In this study, the feasibility of conducting in silico experiments in near-realtime with anatomically realistic, biophysically detailed models of human cardiac electrophysiology is demonstrated using a current national high-performance computing facility. The required performance is achieved by integrating and optimizing load balancing and parallel I/O, which lead to strongly scalable simulations up to 16,384 compute cores. This degree of parallelization enables computer simulations of human cardiac electrophysiology at 240 times slower than real time and activation times can be simulated in approximately 1 min. This unprecedented speed suffices requirements for introducing in silico experimentation into a clinical workflow
Copyright © 2012 Bruno Gouvêa de Barros et al. This is an open access article distributed under the...
Computer models capable of representing the intrinsic personal electrophysiology (EP) of the heart i...
International audienceGiven the opportunity to use a new cluster computer with over a quarter millio...
In this study, the feasibility of conducting in silico experiments in near-realtime with anatomicall...
Cardiovascular diseases are the leading cause of death worldwide, and are estimated to kill over 17 ...
Cardiac electrophysiological simulations are computationally intensive tasks. The growing complexity...
Anatomically realistic and biophysically detailed multiscale computer models of the heart are playin...
This is the author accepted manuscript.The BeatBox simulation environment combines flexible script l...
Numerical simulations of cellular membranes are useful for both basic science and increasingly for c...
International audienceIn this work, we develop an interactive framework for rehearsal and training i...
There is a clear need for improved methods (e.g. computer modelling, imaging) to characterize the su...
The BeatBox simulation environment combines flexible script language user interface with the robust ...
Heart rhythm disorders are a leading contributor to morbidity and mortality in the industrial-ized w...
International audienceThis work aims at developing a training simulator for interventional radiology...
We show that through careful and model-specific optimizations of their GPU implementations, simulati...
Copyright © 2012 Bruno Gouvêa de Barros et al. This is an open access article distributed under the...
Computer models capable of representing the intrinsic personal electrophysiology (EP) of the heart i...
International audienceGiven the opportunity to use a new cluster computer with over a quarter millio...
In this study, the feasibility of conducting in silico experiments in near-realtime with anatomicall...
Cardiovascular diseases are the leading cause of death worldwide, and are estimated to kill over 17 ...
Cardiac electrophysiological simulations are computationally intensive tasks. The growing complexity...
Anatomically realistic and biophysically detailed multiscale computer models of the heart are playin...
This is the author accepted manuscript.The BeatBox simulation environment combines flexible script l...
Numerical simulations of cellular membranes are useful for both basic science and increasingly for c...
International audienceIn this work, we develop an interactive framework for rehearsal and training i...
There is a clear need for improved methods (e.g. computer modelling, imaging) to characterize the su...
The BeatBox simulation environment combines flexible script language user interface with the robust ...
Heart rhythm disorders are a leading contributor to morbidity and mortality in the industrial-ized w...
International audienceThis work aims at developing a training simulator for interventional radiology...
We show that through careful and model-specific optimizations of their GPU implementations, simulati...
Copyright © 2012 Bruno Gouvêa de Barros et al. This is an open access article distributed under the...
Computer models capable of representing the intrinsic personal electrophysiology (EP) of the heart i...
International audienceGiven the opportunity to use a new cluster computer with over a quarter millio...