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Labview Programming Jobs in Massachusetts (NOW HIRING)

... LabVIEW and/or TestStand Strong analytical and problem-solving skills Ability to manage and ... engineering documentation Familiarity with corrective/preventative action processes Experience ...

As a Test Engineer, you will perform planning, coordination, and execution of components ... Utilize and optimize tools such as LabView for instrumentation control. Real-time monitoring, and ...

As a Test Engineer, you will perform planning, coordination, and execution of components ... Utilize and optimize tools such as LabView for instrumentation control. Real-time monitoring, and ...

As a Test Engineer, you will perform planning, coordination, and execution of components ... Utilize and optimize tools such as LabView for instrumentation control. Real-time monitoring, and ...

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Labview Programming information

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$5

$47

How much do labview programming jobs pay per hour?

As of Jul 12, 2026, the average hourly pay for labview programming in Massachusetts is $46.20, according to ZipRecruiter salary data. Most workers in this role earn between $45.67 and $46.73 per hour, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as a LabVIEW Programmer, and why are they important?

To thrive as a LabVIEW Programmer, you need a solid background in electrical or computer engineering, proficiency in graphical programming, and experience with data acquisition and instrument control. Certification as a National Instruments Certified LabVIEW Associate or Developer and familiarity with NI hardware and software tools are commonly required. Strong problem-solving skills, attention to detail, and effective communication help you collaborate with engineers and translate requirements into robust test or measurement solutions. These competencies ensure that LabVIEW programs are reliable, efficient, and tailored to meet technical and business needs.

What are some common challenges faced by LabVIEW programmers when working on large-scale projects?

LabVIEW programmers often encounter challenges related to code organization and maintainability when working on large-scale projects. Managing complex block diagrams, ensuring consistent documentation, and implementing version control can be difficult as the project grows. Collaboration with other engineers and integrating LabVIEW with external hardware or software systems also requires clear communication and robust architecture design. To overcome these challenges, teams typically adhere to best practices such as modular coding, regular code reviews, and using project templates.

What is the difference between Labview Programming vs Test Automation Engineer?

AspectLabview ProgrammingTest Automation Engineer
CredentialsTypically requires a degree in engineering, computer science, or related field; certifications in LabVIEW are a plusRequires engineering or computer science degree; certifications in testing tools or automation frameworks are common
Work EnvironmentPrimarily in labs, R&D, or manufacturing settings involving hardware integrationIn software development, QA labs, or production environments focusing on testing processes
Industry UsageUsed in automation, data acquisition, and control systems across manufacturing and researchUsed in software testing, quality assurance, and product validation across various tech industries

While both roles involve automation and technical skills, Labview Programming focuses on developing control and measurement systems using LabVIEW software, often with hardware integration. Test Automation Engineers design and implement automated testing processes to ensure product quality, frequently using different testing tools and scripting languages. Both roles require technical expertise but serve distinct functions within engineering and software development environments.

What is LabVIEW programming?

LabVIEW programming refers to creating applications using LabVIEW, a graphical programming environment developed by National Instruments. LabVIEW (Laboratory Virtual Instrument Engineering Workbench) is widely used for data acquisition, instrument control, and industrial automation. Unlike traditional text-based programming languages, LabVIEW uses a visual approach where users connect blocks (called virtual instruments or VIs) to design systems and processes. Its intuitive interface allows engineers and scientists to quickly develop complex measurement and control systems. LabVIEW is popular in research laboratories, manufacturing, and testing environments.
What are popular job titles related to Labview Programming jobs in Massachusetts? For Labview Programming jobs in Massachusetts, the most frequently searched job titles are:
What job categories do people searching Labview Programming jobs in Massachusetts look for? The top searched job categories for Labview Programming jobs in Massachusetts are:
Infographic showing various Labview Programming job openings in Massachusetts as of July 2026, with employment types broken down into 17% As Needed, 69% Full Time, 8% Part Time, 1% Temporary, 2% Contract, and 3% Summer. Highlights an 97% Physical, 2% Hybrid, and 1% Remote job distribution, with an average salary of $96,106 per year, or $46.2 per hour.
Engineer: Senior Electrical Systems Architect

Engineer: Senior Electrical Systems Architect

Nanobiosym

Cambridge, MA • On-site

$70K - $150K/yr

Full-time

Re-posted 24 days ago


Job description

Nanobiosym is an innovative, high-tech company that is developing novel technologies at the nexus of physics, nanotechnology, and biomedicine. Founded by MIT/Harvard alum and located in Cambridge, Massachusetts, Nanobiosym was awarded the first X-Prize to be given for healthcare.


Position Overview:

We are growing our engineering team and looking for a driven, detail-oriented Senior Electrical Design Engineer to take ownership of complex hardware programs from concept through volume production. This is a hands-on technical leadership position for someone who thrives at the intersection of rigorous circuit design, DFM, and embedded systems - and who wants to see their work shipped in real-world, regulated products.


Key Responsibilities:

  • Drive the complete hardware development lifecycle - from architecture and specification through schematic capture, simulation, prototyping, validation, and handoff to manufacturing.
  • Lead PCB design initiatives, ensuring layouts are performant, scalable, and optimized for high-volume production.
  • Review and finalize routing and layout concepts, defining the electrical scope for each product.
  • Translate early-stage design concepts into production-ready circuit solutions.
  • Design and integrate systems built around MPUs, memory, and FPGAs, working closely with embedded software teams on low-level driver requirements.
  • Partner with cross-functional teams to define, iterate on, and validate hardware and firmware requirements.
  • Realize compact, constraint-driven single-board control systems.
  • Produce and maintain rigorous documentation: design requirements, component selection rationale, engineering calculations, power budgets, and thermal analyses.
  • Design and build test fixtures to support hardware validation and functional verification.
  • Actively contribute to regulatory and quality processes, with particular emphasis on FDA and ISO 13485 requirements.

Required Qualifications:

  • Master's degree in Electrical Engineering.
  • 5-10+ years of hands-on product development experience in electrical engineering roles.
  • 5+ years of proficiency with Altium Designer, Autodesk Eagle, or equivalent PCB CAD platforms.
  • Demonstrated experience navigating compliance requirements in regulated industries (FDA, ISO 13485, or equivalent).
  • A clear record of taking PCBs from first prototype through DFM review and into volume manufacturing.
  • Strong embedded hardware skills, including C and Assembly for low-level system development.

Preferred skills:

  • Verilog / FPGA / ASIC, LabVIEW (3-5 yrs)
  • Java
  • NI CLD or CLA certification
  • Medical device launch experience
  • PhD or MS/ME in EECS

Preferred Qualifications:

  • PhD or MS/ME in Electrical Engineering, Computer Engineering, or a closely related discipline.
  • National Instruments certification (CLD or CLA) and hands-on LabVIEW development in automated test environments.
  • End-to-end experience bringing a medical device or similarly regulated hardware product to market.
  • Working knowledge of Verilog, FPGA, or ASIC design flows.



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