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added a few things to the other projects list (#443)

* added a few things to the other projects list

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## Projects and Papers using OpenFermion
In this document we assemble known projects and papers that use OpenFermion to
both provide example use cases and document the ways its helping to impact
electronic structure on quantum computers. If you'd like to include your own
projects or papers, please contact us or submit a pull request updating this page.
## Libraries, Projects and Papers using OpenFermion
In this document we assemble known libraries, projects and papers that use,
discuss, or contribute functionality to OpenFermion in order to both provide
example use cases and document the ways its helping to impact electronic
structure on quantum computers. If you'd like to include your own projects
or papers, please contact us or submit a pull request.
### Libraries
[OpenFermion-Cirq](https://github.com/quantumlib/OpenFermion-Cirq)
This plugin library integrates OpenFermion with Google's
[Cirq](https://github.com/quantumlib/Cirq) framework in order to compile
quantum simulation algorithms to NISQ circuits using Cirq.
[Forest-OpenFermion](https://github.com/rigetticomputing/forestopenfermion)
This plugin library integrates OpenFermion with Rigetti's
[Forest](https://www.rigetti.com/forest) framework in order to compile
quantum simulation algorithms to NISQ circuits using Forest.
[SFOpenBoson](https://github.com/XanaduAI/SFOpenBoson)
This plugin library integrates OpenFermion with Xanadu's
[Strawberry Fields](https://github.com/XanaduAI/strawberryfields)
framework in order to compile quantum simulation algorithms that
pertain to the simulation of bosons.
[OpenFermion-Psi4](http://github.com/quantumlib/OpenFermion-Psi4)
This plugin library integrates OpenFermion with the electronic structure
package [Psi4](http://psicode.org).
[OpenFermion-PySCF](http://github.com/quantumlib/OpenFermion-PySCF)
This plugin library integrates OpenFermion with the electronic structure package
[PySCF](https://github.com/sunqm/pyscf).
[OpenFermion-ProjectQ](https://github.com/quantumlib/OpenFermion-ProjectQ) - Deprecated
While no longer actively developed, this plugin library integrates OpenFermion
with the [ProjectQ](https://projectq.ch) framework for simulating quantum
circuits.
### Projects
@@ -18,54 +59,96 @@ Implementation of Compressed Unsupervised State Preparation (CUSP) protocol
using OpenFermion and Cirq. CUSP uses the quantum autoencoder to synthesize
more compact circuits to use for algorithms such as VQE.
### Papers
***Low Depth Quantum Simulation of Electronic Structure.*** Ryan Babbush, Nathan Wiebe,
Jarrod McClean, James McClain, Hartmut Neven and Garnet Chan.
[arXiv:1706.00023](https://arxiv.org/abs/1706.00023) 2017.
### Papers (we refer to only the arXiv versions) - last updated 9/3/18
***Improved Techniques for Preparing Eigenstates of Fermionic Hamiltonians.***
Dominic Berry, Mária Kieferová, Artur Scherer, Yuval Sanders,
Guang Hao Low, Nathan Wiebe, Craig Gidney and Ryan Babbush.
[arXiv:1711.10460](https://arxiv.org/abs/1711.10460). 2017.
***Strategies for Quantum Computing Molecular Energies using the Unitary Coupled
Cluster Ansatz***. Jonathan Romero, Ryan Babbush, Jarrod McClean, Cornelius
Hempel, Peter Love and Alán Aspuru-Guzik.
[arXiv:1701.02691](https://arxiv.org/abs/1701.02691). 2017.
***Bravyi-Kitaev Superfast simulation of fermions on a quantum computer.***
Kanav Setia, James D. Whitfield.
[arXiv:1712.00446v1](https://arxiv.org/abs/1712.00446). 2017
***Low Depth Quantum Simulation of Electronic Structure***. Ryan Babbush, Nathan Wiebe,
Jarrod McClean, James McClain, Hartmut Neven and Garnet Chan.
[arXiv:1706.00023](https://arxiv.org/abs/1706.00023). 2017.
