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Applied Computing Jobs in Georgia (NOW HIRING)

... Applied Mathematics, or a related field. Strong background in computational fluid dynamics, fluid ... Experience with high-performance computing (HPC) and parallel computing. Experience validating ...

Senior Optimization Engineer

Embry Hills, GA · On-site +1

$103K - $141K/yr

D. in Mechanical Engineering, Aerospace Engineering, Industrial Engineering, Applied Mathematics ... computing languages Familiarity with finite element, multiphysics, or system-level engineering ...

You will develop and deploy new products at scale and leverage Workday's vast computing resources ... applied machine learning products at scale, including taking products through applied research ...

We are interested in a variety of topics including large-scale distributed systems, stream processing, edge computing, applied machine learning and AI, big graphs, natural language processing, big ...

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Applied Computing information

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$17.7K

$91.8K

$152.8K

How much do applied computing jobs pay per year?

As of Jul 2, 2026, the average yearly pay for applied computing in Georgia is $91,847.00, according to ZipRecruiter salary data. Most workers in this role earn between $72,200.00 and $118,200.00 per year, depending on experience, location, and employer.

What can you do with an applied computing degree?

An applied computing degree prepares individuals for roles such as software developer, systems analyst, data analyst, or IT specialist. Graduates can work in software development, network administration, cybersecurity, or data management, often using programming languages, databases, and technical tools. The degree provides practical skills for technology-focused careers in various industries.

Which 3 jobs will survive AI?

Applied Computing professionals such as software developers, cybersecurity analysts, and data scientists are likely to continue thriving as AI automates routine tasks. These roles require complex problem-solving, creativity, and specialized technical skills that are less easily replaced by AI. Continuous learning and adapting to new tools like machine learning frameworks are essential for long-term job security.

What are the key skills and qualifications needed to thrive in the Applied Computing position, and why are they important?

To thrive in Applied Computing, you need strong analytical abilities, problem-solving skills, and a solid background in computer science or related disciplines, often supported by a relevant bachelor's or master's degree. Familiarity with programming languages, databases, cloud platforms, and certifications like CompTIA, AWS, or Microsoft Azure is highly beneficial. Strong teamwork, effective communication, and project management skills help you excel in multi-disciplinary settings. These qualities enable professionals to design and implement effective technical solutions to complex, real-world problems across industries.

What jobs can I get with applied science?

Applied science graduates can pursue careers such as research scientist, data analyst, systems analyst, software developer, or quality assurance specialist. These roles often require strong problem-solving skills, technical knowledge, and proficiency with tools like programming languages or laboratory equipment.

What types of projects or challenges might I encounter in an Applied Computing role?

In an Applied Computing position, you may work on diverse projects such as developing custom software applications, optimizing business processes with automation, analyzing data for actionable insights, or integrating new technology solutions within existing systems. Challenges often include translating organizational needs into technical requirements, staying current with rapidly evolving technologies, and collaborating closely with stakeholders across departments. You’ll typically collaborate with IT teams, subject matter experts, and sometimes clients to ensure solutions are practical and user-centered. These varied responsibilities keep the role dynamic and provide continual opportunities to expand your technical and professional expertise.

What is an Applied Computing job?

An Applied Computing job involves using computing principles and technologies to solve real-world problems in various industries. Professionals in this field apply software development, data analysis, cybersecurity, and IT management skills to improve business operations and decision-making. These roles can be found in sectors like healthcare, finance, manufacturing, and government, where technology is integrated to optimize processes and drive innovation.

What is the highest paying computing job?

In applied computing, senior roles such as Chief Technology Officer (CTO), solutions architect, and data science director tend to have the highest salaries, often exceeding six figures. These positions typically require advanced skills, extensive experience, and leadership responsibilities in technology development and strategy.
What are popular job titles related to Applied Computing jobs in Georgia? For Applied Computing jobs in Georgia, the most frequently searched job titles are:
What job categories do people searching Applied Computing jobs in Georgia look for? The top searched job categories for Applied Computing jobs in Georgia are:
Infographic showing various Applied Computing job openings in Georgia as of June 2026, with employment types broken down into 70% Full Time, 12% Part Time, and 18% Contract. Highlights an 94% In-person, and 6% Remote job distribution, with an average salary of $91,847 per year, or $44.2 per hour.
Applied Physicist (Quantum Systems) - GTRI - CIPHER - Open Rank

