Oxford e-Research Centre
March 8, 2017 – 13:00 to 14:00
Conference room 278
7 Keble Road, Oxford, OX1 3QG
Seminar No booking required Open to all Many-Core Series Lunch provided
The Centre’s Research Software Engineer Ania Brown will be presenting a seminar, Towards Achieving GPU-Native Adaptive Mesh Refinement, as part of the Many-Core Series.
Abstract
Modern simulations model increasingly complex multiscale systems, and the need to capture details at multiple length scales can lead to large memory requirements. Adaptive mesh refinement is a method for reducing memory cost by varying the accuracy in each region to match the physical characteristics of the simulation, at the cost of increased data structure complexity. This complexity is a particular problem on the GPU architecture, which is most naturally suited to regular data sets.
Ania will describe some of the optimisation and software challenges that need to be considered when implementing AMR on GPUs, based on her experience working on a GPU-native framework for stencil calculations on a tree-based adaptively refined mesh as part of her Master’s degree. Topics covered will include achieving coalesced access with the AMR data structure, memory defragmentation after grid changes and load balancing using space-filling curves.
About the speaker
Ania is a research software engineer at the Oxford e-Research Centre. Her research interests are a combination of performance optimisation for large scale scientific simulation and software development methodology to improve the quality of such codes. She received her Master’s degree from the Tokyo Institute of Technology in 2015.