作者
Steven A Niederer, Eric Kerfoot, Alan P Benson, Miguel O Bernabeu, Olivier Bernus, Chris Bradley, Elizabeth M Cherry, Richard Clayton, Flavio H Fenton, Alan Garny, Elvio Heidenreich, Sander Land, Mary Maleckar, Pras Pathmanathan, Gernot Plank, José F Rodríguez, Ishani Roy, Frank B Sachse, Gunnar Seemann, Ola Skavhaug, Nic P Smith
发表日期
2011/11/13
期刊
Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences
卷号
369
期号
1954
页码范围
4331-4351
出版商
The Royal Society Publishing
简介
Ongoing developments in cardiac modelling have resulted, in particular, in the development of advanced and increasingly complex computational frameworks for simulating cardiac tissue electrophysiology. The goal of these simulations is often to represent the detailed physiology and pathologies of the heart using codes that exploit the computational potential of high-performance computing architectures. These developments have rapidly progressed the simulation capacity of cardiac virtual physiological human style models; however, they have also made it increasingly challenging to verify that a given code provides a faithful representation of the purported governing equations and corresponding solution techniques. This study provides the first cardiac tissue electrophysiology simulation benchmark to allow these codes to be verified. The benchmark was successfully evaluated on 11 simulation platforms to …
引用总数
学术搜索中的文章
SA Niederer, E Kerfoot, AP Benson, MO Bernabeu… - Philosophical Transactions of the Royal Society A …, 2011