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Gpu Design Verification Engineer Jobs in Indiana

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Manufacturing Engineer

Indianapolis, IN · On-site

$69K - $89K/yr

The Manufacturing Engineer will take the lead in electro-mechanical prototype development, equipment repairs and upgrades, design verification, root cause analysis, support of engineering projects ...

All prototype, design verification and process verification builds. Plan for design, procurement ... Bachelor's degree in Mechanical Engineering, Automotive Engineering, or a related engineering field ...

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Gpu Design Verification Engineer information

What are GPU Design Verification Engineers?

GPU Design Verification Engineers are professionals who ensure that graphics processing unit (GPU) designs function correctly and meet specified requirements before they are manufactured. They develop and execute test plans, create verification environments, and use simulation tools to identify and resolve design issues. Their work is critical in detecting flaws early in the development process, which helps save time and resources and ensures high-quality GPU products. They often collaborate closely with design, architecture, and validation teams to deliver reliable and efficient GPUs.

What is the salary of GPU verification engineer?

The salary of a GPU verification engineer typically ranges from $80,000 to $130,000 annually, depending on experience, location, and company size. Entry-level positions may start lower, while experienced engineers with specialized skills in hardware description languages and verification tools can earn higher salaries.

What engineers make $500,000?

Senior engineers in high-demand fields such as software engineering, data science, and specialized hardware design—like GPU design verification engineers with extensive experience—can earn $500,000 or more annually, especially with bonuses and stock options. Achieving this level typically requires advanced skills, certifications, and years of experience in the industry.

What are some common challenges faced by GPU Design Verification Engineers during the verification process?

GPU Design Verification Engineers often encounter challenges related to the sheer complexity and scale of modern GPU architectures. Ensuring comprehensive test coverage for a large number of features and corner cases requires meticulous planning and advanced verification methodologies, such as UVM or SystemVerilog. Debugging failures can be particularly demanding due to intricate interactions between hardware and software components. Collaboration with design, architecture, and software teams is essential to resolve ambiguous specifications and to ensure timely bug fixes. Staying updated with evolving verification tools and automation techniques is also critical for maintaining efficiency and effectiveness.

What is the salary of GPU Design Engineer?

The salary of a GPU Design Verification Engineer typically ranges from $80,000 to $150,000 annually, depending on experience, location, and company size. Entry-level positions may start lower, while experienced engineers with specialized skills in hardware description languages and verification tools can earn higher salaries.

What are the key skills and qualifications needed to thrive as a GPU Design Verification Engineer, and why are they important?

To thrive as a GPU Design Verification Engineer, you need a solid background in computer engineering or electrical engineering, strong proficiency in digital design concepts, and experience with hardware verification methodologies. Expertise in verification languages such as SystemVerilog, UVM, and tools like simulation/emulation platforms and code coverage analyzers is typically required. Excellent problem-solving, attention to detail, and effective communication skills distinguish top performers in this role. These capabilities are essential for ensuring GPU designs are robust, efficient, and meet performance and functionality requirements before mass production.

What is the difference between Gpu Design Verification Engineer vs Gpu Validation Engineer?

AspectGpu Design Verification EngineerGpu Validation Engineer
Primary FocusVerifying GPU design correctness before manufacturingTesting and validating GPU performance post-production
Work EnvironmentDesign teams, simulation, and hardware description languagesTesting labs, hardware testing, and performance analysis
Required SkillsHardware description languages, verification methodologies, scriptingHardware testing, performance benchmarking, debugging

The Gpu Design Verification Engineer focuses on ensuring the GPU design is correct and bug-free before manufacturing, using simulation and verification tools. In contrast, the Gpu Validation Engineer tests the GPU hardware after production to confirm it meets performance and reliability standards. Both roles require technical expertise but differ in their stage of involvement and specific tasks.

How much does a GPU design verification engineer make at Apple?

A GPU design verification engineer at Apple typically earns between $120,000 and $180,000 annually, depending on experience and location. Compensation may also include bonuses, stock options, and benefits, reflecting the company's competitive pay structure for specialized engineering roles.
What job categories do people searching Gpu Design Verification Engineer jobs in Indiana look for? The top searched job categories for Gpu Design Verification Engineer jobs in Indiana are:
What cities in Indiana are hiring for Gpu Design Verification Engineer jobs? Cities in Indiana with the most Gpu Design Verification Engineer job openings:
Product Systems Validation Technical Specialists #IN1283

Product Systems Validation Technical Specialists #IN1283

Cummins Inc.

