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Opc Modeling Engineer Jobs (NOW HIRING)

Senior Software Engineer

South Pasadena, CA · Hybrid

$132K - $174K/yr

Design, architect, and implement systems for deploying, maintaining, and running AI models on Edge ... OPC UA Qualifications: * At least 10 years of general software experience * At least 5 years of ...

Controls Engineer

Menomonee Falls, WI

$83K - $108K/yr

Support OPC-UA, MQTT, SQL, APIs, data historians, edge devices, and related technologies for data ... Develop cost models, capability assessments, throughput analysis, risk assessments, and what-if ...

Controls Engineer

Menomonee Falls, WI · On-site

$83K - $108K/yr

Support OPC-UA, MQTT, SQL, APIs, data historians, edge devices, and related technologies for data ... Develop cost models, capability assessments, throughput analysis, risk assessments, and what-if ...

This position operates under a hybrid work model based out of our Smyrna, TN office. The role ... OPC / PLC data integration Nice to Have * Experience with Parsec TrakSYS, AVEVA MES, PLEX, or ...

Work with Systems Modeling Engineers and Optimization Engineers to ensure models receive correct ... MQTT, OPC-UA, or Redfish * 3+ years of experience implementing system-to-system integrations ...

Configure workflows, data models, and system integrations * Build supporting components (APIs ... OPC / PLC data integration Nice to Have * Experience with Parsec TrakSYS, AVEVA MES, PLEX, or ...

Senior Plasma Control Engineer

Kearny, NJ · On-site

$120K - $160K/yr

You will also contribute to subsystem digital twins and data pipelines that enable model ... MDSplus, EPICS, HDF5, InfluxDB, OPC UA, Kafka or ZeroMQ • Dev workflows: Git, Docker, MLflow, CI ...

You will also contribute to subsystem digital twins and data pipelines that enable model ... MDSplus, EPICS, HDF5, InfluxDB, OPC UA, Kafka or ZeroMQ • Dev workflows: Git, Docker, MLflow, CI ...

Big Data Engineer

Chester, VA · On-site

$104K - $156K/yr

You'll engineer batch/CDC/streaming pipelines, model curated/semantic layers, and harden run-state ... modeling. • OT concepts: historians (PHD/PI), OPC UA/MQTT, event/batch frames, ISA-95/99 basics ...

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Opc Modeling Engineer information

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$39K

$101.8K

$137.5K

How much do opc modeling engineer jobs pay per year?

As of Jun 29, 2026, the average yearly pay for opc modeling engineer in the United States is $101,752.00, according to ZipRecruiter salary data. Most workers in this role earn between $84,000.00 and $116,500.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as an OPC Modeling Engineer, and why are they important?

To thrive as an OPC Modeling Engineer, you need a strong background in semiconductor physics, computational modeling, and a relevant engineering or science degree. Expertise in OPC software tools like Mentor Calibre or Synopsys, along with experience in scripting languages such as Python or Perl, is typically required. Analytical thinking, attention to detail, and effective cross-functional communication are vital soft skills for this role. These skills ensure precise photolithography models, efficient design-to-manufacturing processes, and seamless collaboration with design and fabrication teams.

What is the difference between Opc Modeling Engineer vs PCB Design Engineer?

AspectOpc Modeling EngineerPCB Design Engineer
Required CredentialsBachelor's in Electrical Engineering or related, knowledge of OPC standardsBachelor's in Electrical Engineering, Electronics, or PCB Design certifications
Work EnvironmentSemiconductor fabrication, EDA tool developmentElectronics manufacturing, product development
Industry UsageSemiconductor industry, IC manufacturingConsumer electronics, industrial equipment
Common Search/ComparisonYesNo

Opc Modeling Engineers focus on creating models for optical proximity correction in semiconductor manufacturing, working closely with EDA tools and chip fabrication. PCB Design Engineers develop printed circuit boards for electronic devices, emphasizing layout and electrical integrity. While both roles require electrical engineering knowledge, they serve different stages of electronic product development and are used in distinct industry segments.

What are some common challenges faced by OPC Modeling Engineers when working with new process nodes?

OPC Modeling Engineers often encounter challenges such as adapting to the increasing complexity of advanced process nodes, where feature sizes become smaller and patterning requirements grow more demanding. Accurate model calibration becomes more time-consuming, requiring close collaboration with lithography, process, and design teams. Additionally, integrating new materials and technologies can introduce unforeseen variables, making continuous learning and flexible problem-solving essential for success in this role.

What are OPC Modeling Engineers?