Applied Physicist (Quantum Systems) - GTRI - CIPHER - Open Rank

Georgia Tech Research Institute

Atlanta, GA • On-site

Other

Medical, Retirement

Posted 9 days ago


Georgia Tech rating

7.5

Company rating: 7.5 out of 10

Based on 44 frontline employees who took The Breakroom Quiz

268th of 544 rated colleges and universities


Job description

Overview:

The Georgia Tech Research Institute (GTRI) is the nonprofit, applied research division of the Georgia Institute of Technology (Georgia Tech).Founded in 1934 as the Engineering Experiment Station, GTRI has grown to more than 2,900 employees, supporting eight laboratories in over 20 locations around the country and performing more than $940 million of problem-solving research annually for government and industry.GTRI's renowned researchers combine science, engineering, economics, policy, and technical expertise to solve complex problems for the U.S. federal government, state, and industry.

Georgia Tech's Mission and Values

Georgia Tech's mission is to develop leaders who advance technology and improve the human condition. The Institute has nine key values that are foundational to everything we do:

1. Students are our top priority.
2. We strive for excellence.
3. We thrive on diversity.
4. We celebrate collaboration.
5. We champion innovation.
6. We safeguard freedom of inquiry and expression.
7. We nurture the wellbeing of our community.
8. We act ethically.
9. We are responsible stewards.

Over the next decade, Georgia Tech will become an example of inclusive innovation, a leading technological research university of unmatched scale, relentlessly committed to serving the public good; breaking new ground in addressing the biggest local, national, and global challenges and opportunities of our time; making technology broadly accessible; and developing exceptional, principled leaders from all backgrounds ready to produce novel ideas and create solutions with real human impact.

Project/Unit Description

The Quantum Systems (QS) Division of the Georgia Tech Research Institute's Cybersecurity, Information Protection, and Hardware Evaluation Research (CIPHER) Lab is seeking self-motivated individuals with experience in quantum science or photonics research. The division is composed of a large team of scientists and engineers from disciplines including physics, chemistry, electrical engineering, optical science, mechanical engineering, mathematics, and chemical engineering. QS employees perform fundamental research exploring next-generation technologies based on exotic physical phenomena, working to prove that devices based on these technologies can provide real-world solutions relevant to sponsors.
Our research portfolio includes programs in trapped-ion quantum computing, simulation, and sensing, vapor cell optically pumped magnetometers and Rydberg electrometers, atomic clocks, and the development of mass spectrometers. Support is available to develop projects outside of existing areas of research, such as photonic quantum computing, solid-state defects like NV-centers, quantum networking, and inertial sensors. QS researchers frequently contribute to projects in other GTRI labs and CIPHER divisions involving research in other topics including artificial intelligence and machine learning, communications, biophysics, security, and optics.
The candidate will be expected to work independently and effectively in a highly collaborative, multi-disciplinary team environment. Affiliated with the Georgia Institute of Technology and located on its main campus in Atlanta Georgia, GTRI offers a unique opportunity to conduct applied research in a university setting. Employees in this position are encouraged to publish academic literature and pursue collaborations with academic, government, and industry partners.

Job Purpose

An applied physicist leverages knowledge and skills from the fields of physics, chemistry, material science, and mathematics to contribute to the research, analysis, design, and development of innovative systems, sensors, materials, and devices. They design and conduct experiments and/or simulations to ascertain physical properties and behaviors. Experiments conducted may involve the measurement, characterization, and testing of equipment and environmental phenomenology using specialized tools. Fundamental physical principles are used to inform the design of systems and sensors, to evaluate their theoretical performance, and to develop algorithms. Areas of application may include: optical systems, energy systems and storage, quantum systems, EO/IR & RF M&S and analysis, and photonics, and new materials. An applied physicist might also contribute to the development and application of new materials related to energy production, harvesting, and storage or to areas as diverse as healthcare, entertainment, or national security.

Key Responsibilities
  • Perform more complex tests, experiments, calculations, and/or simulations to determine physical parameters/properties and behaviors of materials and systems and conduct more complex data analysis on the results of measurements and/or simulations
  • Lead design of experiments for simple experiments
  • Generate documentation of experiments and results
  • Contribute to white papers and proposals
  • Contribute to technical reports/presentations of project results

Additional Responsibilities

* Lead proposal writing and other business development activities to win funding for new research thrusts
* Manage the technical and financial execution of research programs
* Contribute to existing projects in applied quantum technologies
* Author technical reports and publications
* Present research to sponsors and peers
* Keep up-to-date in relevant published literature on applied quantum technologies

Required Minimum Qualifications

*Candidates currently enrolled in an accredited degree program relevant to this position will be considered.
*Demonstrated expertise, e.g. through peer-reviewed publications, in quantum science research.

