the AllScale API comprising the Core and User API, being compatible to state-of-the-art C++ compilers.
Installation, integration, and deployment of the AllScale environment and pilot applications (a)Defines the guidelines, tools and procedures for integrating the AllScale environment and all pilot applications (outcome of T6.3).
An implementation and evaluation of the resilience techniques identified by Deliverable D5.1 utilising the AllScale API in the context of the pilot application.
AMDADOS Deepwater Horizon application preparation and evaluation (b)Describes the incremental preparation, deployment and validation of the AMDADOS pilot application.
Multi-Objective Dynamic Optimiser (b)This Deliverable explores and utilises the capabilities of the other deliverables to research strategies to effectively steer applications towards fulfilling customisable trade-offs among (conflicting) objectives.
iPIC3D implicit particle-in-cell code for space weather applications preparation and evaluation (b)This deliverable describes the incremental preparation, deployment and validation of the iPIC3D pilot application.
AllScale API specification (a)This deliverable will specify the AllScale Core and User API as well as their intended usage within the pilot applications (compare with Deliverable D3.1 covering its actual implementation)
On-Demand, On-Line Monitoring Infrastructure (a)An infrastructure for collecting and aggregating monitoring information within the runtime system.
AllScale API specification (b)This deliverable will specify the AllScale Core and User API as well as their intended usage within the pilot applications (compare with Deliverables D3.1 and 3.2 covering its actual implementation)
Data management plan (a)This deliverable will contain an analysis of the main elements of the data management policy used by the applicants with regard to all data sets generated by the project. This will include a data set reference, name, description, standards, metadata, and management principles such as sharing, archiving and preservation.
AllScale runtime system monitoring infrastructureIntegration of the IPM tool with the HPX framework to develop an infrastructure for collecting, aggregating and querying (abstract) monitoring information effectively throughout connected runtime system instances.
Resource management supportAn extended version of Deliverable D4.2 providing resource management support and an adapted scheduler targeting minimal energy usage.
AllScale computing infrastructureThis deliverable describes the characteristics of the AllScale computing infrastructure for the three pilot applications (outcome of Task T6.1).
AllScale runtime system interface specificationThis deliverable will provide a document with the specification of the API to be used to interact with the runtime system as well as an implementation of the API itself.
AllScale system architecture (b)This deliverable will describe the detailed software architecture of the AllScale environment comprising all components, their interfaces and responsibilities.
Project dissemination and communication strategy and reporting (a)This deliverable will provide information about the project dissemination plans including the specification of the target dissemination groups, publication policy, event planning and marketing. AllScale will exploit popular web 2.0 channels and social media for further enhancing the project image. It is an ongoing deliverable with subsequent updated versions throughout the project lifetime.
AMDADOS Deepwater Horizon application preparation and evaluation (a)Describes the incremental preparation, deployment and validation of the AMDADOS pilot application.
Implementation and Evaluation of Application Specific Resilience Techniques (b)An implementation and evaluation of the resilience techniques identified by Deliverable D5.1 utilising the AllScale API in the context of the pilot application.
On-Demand, On-Line Monitoring Infrastructure (b)An infrastructure for collecting and aggregating monitoring information within the runtime system.
AllScale system architecture (a)This deliverable will describe the detailed software architecture of the AllScale environment comprising all components, their interfaces and responsibilities.
Data management supportAn extended version of Deliverable D4.2 providing data management support and an adapted scheduler targeting high resource utilisation within distributed memory systems.
iPIC3D implicit particle-in-cell code for space weather applications preparation and evaluation (a)This deliverable describes the incremental preparation, deployment and validation of the iPIC3D pilot application.
Project dissemination and communication strategy and reporting (b)This deliverable will provide information about the project dissemination plans including the specification of the target dissemination groups, publication policy, event planning and marketing. AllScale will exploit popular web 2.0 channels and social media for further enhancing the project image. It is an ongoing deliverable with subsequent updated versions throughout the project lifetime.
Resilience PrimitivesAn API implementation for saving and restoring (local) recovery information and associated cost models and their documentation.
Multi-Objective Dynamic Optimiser (a)This Deliverable explores and utilises the capabilities of the other deliverables to research strategies to effectively steer applications towards fulfilling customisable trade-offs among (conflicting) objectives.
Dissemination materials and impact reporting strategyThis deliverable will provide information about additional AllScale dissemination materials to be produced in the project, such as project leaflets, posters, newsletters, calendar of events, etc. It will also include other dissemination support materials are required to give higher impact to the project as it progresses.
