Unpack the Stack:
An Introduction to Quantinuum’s Next-Generation Software Stack
Thursday, September 18th, 2025
Session 1: 2:00am MT | 4:00am ET | 9:00am BST
Session 2: 10:00am MT | 12:00pm ET | 5:00pm BST
The foundation for scalable, programmable, real-time quantum computing.
Quantinuum's next-generation Helios system will come online this year as a full-stack platform that sets a new standard for the industry. Ahead of its launch, we have announced our new software stack for Helios and future generation systems, including Guppy, a new, open-source programming language, and Selene, which can emulate a subset of Helios.
During this technical webinar, Seyon Sivarajah, Principal Manager of Software Engineering, and Irfan Khan, Senior Application Engineer, will provide a deep dive into the features and benefits of the new stack, and how it will enable a lower barrier to entry, faster time-to-solution, industry-standard access, and the best possible user experience.
Most importantly, this stack is designed with the future in mind as Quantinuum advances toward universal, fully fault-tolerant quantum computing.
Join us to hear all the details and participate in a Q&A opportunity with the presenters.
Resources
Learn more about Guppy, our new open-source Python-based programming language and our emulator, Selene, and start experimenting with everything from traditional circuits to dynamic, measurement-dependent programs.
Get in touch
Partner with us to leverage our industry-leading full-stack quantum technologies to explore breakthroughs in drug discovery, healthcare, materials science, cybersecurity, energy transformation, and climate change.
Dr. Michael Foss Feig
Michael is a fellow physicist at Quantinuum working on theoretical aspects quantum computation with trapped ions. His research is currently focused mainly on near-term applications of quantum computers, especially to solving problems in quantum many-body physics. Before joining Quantinuum, Michael worked on a variety of topics at the interface of atomic physics, quantum optics, condensed-matter physics, and quantum information.