Why Qinara
The Problem
Everyone can access a quantum computer. Almost no one can use one.
Quantum hardware is now available through all major cloud providers, but it remains noisy, fragmented, and expensive for real workloads. Each vendor exposes a different stack, languages are inconsistent, and workloads are siloed. Most organisations are stuck running isolated experiments instead of deployable systems.
Mission-critical industries need hybrid quantum–classical workflows that are reliable, interpretable, and integrated into existing systems. Hardware-centric tools and single-vendor platforms cannot provide this on their own, and there is no universal software layer that orchestrates classical compute, quantum resources, and end-users in one environment.
Our Solution
Hardware-agnostic optimisation engine
Qinara provides a universal optimisation layer that sits above major quantum hardware providers. It is fully gate-agnostic and integrates with multiple stacks, so teams can design and execute circuits across superconducting, trapped-ion, photonic, and neutral-atom platforms without rewriting code.
Unified platform for all quantum use cases
Qinara acts as an operating system for hybrid quantum–classical computing. It hosts multiple high-value applications—cybersecurity, drug discovery, optimisation, simulation, financial modelling and more—inside one modular environment with a consistent classical interface.
Scalable foundation for future applications
The architecture is modular, so new industry-specific features can be added without customers changing infrastructure. As hardware and algorithms evolve, Qinara can plug in new modules and back-ends, giving enterprises a future-proof path into quantum.
Why we're different
- •Fully hardware-agnostic across multiple quantum vendors.
- •Universal multi-vendor integration instead of single-stack tooling.
- •Complete hybrid orchestration between classical and quantum compute.
- •Advanced optimisation combined with high-value industry modules.
- •Unified classical interface rather than fragmented user experiences.