The Simulations

Scientific Computation with a WebGL 2.0 Backend

Fast AF Simulation in 2D

See Reference (2). Massively parallelized atrial fibrillation simulation on a 3D atrium mesh with free boundary conditions. Currently able to output spiral tip trajectories in small '.csv' according to RAM limitations.

Fast AF Simulation in 3D

See Reference (3). Massively parallelized atrial fibrillation simulation on a 3D atrium mesh. Currently not able to output robust spiral tip trajectories.

References

  1. Kaboudian A., Cherry E., Fenton F., Real-time interactive simulations of large-scale systems on personal computers and cell phones: Toward patient-specific heart modeling and other applications. Sci. Adv. 2019;5:eaav6019
  2. F. H. Fenton, E. M. Cherry, H. M. Hastings, S. J. Evans, Real-time computer simulations of excitable media: JAVA as a scientific language and as a wrapper for C and FORTRAN programs. Biosystems 64, 73–96 (2002).9
  3. D. M. Lombardo, F. H. Fenton, S. M. Narayan, W.-J. Rappel, Comparison of detailed and simplified models of human atrial myocytes to recapitulate patient specific properties. PLOS Comput. Biol. 12, e1005060 (2016).

Disclaimer

Users of this simulation are cautioned that the simulation author is not providing medical, clinical, or other professional advice and to use their own professional judgement and consult any other necessary or appropriate sources prior to making clinical judgements.