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Releases: quantumlib/OpenFermion-Cirq
Releases · quantumlib/OpenFermion-Cirq
Release list
OpenFermion-Cirq v0.4.0
Notable changes and additions:
- An implementation of the fermionic Fast Fourier Transform:
openfermioncirq.ffft. - Improved Givens rotation network for effecting one-body basis rotations:
openfermioncirq.primitives.optimal_givens_decomposition. openfermioncirq.CubicFermionicSimulationGate.openfermioncirq.QuarticFermionicSimulationGate.
Deprecations:
openfermioncirq.XXYYPowGate. Usecirq.ISwapPowGatewith negated exponent, instead.openfermioncirq.XXYY. Use cirq.ISWAP with negated exponent, instead.openfermioncirq.YXXYPowGate. Usecirq.PhasedISwapPowGate, instead.openfermioncirq.YXXY. Usecirq.PhasedISwapPowGate, instead.openfermioncirq.CXXYYPowGate. Usecirq.ControlledGateandcirq.ISwapPowGatewith negated exponent, instead.openfermioncirq.CXXYY. Usecirq.ControlledGateandcirq.ISWAPwith negated exponent, instead.openfermioncirq.CYXXYPowGate. Usecirq.ControlledGateandcirq.PhasedISwapPowGate, instead.openfermioncirq.CYXXY. Usecirq.ControlledGateandcirq.PhasedISwapPowGate, instead.
OpenFermion-Cirq v0.3.0
Notable changes and additions:
CombinedDoubleExcitationGatebogoliubov_transformandprepare_gaussian_stateautomatically detect spin symmetry and return optimized circuits if it is present- Implemented FSWAP as an EigenGate, so it can be raised to a power
- Standardized common gate classes to take an
exponentargument and have a name of the formNamePowGate. For example,XXYYGateis nowXXYYPowGateand no longer takes rads, degs, or half_turns. - Faster simulation of most gates on Cirq's simulator via defining the
_apply_unitary_to_tensor_magic method rot11,rotzz,Rxxyy,Ryxxy
OpenFermion-Cirq v0.2.1a
Includes major changes to functionality for studying variational algorithms and the low rank Trotter step.
- Changed the protocol for defining a variational ansatz
- The objective function for variational algorithms is now represented by the VariationalObjective class
- VariationalStudy can track additional information, such as time spent, about optimization runs
- Utilize improved low rank decomposition from OpenFermion for low rank Trotter step
- Changed how the one-body terms are simulated in the low rank Trotter step
- Added a variational ansatz based on the low rank Trotter step
OpenFermion-Cirq v0.1.1a
Minor package polish.
- Now requiring python 3.5.3+ instead of 3.5+ (quantumlib/Cirq#710).
- Fixed error in variational algorithm tutorial.
- Put user installation instructions before dev instructions.
- Various doc fixes.
OpenFermion-Cirq v0.1.0a
The first public alpha release of OpenFermion-Cirq! Launch features include:
- Linear depth linear connectivity Bogoliubov transformations.
- Framework for linear depth linear connectivity swap networks.
- Framework for implementing different types of Trotter steps
- Linear swap network DiagonalCoulombHamiltonian Trotter steps.
- Linear split operator DiagonalCoulombHamiltonian Trotter steps.
- Prototype functionality for arbitrary "low rank" Trotter steps.
- Framework for instantiating variational ansatz circuits.
- Framework for implementing variational algorithm studies.
- Variational ansatz circuits based on linear Trotter steps.
- Tutorial about basis transformations and free fermion models.
- Tutorial about Trotter steps of DiagonalCoulombHamiltonians.
- Tutorial about Trotter steps based on low rank decompositions.
- Tutorial about implementing variational algorithms, applied to jellium, H2.