Columbus, IN • On-site

$121K - $128K/yr

Full-time

Posted 19 days ago


Cummins rating

8.0

Company rating: 8.0 out of 10

Based on 259 frontline employees who took The Breakroom Quiz

133rd of 527 rated manufacturers


Job description

Apply specialized knowledge of mechanical engineering principles and practices to obtain input and negotiate with Design Verification Plan and Report (DVP&R) stakeholders to define technical requirements and deliver an optimized subsystem-based analytical and experimental verification plan to the program or project team. Verify and validate the functionality of mechanical products across a wide range of requirements, applications, and environments. Plan, track, and evaluate results from a range of analyses and functional tests to assess mechanical product risk and performance in order to drive quality decisions and proactively resolve product issues before the product reaches the customer. Make strategic decisions in the areas of verification and validation that impact product performance, reliability, and durability. Investigate and address potential mechanical system concerns or issues, understand causal mechanisms, recommend appropriate action, own problem resolution, and document results while applying and improving processes including Integrated Design Failure Mode and Effects Analysis (iDFMEA), Engineering Standard Work (ESW), (DVP&R) optimization, and tools including Integrity and McParts. Lead the development and improvement of work processes and systems across a functional discipline area and provide guide to influence technical direction within an engineering project team. Propose innovative initiatives and apply the Systems Definition and Design process including requirements allocation and architecture, capability determination through system modeling and testing. Solve product problems using a 7-step process that protects users, determine the assignable cause, implement robust, data-base solutions, and identify systemic root causes in order to recommend actions to prevent problem reoccurrence. Utilize knowledge of product failure mode avoidance to mitigate potential failures by identifying interfaces, functions, functional requirements, interactions, control factors, noise factors, and prioritized potential failure modes and potential failure cases for the system of interest to effectively and efficiently improve the reliability of products. Utilize System Requirements Engineering methods and tools to translate stakeholder needs into verifiable requirements to which designs are developed, establish acceptance criteria, track the status of requirements through the system lifecycle, and assess the impact of changes to system requirements on project scope, schedule, and resources. Lead Product Interface Management and Integration to control the interactions across the system element boundaries by making sure that they remain within specified limits, and to integrate system elements by creating an integration plan, including identification of method and timing for each activity to make it easier to find, isolate, diagnose, and correct.

Cummins is an equal opportunity employer. Our policy is to provide equal employment opportunities to all qualified persons without regard to race, sex, color, disability, national origin, age, religion, union affiliation, sexual orientation, veteran status, citizenship, gender identity, or other status protected by law.

Start Date of Posting: 6/25/26
End Date of Posting: 7/10/26

Location: Columbus

Position: ON-SITE

*Annual USD Salary Minimum - Maximum$121,181- 128,400

Positions require aBachelor's degree in Mechanical Engineering, or related field and 4 years of experience as a Product, Design, Validation, Test or Reliability Engineer, or related position. Experience to include:Design Verification Plan and Report (DVP&R); Assess product risk and performance; Product Verification and Validation process; Integrated Design Failure Mode and Effects Analysis (iDFMEA), Engineering Standard Work (ESW); Systems Definition and Design process; 7 Step Problem Solving Process to identify Root Causes; Product failure mode avoidance; System Requirements Engineering methods; Product Interface Management and Integration; Product Test Integration and Optimization.


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About Cummins

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Cummins Inc., headquartered in Columbus, IN, US, is a global power leader that designs, manufactures, and distributes numerous power products and systems. With its genesis from as early as 1919, the company readily serves diverse industries such as transportation, industrial, generator drive, or marine applications, among others. At the heart of Cummins' operations, its key product lineup encompasses diesel & natural gas engines, generator sets, engine components, and filtration, emission solutions, and electrical power generation systems. Cummins deeply embodies core values of integrity, respect for diversity, teamwork, performance excellence, and social responsibility - all of which dynamically fuel their mission 'Making people's lives better by powering a more prosperous world'.

Industry

Transportation equipment manufacturing

Company size

10,000+ Employees

Headquarters location

Columbus, IN, US

Year founded

1919