pymc.MeanField#
- class pymc.MeanField(*args, **kwargs)[source]#
Single Group Mean Field Approximation
Mean Field approximation to the posterior where spherical Gaussian family is fitted to minimize KL divergence from True posterior. It is assumed that latent space variables are uncorrelated that is the main drawback of the method
Methods
MeanField.__init__
(*args, **kwargs)MeanField.collect
(item)Dev - optimizations for logP.
Dev - creates correct replacements for initial depending on sample size and deterministic flag
MeanField.rslice
(name)Dev - vectorized sampling for named random variable without call to pytensor.scan.
MeanField.sample
([draws, random_seed, ...])Draw samples from variational posterior.
MeanField.sample_node
(node[, size, ...])Samples given node or nodes over shared posterior
MeanField.set_size_and_deterministic
(node, s, d)Dev - after node is sampled via
symbolic_sample_over_posterior()
orsymbolic_single_sample()
new random generator can be allocated and applied to nodeDev - performs sampling of node applying independent samples from posterior each time.
MeanField.symbolic_single_sample
(node[, ...])Dev - performs sampling of node applying single sample from posterior.
MeanField.to_flat_input
(node[, ...])Dev - replace vars with flattened view stored in self.inputs
Attributes
all_histograms
any_histograms
datalogp
Dev - computes \(E_{q}(data term)\) from model via pytensor.scan that can be optimized later
datalogp_norm
Dev - normalized \(E_{q}(data term)\)
ddim
has_logq
inputs
joint_histogram
logp
Dev - computes \(E_{q}(logP)\) from model via pytensor.scan that can be optimized later
logp_norm
Dev - normalized \(E_{q}(logP)\)
logq
Dev - collects logQ for all groups
logq_norm
Dev - collects logQ for all groups and normalizes it
ndim
params
replacements
Dev - all replacements from groups to replace PyMC random variables with approximation
sample_dict_fn
scale_cost_to_minibatch
Dev - Property to control scaling cost to minibatch
single_symbolic_datalogp
Dev - for single MC sample estimate of \(E_{q}(data term)\) pytensor.scan is not needed and code can be optimized
single_symbolic_logp
Dev - for single MC sample estimate of \(E_{q}(logP)\) pytensor.scan is not needed and code can be optimized
single_symbolic_varlogp
Dev - for single MC sample estimate of \(E_{q}(prior term)\) pytensor.scan is not needed and code can be optimized
sized_symbolic_datalogp
Dev - computes sampled data term from model via pytensor.scan
sized_symbolic_logp
Dev - computes sampled logP from model via pytensor.scan
sized_symbolic_varlogp
Dev - computes sampled prior term from model via pytensor.scan
symbolic_logq
Dev - collects symbolic_logq for all groups
symbolic_normalizing_constant
Dev - normalizing constant for self.logq, scales it to minibatch_size instead of total_size.
symbolic_random
symbolic_randoms
varlogp
Dev - computes \(E_{q}(prior term)\) from model via pytensor.scan that can be optimized later
varlogp_norm
Dev - normalized \(E_{q}(prior term)\)