Exploring the Future of Quantum Computing
Quantum computing might seem like science fiction, but it’s rapidly reshaping industries by solving complex problems far beyond the capabilities of traditional computers. As this field grows, the shift from standalone quantum systems to modular setups—where multiple Quantum Processing Units (QPUs) work with classical systems via Cloud or High-Performance Computing platforms—is gaining momentum.
This evolution demands smarter ways to integrate quantum and classical computing, which is where middleware plays a crucial role.
In the Tech Talk, Nishant Saurabh explored a groundbreaking collaboration between BMW, Princeton University, and Utrecht University to design quantum-classical middleware. He shared a vision for how these systems should interact, introduced tools for building and testing hybrid apps through the Quantum-MiniApp framework, and showcased a pilot middleware system enabling seamless integration across quantum hardware. The talk offered an accessible look into the exciting future of quantum-classical computing and how these technologies are unlocking new possibilities for science and industry.
01
Modular quantum systems explained
02
Middleware frameworks for integration
03
Quantum-MiniApp for hybrid apps
04
Pilot middleware system showcase
