In this episode, Frank La Vigne and Candace Gillhoolley are joined by Mahmoud Sabooni, lead quantum processor engineer at Open Quantum Design (OQD). Today’s conversation takes us to the snowy landscapes of Canada and deep into the heart of quantum hardware—specifically, the fascinating world of trapped ion systems.
Mahmoud Sabooni shares insights from his experience in both academia and industry, explaining how OQD is pioneering open-source quantum hardware and what “full stack quantum computing” really means. The episode covers the differences between trapped ions and other quantum computing platforms, the challenges of scaling these systems, and how open hardware might accelerate innovation by bringing transparency and collaboration to quantum research.
Whether you’re just beginning to explore quantum technology or already knee-deep in atomic physics, this discussion breaks down complex concepts and reveals the practical sides of building and maintaining quantum computers. Get ready for a deep dive into cutting-edge hardware, workforce development in quantum, and visions of how quantum technologies will impact our everyday lives.
00:00 Quantum Hardware to Computing Journey
03:49 Open-Source Quantum Computing Initiative
07:28 Open-Access Benchmark for Machines
13:31 Collaborative Scientific Resource Sharing
15:31 "Quantum Computing Full Stack Layers"
18:20 Quantum Computing Challenges Explained
21:31 Ionized Atom Trapping Explained
25:55 Scaling Quantum Computing Challenges
27:51 Quantum Benchmarking Across Platforms
33:12 Physics and Engineering in Optics
35:34 "Builders vs. Users Explained"
38:53 "Optimizing OQD Stability and Efficiency"
43:29 "Quantum Technology in Daily Life"
46:42 "Atom Precision Mind-Boggler"
48:40 "Industry vs Academia Mindset"
51:45 "Highest Paid Person's Opinion"
