Pinned Repositories
ame
Mathematica code to produce Singleton arrays for the creation of absolutely maximally entangled (AME) states.
library
Library: BibTeX on Android
ncpol2sdpa
Generate semidefinite programming relaxations of polynomial optimization problems of commuting or noncommuting variables
penandpdf
Pen&PDF is a PDF viewer and annotation app for Android built on top of MuPDF.
sdpqpy
Semi-definite programming for solving quantum ground state problems
sympy
patched version of sympy with a known fix for a small problem that makes using sympy with multipprocessing impossible
pennylane
PennyLane is a cross-platform Python library for quantum computing, quantum machine learning, and quantum chemistry. Train a quantum computer the same way as a neural network.
pennylane-pq
Contains the PennyLane ProjectQ plugin. This plugin provides three devices to work with PennyLane - the ProjectQ IBM device, the ProjectQ quantum simulator, and the ProjectQ classical simulator.
o3po
O-3PO - Open-source Open-access Overlay Publishing Option
quantum-journal
LaTeX template class for Quantum - the open journal for quantum science
cgogolin's Repositories
cgogolin/penandpdf
Pen&PDF is a PDF viewer and annotation app for Android built on top of MuPDF.
cgogolin/library
Library: BibTeX on Android
cgogolin/sdpqpy
Semi-definite programming for solving quantum ground state problems
cgogolin/sympy
patched version of sympy with a known fix for a small problem that makes using sympy with multipprocessing impossible
cgogolin/ame
Mathematica code to produce Singleton arrays for the creation of absolutely maximally entangled (AME) states.
cgogolin/ncpol2sdpa
Generate semidefinite programming relaxations of polynomial optimization problems of commuting or noncommuting variables
cgogolin/pennylane-qiskit
This is a plug in to the PennyLane project to connect it to qiskit-terra.
cgogolin/ProjectQ
ProjectQ: An open source software framework for quantum computing
cgogolin/strawberryfields
Strawberry Fields is a full-stack Python library for designing, simulating, and optimizing continuous variable (CV) quantum optical circuits.