OpenMM
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This class uses the Andersen method to maintain constant temperature. More...
Public Member Functions | |
def | Temperature |
Temperature() -> std::string const &. More... | |
def | CollisionFrequency |
CollisionFrequency() -> std::string const &. More... | |
def | getDefaultTemperature |
getDefaultTemperature(AndersenThermostat self) -> double More... | |
def | setDefaultTemperature |
setDefaultTemperature(AndersenThermostat self, double temperature) More... | |
def | getDefaultCollisionFrequency |
getDefaultCollisionFrequency(AndersenThermostat self) -> double More... | |
def | setDefaultCollisionFrequency |
setDefaultCollisionFrequency(AndersenThermostat self, double frequency) More... | |
def | getRandomNumberSeed |
getRandomNumberSeed(AndersenThermostat self) -> int More... | |
def | setRandomNumberSeed |
setRandomNumberSeed(AndersenThermostat self, int seed) More... | |
def | __init__ |
init(OpenMM::AndersenThermostat self, double defaultTemperature, double defaultCollisionFrequency) -> AndersenThermostat init(OpenMM::AndersenThermostat self, AndersenThermostat other) -> AndersenThermostat More... | |
def | __del__ |
del(OpenMM::AndersenThermostat self) More... | |
Public Member Functions inherited from Force | |
def | __init__ |
def | __del__ |
del(OpenMM::Force self) More... | |
def | getForceGroup |
getForceGroup(Force self) -> int More... | |
def | setForceGroup |
setForceGroup(Force self, int group) More... | |
def | __copy__ |
def | __deepcopy__ |
Public Attributes | |
this | |
This class uses the Andersen method to maintain constant temperature.
def __init__ | ( | self, | |
args | |||
) |
init(OpenMM::AndersenThermostat self, double defaultTemperature, double defaultCollisionFrequency) -> AndersenThermostat init(OpenMM::AndersenThermostat self, AndersenThermostat other) -> AndersenThermostat
Create an AndersenThermostat.
defaultTemperature | the default temperature of the heat bath (in Kelvin) |
defaultCollisionFrequency | the default collision frequency (in 1/ps) |
References simtk.openmm.openmm.stripUnits().
def __del__ | ( | self | ) |
del(OpenMM::AndersenThermostat self)
References simtk.openmm.openmm.stripUnits().
def CollisionFrequency | ( | ) |
CollisionFrequency() -> std::string const &.
This is the name of the parameter which store the current collision frequency (in 1/ps).
References simtk.openmm.openmm.stripUnits().
def getDefaultCollisionFrequency | ( | self | ) |
getDefaultCollisionFrequency(AndersenThermostat self) -> double
Get the default collision frequency (in 1/ps).
References simtk.openmm.openmm.stripUnits().
def getDefaultTemperature | ( | self | ) |
getDefaultTemperature(AndersenThermostat self) -> double
Get the default temperature of the heat bath (in Kelvin).
References simtk.openmm.openmm.stripUnits().
def getRandomNumberSeed | ( | self | ) |
getRandomNumberSeed(AndersenThermostat self) -> int
Get the random number seed. See setRandomNumberSeed() for details.
References simtk.openmm.openmm.stripUnits().
def setDefaultCollisionFrequency | ( | self, | |
args | |||
) |
setDefaultCollisionFrequency(AndersenThermostat self, double frequency)
Set the default collision frequency. This will affect any new Contexts you create, but not ones that already exist.
frequency | the default collision frequency (in 1/ps) |
References simtk.openmm.openmm.stripUnits().
def setDefaultTemperature | ( | self, | |
args | |||
) |
setDefaultTemperature(AndersenThermostat self, double temperature)
Set the default temperature of the heat bath. This will affect any new Contexts you create, but not ones that already exist.
temperature | the default temperature of the heat bath (in Kelvin) |
References simtk.openmm.openmm.stripUnits().
def setRandomNumberSeed | ( | self, | |
args | |||
) |
setRandomNumberSeed(AndersenThermostat self, int 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 collisions 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.
References simtk.openmm.openmm.stripUnits().
def Temperature | ( | ) |
Temperature() -> std::string const &.
This is the name of the parameter which stores the current temperature of the heat bath (in Kelvin).
References simtk.openmm.openmm.stripUnits().
this |