Accelerating the Simulations of Cardiac Arrhythmia with a Second-Order Numerical Method and High-Performance Computing.
Guilherme Martins CoutoNoemi Zeraick MonteiroBernardo Martins RochaRodrigo Weber dos SantosPublished in: ICCSA (Workshops 9) (2023)
Keyphrases
- high performance computing
- numerical methods
- molecular dynamics
- heart disease
- scientific computing
- ecg signals
- differential equations
- massively parallel
- cardiac arrhythmias
- heart rate variability
- computational science
- parallel computing
- computing systems
- boundary element method
- partial differential equations
- grid computing
- computing resources
- fault tolerance
- finite element method
- energy efficiency
- numerical simulations
- higher order
- computing environments
- high order
- level set method
- formal methods
- load balancing
- active contours
- digital libraries