Job Description:
As the Computational Physics and quantum Kernel Software Engineer, you will play a pivotal role in our research and development team. You will develop differentiable physics-based computational kernels for our treatment planning system within an AI-driven control engine.
Responsibilities:
- Develop differentiable multi-physics simulation inference for Quantum heterogeneous graph
- Develop an Interface with the object model through Object Relational Mapping
- Develop computational kernels for particle ballistics of various particle types and geometries
- Collaborate with the Compiler team for accelerator approaches
- Establish key performance metrics for Quantum graph compute engines
- Provide an infrastructure to support control path finder, Monte Carlo, Fluka®, and Comsol® front-end simulation environments
- Develop robust autonomous software that must run with no human supervision for decades. Use thoughtful architecture design, documentation, unit testing, integration testing, profiling, and collaboration with the Computational Physics team to ensure this robustness
Qualifications:
- Develop and implement sophisticated mathematical algorithms and services used in the field of particle ballistics, quantum physics, and treatment planning systems
- Three or more years of proven experience in the field
- Advanced degree in Mathematics, Physics, Computer Science or a similar background
- Passion for mathematics and analytical thinking
Benefits:
- Participate in company equity
- Unlimited vacation
- Flexible work schedule
- Work closely with world-leading scientists, luminaries, and national labs
- Health, Dental and Vision Insurance