Metadata-Version: 2.1
Name: aemcmc-nightly
Version: 0.0.7.dev20230107
Summary: Miscellaneous MCMC samplers written in Aesara
Home-page: http://github.com/aesara-devs/aemcmc
Author: aesara-devs
Author-email: aesara.devs@gmail.com
Keywords: math,probability,numerical,symbolic,MCMC
Classifier: Development Status :: 4 - Beta
Classifier: Intended Audience :: Science/Research
Classifier: Intended Audience :: Developers
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: OS Independent
Classifier: Programming Language :: Python
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.7
Classifier: Programming Language :: Python :: 3.8
Classifier: Programming Language :: Python :: 3.9
Classifier: Programming Language :: Python :: 3.10
Classifier: Programming Language :: Python :: Implementation :: CPython
Classifier: Programming Language :: Python :: Implementation :: PyPy
Requires-Python: >=3.7
Description-Content-Type: text/x-rst
License-File: LICENSE

|Tests Status| |Coverage| |Gitter|

AeMCMC is a Python library that automates the construction of samplers for `Aesara <https://github.com/pymc-devs/aesara>`_ graphs that represent statistical models.

Features
========

This project is currently in an alpha state, but the basic features/objectives are currently as follows:

- Provide utilities that simplify the process of constructing Aesara graphs/functions for posterior and posterior predictive sampling
- Host a wide array of "exact" posterior sampling steps (e.g. Gibbs steps, scale-mixture/decomposition-based conditional samplers, etc.)
- Build a framework for identifying and composing said sampler steps and enumerating the possible samplers for an arbitrary model

Overall, we would like this project to serve as a hub for community-sourced specialized samplers and facilitate their general use.

Getting started
===============

Using AeMCMC, one can construct sampling steps from a graph containing Aesara
`RandomVariable`\s. AeMCMC analyzes the model graph and possibly rewrites it
to find the most suitable sampler.

AeMCMC can recognize closed-form posteriors; for instance the following
Beta-Binomial model amounts to sampling from a Beta distribution:

.. code-block:: python

    import aesara
    import aemcmc
    import aesara.tensor as at

    srng = at.random.RandomStream(0)

    p_rv = srng.beta(1., 1., name="p")
    Y_rv = srng.binomial(10, p_rv, name="Y")

    y_vv = Y_rv.clone()
    y_vv.name = "y"

    sampler, initial_values = aemcmc.construct_sampler({Y_rv: y_vv}, srng)

    p_posterior_step = sampler.sample_steps[p_rv]
    aesara.dprint(p_posterior_step)
    # beta_rv{0, (0, 0), floatX, False}.1 [id A]
    #  |RandomGeneratorSharedVariable(<Generator(PCG64) at 0x7F77B2831200>) [id B]
    #  |TensorConstant{[]} [id C]
    #  |TensorConstant{11} [id D]
    #  |Elemwise{add,no_inplace} [id E]
    #  | |TensorConstant{1.0} [id F]
    #  | |y [id G]
    #  |Elemwise{sub,no_inplace} [id H]
    #    |Elemwise{add,no_inplace} [id I]
    #    | |TensorConstant{1.0} [id F]
    #    | |TensorConstant{10} [id J]
    #    |y [id G]

    sample_fn = aesara.function([y_vv], p_posterior_step)

AeMCMC also contains a database of Gibbs samplers that can be used to sample
some models more efficiently than a general-purpose sampler like NUTS
would:

.. code-block:: python

    import aemcmc
    import aesara
    import aesara.tensor as at

    srng = at.random.RandomStream(0)

    X = at.matrix("X")

    # Horseshoe prior for `beta_rv`
    tau_rv = srng.halfcauchy(0, 1, name="tau")
    lmbda_rv = srng.halfcauchy(0, 1, size=X.shape[1], name="lambda")
    beta_rv = srng.normal(0, lmbda_rv * tau_rv, size=X.shape[1], name="beta")

    a = at.scalar("a")
    b = at.scalar("b")
    h_rv = srng.gamma(a, b, name="h")

    # Negative-binomial regression
    eta = X @ beta_rv
    p = at.sigmoid(-eta)
    Y_rv = srng.nbinom(h_rv, p, name="Y")

    y_vv = Y_rv.clone()
    y_vv.name = "y"

    sampler, initial_values = aemcmc.construct_sampler({Y_rv: y_vv}, srng)

    # `sampler.sample_steps` contains the sample step for each random variable
    print(sampler.sample_steps[h_rv])
    # h_posterior

    # `sampler.stages` contains the sampling kernels sorted by scan order
    print(sampler.stages)
    # {HorseshoeGibbsKernel: [tau, lambda], NBRegressionGibbsKernel: [beta], DispersionGibbsKernel: [h]}

    # Build a function that returns new samples
    to_sample_rvs = [tau_rv, lmbda_rv, beta_rv, h_rv]
    inputs = [a, b, X, y_vv] + [initial_values[rv] for rv in to_sample_rvs]
    outputs = [sampler.sample_steps[rv] for rv in to_sample_rvs]
    sample_fn = aesara.function(inputs, outputs, updates=sampler.updates)


In case no specialized sampler is found, AeMCMC assigns the NUTS sampler to the
remaining variables. AeMCMC reparametrizes the model automatically to improve
sampling if needed:

.. code-block:: python

    import aemcmc
    import aesara
    import aesara.tensor as at

    srng = at.random.RandomStream(0)
    mu_rv = srng.normal(0, 1, name="mu")
    sigma_rv = srng.halfnormal(0.0, 1.0, name="sigma")
    Y_rv = srng.normal(mu_rv, sigma_rv, name="Y")

    y_vv = Y_rv.clone()

    sampler, initial_values = aemcmc.construct_sampler({Y_rv: y_vv}, srng)

    print(sampler.sample_steps.keys())
    # dict_keys([sigma, mu])
    print(sampler.stages)
    # {NUTSKernel: [sigma, mu]}
    print(sampler.parameters)
    # {NUTSKernel: (step_size, inverse_mass_matrix)}

    # Build a function that returns new samples
    step_size, inverse_mass_matrix = list(sampler.parameters.values())[0]
    inputs = [
        initial_values[mu_rv],
        initial_values[sigma_rv],
        y_vv,
        step_size,
        inverse_mass_matrix
    ]
    outputs = [sampler.sample_steps[mu_rv], sampler.sample_steps[sigma_rv]]
    sample_fn = aesara.function(inputs, outputs, updates=sampler.updates)


Installation
============

The latest release of AeMCMC can be installed from PyPI using ``pip``:

::

    pip install aemcmc


Or via conda-forge:

::

    conda install -c conda-forge aemcmc


The current development branch of AeMCMC can be installed from GitHub, also using ``pip``:

::

    pip install git+https://github.com/aesara-devs/aemcmc



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