schrodinger.application.desmond.remd module¶
Utilities for REMD.
Copyright Schrodinger, LLC. All rights reserved.
- schrodinger.application.desmond.remd.get_rest_params(model, asl)[source]¶
Returns parameters that are required for temperature ladder prediction
- Returns
the tuple with the following values: degrees of freedom, number of selected waters, number of selected non-waters, number of constraints.
- Return type
tuple(int, int, int, int)
- schrodinger.application.desmond.remd.predict_temperature_ladder(temperature, exchange_probability, model, asl, should_fix=True, floaty=False)[source]¶
- Parameters
temperature (tuple(float, float)) – a tuple (t0, t1) temperature range in Kelvin
should_fix (bool) –
???
floaty (bool) –
???
- Returns
returns a tuple with two lists. First list is a temperature profile, second list is probability profile.
- Return type
tuple(list of floats, list of floats)
- schrodinger.application.desmond.remd.get_prob_from_temp_ladder(temp_ladder: List[float], model: schrodinger.application.desmond.cms.Cms, asl: str) List[float][source]¶
Return the probability given the temperature ladder
temp_ladderand the corresponding cmsmodeland aslaslfor the hot atoms.
- schrodinger.application.desmond.remd.predict_with_temp_and_exch(temp, exchange_probability, model, asl)[source]¶
Given temperature range and exchange_probability, predicts the number of replica and returns the temperature ladder.
- schrodinger.application.desmond.remd.predict_with_nreplica_and_exch(n_replica, exchange_probability, base_temp, model, asl)[source]¶
Given the base temperature, number of replicas, and exchange_probability, predicts the top temperature and returns the temperature ladder. :type n_replica: int :type exchange_probability: float :type base_temp: float :type model:
schrodinger.application.desmond.cms.Cms:type asl: str- Returns
a list of temperatures in Kelvin (length n_replica) and exchange a list of corresponding exchange probabilities (length n_replica-1)
- Return type
(list of floats, list of floats)
- schrodinger.application.desmond.remd.predict_with_temp_and_nreplica(temperature, n_replica, model, asl)[source]¶
Given the temperature range and number of replicas, predicts the exchange probability and returns the temperature ladder. :param temperature: a tuple of (min, max) temperatures, in Kelvin :type temperature: tuple(float, float) :type exchange_probability: float :type base_temp: float :type model:
schrodinger.application.desmond.cms.Cms:type asl: str- Returns
a list of temperatures (length n_replica) and exchange a list of corresponding exchange probabilities (length n_replica-1)
- Return type
(list of floats, list of floats)
- schrodinger.application.desmond.remd.freeze_atom(model, asl, frozen_atom_mass_threshold=1000000000.0)[source]¶
- schrodinger.application.desmond.remd.write_ff_solute_tempering(model, out_fname, asl, scaling_factor, should_scale_torsion=True)[source]¶
write cms.Cms to a file with scaled force field terms
- Parameters
model (cms.Cms) – input cms.Cms
out_fname (str) – output file name
asl (str) – ASL expression to define rest atoms
scaling_factor (float) – T_ref/T_hot
should_scale_torsion (Boolean) – whether to scale dihedral terms
- schrodinger.application.desmond.remd.rescale_ff_solute_tempering(model, asl, scaling_factor, should_scale_torsion=True)[source]¶
return cms.Cms with scaled force field terms
- schrodinger.application.desmond.remd.rescale_ff(ct, rest_atoms, scaling_factor, should_scale_torsion=True)[source]¶
scales force field terms for rest atoms
- Parameters
ct (ffiostructure.FFIOStructure) – input/output structure handle
rest_atoms (list of int) – sequence of atom indices in rest region
scaling_factor (float) – T_ref/T_hot
should_scale_torsion (Boolean) – whether to scale dihedral terms