2nd International Workshop on Performance Portable Programming Models for Accelerators (P^3MA)

Frankfurt, Germany
June 22, 2017

KEYNOTE

Thursday 22 June 2017 ISC'17

David E. Keyes, KAUST

Algorithmic and Programming Model Pillars for Emerging Architectures

David KeyesAlgorithmic adaptations to use next-generation computers closer to their potential are underway. Instead of squeezing out flops – the traditional goal of algorithmic optimality, which once served as a reasonable proxy for all associated costs – algorithms must now squeeze synchronizations, memory, and data transfers, while extra flops on locally cached data represent only small costs in time and energy. After decades of programming model stability with bulk synchronous processing, new programming models and new algorithmic capabilities (to make forays into, e.g., data assimilation, inverse problems, and uncertainty quantification) must be co-designed with the hardware. We briefly recap the architectural constraints and application opportunities.  We then concentrate on two types of tasks each of occupies a large portion of all scientific computing cycles: large dense symmetric/Hermitian systems (covariances, Hamiltonians, Hessians, Schur complements) and large sparse Poisson/Helmholtz systems (solids, fluids, electromagnetism, radiation diffusion, gravitation).  We examine progress in porting solvers for these tasks to the hybrid distributed-shared programming environment, including the GPU and the MIC architectures that make up the cores of the top scientific systems on the floor and on the books.

David Keyes is the director of the Extreme Computing Research Center at King Abdullah University of Science and Technology, where he was a founding dean in 2009, and an adjoint professor of applied mathematics at Columbia University. Keyes earned his BSE in Aerospace and Mechanical Engineering from Princeton and his PhD in Applied Mathematics from Harvard. He works at the algorithmic interface between parallel computing and the numerical analysis of partial differential equations.  He is a Fellow of SIAM and AMS and has received the AMC Gordon Bell Prize and the IEEE Sidney Fernbach Award.