VariableVerletIntegrator¶

class
OpenMM::
VariableVerletIntegrator
¶ This is an error contolled, variable time step
Integrator
that simulates aSystem
using the leapfrog Verlet algorithm. It compares the result of the Verlet integrator to that of an explicit Euler integrator, takes the difference between the two as a measure of the integration error in each time step, and continuously adjusts the step size to keep the error below a specified tolerance. This both improves the stability of the integrator and allows it to take larger steps on average, while still maintaining comparable accuracy to a fixed step size integrator.It is best not to think of the error tolerance as having any absolute meaning. It is just an adjustable parameter that affects the step size and integration accuracy. You should try different values to find the largest one that produces a trajectory sufficiently accurate for your purposes. 0.001 is often a good starting point.
Unlike a fixed step size Verlet integrator, variable step size Verlet is not symplectic. This means that at a given accuracy level, energy is not as precisely conserved over long time periods. This makes it most appropriate for constant temperate simulations. In constant energy simulations where precise energy conservation over long time periods is important, a fixed step size Verlet integrator may be more appropriate.
Methods
VariableVerletIntegrator
Create a VariableVerletIntegrator
.getErrorTolerance
Get the error tolerance. setErrorTolerance
Set the error tolerance. step
Advance a simulation through time by taking a series of time steps. stepTo
Advance a simulation through time by taking a series of steps until a specified time is reached. 
VariableVerletIntegrator
(double errorTol)¶ Create a
VariableVerletIntegrator()
.Parameters:  errorTol – the error tolerance

double
getErrorTolerance
() const¶ Get the error tolerance.

void
setErrorTolerance
(double tol)¶ Set the error tolerance.

void
step
(int steps)¶ Advance a simulation through time by taking a series of time steps.
Parameters:  steps – the number of time steps to take

void
stepTo
(double time)¶ Advance a simulation through time by taking a series of steps until a specified time is reached. When this method returns, the simulation time will exactly equal the time which was specified. If you call this method and specify a time that is earlier than the current time, it will return without doing anything.
Parameters:  time – the time to which the simulation should be advanced
