Senior Quantum Scientist, A committed Quantum Computing for Quantum Chemistry/Physics Researcher who is passionate about delivering high values and standards. Focused and driven to develop Quantum Computer Applications and improvement through continuous efforts in development, progress and monitoring that focuses on achieving realistic objectives.
Quantum Computer Applications, Quantum Computing
OpenVQE – Empowering Quantum Education and Collaboration
OpenVQE (Open Variational Quantum Eigensolver) is an open-source platform designed to make quantum computing accessible for education, research, and global collaboration. Built around the Variational Quantum Eigensolver, a cornerstone algorithm in quantum chemistry, OpenVQE provides learners with a pathway to incrementally master quantum methods while fostering innovation in a shared space for students, educators, and researchers.
Developed by Mohammad Haidar, a senior researcher at Sorbonne University, OpenVQE integrates seamlessly with leading quantum frameworks like Qiskit, Cirq, and QASM, promoting interoperability and collaboration. The platform empowers users to tackle real-world challenges in material science, drug discovery, battery development, and CO? capture, while exploring the transformative integration of AI with VQE.
At the Conference, Mohammad Haidar will discuss the technical details of OpenVQE, its role in revolutionizing quantum computing education and research, and its applications in quantum chemistry and industry research. Attendees will also gain insights into the state-of-the-art quantum computing technologies being employed in quantum chemistry.
Discover more about OpenVQE:
• Published Article (14 citations): https://wires.onlinelibrary.wiley.com/doi/epdf/10.1002/wcms.1664
• Community Participation: https://openvqe.netlify.app/
OpenVQE offers a unique, accessible pathway to mastering quantum computing while fostering collaboration and driving innovation to address global challenges.