The PEPPHER approach to programmability and performance portability for heterogeneous many-core architectures
Paper in proceeding, 2012

The European FP7 project PEPPHER is addressing programmability and performance portability for current and emerging heterogeneous many-core architectures. As its main idea, the project proposes a multi-level parallel execution model comprised of potentially parallelized components existing in variants suitable for different types of cores, memory configurations, input characteristics, optimization criteria, and couples this with dynamic and static resource and architecture aware scheduling mechanisms. Crucial to PEPPHER is that components can be made performance aware, allowing for more efficient dynamic and static scheduling on the concrete, available resources. The flexibility provided in the software model, combined with a customizable, heterogeneous, memory and topology aware run-time system is key to efficiently exploiting the resources of each concrete hardware configuration. The project takes a holistic approach, relying on existing paradigms, interfaces, and languages for the parallelization of components, and develops a prototype framework, a methodology for extending the framework, and guidelines for constructing performance portable software and systems-including paths to migration of existing software-for heterogeneous many-core processors. This paper gives a high-level project overview, and presents a specific example showing how the PEPPHER component variant model and resource-aware run-time system enable performance portability of a numerical kernel. © 2012 The authors and IOS Press. All rights reserved.

Programmability

performance portability

heterogeneous architectures

Author

S. Benkner

University of Vienna

S. Pllana

Research Group of Scientific Computing

University of Vienna

J. Larsson Träff

University of Vienna

Philippas Tsigas

Chalmers, Computer Science and Engineering (Chalmers), Networks and Systems (Chalmers)

A. Richards

Codeplay Software Ltd

R. Namyst

University of Bordeaux

B. Bachmayer

Intel Corporation

C. Kessler

Linköping University

D. Moloney

Movidius Ltd

P. Sanders

Karlsruhe Institute of Technology (KIT)

Advances in Parallel Computing

0927-5452 (ISSN) 1879-808X (eISSN)

Vol. 22 361-368

Subject Categories

Computer and Information Science

Computer Science

DOI

10.3233/978-1-61499-041-3-361

More information

Latest update

4/4/2024 1