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Quantum Hardware Engineer Jobs in Bothell, WA (NOW HIRING)

Senior Cryogenic Engineer

Redmond, WA · On-site

$117K - $160K/yr

... quantum hardware integration. The engineer will act as a technical lead and operational owner ... coordinating across engineering, facilities, vendors, and global lab teams. This position requires ...

The Microsoft Quantum team is redefining what is possible with technology, creating unprecedented ... hardware engineering, compilers, scientific computing applications, or multi-component systems * OR ...

Senior CAD Engineer

Redmond, WA · On-site

$117K - $160K/yr

As a Senior CAD Engineer you will design, develop, modify and evaluate components used in analog ... Collaborate with device, packaging, and quantum-hardware design teams to codesign for noise ...

Quantum Software Engineer II

Redmond, WA · On-site

$109K - $149K/yr

... hardware to design end-to-end solutions that connect research and product. * Engaging with the open ... Quantum Software Engineering IC3 - The typical base pay range for this role across the U.S. is USD ...

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Quantum Hardware Engineer information

See Bothell, WA salary details

$57K

$163.5K

$219.7K

How much do quantum hardware engineer jobs pay per year?

As of Jul 15, 2026, the average yearly pay for quantum hardware engineer in Bothell, WA is $163,469.00, according to ZipRecruiter salary data. Most workers in this role earn between $138,100.00 and $182,200.00 per year, depending on experience, location, and employer.

What engineers make $300,000 a year?

Senior engineers in specialized fields such as quantum hardware engineering, software engineering, and data science can earn $300,000 or more annually, especially with extensive experience, advanced skills, and working in high-demand industries or companies. These roles often require advanced degrees, certifications, and expertise in cutting-edge technologies or tools.

What is the difference between Quantum Hardware Engineer vs Quantum Software Engineer?

AspectQuantum Hardware EngineerQuantum Software Engineer
Required CredentialsBachelor's/Master's in Physics, Electrical Engineering, or related fields; experience with hardware design and fabricationBachelor's/Master's in Computer Science, Software Engineering, or related; programming skills in Python, C++, or similar
Work EnvironmentLaboratories, hardware prototyping facilities, clean roomsSoftware development environments, cloud platforms, simulation tools
Employer & Industry UsageQuantum tech companies, research labs, hardware manufacturersTech firms, research institutions, software companies working on quantum algorithms

Quantum Hardware Engineers focus on designing, building, and testing physical quantum devices, while Quantum Software Engineers develop algorithms and software to run on quantum hardware. Both roles are essential in advancing quantum technology but differ in their focus and skill sets.

What are some common challenges faced by Quantum Hardware Engineers when scaling up quantum systems?

Quantum Hardware Engineers often encounter significant challenges when scaling quantum systems, such as maintaining qubit coherence and minimizing error rates as the number of qubits increases. Integrating control electronics and cryogenic systems while ensuring signal fidelity is another complex aspect of the role. Collaboration with physicists, materials scientists, and software engineers is essential to troubleshoot hardware limitations and develop scalable architectures. Overcoming these challenges requires creative problem-solving and a multidisciplinary approach, making the role both demanding and highly rewarding.

What engineers make $500,000?

Senior engineers in specialized fields such as software engineering, data engineering, and certain hardware engineering roles can earn $500,000 or more annually, especially with experience, bonuses, and stock options. High-level positions often require advanced skills, certifications, and leadership responsibilities within large companies or tech firms.

What are Quantum Hardware Engineers?

Quantum Hardware Engineers are professionals who design, develop, and maintain the physical systems that enable quantum computing. They work on building and optimizing quantum processors, cryogenic systems, control electronics, and other hardware components necessary for quantum computers. Their role is essential for advancing the practical implementation of quantum technologies, collaborating closely with physicists, software engineers, and researchers to push the boundaries of computational power. These engineers often have backgrounds in physics, electrical engineering, or materials science, and are skilled in both theoretical and hands-on laboratory work.

How much does a quantum hardware engineer make?

The average salary for a quantum hardware engineer ranges from $80,000 to $150,000 annually, depending on experience, education, and location. Senior roles or those with specialized skills in cryogenics, quantum circuits, or fabrication may earn higher salaries, often exceeding $180,000.

What does a quantum hardware engineer do?

A quantum hardware engineer designs, develops, and tests physical components of quantum computers, such as qubits, superconducting circuits, and cryogenic systems. They work with specialized tools and materials, often requiring knowledge of quantum physics, electrical engineering, and cryogenics, to improve the stability and performance of quantum devices.

What are the key skills and qualifications needed to thrive as a Quantum Hardware Engineer, and why are they important?

