DrudeLangevinIntegrator¶
- class openmm.openmm.DrudeLangevinIntegrator(*args)¶
This Integrator simulates systems that include Drude particles. It applies two different Langevin thermostats to different parts of the system. The first is applied to ordinary particles (ones that are not part of a Drude particle pair), as well as to the center of mass of each Drude particle pair. A second thermostat, typically with a much lower temperature, is applied to the relative internal displacement of each pair.
This integrator can optionally set an upper limit on how far any Drude particle is ever allowed to get from its parent particle. This can sometimes help to improve stability. The limit is enforced with a hard wall constraint.
This Integrator requires the System to include a DrudeForce, which it uses to identify the Drude particles.
- __init__(self, temperature, frictionCoeff, drudeTemperature, drudeFrictionCoeff, stepSize) → DrudeLangevinIntegrator¶
- __init__(self, other) → DrudeLangevinIntegrator
Create a DrudeLangevinIntegrator.
- Parameters
temperature (double) – the temperature of the main heat bath (in Kelvin)
frictionCoeff (double) – the friction coefficient which couples the system to the main heat bath (in inverse picoseconds)
drudeTemperature (double) – the temperature of the heat bath applied to internal coordinates of Drude particles (in Kelvin)
drudeFrictionCoeff (double) – the friction coefficient which couples the system to the heat bath applied to internal coordinates of Drude particles (in inverse picoseconds)
stepSize (double) – the step size with which to integrator the system (in picoseconds)
Methods
__init__
(-> DrudeLangevinIntegrator)Create a DrudeLangevinIntegrator.
getConstraintTolerance
(self)Get the distance tolerance within which constraints are maintained, as a fraction of the constrained distance.
getDrudeFriction
(self)Get the friction coefficient which determines how strongly the internal coordinates of Drude particles are coupled to the heat bath (in inverse ps).
getDrudeTemperature
(self)Get the temperature of the heat bath applied to internal coordinates of Drude particles (in Kelvin).
getFriction
(self)Get the friction coefficient which determines how strongly the system is coupled to the main heat bath (in inverse ps).
Get which force groups to use for integration.
getMaxDrudeDistance
(self)Get the maximum distance a Drude particle can ever move from its parent particle, measured in nm.
getRandomNumberSeed
(self)Get the random number seed.
getStepSize
(self)Get the size of each time step, in picoseconds.
getTemperature
(self)Get the temperature of the main heat bath (in Kelvin).
setConstraintTolerance
(self, tol)Set the distance tolerance within which constraints are maintained, as a fraction of the constrained distance.
setDrudeFriction
(self, coeff)Set the friction coefficient which determines how strongly the internal coordinates of Drude particles are coupled to the heat bath (in inverse ps).
setDrudeTemperature
(self, temp)Set the temperature of the heat bath applied to internal coordinates of Drude particles (in Kelvin).
setFriction
(self, coeff)Set the friction coefficient which determines how strongly the system is coupled to the main heat bath (in inverse ps).
setIntegrationForceGroups
(groups)Set which force groups to use for integration.
setMaxDrudeDistance
(self, distance)Set the maximum distance a Drude particle can ever move from its parent particle, measured in nm.
setRandomNumberSeed
(self, seed)Set the random number seed.
setStepSize
(self, size)Set the size of each time step, in picoseconds.
setTemperature
(self, temp)Set the temperature of the main heat bath (in Kelvin).
step
(self, steps)Advance a simulation through time by taking a series of time steps.
Attributes
The membership flag
- property thisown¶
The membership flag
- getTemperature(self) → double¶
Get the temperature of the main heat bath (in Kelvin).
- Returns
the temperature of the heat bath, measured in Kelvin
- Return type
double
- setTemperature(self, temp)¶
Set the temperature of the main heat bath (in Kelvin).
