owaisishtiaqsiddiqui
A Quantum Physicist with experience in hands-on Quantum Cryptography, quantum machine learning in Quantum Computing Frameworks like Qiskit, Pennylane and Circ.
COMSATS University Islamabad, PakistanPakistan
owaisishtiaqsiddiqui's Stars
OpenCircuits/OpenCircuits
A free, open source, online digital circuit/logic designer.
tencent-quantum-lab/tensorcircuit
Tensor network based quantum software framework for the NISQ era
stevenang/randomness_testsuite
This is a Python implementation of NIST's A Statistical Test Suite for Random and Pseudorandom Number Generators for Cryptographic Applications
QuantumSavory/QuantumClifford.jl
Clifford circuits, graph states, and other quantum Stabilizer formalism tools.
paulmillr/noble-post-quantum
Auditable & minimal JS implementation of public-key post-quantum cryptography
rgeirhos/academic-cv-publications
Generate a customised list of publications for your LaTeX CV using BibTeX entries.
OpenBioSim/biosimspace
An interoperable Python framework for biomolecular simulation.
diracq/qdhmc
Quantum Dynamical Hamiltonian Monte Carlo
hongyehu/Machine_Learning_Quantum_State_Tomography
An **unofficial** pytorch implementation of using generative models to do quantum state tomography with POVM measurements.
brunorijsman/cascade-python
Python implementation of Cascade information reconciliation protocol for Quantum Key Distribution
pafloxy/quMCMC
Repository for development of end-to-end quantum enhanced Markov Chain Monte Carlo implementation
Arif-PhyChem/MLQD
MLQD is a Python Package for Machine Learning-based Quantum Dissipative Dynamics
MesoscienceLab/mesohops
This is a package developed in the Mesoscience Lab to perform Hierarchy of Pure State (HOPS) calculations using an adaptive basis that provides size-invariant scaling for large systems.
slohani-ai/machine-learning-for-physical-sciences
AI assisted Quantum technologies
IgorBrandao42/Gaussian-Quantum-Information-Numerical-Toolbox-matlab
Numerical toolbox in MATLAB for Gaussian Quantum Information and time evolution of gaussian states through quantum Langevin and Lyapunov equations
netket/netket_fidelity
Projected time-dependent Variational Monte Carlo (p-tVMC) method based on infidelity optimization for variational simulation of quantum dynamics.
cheaps10/pygwpd
A python package for Gaussian wave packet dynamics
Arif-PhyChem/Quantum_dissipative_dynamics_with_kernel_methods
Speeding up quantum dissipative dynamics of open systems with kernel methods
ryuikaneko/lindblad_free_fermion
owaisishtiaqsiddiqui/QxQ-23-24-Course-Solutions
These solutions are part of qxq course semester 1& 2 (2023-2024) session.
michelbarbeau/symplectic
Symplectic Algorithm in MATLAB
wdlang/bloch_state_quench_dynamics
Matlab codes used to generate the figures in the paper 'Sudden jumps and plateaus in the quench dynamics of a Bloch state', EPL 116, 10008 (2016)
wdlang/cusps_quench_dynamics
Matlab codes used to generate the figures in the paper 'Cusps in the quench dynamics of a Bloch state', EPL 114, 60001 (2016)
owaisishtiaqsiddiqui/2024_IonQ_Remote
IonQ iQuHACK 2024 Remote Challenge
owaisishtiaqsiddiqui/Digital-Signal-Processing
Digital Signal Processing relates to various techniques for improving the accuracy and reliability of digital communications. This involves multiple mathematical operations such as compression, decompression, filtering and equalization and modulation/ demodulation to generate a signal of better quality.
owaisishtiaqsiddiqui/Evaluating-expectation-values-in-Qiskit
This repository defines the qiskit expectation implementation method. Also from theoretical to practical implementation has also been discussed.
owaisishtiaqsiddiqui/QOSF
The following repsository is solely created for QOSF
owaisishtiaqsiddiqui/quera-education
wdlang/fermi_golden_rule
Matlab codes used to generate the figures in the paper 'Fermi's golden rule: its derivation and breakdown by an ideal model', Eur. J. Phys. 37 065406 (2016)
wdlang/fermi_sea_local_driving
Matlab codes used to generate the figures in the paper 'Nonsmooth and level-resolved dynamics illustrated with the tight binding model', arXiv:1404.4280