Principal Scientific Software Engineer – Quantum Error Correction
Location: Major US Tech Hub (Relocation Supported)
Ready to help build the future of computing?
Curious about shaping technology that could redefine science itself?
Looking for a role where your work doesn’t just scale systems—but changes what’s possible?
Our client is at the forefront of next-generation computing, working on breakthroughs that could transform industries from pharmaceuticals to climate modelling. They are now seeking a Principal Scientific Software Engineer to lead the evolution of a cutting-edge quantum error correction (QEC) software stack—a critical step toward making quantum computing truly scalable and practical.
This is more than a role. It’s an opportunity to be part of something genuinely game-changing, collaborating with world-class researchers and engineers to turn theoretical advances into real-world impact.
Why This Role is Great
In this position, you’ll take ownership of a highly sophisticated software ecosystem and help shape the future of quantum computing:
- Architect the future of QEC software: Design and guide the development of an end-to-end error correction stack—from high-level logical circuits to low-level execution layers.
- Push the boundaries of compiler innovation: Work on advanced compiler infrastructure, leveraging SSA-based architectures and multi-stage programming models to optimise quantum circuits.
- Lead and inspire technical teams: Mentor talented engineers and collaborate across disciplines, fostering a culture of innovation and technical excellence.
- Bridge theory and real-world systems: Partner with researchers and hardware specialists to translate cutting-edge ideas into production-ready software.
- Drive meaningful scientific progress: Contribute to research initiatives, publications, and breakthrough demonstrations in quantum technology.
- Own complex, high-impact challenges: From decoding algorithms to fault-tolerant circuit transformations, you’ll tackle problems that sit at the frontier of computing.
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Principal Scientific Software Engineer – Quantum Error Correction
Location: Major US Tech Hub (Relocation Supported)
Ready to help build the future of computing?
Curious about shaping technology that could redefine science itself?
Looking for a role where your work doesn’t just scale systems—but changes what’s possible?
Our client is at the forefront of next-generation computing, working on breakthroughs that could transform industries from pharmaceuticals to climate modelling. They are now seeking a Principal Scientific Software Engineer to lead the evolution of a cutting-edge quantum error correction (QEC) software stack—a critical step toward making quantum computing truly scalable and practical.
This is more than a role. It’s an opportunity to be part of something genuinely game-changing, collaborating with world-class researchers and engineers to turn theoretical advances into real-world impact.
Why This Role is Great
In this position, you’ll take ownership of a highly sophisticated software ecosystem and help shape the future of quantum computing:
- Architect the future of QEC software: Design and guide the development of an end-to-end error correction stack—from high-level logical circuits to low-level execution layers.
- Push the boundaries of compiler innovation: Work on advanced compiler infrastructure, leveraging SSA-based architectures and multi-stage programming models to optimise quantum circuits.
- Lead and inspire technical teams: Mentor talented engineers and collaborate across disciplines, fostering a culture of innovation and technical excellence.
- Bridge theory and real-world systems: Partner with researchers and hardware specialists to translate cutting-edge ideas into production-ready software.
- Drive meaningful scientific progress: Contribute to research initiatives, publications, and breakthrough demonstrations in quantum technology.
- Own complex, high-impact challenges: From decoding algorithms to fault-tolerant circuit transformations, you’ll tackle problems that sit at the frontier of computing.
…