RECENT POSTS
- Introduction to FreeBSD Security Best Practices
- Working with Package Management in FreeBSD
- Understanding FreeBSD Security Advisories and Updates
- Troubleshooting Common System Administration Issues in FreeBSD
- Tips for Hardening FreeBSD to achieve System Protection
- Setting Up DHCP Server in FreeBSD
- Secure User and Group Management in FreeBSD Systems
- Secure Remote Access with SSH in FreeBSD
- Optimizing System Performance in FreeBSD
- Network Packet Capture with tcpdump in FreeBSD
- All posts ...
Do you have GDPR compliance issues ?
Check out Legiscope a GDPR compliance software, that will save you weeks of work, automating your documentation, the training of your teams and all processes you need to keep your organisation compliant with privacy regulations
Py-qiskit-nature
Jul 20, 2023
Natural science submodule for Quiskit framework for quantum computing
Qiskit [quiss-kit] is an open-source SDK for working with quantum computers at the level of pulses, circuits, and application modules.
Qiskit Nature is one of Qiskit components. Qiskit Nature is an open-source framework which supports solving quantum mechanical natural science problems using quantum computing algorithms. This includes finding ground and excited states of electronic and vibrational structure problems, measuring the dipole moments of molecular systems, solving the Ising and Fermi-Hubbard models on lattices, and much more.
The code comprises chemistry drivers, which when provided with a molecular configuration will return one- and two-body integrals as well as other data that is efficiently computed classically. This output data from a driver can then be used as input in Qiskit Nature that contains logic which is able to translate this into a form that is suitable for quantum algorithms.
For the solution of electronic structure problems, the problem Hamiltonian is first expressed in the second quantization formalism, comprising fermionic excitation and annihilation operators. These can then be mapped to the qubit formalism using a variety of mappings such as Jordan-Wigner, Parity, and more, in readiness for the quantum computation.
Checkout these related ports:
- Zx - MQT ZX A library for working with ZX-diagrams
- Zotero - Reference management for bibliographic data and research materials
- Yoda - Particle physics package with classes for data analysis, histogramming
- Xtb - Semiempirical Extended Tight-Binding Program Package
- Xmakemol - Molecule Viewer Program Based on Motif Widget
- Xdrawchem - Two-dimensional molecule drawing program
- Xcrysden - Crystalline and molecular structure visualisation program
- Xcfun - Exchange-correlation functionals with arbitrary-order derivatives
- Wxmacmolplt - Graphical user interface principally for the GAMESS program
- Wwplot - Plotting tool for experimental physics classes
- Wannier90 - Maximally-localized Wannier functions (MLWFs) and Wannier90
- Votca - CSG and XTP libraries for atomistic simulations
- Voro++ - Three-dimensional computations of the Voronoi tessellation
- Vmd - Molecular visualization program
- Vipster - Crystalline and molecular structure visualisation program