# ------------------------------------------------------------- # Initial Configuration # ------------------------------------------------------------- bulk_configuration = nlread('Polystyrene.hdf5')[-1] # ------------------------------------------------------------- # OPLS-AA Calculator # ------------------------------------------------------------- potential_builder = OPLSPotentialBuilder() calculator = potential_builder.createCalculator(bulk_configuration) bulk_configuration.setCalculator(calculator) # ------------------------------------------------------------- # Molecular Dynamics # ------------------------------------------------------------- initial_velocity = ConfigurationVelocities( remove_center_of_mass_momentum=True ) method = NPTMartynaTobiasKlein( time_step=1*femtoSecond, reservoir_temperature=300*Kelvin, reservoir_pressure=1*bar, thermostat_timescale=100*femtoSecond, barostat_timescale=500*femtoSecond, initial_velocity=initial_velocity, heating_rate=0*Kelvin/picoSecond, ) constraints = [FixCenterOfMass()] md_trajectory = MolecularDynamics( bulk_configuration, constraints=constraints, trajectory_filename='Polystyrene_Trajectory.hdf5', steps=100000, log_interval=10, trajectory_interval=1000, method=method ) # ------------------------------------------------------------- # Calculate Radius Of Gyration # ------------------------------------------------------------- analyzer = RadiusOfGyration( md_trajectory, start_time=0*ps, end_time=50*ps ) radius_of_gyration = analyzer.radius() radius_of_gyration_average = radius_of_gyration.mean(axis=1) time = analyzer.times().convertTo(ps) # ------------------------------------------------------------- # Plot The Results # ------------------------------------------------------------- import pylab pylab.figure() pylab.plot(time, radius_of_gyration[:, 0], label='Polymer 1') pylab.plot(time, radius_of_gyration[:, 5], label='Polymer 6') pylab.plot(time, radius_of_gyration_average, label='Average') pylab.xlabel('Time / ps') pylab.ylabel('Radius Of Gyration / Angstrom') pylab.legend() pylab.savefig('Radius_Of_Gyration_Plot.png')