We are excited to announce that Kvantify Qrunch is now available on qBraid Lab, expanding access to advanced quantum chemistry workflows for researchers, developers, and enterprise teams.
Developed by Kvantify, Qrunch is a quantum chemistry technology designed to tackle classically intractable molecular systems using hybrid quantum-classical algorithms. With its integration into qBraid Lab, users can now seamlessly explore Qrunch workflows alongside other leading quantum tools within a unified development environment.
Advancing Quantum Chemistry Workflows
Qrunch focuses on enabling practical quantum advantage in chemistry through:
- Variational quantum algorithms tailored for real-world molecular systems
- Efficient active-space methods for scaling beyond classical limits
- Hybrid workflows that combine classical simulation with quantum execution
By bringing Qrunch into qBraid Lab, users benefit from streamlined access to quantum backends, reproducible environments, and collaborative tooling, all in one place.
Featured Tutorials
- Butyronitrile Dissociation: Explore C≡N bond dissociation in butyronitrile, relevant to lithium-ion batteries and solar cell technologies, using variational algorithms to approximate ground-state energies.
- Carbon Capture with COF-999: Model CO₂ binding in a promising carbon capture material and analyze how water lowers transition-state energy across reaction pathways.
- Covalent Ligand Binding: Simulate ligand binding to proteins using the BEAST-VQE algorithm, enabling larger active-space calculations through efficient qubit mappings.
- Dehalogenase Reaction (SN2): Investigate enzyme-catalyzed reactions for environmentally friendly degradation of haloalkanes, with applications in bioremediation.
- Ionization Potentials: Compute ionization energies of molecules like ammonia via variational methods, comparing neutral and ionized states.
Why This Matters
The integration of Qrunch into qBraid Lab represents another step toward a more interoperable quantum ecosystem. By combining Kvantify’s chemistry-focused tooling with qBraid’s platform capabilities, users can:
- Prototype quantum chemistry workflows faster
- Access multiple quantum and classical backends in one place
- Scale experiments from tutorials to production-grade research
Getting Started with Qrunch on qBraid Lab
To support onboarding and experimentation, Kvantify provides a robust set of tutorials covering key applications in quantum chemistry and materials science.
These tutorials are designed to run in a configured environment with Qrunch installed and are best used within an IDE that supports code completion for an optimal development experience.
Start your Qrunch trial on qBraid Lab: https://account.qbraid.com
Learn more about Qrunch: https://www.kvantify.com/products/qrunch
