2

Quantum Computing Engineer Remote Jobs in Utah (NOW HIRING)

Linear Algebra Tutor

Provo, UT · Remote

$18 - $40/hr

... data science, engineering, and advanced mathematics. * Conceptual Teaching & Problem-Solving ... learning, and quantum mechanics applications. * Curriculum Awareness & Adaptive Instruction:

... data science, engineering, and advanced mathematics. * Conceptual Teaching & Problem-Solving ... learning, and quantum mechanics applications. * Curriculum Awareness & Adaptive Instruction:

... data science, engineering, and advanced mathematics. * Conceptual Teaching & Problem-Solving ... learning, and quantum mechanics applications. * Curriculum Awareness & Adaptive Instruction:

Linear Algebra Tutor

Logan, UT · Remote

$18 - $40/hr

... data science, engineering, and advanced mathematics. * Conceptual Teaching & Problem-Solving ... learning, and quantum mechanics applications. * Curriculum Awareness & Adaptive Instruction:

Title: Sales Ops Data Analyst In Office /Remote: /Hybrid Exempt / Non-exempt Based: Manila ... Skills: Advanced Excel VBA programming, data modeling, and professional English communication ...

NPI Project Manager In Office /Remote: /Hybrid Exempt / Non-exempt Based: Manila, Philippines ... Drive action item closure across engineering, supply chain, quality, and foundry/OSAT teams ...

Quantum Computing Engineer Remote information

What are the key skills and qualifications needed to thrive as a Quantum Computing Engineer (Remote), and why are they important?

A Quantum Computing Engineer requires strong knowledge in quantum mechanics, computer science, and mathematics, often supported by a degree in physics, engineering, or a related field. Familiarity with quantum programming languages (such as Qiskit or Cirq), cloud-based quantum platforms, and proficiency in Python are typically necessary, and certifications in quantum computing can be advantageous. Excellent problem-solving skills, self-motivation, and effective remote communication are essential soft skills for success in a distributed team environment. These competencies enable engineers to develop innovative quantum algorithms, collaborate efficiently, and drive advancements in this rapidly evolving field.

What is the difference between Quantum Computing Engineer Remote vs Quantum Software Developer?

AspectQuantum Computing Engineer RemoteQuantum Software Developer
Required CredentialsBachelor's or Master's in Physics, Computer Science, or related field; knowledge of quantum algorithmsBachelor's or Master's in Computer Science or related; programming skills in quantum languages
Work EnvironmentRemote, often collaborative with research teams or tech companiesRemote or on-site, focused on developing and testing quantum software
Employer & Industry UsageTech companies, research labs, startups in quantum techSoftware firms, tech companies, research institutions

While both roles involve quantum computing, Quantum Computing Engineers Remote focus on designing and developing quantum hardware and algorithms, whereas Quantum Software Developers primarily create software applications and simulations. Both roles often require similar educational backgrounds and can be performed remotely, but their core responsibilities differ in hardware versus software development within the quantum industry.

What are the typical collaboration dynamics for a remote Quantum Computing Engineer, and how do teams coordinate on complex projects?

As a remote Quantum Computing Engineer, you’ll typically work as part of a multidisciplinary team that may include physicists, software developers, and hardware engineers. Collaboration often relies on version control systems, virtual meetings, and shared documentation platforms to coordinate complex research and development tasks. Regular syncs, code reviews, and agile methodologies are commonly used to ensure everyone stays aligned despite geographic distances. Effective communication and a proactive approach to problem-solving are key, as much of the work involves iterative testing and collective troubleshooting. This structure allows for both deep individual focus and consistent team progress on groundbreaking projects.

What does a Quantum Computing Engineer do when working remotely?

