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Physics Software Engineer Jobs in Jackson, MS (NOW HIRING)

... Engineering, or Software Engineering * Technical Expertise: Minimum 3-5 years of hands-on ... Deep understanding of industrial optics, including the physics of light and how to filter out ...

... Engineering, or Software Engineering * Technical Expertise: Minimum 3-5 years of hands-on ... Deep understanding of industrial optics, including the physics of light and how to filter out ...

... Engineering, or Software Engineering * Technical Expertise: Minimum 3-5 years of hands-on ... Deep understanding of industrial optics, including the physics of light and how to filter out ...

College of Science, Engineering and Technology, College of Business, College of Education and Human ... Comfort with technology to utilize online learning systems, online class software and college ...

Education: Bachelor's Degree in Computer Science, Math, Physics, Engineering or other technical ... Performs software updates. * Tests and validates all software associated updates prior to ...

Physics Software Engineer information

See Jackson, MS salary details

$55.3K

$128.6K

$179.1K

How much do physics software engineer jobs pay per year?

As of Jul 14, 2026, the average yearly pay for physics software engineer in Jackson, MS is $128,556.00, according to ZipRecruiter salary data. Most workers in this role earn between $104,600.00 and $150,800.00 per year, depending on experience, location, and employer.

What is the difference between Physics Software Engineer vs Data Scientist?

AspectPhysics Software EngineerData Scientist
Required CredentialsBachelor's or Master's in Physics, Computer Science, or related fieldBachelor's or Master's in Data Science, Statistics, Computer Science, or related field
Work EnvironmentResearch labs, tech companies, aerospace, or defense industriesTech firms, finance, healthcare, or consulting companies
Industry UsagePhysics research, simulation, modeling, and software developmentData analysis, machine learning, predictive modeling, and data visualization

Physics Software Engineers focus on developing software for physics applications, simulations, and research, often working in research or engineering environments. Data Scientists analyze large datasets to extract insights and build predictive models. While both roles require strong programming skills, Physics Software Engineers emphasize physics principles, whereas Data Scientists focus on data analysis and statistical methods.

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

To thrive as a Physics Software Engineer, you need a strong background in physics, mathematics, and computer science, typically supported by a degree in physics, engineering, or a related field. Proficiency in programming languages such as C++, Python, or MATLAB, and experience with simulation software or scientific computing libraries are essential. Analytical thinking, problem-solving, and effective communication are crucial soft skills for collaborating with multidisciplinary teams and interpreting complex data. These skills are vital for developing accurate, efficient software solutions that model physical systems and drive innovation in scientific and engineering projects.

What is a Physics Software Engineer?

A Physics Software Engineer is a professional who develops, maintains, and optimizes software that simulates or models physical systems and phenomena. They often work at the intersection of physics, computer science, and engineering, creating tools for scientific research, simulations, or real-time physics engines used in industries like gaming, aerospace, or research institutions. These engineers typically have a strong background in both physics and programming, enabling them to translate complex physical formulas and concepts into efficient and accurate code. Their work is crucial for advancing technology in areas such as computational physics, virtual reality, and engineering design.

How does a Physics Software Engineer typically collaborate with scientists and other engineering teams during a project?

Physics Software Engineers often work closely with physicists, data scientists, and hardware engineers to translate complex physical models into reliable software solutions. Collaboration usually involves regular meetings to clarify requirements, iterative development cycles to test and validate simulation accuracy, and ongoing feedback to refine algorithms. Effective communication and teamwork are essential, as engineers must bridge the gap between theoretical concepts and practical implementation while ensuring that software integrates smoothly with other systems. This collaborative environment fosters continuous learning and problem-solving, making the role both challenging and rewarding.
What are popular job titles related to Physics Software Engineer jobs in Jackson, MS? For Physics Software Engineer jobs in Jackson, MS, the most frequently searched job titles are:
What job categories do people searching Physics Software Engineer jobs in Jackson, MS look for? The top searched job categories for Physics Software Engineer jobs in Jackson, MS are:
Vision Systems Engineer

Vision Systems Engineer

Howard Industries

Madison, MS • On-site

Other

Posted 10 days ago


Job description

Company Overview:

Howard Industries, Inc. is the nation’s leading manufacturer of distribution transformers, with over 10 million overhead, single-phase and three-phase pad mounted, and network transformers in service throughout the United States and abroad. As Mississippi's largest privately held employer headquartered within the state, the company employs over 5,000 team members, generates over $1 billion in revenue, and consists of three main corporate divisions: Howard Power Solutions, Howard Transportation, and Howard Technology Solutions.


Vision Systems Engineer (AI Specialist)

We are seeking a highly skilled Vision Systems Engineer to lead the integration and optimization of advanced automated inspection systems within our high-volume, high-mix heavy manufacturing facility.

In this role, you will be the subject matter expert for AI vision platforms, leveraging both 2D and 3D imaging to solve complex inspection challenges. You will work in a fast-paced environment where precision is critical, ensuring every component—from massive structural parts to small identification decals—meets our rigorous quality standards.


Key Responsibilities

  • System Design & Integration: Architect, program, and deploy vision solutions utilizing AI-driven toolsets for complex defect detection.
  • 2D & 3D Implementation: Configure 2D cameras for AI based analysis and 3D lasers for volumetric analysis and defect detection.
  • Automated Inspection Tasks:
  • Part Location: Develop robust "Search" and "Shape Trailing" logic to locate heavy components on high-volume lines.
  • Decal & Placement Verification: Utilize AI learning to verify the presence, orientation, and correct application of decals and labels.
  • Cosmetic Defect Detection: Train AI models to distinguish between acceptable surface variations and true cosmetic flaws (scratches, dents, or coating irregularities) on diverse materials.
  • OCR/OCV: Implement high-reliability reading of metal-stamped or printed nameplates and VIN plates in challenging industrial lighting.
  • Hardware Specification: Select appropriate lighting (backlights, ring lights, coaxial), lenses, and mounting bracketry to withstand heavy manufacturing environments.
  • Continuous Improvement: Analyze inspection data to reduce "false rejects" and improve "overkill" rates using statistical analysis tools.


Required Qualifications

  • Bachelors Degree: Mechanical Engineering, Electrical Engineering, Industrial Engineering, Computer Engineering, or Software Engineering
  • Technical Expertise: Minimum 3–5 years of hands-on experience with Vision Systems
  • 3D Vision: Proven experience with 3D laser profilers or area sensors for Z-axis measurement and inspection.
  • 2D Vision: Proven experience utilizing 2D cameras to train AI learning models to detect defects.
  • Manufacturing Background: Experience in a heavy manufacturing or automotive environment; comfortable working around large-scale automation and robotics.
  • Problem Solving: Deep understanding of industrial optics, including the physics of light and how to filter out ambient interference in a factory setting.
  • Communication: Ability to collaborate with PLC Engineers (Allen-Bradley) to integrate vision data into the broader automation cell.


Preferred Skills

  • Experience with Zebra, Keyence, Cognex, or Sick Vision System technology for quality inspection.
  • Knowledge of robotic guidance (linking vision systems to Fanuc, ABB, Yaskawa or Kuka arms).