***Quantum algorithms to simulate many-body physics of correlated fermions.***
Zhang Jiang, Kevin J. Sung, Kostyantyn Kechedzhi, Vadim N. Smelyanskiy, and Sergio Boixo.
***A Language and Hardware Independent Approach to Quantum-Classical
Computing***. Alexander McCaskey, Eugene Dumitrescu, Dmitry Liakh, Mengsu Chen,
Wu-Chen Feng and Travis Humble.
[arXiv:1710.01794](https://arxiv.org/abs/1710.01794). 2017.
***OpenFermion: The Electronic Structure Package for Quantum Computers***.
Jarrod McClean, Ian Kivlichan, Kevin Sung, Damian Steiger, Yudong Cao, Chengyu Dai,
E. Schuyler Fried, Craig Gidney, Brendan Gimby, Pranav Gokhale, Thomas Häner,
Tarini Hardikar, Vojtĕch Havlíček, Cupjin Huang, Josh Izaac, Zhang Jiang, Xinle Liu,
Matthew Neeley, Thomas O'Brien, Isil Ozfidan, Maxwell Radin, Jhonathan Romero,
Nicholas Rubin, Nicolas Sawaya, Kanav Setia, Sukin Sim, Mark Steudtner,
Qiming Sun, Wei Sun, Fang Zhang and Ryan Babbush.
[arXiv:1710.07629](https://arxiv.org/abs/1710.07629). 2017.
***Quantum Simulation of Electronic Structure with Linear Depth and Connectivity***.
Ian Kivlichan, Jarrod McClean, Nathan Wiebe, Craig Gidney,
Alán Aspuru-Guzik, Garnet Chan and Ryan Babbush.
[arXiv:1711.04789](https://arxiv.org/abs/1711.04789). 2017.
***Quantum Algorithms to Simulate Many-Body Physics of Correlated Fermions***.
Zhang Jiang, Kevin Sung, Kostyantyn Kechedzhi, Vadim Smelyanskiy and Sergio Boixo.
[arXiv:1711.05395](https://arxiv.org/abs/1711.05395). 2017.
***Quantum simulation of electronic structure with linear depth and connectivity.***
Ian D. Kivlichan, Jarrod McClean, Nathan Wiebe, Craig Gidney,
Alán Aspuru-Guzik, Garnet Kin-Lic Chan, Ryan Babbush.
[arXiv:1711.04789](https://arxiv.org/abs/1711.04789) 2017.
***Application of fermionic marginal constraints to hybrid quantum algorithms***
Nicholas C. Rubin, Ryan Babbush, Jarrod McClean.
[arXiv:1801.03524](https://arxiv.org/abs/1801.03524) 2018.
***Strawberry Fields: A Software Platform for Photonic Quantum Computing***
Nathan Killoran, Josh Izaac, Nicolás Quesada, Ville Bergholm, Matthew Amy, and
Christian Weedbrook
[arXiv:1804.03159](https://arxiv.org/abs/1804.03159) 2018.
***Encoding Electronic Spectra in Quantum Circuits with Linear T Complexity***
Ryan Babbush, Craig Gidney, Dominic W. Berry, Nathan Wiebe, Jarrod McClean,
Alexandru Paler, Austin Fowler, Hartmut Neven
[arXiv:1805.03662](https://arxiv.org/abs/1805.03662) 2018.
***A Universal Quantum Computing Virtual Machine***
Qian-Tan Hong, Zi-Yong Ge, Wen Wang, Hai-Feng Lang, Zheng-An Wang, Yi Peng,
Jin-Jun Chen, Li-Hang Ren, Yu Zeng, Liang-Zhu Mu, Heng Fan
[arXiv:1806.06511](https://arxiv.org/abs/1806.06511) 2018.
***Accounting for Errors in Quantum Algorithms via Individual Error Reduction***
Matthew Otten, Stephen Gray
[arXiv:1804.06969](https://arxiv.org/abs/1804.06969) 2018.