Requirement specifications and reports on external technological developments (a)This deliverable will describe requirements of the project with respect to the pilot applications and project objectives and specify benchmarks for performance eval-uations. Furthermore, it will identify external technological developments potentially influencing the project objectives and requirements.
Data management plan (b)This deliverable will contain an analysis of the main elements of the data management policy used by the applicants with regard to all data sets generated by the project. This will include a data set reference, name, description, standards, metadata, and management principles such as sharing, archiving and preservation.
Final project reportThis report will describe the overall achievements of the project.
Resilience ManagerA component identifying failures, estimating failure compensation costs and advising preparation and recovery operations to the runtime system scheduler. The deliverable will outline those techniques and provide an evaluation of those in the context of the AllScale pilot applications.
Requirement specifications and reports on external technological developments (b)This deliverable will describe requirements of the project with respect to the pilot applications and project objectives and specify benchmarks for performance evaluations. Furthermore, it will identify external technological developments potentially influencing the project objectives and requirements.
Application Specific Resilience StrategiesA comprehensive description of developed application specific resilience strategies to be applied on the AllScale pilot applications as well as an evaluation of their expected capabilities.
This deliverable will describe the project website comprising the main dissemination and exploitation channels for promoting and communicating the project, relevant activities and achievements. This deliverable also provides information about the AllScale project factsheet. The web site will also have a part acting as an active “blog of research”, where partners can put articles about intermediate results, events, etc. Periodically updates of the website, according to users’ evaluation session planned in dissemination will be carried out.
Publicaciones
Autores:
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
Publicado en:
The Journal of Supercomputing, Edición 74/4, 2018, Página(s) 1422-1434, ISSN 0920-8542
Editor:
Kluwer Academic Publishers
DOI:
10.1007/s11227-018-2238-4
Autores:
Peter Thoman, Peter Zangerl, Thomas Fahringer
Publicado en:
Journal of Signal Processing Systems, 2018, ISSN 1939-8018
Editor:
Springer Verlag
DOI:
10.1007/s11265-018-1356-9
Autores:
Giorgis Georgakoudis, Hans Vandierendonck, Peter Thoman, Bronis R. De Supinski, Thomas Fahringer, Dimitrios S. Nikolopoulos
Publicado en:
ACM Transactions on Architecture and Code Optimization, Edición 14/4, 2017, Página(s) 1-25, ISSN 1544-3566
Editor:
Association for Computing Machinary, Inc.
DOI:
10.1145/3158643
Autores:
Juan J. Durillo, Philipp Gschwandtner, Klaus Kofler, Thomas Fahringer
Publicado en:
Parallel Computing, 2018, ISSN 0167-8191
Editor:
Elsevier BV
DOI:
10.1016/j.parco.2018.03.010
Autores:
Emanuele Ragnoli, Mykhaylo Zayats, Fearghal O'Donncha, Sergiy Zhuk
Publicado en:
Journal of Computational Physics, Edición bimonthly, 2018, Página(s) In Press, ISSN 0021-9991
Editor:
Academic Press
DOI:
10.5281/zenodo.1462715
Autores:
Gillan, Charles; Novakovic, Aleksandar; Shyamsundar, Murali; Marshall, Adele H; Nikolopoulos, Dimitrios
Publicado en:
Journal of Computers in Biology and Medicine, Edición 1, 2018, ISSN 0010-4825
Editor:
Pergamon Press Ltd.
