This research pillar is dedicated to designing scalable quantum algorithms, programming models, and compilation techniques that can be deployed across existing and emerging quantum computing architectures. It bridges the gap between hardware and high-level applications.

Our teams are building toolkits and abstractions that allow researchers and developers to write more efficient quantum programs, maximizing the capabilities of noisy intermediate-scale quantum (NISQ) devices while preparing for fault-tolerant systems.

Focus Areas:

• Variational quantum algorithms
• Hybrid quantum-classical frameworks
• Compiler optimizations and error mitigation techniques
• Domain-specific quantum software development