***Cloud Quantum Computing of an Atomic Nucleus***
E. F. Dumitrescu, A. J. McCaskey, G. Hagen, G. R. Jansen, T. D. Morris,
T. Papenbrock, R. C. Pooser, D. J. Dean, and P. Lougovski
[arXiv:1801.03897](https://arxiv.org/abs/1801.03897) 2018.
***Improved Techniques for Preparing Eigenstates of Fermionic Hamiltonians***.
Dominic Berry, Mária Kieferová, Artur Scherer, Yuval Sanders,
Guang Hao Low, Nathan Wiebe, Craig Gidney and Ryan Babbush.
[arXiv:1711.10460](https://arxiv.org/abs/1711.10460). 2017.
***Lowering Qubit Requirements for Quantum Simulation of Fermionic Systems***.
Mark Steudtner and Stephanie Wehner.
[arXiv:1712.07067](https://arxiv.org/abs/1712.07067). 2017.
***Bravyi-Kitaev Superfast Simulation of Fermions on a Quantum Computer***.
Kanav Setia and James Whitfield.
[arXiv:1712.00446](https://arxiv.org/abs/1712.00446). 2017.
***Application of Fermionic Marginal Constraints to Hybrid Quantum
Algorithms***. Nicholas Rubin, Ryan Babbush and Jarrod McClean.
[arXiv:1801.03524](https://arxiv.org/abs/1801.03524). 2018.
***Cloud Quantum Computing of an Atomic Nucleus***.
E. Dumitrescu, A. McCaskey, G. Hagen, G. Jansen, T. Morris,
T. Papenbrock, R. Pooser, D. Dean and P. Lougovski.
[arXiv:1801.03897](https://arxiv.org/abs/1801.03897). 2018.
***Quantum Chemistry Calculations on a Trapped-Ion Quantum Simulator***.
Cornelius Hempel, Christine Maier, Jonathan Romero, Jarrod McClean,
Thomas Monz, Heng Shen, Petar Jurcevic, Ben Lanyon, Peter Love, Ryan Babbush,
Alán Aspuru-Guzik, Rainer Blatt and Christian Roos.
[arXiv:1803.10238](https://arxiv.org/abs/1803.10238). 2018.
***Strawberry Fields: A Software Platform for Photonic Quantum Computing***.
Nathan Killoran, Josh Izaac, Nicolás Quesada, Ville Bergholm, Matthew Amy and
Christian Weedbrook.
[arXiv:1804.03159](https://arxiv.org/abs/1804.03159). 2018.
***Accounting for Errors in Quantum Algorithms via Individual Error
Reduction***. Matthew Otten and Stephen Gray.
[arXiv:1804.06969](https://arxiv.org/abs/1804.06969). 2018.
***Encoding Electronic Spectra in Quantum Circuits with Linear T Complexity***.
Ryan Babbush, Craig Gidney, Dominic Berry, Nathan Wiebe, Jarrod McClean,
Alexandru Paler, Austin Fowler and Hartmut Neven.
[arXiv:1805.03662](https://arxiv.org/abs/1805.03662). 2018.
***A Universal Quantum Computing Virtual Machine***.
Qian-Tan Hong, Zi-Yong Ge, Wen Wang, Hai-Feng Lang, Zheng-An Wang, Yi Peng,
Jin-Jun Chen, Li-Hang Ren, Yu Zeng, Liang-Zhu Mu and Heng Fan.
[arXiv:1806.06511](https://arxiv.org/abs/1806.06511). 2018.
***Overview and Comparison of Gate Level Quantum Software Platforms***.
Ryan LaRose. [arXiv:1807.02500](https://arxiv.org/abs/1807.02500). 2018.
***Low Rank Representations for Quantum Simulation of Electronic Structure***.
Mario Motta, Erika Ye, Jarrod McClean, Zhendong Li, Austin Minnich,
Ryan Babbush and Garnet Chan.
[arXiv:1808.02625](https://arxiv.org/abs/1808.02625). 2018.
***Quantum Computational Chemistry***.
Sam McArdle, Suguru Endo, Alán Aspuru-Guzik, Simon Benjamin and Xiao Yuan.
[arXiv:1808.10402](https://arxiv.org/abs/1808.10402). 2018.

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