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Americas, United States, Berkeley

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Posted 109 days ago

Quantum Error Correction Software Engineer

🏢 Atom Computing

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Role Type

🛠️ Engineer / Developer

Role Focus

💻 Code Systems

Seniority

🌿 Experienced

🌸 PhD / Postdoc

Employer Type

🏢 Industry

This role is for a Quantum Error Correction Software Engineer who will contribute to the architecture and strategy of error correction in neutral atom quantum computers. The engineer will utilize a background in quantum information theory to research quantum error correcting codes and design fault-tolerant quantum computation demonstrations. Key tasks include developing software for compilation, real-time decoding, and simulation to advance the state-of-the-art in quantum computing.

Key Responsibilities

Conduct research related to quantum error correcting codes and fault-tolerance.

Design and implement demonstrations of fault-tolerant quantum computation.

Manage real-time decoding and classical feedforward during fault-tolerant quantum computation.

Perform compilation of quantum circuits.

Analyze data generated from quantum hardware performing error corrected computation.

Required Skills

Experience developing software for quantum computers in industry or academia.

Solid understanding of quantum computing and quantum information concepts.

Proficiency in Python coding.

Proficiency in one or more compiled languages (such as Rust, C, or C++).

Familiarity with Git version control.

Experience with quantum error correction theory.

Ability to translate research results into functional production code.

Technology Tags

Error correction

This is the primary focus, involving research and implementation of quantum error correcting codes.

Fault-tolerant

The entire job centers around contributing to the architecture and strategy of error correction and fault tolerance.

Python

Coding proficiency in Python is explicitly required for this software engineering role.

Neutral Atoms

The company builds quantum computers using arrays of optically trapped neutral atoms.

Quantum compilers

A core responsibility is the compilation of quantum circuits.

Quantum info theory

The role requires a solid grasp of quantum information concepts and error correction theory.

Pulse-level control

Responsibilities include compilation and real-time feedforward interfacing with atomic qubit arrays.

Source Job Description

At Atom Computing, we build quantum computers using arrays of optically trapped neutral atoms that will empower customers to achieve unprecedented computational breakthroughs. Join a world-class team of scientists, engineers, and business professionals to advance the state-of-the-art in quantum computing.

We are seeking a software engineer with a background in quantum information theory to contribute to the architecture and strategy of error correction in neutral atom quantum computers. Atomic qubit arrays provide a path to the large-scale quantum computers that will deliver fault-tolerant, error-corrected logical qubits.

Job Responsibilities:

Research related to quantum error correcting codes and fault-tolerance

Designing and implementing demonstrations of fault-tolerant quantum computation

Real-time decoding and classical feedforward during fault-tolerant quantum computation

Setup and maintenance of databases

Compilation of quantum circuits

Analyzing data generated from quantum hardware performing error corrected computation

Simulation of fault-tolerant quantum computation

Resource estimation for fault-tolerant quantum applications

Experience & Education

PhD in Physics, Computer Science, Engineering, or a related field

Experience with quantum error correction theory

Qualifications

Must have previous experience developing software for quantum computers in industry and/or academia and a solid grasp of quantum computing and quantum information concepts.

Coding proficiency in Python and one or more compiled languages such as Rust, C, or C++, and familiarity with Git version control.

Willingness to learn AMO physics or quantum mechanics concepts as required.

Documented ability to translate research results into functional production code.

Ability to effectively collaborate with software developers, physicists, and engineers in complementary disciplines.

Temperamentally suited to work at a fast-growing, early-stage startup: self-motivated, humble, driven, collaborative, and with a high tolerance for ambiguity and uncertainty.