Experimental API

In this page we present some experimental interfaces of NetKet. Those are not guaranteed to be API-stable, and might change without notice (other than the changelog) among minor releases. The netket.experimental modules mirrors the standard NetKet module structure, and we suggest to use it as follows:

import netket as nk
import netket.experimental as nkx

Samplers

This module contains the Metropolis Parallel Tempered sampler. This sampler is experimental because we believe it to be correct, but our tests fail. We believe it to be a false negative: possibly the implementation of the sampler is correct, but the test is too tight. Until we will have verified this hypotesis and updated the tests in order not to fail, we provide the current implementation as-is, in the hope that some contributor might take up that work.

The other experimental sampler is MetropolisSamplerPmap, which makes use of jax.pmap to use different GPUs/CPUs without having to use MPI. It should scale much better over several CPUs, but you have to start jax with a specific environment variable.

netket.experimental.sampler.MetropolisPtSampler

Metropolis-Hastings with Parallel Tempering sampler.

netket.experimental.sampler.MetropolisLocalPt

Sampler acting on one local degree of freedom.

netket.experimental.sampler.MetropolisExchangePt

This sampler acts locally only on two local degree of freedom \(s_i\) and \(s_j\), and proposes a new state: \(s_1 \dots s^\prime_i \dots s^\prime_j \dots s_N\), where in general \(s^\prime_i \neq s_i\) and \(s^\prime_j \neq s_j\).

netket.experimental.sampler.MetropolisSamplerPmap

Metropolis-Hastings sampler for an Hilbert space according to a specific transition rule where chains are split among the available devices (jax.devices()).

Variational State Interface

netket.experimental.vqs.variables_from_file

Loads the variables of a variational state from a .mpack file.

netket.experimental.vqs.variables_from_tar

Loads the variables of a variational state from the i-th element of a .tar archive.

Time Evolution Driver

netket.experimental.driver.TDVP

Variational time evolution based on the time-dependent variational principle which, when used with Monte Carlo sampling via ~netket.vqs.MCState, is the time-dependent VMC (t-VMC) method.

Fermions

This module contains hilbert space and operator implementations of fermions in second quantization. It is experimental until it has been thoroughly tested by the community, meaning feedback is welcome.

netket.experimental.hilbert.SpinOrbitalFermions

Hilbert space for 2nd quantization fermions with spin s distributed among n_orbital orbitals.

netket.experimental.operator.FermionOperator2nd

netket.experimental.operator.fermion.create

Builds the fermion creation operator \(\hat{a}^\dagger\) acting on the site-th of the Hilbert space hilbert.

netket.experimental.operator.fermion.destroy

Builds the fermion destruction operator \(\hat{a}\) acting on the site-th of the Hilbert space hilbert.

netket.experimental.operator.fermion.number

Builds the number operator \(\hat{a}^\dagger\hat{a}\) acting on the site-th of the Hilbert space hilbert.