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Graphics Programmer Jobs in Raleigh, NC (NOW HIRING)

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Revit Drafter

Raleigh, NC · On-site

$65K - $85K/yr

Coordinate with architects, engineers, and other consultants * Design and manage branded environments including environmental graphics * Participate in design presentations and site visits * Limited ...

Our company provides application analysis, design, development and programming, software ... May involve coding and integration of text, graphics, sound, and/or video. Career-Level position ...

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Revit Drafter

Raleigh, NC · On-site

$65K - $85K/yr

Coordinate with architects, engineers, and other consultants * Design and manage branded environments including environmental graphics * Participate in design presentations and site visits * Limited ...

Senior Software Engineer, CUTLASS Platform

Durham, NC · On-site

$118K - $156K/yr

They are seeking a Senior Software Engineer to develop core components of the CUTLASS platform ... NVIDIA is a computing platform company operating at the intersection of graphics, HPC, and AI.

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About Us Apple Designs is a wayfinding and environmental graphic design firm specializing in ... Coordinate shared and central Revit models remotely with architects, engineers, and other ...

If you're driven by the challenge of making real-time graphics feel like they belong on a cinema ... Partner with cross-functional leads in engineering, production, and creative to scope rendering ...

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Graphics Programmer information

See Raleigh, NC salary details

$107.4K

$131.2K

$152.1K

How much do graphics programmer jobs pay per year?

As of Jul 2, 2026, the average yearly pay for graphics programmer in Raleigh, NC is $131,223.00, according to ZipRecruiter salary data. Most workers in this role earn between $121,500.00 and $140,900.00 per year, depending on experience, location, and employer.

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

To thrive as a Graphics Programmer, you need a solid background in computer science, mathematics, and computer graphics, often supported by a degree in a related field. Expertise in programming languages like C++ and familiarity with graphics APIs such as DirectX, OpenGL, or Vulkan, as well as shader programming, are typically required. Strong problem-solving skills, creativity, and effective teamwork help you design and optimize complex visual systems. These skills and qualities are crucial for developing high-performance, visually appealing graphics that meet the demands of modern applications and games.

What are graphics programmers?

Graphics programmers are specialized software developers who focus on creating and optimizing visual elements in video games, simulations, and other computer graphics applications. They write code to render 2D and 3D graphics, work with engines like Unity or Unreal, and utilize APIs like DirectX or OpenGL. Their responsibilities often include developing shaders, improving rendering performance, and collaborating with artists and designers to achieve visually compelling results. Graphics programmers need strong mathematical skills, especially in linear algebra and geometry, to solve complex visual problems. They play a crucial role in ensuring that digital graphics run smoothly and look realistic.

What Does a Graphics Programmer Do?

A graphics programmer creates software and applications for developing images and animation on a computer. Your duties can focus on programs for computer-aided design and rendering, animation, image manipulation, photo editing, or video game design. You use linear math and algorithms as well as computer programming languages. Your responsibilities involve writing code in languages like C++, Java, and High-Level Shading Language (HLSL). After coding, you test your programs to ensure that each article and image is accurate. If you work on video games, you coordinate with other developers and programmers on a video game design platform like Unreal Engine.

What is the difference between Graphics Programmer vs Shader Developer?

AspectGraphics ProgrammerShader Developer
Required CredentialsBachelor's in Computer Science, Computer Graphics, or related field; knowledge of graphics APIsSimilar educational background; strong understanding of shading languages
Work EnvironmentDevelops and optimizes rendering engines, works on graphics pipelinesCreates and fine-tunes shaders for visual effects and rendering
Industry UsageUsed across game development, simulation, and visualization industriesPrimarily in game development and real-time rendering projects
Common Search/ComparisonOften compared due to overlapping skills in graphics programmingSpecialized focus on shader code and effects

While both roles require knowledge of graphics APIs and programming skills, Graphics Programmers develop the overall rendering systems and pipelines, whereas Shader Developers focus specifically on writing and optimizing shaders for visual effects. The roles often overlap but differ in scope and specialization within the graphics development process.

How do Graphics Programmers typically collaborate with artists and designers during a game development project?

Graphics Programmers work closely with artists and designers to ensure that visual assets are rendered efficiently and accurately within the game engine. They often participate in regular meetings to discuss technical constraints, optimize asset pipelines, and implement new graphical features based on creative requirements. This collaboration requires strong communication skills, as Graphics Programmers must translate artistic visions into technical solutions, troubleshoot rendering issues, and provide feedback to artists to achieve the desired visual quality while maintaining performance. Effective teamwork between these roles is essential to deliver high-quality visuals that run smoothly on target platforms.
What are popular job titles related to Graphics Programmer jobs in Raleigh, NC? For Graphics Programmer jobs in Raleigh, NC, the most frequently searched job titles are:
What job categories do people searching Graphics Programmer jobs in Raleigh, NC look for? The top searched job categories for Graphics Programmer jobs in Raleigh, NC are:
What cities near Raleigh, NC are hiring for Graphics Programmer jobs? Cities near Raleigh, NC with the most Graphics Programmer job openings:
Infographic showing various Graphics Programmer job openings in Raleigh, NC as of June 2026, with employment types broken down into 94% Full Time, and 6% Contract. Highlights an 100% In-person job distribution, with an average salary of $131,223 per year, or $63.1 per hour.

Senior DeltaV Controls Engineer

Upcoresolutions

Raleigh, NC

$94K - $124K/yr

Full-time

Posted 25 days ago


Job description

Our client is looking for - a Senior DeltaV Engineer opportunity in our Raleigh, NC office.