Preferred Qualifications
  • Active TS SCI
  • An ability to effectively communicate technical concepts to technical and non-technical audiences.
  • Active security clearance
    * Technical experience with any of the following:
    a. AMO physics techniques including ion trapping, laser cooling, atomic spectroscopy
    b. vapor cell sensors and clocks
    c. solid state color centers (e.g. NV-centers in diamond)
    d. single photon sources (e.g. quantum dot or four-wave-mixing) and detectors (e.g. SNSPDs)
    e. theoretical quantum optics and/or design for quantum optics experiments
    f. creation and analysis of entangled photon states (e.g. Bell pairs, GHZ states)
    g. integrated photonics design
    h. photonic quantum computing
    i. design and demonstration of practical or fielded quantum devices
    j. scientific programming
    k. micro/nano-fabrication tools and techniques

Travel Requirements

<10% travel

Education and Length of Experience

This position vacancy is an open-rank announcement. The final job offer will be dependent on candidate qualifications in alignment with Research Faculty Extension Professional ranks as outlined in section 3.2.1 of the Georgia Tech Faculty Handbook

  • 0 years of related experience with a Bachelor's degree in Physics, Chemistry, Mathematics, Mechanical Engineering, Electrical Engineering, Optics, Computer Science, Engineering, Materials Science, Optical Engineering, Chemical Engineering.


U.S. Citizenship Requirements

Due to our research contracts with the U.S. federal government, candidates for this position must be U.S. Citizens.

Clearance Type Required

Candidates must be able to obtain and maintain an active security clearance.

Benefits at GTRI

Comprehensive information on currently offered GTRI benefits, including Health & Welfare, Retirement Plans, Tuition Reimbursement, Time Off, and Professional Development, can be found through this link: https://benefits.hr.gatech.edu/.

Equal Employment Opportunity

The Georgia Institute of Technology (Georgia Tech) is an Equal Employment Opportunity Employer. The Institute is committed to maintaining a fair and respectful environment for all. To that end, and in accordance with federal and state law, Board of Regents policy, and Institute policy, Georgia Tech provides equal opportunity to all faculty, staff, students, and all other members of the Georgia Tech community, including applicants for admission and/or employment, contractors, volunteers, and participants in institutional programs, activities, or services. Georgia Tech complies with all applicable laws and regulations governing equal opportunity in the workplace and in educational activities.

Equal opportunity and decisions based on merit are fundamental values of the University System of Georgia ("USG") and Georgia Tech. Georgia Tech prohibits discrimination, including discriminatory harassment, on the basis of an individual's race, ethnicity, ancestry, color, religion, sex (including pregnancy), national origin, age, disability, genetics, or veteran status in its programs, activities, employment, and admissions. Further, Georgia Tech prohibits citizenship status, immigration status, and national origin discrimination in hiring, firing, and recruitment, except where such restrictions are required in order to comply with law, regulation, executive order, or Attorney General directive, or where they are required by Federal, State, or local government contract.

USG Core Values Statement

The University System of Georgia is comprised of our 26 institutions of higher education and learning as well as the System Office. Our USG Statement of Core Values are Integrity, Excellence, Accountability, and Respect. These values serve as the foundation for all that we do as an organization, and each USG community member is responsible for demonstrating and upholding these standards. More details on the USG Statement of Core Values and Code of Conduct are available in USG Board Policy 8.2.18.1.2 and can be found on-line at https://www.usg.edu/policymanual/section8/C224/#p8.2.18_personnel_conduct.

Additionally, USG supports Freedom of Expression as stated in Board Policy 6.5 Freedom of Expression and Academic Freedom found on-line at https://www.usg.edu/policymanual/section6/C2653.


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About Georgia Tech

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Georgia Tech is a top-ranked public research university situated in the heart of Atlanta, a diverse and vibrant city with great economic and cultural strengths. The Institute is a member of the University System of Georgia, the Georgia Research Alliance, and the Association of American Universities. Georgia Tech prides itself on its technology resources, collaborations, high-quality student body, and its commitment to diversity, equity, and inclusion.

Industry

Education

Company size

10,000+ Employees

Headquarters location

Atlanta, GA, US

Year founded

1888

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