PsiQuantum
Science • Hardware • Artificial Intelligence
PsiQuantum is a company dedicated to building and deploying the world's first useful quantum computers. Their approach involves a photonics-based architecture, leveraging existing infrastructure to create utility-scale, fault-tolerant quantum computers as rapidly as possible. With a team of quantum architects, chemists, developers, engineers, and theorists, PsiQuantum focuses on developing use-cases for quantum computers capable of solving complex, intractable problems. The company is actively involved in research and scaling their photonics approach to achieve large-scale, fault-tolerant quantum computing.
51 - 200 employees
Founded 2015
🔬 Science
🔧 Hardware
🤖 Artificial Intelligence
Intern, Quantum Architecture
Job not on LinkedIn
April 24
PsiQuantum
Science • Hardware • Artificial Intelligence
PsiQuantum is a company dedicated to building and deploying the world's first useful quantum computers. Their approach involves a photonics-based architecture, leveraging existing infrastructure to create utility-scale, fault-tolerant quantum computers as rapidly as possible. With a team of quantum architects, chemists, developers, engineers, and theorists, PsiQuantum focuses on developing use-cases for quantum computers capable of solving complex, intractable problems. The company is actively involved in research and scaling their photonics approach to achieve large-scale, fault-tolerant quantum computing.
51 - 200 employees
Founded 2015
🔬 Science
🔧 Hardware
🤖 Artificial Intelligence
đź“‹ Description
• Quantum computing holds the promise of humanity’s mastery over the natural world, but only if we can build a real quantum computer. • PsiQuantum is on a mission to build the first real, useful quantum computers, capable of delivering world-changing applications. • Develop and study methods for fault-tolerant FBQC. • Project topics could include: linear optical networks, FBQC protocols, quantum error correcting codes, decoding methods, simulation and modelling methods. • Model the origin and propagation of errors. • Simulate and benchmark different protocols. • Document and communicate results.
🎯 Requirements
• Degree in Physics, Math or Computer Science or equivalent required. • Currently studying for, or completed a postgraduate degree related to linear optics, fault tolerance or another aspect of quantum computing. • Knowledge of quantum information is required. Familiarity with some of the following is desirable: quantum networks, graph states, stabilizer methods, quantum error-correcting codes, linear optical quantum computing, error modelling, graphical calculus (e.g, tensor networks, ZX calculus). • Experience programming in Python, C++ or similar languages. • Competent use of collaborative software development tools (e.g., GitHub) is desirable. • A creative and adaptable approach to problem solving. • Ability to work effectively in a highly collaborative team.
🏖️ Benefits
• Variable based on permanent residency location
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