pyemma.msm.ReactiveFlux¶
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class
pyemma.msm.
ReactiveFlux
(A, B, flux, mu=None, qminus=None, qplus=None, gross_flux=None, dt_model='1 step')¶ A->B reactive flux from transition path theory (TPT)
This object describes a reactive flux, i.e. a network of fluxes from a set of source states A, to a set of sink states B, via a set of intermediate nodes. Every node has three properties: the stationary probability mu, the forward committor qplus and the backward committor qminus. Every pair of edges has the following properties: a flux, generally a net flux that has no unnecessary back-fluxes, and optionally a gross flux.
Flux objects can be used to compute transition pathways (and their weights) from A to B, the total flux, the total transition rate or mean first passage time, and they can be coarse-grained onto a set discretization of the node set.
Fluxes can be computed in EMMA using transition path theory - see
msmtools.tpt()
Parameters: - A (array_like) – List of integer state labels for set A
- B (array_like) – List of integer state labels for set B
- flux ((n,n) ndarray or scipy sparse matrix) – effective or net flux of A->B pathways
- mu ((n,) ndarray (optional)) – Stationary vector
- qminus ((n,) ndarray (optional)) – Backward committor for A->B reaction
- qplus ((n,) ndarray (optional)) – Forward committor for A-> B reaction
- gross_flux ((n,n) ndarray or scipy sparse matrix) – gross flux of A->B pathways, if available
Notes
Reactive flux contains a flux network from educt states (A) to product states (B).
See also
msmtools.tpt
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__init__
(A, B, flux, mu=None, qminus=None, qplus=None, gross_flux=None, dt_model='1 step')¶
Methods
__init__
(A, B, flux[, mu, qminus, qplus, ...])coarse_grain
(user_sets)Coarse-grains the flux onto user-defined sets. get_model_params
([deep])Get parameters for this model. major_flux
([fraction])Returns the main pathway part of the net flux comprising at most the requested fraction of the full flux. pathways
([fraction, maxiter])Decompose flux network into dominant reaction paths. update_model_params
(**params)Update given model parameter if they are set to specific values Attributes
A
Returns the set of reactant (source) states. B
Returns the set of product (target) states I
Returns the set of intermediate states backward_committor
Returns the backward committor probability committor
Returns the forward committor probability flux
Returns the effective or net flux forward_committor
Returns the forward committor probability gross_flux
Returns the gross A–>B flux mfpt
Returns the rate (inverse mfpt) of A–>B transitions net_flux
Returns the effective or net flux nstates
Returns the number of states. rate
Returns the rate (inverse mfpt) of A–>B transitions stationary_distribution
Returns the stationary distribution total_flux
Returns the total flux -
A
¶ Returns the set of reactant (source) states.
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B
¶ Returns the set of product (target) states
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I
¶ Returns the set of intermediate states
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backward_committor
¶ Returns the backward committor probability
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coarse_grain
(user_sets)¶ Coarse-grains the flux onto user-defined sets.
Parameters: user_sets (list of int-iterables) – sets of states that shall be distinguished in the coarse-grained flux. Returns: (sets, tpt) – sets contains the sets tpt is computed on. The tpt states of the new tpt object correspond to these sets of states in this order. Sets might be identical, if the user has already provided a complete partition that respects the boundary between A, B and the intermediates. If not, Sets will have more members than provided by the user, containing the “remainder” states and reflecting the splitting at the A and B boundaries. tpt contains a new tpt object for the coarse-grained flux. All its quantities (gross_flux, net_flux, A, B, committor, backward_committor) are coarse-grained to sets. Return type: (list of int-iterables, tpt-object) Notes
All user-specified sets will be split (if necessary) to preserve the boundary between A, B and the intermediate states.
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committor
¶ Returns the forward committor probability
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flux
¶ Returns the effective or net flux
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forward_committor
¶ Returns the forward committor probability
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get_model_params
(deep=True)¶ Get parameters for this model.
Parameters: deep (boolean, optional) – If True, will return the parameters for this estimator and contained subobjects that are estimators. Returns: params – Parameter names mapped to their values. Return type: mapping of string to any
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gross_flux
¶ Returns the gross A–>B flux
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major_flux
(fraction=0.9)¶ Returns the main pathway part of the net flux comprising at most the requested fraction of the full flux.
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mfpt
¶ Returns the rate (inverse mfpt) of A–>B transitions
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net_flux
¶ Returns the effective or net flux
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nstates
¶ Returns the number of states.
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pathways
(fraction=1.0, maxiter=1000)¶ Decompose flux network into dominant reaction paths.
Parameters: - fraction (float, optional) – Fraction of total flux to assemble in pathway decomposition
- maxiter (int, optional) – Maximum number of pathways for decomposition
Returns: - paths (list) – List of dominant reaction pathways
- capacities (list) – List of capacities corresponding to each reactions pathway in paths
References
[1] P. Metzner, C. Schuette and E. Vanden-Eijnden. Transition Path Theory for Markov Jump Processes. Multiscale Model Simul 7: 1192-1219 (2009)
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rate
¶ Returns the rate (inverse mfpt) of A–>B transitions
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stationary_distribution
¶ Returns the stationary distribution
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total_flux
¶ Returns the total flux
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update_model_params
(**params)¶ Update given model parameter if they are set to specific values