A Quantum Computing Engineer working remotely designs, develops, and tests algorithms and software that leverage quantum computers, often collaborating with teams using virtual tools. They may focus on quantum programming, error correction, or integrating quantum solutions with classical systems. Remote engineers access quantum hardware through cloud-based platforms, participate in research, and stay current with advancements in quantum technology. Effective communication and self-management skills are essential for success in this remote role.
What are the most commonly searched types of Quantum Computing Engineer jobs in Utah? The most popular types of Quantum Computing Engineer jobs in Utah are:
What are popular job titles related to Quantum Computing Engineer Remote jobs in Utah? For Quantum Computing Engineer Remote jobs in Utah, the most frequently searched job titles are:
What job categories do people searching Quantum Computing Engineer Remote jobs in Utah look for? The top searched job categories for Quantum Computing Engineer Remote jobs in Utah are:
What cities in Utah are hiring for Quantum Computing Engineer Remote jobs? Cities in Utah with the most Quantum Computing Engineer Remote job openings:
Senior Analyst, Software Engineering | Software Engineer II

Senior Analyst, Software Engineering | Software Engineer II

Verisk

Lehi, UT • On-site, Remote

$115K - $151K/yr

Full-time

Re-posted 2 days ago


Verisk rating

7.5

Company rating: 7.5 out of 10

Based on 128 frontline employees who took The Breakroom Quiz

97th of 210 rated it services


Job description

hackajob is collaborating with Verisk to connect them with exceptional professionals for this role.

Description

The Software Engineer II is an early- to mid-career professional responsible for contributing to the design, development, testing, and delivery of high-quality software solutions that support Verisk Weather Solutions products and services. This role focuses on building reliable, scalable systems that ingest, process, and deliver radar-based and other meteorological data products, with a strong emphasis on correctness, performance, and data integrity.

The individual will work closely with software engineers, product managers, scientists, and software architects to implement well-defined designs and support applications that rely heavily on radar and weather data formats. While the role may interact with data-driven or model-assisted workflows, the primary emphasis is on software engineering excellence and hands-on experience working with radar and meteorological data, rather than AI or model development.

Responsibilities

- Design, implement, test, and maintain software components using Python and C/C++.

- Implement architectural designs and technical patterns defined by senior engineers and software architects.

- Develop and maintain systems that ingest, transform, validate, and serve radar and weather data products.

- Own well-defined features or services from development through deployment and operational support.

- Write clean, maintainable, and well-tested code that meets performance, reliability, and quality standards.

- Participate in technical design discussions and provide implementation-focused input on proposed solutions.

- Work cross-functionally with product managers and scientists to translate domain-specific requirements into technical solutions.

- Contribute to peer code reviews and shared engineering best practices.

Qualifications

- Bachelor’s degree or equivalent practical experience in Computer Engineering, Software Engineering, or a related scientific or engineering discipline such as Atmospheric Science, Meteorology, Hydrology, Physics, Mathematics, or Engineering.

- At least 2 years of professional software engineering experience in an industry environment.

- Professional experience with Python and C/C++.

- Experience working across the full Software Development Lifecycle.

- Familiarity with CI/CD workflows and tools such as GitLab CI, Jenkins, or Bamboo.

- Experience using version control systems (e.g., Git).

- Hands-on professional experience working with radar and weather data.

- Direct experience with one or more weather or radar data formats such as NEXRAD Level II, GRIB2, or NetCDF.

Preferred Qualifications

- Strong experience developing or maintaining systems that process radar data at scale, including real-time or near–real-time pipelines.

- Familiarity with geospatial data concepts and coordinate systems.

- Experience collaborating closely with scientists or domain experts.

- Exposure to data-driven or analytics-enabled systems.

- Experience in high-performance, data-intensive, or scientific computing environments.

Additional Information

- Travel Required: Less than 1%

- Work Environment: Remote


What Verisk employees say

Pay

Benefits

Hours and flexibility

Workplace

Get the full story on Breakroom


Verisk logo

About Verisk

Sourced by ZipRecruiter

Verisk is a top-tier data analytics organization based in Jersey City, NJ, US, known for its deep industry knowledge and analytical prowess. Operating in the global risk assessment industry, it provides predictive analytics and decision support solutions to a wide range of industries like insurance, natural resources, financial services, government, and health care. Founded in 1971, Verisk operates on a mission of helping customers make superior decisions to minimize risk. With an organic growth strategy, Verisk offers a diverse portfolio of solutions, like risk assessment and decision analytics, that help businesses understand and manage their risks.

Industry

Library and information services

Company size

5,001 - 10,000 Employees

Headquarters location

Jersey City, NJ, US

Year founded

1971

Social media