DOI:
10.5281/zenodo.1244669
Autores:
Roman Iakymchuk; Herbert Jordan; Philipp Gschwandtner; Thomas Heller; Peter Thoman; Xavier Aguilar; Thomas Fahringer; Erwin Laure; Stefano Markidis
Publicado en:
Exascale Applications and Software Conference (EASC2018), 2018
Editor:
University of Edinburgh
DOI:
10.5281/zenodo.1119103
Autores:
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
Publicado en:
In: Wyrzykowski R., Dongarra J., Deelman E., Karczewski K. (eds) Parallel Processing and Applied Mathematics. PPAM 2017. Lecture Notes in Computer Science, Edición 10778, 2017
Editor:
Zenodo Preprint/ Springer LNCS
DOI:
10.5281/zenodo.1162306
Autores:
Pham, Thanh-Phuong; Ristov, Sasko; Fahringer, Thomas
Publicado en:
Edición 4, 2018
Editor:
IEEE computer society
DOI:
10.5281/zenodo.1310921
Autores:
Zangerl, Peter; Jordan, Herbert; Thoman, Peter; Gschwandtner, Philipp; Fahringer, Thomas
Publicado en:
Edición 2, 2018
Editor:
Zenodo
DOI:
10.5281/zenodo.1309474
Autores:
Jordan, Herbert; Heller, Thomas; Gschwandtner, Philipp; Zangerl, Peter; Thoman, Peter; Fey, Dietmar; Fahringer, Thomas
Publicado en:
Edición 2, 2018
Editor:
Zenodo
DOI:
10.5281/zenodo.1322420
Autores:
Peter Zangerl, Peter Thoman, Thomas Fahringer
Publicado en:
2017 25th Euromicro International Conference on Parallel, Distributed and Network-based Processing (PDP), 2017, Página(s) 209-213, ISBN 978-1-5090-6058-0
Editor:
IEEE
DOI:
10.1109/PDP.2017.77
Autores:
Peter Thoman, Peter Zangerl, Thomas Fahringer
Publicado en:
Proceedings of the Computing Frontiers Conference on ZZZ - CF'17, 2017, Página(s) 201-210, ISBN 9781-450344876
Editor:
ACM Press
DOI:
10.1145/3075564.3075574
Autores:
Klaus Kofler, Juan J. Durillo, Philipp Gschwandtner, Thomas Fahringer
Publicado en:
2017 46th International Conference on Parallel Processing Workshops (ICPPW), 2017, Página(s) 190-199, ISBN 978-1-5386-1044-2
Editor:
IEEE
DOI:
10.1109/ICPPW.2017.37
Autores:
Akhriev, Albert; Gschwandtner, Philipp; Jordan, Herbert; O'Donncha, Fearghal
Publicado en:
MTS/IEEE Oceans 2018, Edición 1, 2018, Página(s) 1-7
Editor:
IEEE
DOI:
10.5281/zenodo.1346169
Autores:
Kiril Dichev, Kirk Cameron, Dimitrios S. Nikolopoulos
Publicado en:
Proceedings of the 25th European MPI Users' Group Meeting on - EuroMPI'18, 2018, Página(s) 1-11, ISBN 9781-450364928
Editor:
ACM Press
DOI:
10.1145/3236367.3236379
Autores:
Peter Thoman; Peter Zangerl; Thomas Fahringer
Publicado en:
25th Euromicro International Conference on Parallel, Distributed and Network-based Processing, Edición 1, 2017
Editor:
CPS
DOI:
10.5281/zenodo.375519
Autores:
Bernhard Scholz, Herbert Jordan, Pavle Subotić, Till Westmann
Publicado en:
Proceedings of the 25th International Conference on Compiler Construction - CC 2016, 2016, Página(s) 196-206, ISBN 9781-450342414
Editor:
ACM Press
DOI:
10.1145/2892208.2892226
Autores:
Thomas Fahringer; Thomas Heller; Peter Thoman; Herbert Jordan; Peter Zangerl
Publicado en:
5th International Workshop on Multicore Software Engineering (IWMSE 2016), Edición 2, 2016
Editor:
Springer Verlag
DOI:
10.5281/zenodo.345835
Autores:
Jordan, Herbert; Scholz, Bernhard; Subotić, Pavle
Publicado en:
International Conference on Computer Aided Verification, CAV 2016, Edición 2, 2016
Editor:
Springer LNCS
DOI:
10.1007/978-3-319-41540-6_23
Autores:
Fearghal O'Donncha, Srikumar Venugopal, Scott C. James, Emanuele Ragnoli
Publicado en:
OCEANS 2016 MTS/IEEE Monterey, Edición 1, 2016, Página(s) 1-7, ISBN 978-1-5090-1537-5
Editor:
IEEE
DOI:
10.1109/OCEANS.2016.7761131
Autores:
Iakymchuk, Roman; Jordan, Herbert; Bo Peng, Ivy; Markidis, Stefano; Laure, Erwin
Publicado en:
Exascale Applications and Software Conference (EASC2016), 2016
Editor:
KTH Diva
Autores:
Kiril Dichev, Dimitrios S. Nikolopoulos
Publicado en:
2016 IEEE International Conference on Cluster Computing (CLUSTER), 2016, Página(s) 506-514, ISBN 978-1-5090-3653-0
Editor:
IEEE
DOI:
10.1109/CLUSTER.2016.99
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