This person will lead the design, implementation, and project management of large-scale capital automation projects within the Life Sciences industry.

This role requires proficiency with Emerson DeltaV systems and a strong technical background in designing and delivering cGMP-compliant automation solutions.

The ideal candidate will have a proven track record of managing complete project life cycles, ensuring compliance with industry regulations, and collaborating with cross-functional teams to optimize biopharmaceutical and medical device manufacturing processes.

RESPONSIBILITIES:

  • All areas of responsibility listed below are essential to the satisfactory performance of this position, with reasonable accommodation, if necessary.
  • Design and implement DeltaV control systems for complex Life Sciences capital projects
  • Develop and manage project schedules, budgets, and resources, ensuring on-time and within-budget project execution
  • Lead system architecture development and control strategies to enhance manufacturing efficiency
  • Design batch sequencing, phase logic, and recipe structures to optimize production efficiency and regulatory compliance
  • Develop DeltaV graphics using DeltaV Live and DeltaV Operate in alignment with ISA-101 HMI guidelines
  • Utilize a class-based approach in overall design to maximize scalability and standardization across projects
  • Develop electrical designs, including power distribution, panel layouts, and grounding strategies for automation systems
  • Specify and procure instrumentation and hardware components
  • Design and implement industrial networking solutions, including Ethernet/IP, Modbus TCP/IP, Profibus, and Foundation Fieldbus
  • Integrate 3rd party equipment with DeltaV systems using protocols such as OPC UA, Ethernet/IP, and Modbus
  • Define computing infrastructure requirements, including server architecture, virtualization, cybersecurity, and redundancy planning
  • Design, plan, and specify DeltaV system licensing based on user requirements and project scope to ensure cost-effective and scalable solutions
  • Oversee the full project lifecycle, from requirements gathering to commissioning and validation
  • Ensure project deliveries and execution methodology compliance with GAMP5, cGMP, 21 CFR Part 11, and industry best practices
  • Develop acceptance protocols and manage the execution of Factory Acceptance Testing (FAT) and Site Acceptance Testing (SAT) to validate system performance
  • Mentor and provide technical leadership to junior engineers and cross-disciplinary teams
  • Coordinate with clients, stakeholders, and regulatory bodies to ensure project success
  • Implement advanced automation strategies, including ISA-88 batch processing, historian integration, and alarm management
  • Troubleshoot complex automation challenges and drive continuous improvements in system performance
  • Travel up to 25% for on-site support, commissioning, and client engagement

QUALIFICATIONS:

  • Professional degree in Electrical Engineering, Control Systems Engineering, Chemical Engineering, or a related field.
  • Minimum of 8-15 years in automation and control system engineering, with a strong focus on Life Sciences projects.
  • 8-15 years of hands-on experience with Emerson DeltaV systems, focusing on system design and project execution.
  • Proficiency in DeltaV Live and DeltaV Operate, including experience designing high-performance HMIs and operator interfaces.
  • Expertise in ISA-101 HMI design principles and high-performance graphic design strategies.
  • Strong experience in class-based configuration and design.
  • Expertise in ISA-88 batch processing, historian solutions, and advanced control strategies.
  • Proven experience managing large-scale capital projects in the Life Sciences industry.
  • Strong knowledge of automation protocols (HART, Foundation Fieldbus, Profibus, Modbus TCP/IP, Ethernet/IP, OPC UA, IO-Link).
  • Deep understanding of industrial networking for communication between controllers, servers, and HMIs.
  • Strong knowledge of cGMP, GAMP5, and regulatory compliance for biopharmaceutical manufacturing.
  • Experience integrating electrical and process control systems.
  • Strong leadership, organizational, and communication skills for cross-functional collaboration.
  • Experience specifying and designing electrical components, including MCCs, VFDs, control panels, and power distribution systems.
  • Knowledge of server infrastructure and virtualization technologies for robust DeltaV system deployment.
  • Extensive experience designing and implementing batch control systems within regulated Life Sciences environments.
  • Experience in OEM system integration using OPC UA, Ethernet/IP, and other industrial communication protocols.
  • Ability to plan, specify, and manage DeltaV system licensing to optimize project implementation.
  • Knowledge of Rockwell Automation, Inductive Automation Ignition, Siemens PCS7, or other DCS/SCADA systems is a plus.

WORKING CONDITIONS:

  • The work environment characteristics described here represent those an employee encounters while performing the essential functions of this job. Reasonable accommodation may be made to enable individuals with disabilities to perform essential functions.
  • Office Work:
  • Office desk/cubicle environment
  • Frequent use of computers, engineering tools, and industrial control systems

PHYSICAL DEMANDS:

  • Occasional lifting, climbing, and working in production facilities during commissioning activities
  • Work may include working weekends, holidays, nightshift, and extended hours to meet deadlines and client requirements.

Our People:

  • Empowered Individuals – Employee-owned, we are able to hire the best and empower them to develop and deliver solutions
  • Rewarded & Motivated – Investing in continuing education and world-class benefits keeps our staff motivated
  • Positive Attitudes – Dedicated experts are committed in the long run and bring a positive, can-do attitude to your project
  • Knowledgeable – Recognized industry experts reinforced with ongoing training remain knowledgeable on the latest industry trends and directions

*Job Descriptions are not exhaustive lists of all skills, responsibilities, or efforts associated with a job. They reflect principal job elements essential for performing the job and evaluating performance.