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arxiv: 2405.19994 · v1 · pith:5WMLTXXN · submitted 2024-05-30 · math.NA · cs.NA

High-order parallel-in-time method for the monodomain equation in cardiac electrophysiology

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classification math.NA cs.NA
keywords methodparallel-in-timecardiaccomputationalequationhigh-ordermethodsmonodomain
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Simulation of the monodomain equation, crucial for modeling the heart's electrical activity, faces scalability limits when traditional numerical methods only parallelize in space. To optimize the use of large multi-processor computers by distributing the computational load more effectively, time parallelization is essential. We introduce a high-order parallel-in-time method addressing the substantial computational challenges posed by the stiff, multiscale, and nonlinear nature of cardiac dynamics. Our method combines the semi-implicit and exponential spectral deferred correction methods, yielding a hybrid method that is extended to parallel-in-time employing the PFASST framework. We thoroughly evaluate the stability, accuracy, and robustness of the proposed parallel-in-time method through extensive numerical experiments, using practical ionic models such as the ten-Tusscher-Panfilov. The results underscore the method's potential to significantly enhance real-time and high-fidelity simulations in biomedical research and clinical applications.

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