To thrive as a Quantum Hardware Engineer, you need a deep understanding of quantum physics, electrical engineering, and materials science, often supported by an advanced degree (such as a PhD) in a related field. Familiarity with technical tools like cryogenic systems, microwave electronics, and quantum measurement instruments, as well as programming languages such as Python, is typically required. Strong problem-solving abilities, attention to detail, and effective collaboration skills distinguish top candidates in this role. These competencies are critical for designing, building, and optimizing complex quantum devices that advance the field of quantum computing.
What are popular job titles related to Quantum Hardware Engineer jobs in Bothell, WA? For Quantum Hardware Engineer jobs in Bothell, WA, the most frequently searched job titles are:
What job categories do people searching Quantum Hardware Engineer jobs in Bothell, WA look for? The top searched job categories for Quantum Hardware Engineer jobs in Bothell, WA are:
What cities near Bothell, WA are hiring for Quantum Hardware Engineer jobs? Cities near Bothell, WA with the most Quantum Hardware Engineer job openings:
Senior Quantum Applied Research Scientist, Physics Modeling

Senior Quantum Applied Research Scientist, Physics Modeling

Nvidia

Redmond, WA • Hybrid

$110K - $140K/yr

Full-time

Posted 6 days ago


Nvidia rating

9.3

Company rating: 9.3 out of 10

Based on 5 frontline employees who took The Breakroom Quiz

15th of 209 rated software companies


Job description

At NVIDIA, we're solving the world's most exciting problems with our unique approach to accelerated computing. We're looking for a passionate scientist at the intersection of quantum device physics and advanced physics simulation and modeling. This role will path-find the future of high-fidelity, real-time models for fault-tolerant quantum hardware.

At NVIDIA, we want to help accelerate the entire quantum ecosystem. As a Sr. Quantum Applied Research Scientist, you will help design and build high-fidelity models grounded in device physics, calibration experiments, decoding, and system performance. You will develop physics-informed data generation pipelines, advanced physics models, and advanced noise models. Your research will translate qubit physics into performant, accelerated modeling systems for fault-tolerant quantum computing for both offline and real-time use. You will collaborate with teams across Product, Engineering, and Applied Research to push the frontier of Accelerated Quantum Supercomputers! Do you love developing new technology, enjoy working with people and teams around the world, and operating at the speed of light? If yes, we would love to hear from you!

What you'll be doing:

  • Research and develop advanced physics-based models and scalable simulation frameworks.

  • Build physics-informed synthetic data generation pipelines that leverage quantum device models, noise channels, and Hamiltonian characterization to produce high-quality datasets.

  • Develop detailed noise models of quantum hardware that capture device physics, decoherence, and drift behavior, enabling accurate performance prediction and parameter inference without full experimental overhead.

  • Develop GPU-accelerated implementations to ensure the full simulation and modeling pipeline scales.

  • Communicate research findings and collaborate with academic and industry partners to advance the field, while championing rapid innovation, technical depth, and creative problem solving.

What we need to see:

  • Masters Degree in Physics, Computer Science, Electrical Engineering, Applied Mathematics, or a related field (Ph.D. strongly preferred); or equivalent experience.

  • 8+ years of combined experience and high impact in quantum systems, physics-based modeling, simulation, or related research areas.

  • Hands-on expertise in developing high-fidelity models of physical systems, including numerical simulation and model validation.

  • Strong background in quantum device physics and information science, including noise models, error mechanisms, and fault-tolerant quantum systems across one or more qubit modalities.

  • Broad understanding of quantum control, such as pulse-level hardware interfaces and classical feedback through software abstractions.

  • Experience with scalable computing or accelerated systems for simulation, numerical methods, or modeling workflows.

  • Excellent communication and collaboration skills.

Ways to stand out from the crowd:

  • Hands-on experience developing simulation frameworks or digital twins of quantum systems and deploying them in calibration or control workflows, with awareness of fidelity, latency, and scalability tradeoffs.

  • Deep expertise in modeling, extracting, and validating noise processes, including system identification, parameter estimation, and uncertainty quantification.

  • Experience with physics-informed or generative approaches to synthetic data generation, including noise simulation, Hamiltonian learning, or data augmentation for scientific workflows.

  • Experience with modeling of more than one qubit modality, including neutral atom qubits.

  • Proficiency with CUDA and NVIDIA GPU programming for accelerating quantum simulation, numerical modeling, or large-scale scientific workloads.

Widely considered to be one of the technology world's most desirable employers, NVIDIA offers highly competitive salaries and a comprehensive benefits package. As you plan your future, see what we can offer to you and your family www.nvidiabenefits.com/

#LI-Hybrid

Your base salary will be determined based on your location, experience, and the pay of employees in similar positions. The base salary range is 192,000 USD - 304,750 USD.

You will also be eligible for equity and benefits.

Applications for this job will be accepted at least until June 12, 2026.

This posting is for an existing vacancy.

NVIDIA uses AI tools in its recruiting processes.

NVIDIA is committed to fostering an inclusive work environment and proud to be an equal opportunity employer. As we highly value diversity in our current and future employees, we do not discriminate (including in our hiring and promotion practices) on the basis of race, religion, color, national origin, gender, gender expression, sexual orientation, age, marital status, veteran status, disability status or any other characteristic protected by law.

What Nvidia employees say

Hours and flexibility

Workplace

Get the full story on Breakroom


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About Nvidia

Sourced by ZipRecruiter

NVIDIA has been transforming computer graphics, PC gaming, and accelerated computing for more than 25 years. It's a unique legacy of innovation that's fueled by great technology--and amazing people. Today, we're tapping into the unlimited potential of AI to define the next era of computing. An era in which our GPU acts as the brains of computers, robots, and self-driving cars that can understand the world. Doing what's never been done before takes vision, innovation, and the world's best talent.

Industry

Computer and electronic product manufacturing

Company size

10,000+ Employees

Headquarters location

Santa Clara, CA, US

Year founded

1993