Validation and Verification Engineer
South field, NJ
Full Time
Bachelor’s Degree in Mechanical Engineering or a closely re-lated discipline, in my university and across most accredited institutions in the United States, ac-quires knowledge in the theories and concepts of Fundamentals of Machining Practices, Introduction to Machine Design, Introduction to Fluid Mechanics, Engineering Statics, Engineering Dynamics, Control System Design & Analysis, Thermal System Design, Internal Combustion Engineering, Mechatronics, Thermodynamics, Heat & Mass Transfer, Numerical Methods in Engineering Design and Analysis, Manufacturing Processes, Mechanics of Solids, Risk Management, Engineering Computing and Problem Solving, Engineering Drawing & CAD, Equipment Qualification, Process Validation, and other related areas. The coursework for such undergraduate programs. Verification & Validation Engineer for Core ITS LLC.
Full Job Description
Validation and Verification (V&V) Engineer – Entry – Bachelors
Core Job Responsibilities
• Specify, design, and create automated test solutions for verifying and validating (V&V)
new product specifications
• Utilize programming skills to develop test applications running on desktop and
industrial PCs
• Integrate software and hardware to fully support project teams for existing and new
products using measurement instrumentation
• Execute test plans and methodologies, collect data, and generate reports to review
data
• Collaborate and interact with a wide variety of NI staff in R&D software and hardware
organizations, as well as employees from other business groups in Hungary and
Malaysia
• Review and approve product specifications and customer user documentation for the
product
Qualifications
• B. S. in computer science, computer engineering, electrical engineering, or electronics
Engineering
• 5+ years’ experience in Systems/Product Verification/Validation Engineering, within a
regulated systems/product environment (FDA regulated medical preferred).
• Strong understanding of computers and high-level programming languages (e.g.
LabVIEW, TestStand, C/C++, Java, Python)
Knowledge of:
• Testing and troubleshooting techniques
• Data exploration
• Sources of measurement error
• Appropriate selection of instrumentation
• Statistical analysis of data
• Object-oriented programming
• Software design and architecture
• Integration of hardware and software