- Parameters
temp (double) – the temperature of the heat bath, measured in Kelvin
- getFriction(self) → double¶
Get the friction coefficient which determines how strongly the system is coupled to the main heat bath (in inverse ps).
- Returns
the friction coefficient, measured in 1/ps
- Return type
double
- setFriction(self, coeff)¶
Set the friction coefficient which determines how strongly the system is coupled to the main heat bath (in inverse ps).
- Parameters
coeff (double) – the friction coefficient, measured in 1/ps
- getDrudeFriction(self) → double¶
Get the friction coefficient which determines how strongly the internal coordinates of Drude particles are coupled to the heat bath (in inverse ps).
- Returns
the friction coefficient, measured in 1/ps
- Return type
double
- setDrudeFriction(self, coeff)¶
Set the friction coefficient which determines how strongly the internal coordinates of Drude particles are coupled to the heat bath (in inverse ps).
- Parameters
coeff (double) – the friction coefficient, measured in 1/ps
- step(self, steps)¶
Advance a simulation through time by taking a series of time steps.
- Parameters
steps (int) – the number of time steps to take
- getConstraintTolerance(self) → double¶
Get the distance tolerance within which constraints are maintained, as a fraction of the constrained distance.
- getDrudeTemperature(self) → double¶
Get the temperature of the heat bath applied to internal coordinates of Drude particles (in Kelvin).
- Returns
the temperature of the heat bath, measured in Kelvin
- Return type
double
- getIntegrationForceGroups(self) → int¶
Get which force groups to use for integration. By default, all force groups are included. This is interpreted as a set of bit flags: the forces from group i will be included if (groups&(1<<i)) != 0.
- getMaxDrudeDistance(self) → double¶
Get the maximum distance a Drude particle can ever move from its parent particle, measured in nm. This is implemented with a hard wall constraint. If this distance is set to 0 (the default), the hard wall constraint is omitted.
- getRandomNumberSeed(self) → int¶
Get the random number seed. See setRandomNumberSeed() for details.
- getStepSize(self) → double¶
Get the size of each time step, in picoseconds. If this integrator uses variable time steps, the size of the most recent step is returned.
- Returns
the step size, measured in ps
- Return type
double
- setConstraintTolerance(self, tol)¶
Set the distance tolerance within which constraints are maintained, as a fraction of the constrained distance.
- setDrudeTemperature(self, temp)¶
Set the temperature of the heat bath applied to internal coordinates of Drude particles (in Kelvin).
- Parameters
temp (double) – the temperature of the heat bath, measured in Kelvin
- setIntegrationForceGroups(groups)¶
Set which force groups to use for integration. By default, all force groups are included.
- Parameters
groups (set or int) – a set of indices for which force groups to include when integrating the equations of motion. Alternatively, the groups can be passed as a single unsigned integer interpreted as a bitmask, in which case group i will be included if (groups&(1<<i)) != 0.
- setMaxDrudeDistance(self, distance)¶
Set the maximum distance a Drude particle can ever move from its parent particle, measured in nm. This is implemented with a hard wall constraint. If this distance is set to 0 (the default), the hard wall constraint is omitted.
- setRandomNumberSeed(self, seed)¶
Set the random number seed. The precise meaning of this parameter is undefined, and is left up to each Platform to interpret in an appropriate way. It is guaranteed that if two simulations are run with different random number seeds, the sequence of random forces will be different. On the other hand, no guarantees are made about the behavior of simulations that use the same seed. In particular, Platforms are permitted to use non-deterministic algorithms which produce different results on successive runs, even if those runs were initialized identically.
If seed is set to 0 (which is the default value assigned), a unique seed is chosen when a Context is created from this Force. This is done to ensure that each Context receives unique random seeds without you needing to set them explicitly.
- setStepSize(self, size)¶
Set the size of each time step, in picoseconds. If this integrator uses variable time steps, the effect of calling this method is undefined, and it may simply be ignored.
- Parameters
size (double) – the step size, measured in ps