Hager G, Kreutzer M, Shahzad F, Wellein G (2014)
Publication Language: English
Publication Type: Book chapter / Article in edited volumes
Publication year: 2014
Publisher: SpringerLink
Edited Volumes: Euro-Par 2014: Parallel Processing Workshops
Series: Lecture Notes in Computer Science
City/Town: Lecture Notes in Computer Science
Book Volume: 8806
Pages Range: 577-588
ISBN: 9783319143125
URI: http://link.springer.com/chapter/10.1007/978-3-319-14313-2_49
The ESSEX project investigates computational issues arising at exascale for large-scale sparse eigenvalue problems and develops programming concepts and numerical methods for their solution. The project pursues a coherent co-design of all software layers where a holistic performance engineering process guides code development across the classic boundaries of application, numerical method, and basic kernel library. Within ESSEX the numerical methods cover widely applicable solvers such as classic Krylov, Jacobi-Davidson, or the recent FEAST methods, as well as domain-specific iterative schemes relevant for the ESSEX quantum physics application. This report introduces the project structure and presents selected results which demonstrate the potential impact of ESSEX for efficient sparse solvers on highly scalable heterogeneous supercomputers.
APA:
Hager, G., Kreutzer, M., Shahzad, F., & Wellein, G. (2014). ESSEX: Equipping Sparse Solvers for Exascale. In Euro-Par 2014: Parallel Processing Workshops. (pp. 577-588). Lecture Notes in Computer Science: SpringerLink.
MLA:
Hager, Georg, et al. "ESSEX: Equipping Sparse Solvers for Exascale." Euro-Par 2014: Parallel Processing Workshops. Lecture Notes in Computer Science: SpringerLink, 2014. 577-588.
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