openmmtools.testsystems.DipolarFluid¶
- class openmmtools.testsystems.DipolarFluid(*args, **kwargs)[source]¶
Examples
Create a dipolar fluid.
>>> test = DipolarFluid() >>> system, positions = test.system, test.positions
- Attributes:
analytical_properties
A list of available analytical properties, accessible via ‘get_propertyname(thermodynamic_state)’ calls.
mdtraj_topology
The mdtraj.Topology object corresponding to the test system (read-only).
name
The name of the test system.
positions
The openmm.unit.Quantity object containing the particle positions, with units compatible with openmm.unit.nanometers.
system
The openmm.System object corresponding to the test system.
topology
The openmm.app.Topology object corresponding to the test system.
Methods
get_potential_expectation
(state)Return the expectation of the potential energy, computed analytically or numerically.
reduced_potential_expectation
(...)Calculate the expected potential energy in state_sampled_from, divided by kB * T in state_evaluated_in.
serialize
()Return the System and positions in serialized XML form.
Methods
__init__
(*args, **kwargs)Abstract base class for test system.
get_potential_expectation
(state)Return the expectation of the potential energy, computed analytically or numerically.
reduced_potential_expectation
(...)Calculate the expected potential energy in state_sampled_from, divided by kB * T in state_evaluated_in.
serialize
()Return the System and positions in serialized XML form.
Attributes
analytical_properties
A list of available analytical properties, accessible via 'get_propertyname(thermodynamic_state)' calls.
mdtraj_topology
The mdtraj.Topology object corresponding to the test system (read-only).
name
The name of the test system.
positions
The openmm.unit.Quantity object containing the particle positions, with units compatible with openmm.unit.nanometers.
system
The openmm.System object corresponding to the test system.
topology
The openmm.app.Topology object corresponding to the test system.