We present Mexie, an extensible and scalable software solution for distributed multi-scale muscle simulations in a hybrid MPI–CUDA environment. Since muscle contraction relies on the integration of physical and biochemical properties across multiple length and time scales, these models are highly processor and memory intensive. Existing parallelization efforts for accelerating multi-scale muscle simulations imply the usage of expensive large-scale computational resources, which produces overwhelming costs for the everyday practical application of such models. In order to improve the computational speed within a reasonable budget, we introduce the concept of distributed calculations of multi-scale muscle models in a mixed CPU–GPU environment...
Greater than one in three American adults have at least one type of cardiovascular disease, a major ...
International audiencePerforming physiologically relevant simulations of the beating heart in clinic...
Multiscale simulations are essential in the biomedical domain to accurately model human physiology. ...
Realistic simulations of detailed, biophysics-based, multi-scale models often require very high reso...
Since multi-scale models of muscles rely on the integration of physical and biochemical properties a...
Simulation of skeletal muscle activation can help to interpret electromyographic measurements and in...
We introduce a software tool to simulate multiscale models: the Multiscale Coupling Library and Envi...
AbstractWe present the Multiscale Coupling Library and Environment: MUSCLE 2. This multiscale compon...
This PhD thesis deals with the mathematical description of the micro-scale muscle contraction mechan...
AbstractWe introduce a software tool to simulate multiscale models: the Multiscale Coupling Library ...
Multiscale models combine knowledge, data, and hypotheses from different scales. Simulating a multis...
This paper deals with the decrease in CPU time necessary for simulating multibody systems by massive...
Molecular dynamics (MD) is a powerful computer simulation technique providing atomistic resolution a...
MUSCLE3 0.6.0 MUSCLE3 is the third incarnation of the Multiscale Coupling Library and Environment, a...
Greater than one in three American adults have at least one type of cardiovascular disease, a major ...
International audiencePerforming physiologically relevant simulations of the beating heart in clinic...
Multiscale simulations are essential in the biomedical domain to accurately model human physiology. ...
Realistic simulations of detailed, biophysics-based, multi-scale models often require very high reso...
Since multi-scale models of muscles rely on the integration of physical and biochemical properties a...
Simulation of skeletal muscle activation can help to interpret electromyographic measurements and in...
We introduce a software tool to simulate multiscale models: the Multiscale Coupling Library and Envi...
AbstractWe present the Multiscale Coupling Library and Environment: MUSCLE 2. This multiscale compon...
This PhD thesis deals with the mathematical description of the micro-scale muscle contraction mechan...
AbstractWe introduce a software tool to simulate multiscale models: the Multiscale Coupling Library ...
Multiscale models combine knowledge, data, and hypotheses from different scales. Simulating a multis...
This paper deals with the decrease in CPU time necessary for simulating multibody systems by massive...
Molecular dynamics (MD) is a powerful computer simulation technique providing atomistic resolution a...
MUSCLE3 0.6.0 MUSCLE3 is the third incarnation of the Multiscale Coupling Library and Environment, a...
Greater than one in three American adults have at least one type of cardiovascular disease, a major ...
International audiencePerforming physiologically relevant simulations of the beating heart in clinic...
Multiscale simulations are essential in the biomedical domain to accurately model human physiology. ...