Result Details
Running Large-Scale Ultrasound Simulations on Piz Daint with 512 Pascal GPUs
Ultrasound simulation is a critical component of model-based treatment planning for ultrasound therapy. However, the domains are typically thousands of wavelengths in size, leading to large-scale numerical models with 10s of billions of unknowns. This paper presents a novel local Fourier basis domain decomposition for full-wave ultrasound propagation simulations with a custom bell function which ensures that the numerical error stays below 0.1% while enabling almost ideal strong scaling. Realistic benchmarks with 512 Nvidia P100 GPUs in the best EU supercomputer Piz Daint achieved efficiency between 90 and 100% with a speed-up over 100 and computational cost reduction by a factor of 12 compared to 1024 Haswell cores.
Local domain decomposition, k-Wave toolbox, GPU
@misc{BUT168711,
author="Filip {Vaverka} and Bradley {Treeby} and Jiří {Jaroš}",
title="Running Large-Scale Ultrasound Simulations on Piz Daint with 512 Pascal GPUs",
year="2017",
pages="1--1",
address="Denver",
url="https://www.fit.vut.cz/research/publication/11774/"
}Photoacoustic/Ultrasound Mammoscopy for evaluating screening-detected lesions in the breast, MŠMT, Společná technologická iniciativa ECSEL, PAMMOTH, start: 2017-01-01, end: 2021-06-30, completed