OPC Modeling Engineers are specialists who develop, calibrate, and maintain optical proximity correction (OPC) models used in semiconductor manufacturing. These engineers work to improve the fidelity of photolithography processes by simulating and correcting distortions that occur when transferring circuit patterns onto silicon wafers. Their expertise helps ensure that microchips are fabricated with high precision and yield, enabling the continued advancement of smaller and more complex semiconductor devices. OPC Modeling Engineers typically collaborate with process engineers, software developers, and design teams to optimize and implement OPC strategies.
More about Opc Modeling Engineer jobs
What cities are hiring for Opc Modeling Engineer jobs? Cities with the most Opc Modeling Engineer job openings:
What states have the most Opc Modeling Engineer jobs? States with the most job openings for Opc Modeling Engineer jobs include:
What job categories do people searching Opc Modeling Engineer jobs look for? The top searched job categories for Opc Modeling Engineer jobs are:
Infographic showing various Opc Modeling Engineer job openings in the United States as of June 2026, with employment types broken down into 100% Full Time. Highlights an 100% In-person job distribution, with an average salary of $101,752 per year, or $48.9 per hour.
Photolithography Process Development Engineer (Advanced Patterning)

Photolithography Process Development Engineer (Advanced Patterning)

Texas Instruments

Lehi, UT • On-site

Full-time

Posted 20 days ago


Key responsibilities

  • Develop, optimize, and scale photolithography and litho-etch integration processes for advanced patterning schemes such as pitch doubling (SADP/LELE).

  • Utilize lithography simulation software and advanced metrology to analyze process windows, identify defects, and improve critical dimension uniformity and overlay performance.

  • Collaborate with cross-functional teams and equipment vendors to evaluate new materials, implement process improvements, and lead technology transfer from R&D to high-volume manufacturing for photolithography processes.


Texas Instruments rating

8.1

Company rating: 8.1 out of 10

Based on 85 frontline employees who took The Breakroom Quiz

41st of 139 rated electronics manufacturers


Job description


Change the world. Love your job.
We're at the forefront of an exciting era of semiconductor innovation at Texas Instruments' LFAB in Lehi, Utah - home to our state-of-the-art 300mm manufacturing facility now ramping our most advanced 28nm analog and embedded process technology in the heart of the Silicon Slopes. As part of our Advanced Technology Development (ATD) organization, you will be challenged with developing and characterizing the next generation node. We are seeking a highly skilled and hands-on Process Development Engineer with deep expertise in advanced-node semiconductor manufacturing. This role focuses on the next generation 20nm-class logic technologies, with primary responsibility for photolithography and litho-etch integration, including advanced patterning techniques such as pitch doubling (SADP/LELE). This role will also work directly with the Resolution Enhancement Techniques (RET) team to create Optical Proximity Corrections (OPC) and validate final pattern meets design tolerance.
You will play a critical role in developing, optimizing, and scaling patterning processes to meet aggressive performance, yield, and manufacturability targets. This is a high-impact position working at the intersection of lithography, materials science, and plasma etch.
Responsibilities include:
  • Modeling & Simulation: Utilize lithography simulation software (e.g., Prolith, S-Litho) to analyze process windows and optimize patterning results.
  • Metrology & Yield Improvement: Utilize advanced metrology (CD-SEM, Overlay, Scatterometry) to identify defects and improve Critical Dimension Uniformity (CDU) and overlay performance.
  • Vendor & Subsystem Interaction: Work with equipment vendors to evaluate new materials, photoresists, and tool hardware upgrades.
  • Data Analysis & SPC: Analyze process data, identify root cause, and implement robust process improvements. Apply Statistical Process Control (SPC) and Design of Experiments (DOE) to develop new processes to enable Litho shrink processes.
  • Pathfinding & Technology Transfer: Define pathfinding activities for new patterning technology, evaluating High NA Immersion for next-generation nodes. Lead technology transfer from R&D to HVM for photolithography processes.
  • Photo Process Characterization: Lead development to create next generation Litho Shrink processes for 20nm class logic nodes.
    • Drive litho-etch integration (LE, LELE, SADP / pitch doubling) for advanced patterning schemes.
    • Develop and implement resolution enhancement techniques (RET) and optical proximity correction (OPC)strategies.
    • Evaluate and select materials systems, including photoresists, hard masks, and anti-reflective coatings.
    • Characterize and reduce patterning defects, including line edge roughness (LER), CD variation, and overlay errors.
    • Collaborate closely with Etch team to optimize pattern transfer, profile control, and CD uniformity Interface with cross-functional teams including design, integration, yield, and manufacturing.

Qualifications
Minimum requirements:
  • Master's in Electrical Engineering, Materials Science, Physics, or related discipline
  • 5+ years of industry experience in advanced semiconductor process development
  • Direct, hands-on experience with 22nm node or comparable advanced nodes (e.g., 28nm, 14nm)
  • Strong expertise in:
    • Photolithography process development and optimization
    • Litho-etch integration (LELE, SADP, pitch splitting/doubling)
    • OPC and Resolution Enhancement Techniques (RET) methodologies
    • Dry etch processes for pattern transfer
  • Deep understanding of:
    • Critical dimension (CD) control and uniformity
    • Overlay and alignment challenges
    • Defectivity mechanisms and mitigation strategies

Preferred qualifications:
  • PhD in Electrical Engineering, Materials Science, Physics, or related discipline
  • Experience with self-aligned multiple patterning (SAMP, SADP, SAQP)
  • Familiarity with advanced nodes below 22nm (e.g., 16/14nm FinFET technologies)
  • Experience working in high-volume manufacturing environments (foundry or IDM)
  • Exposure to industry-standard modeling and OPC tools
  • Strong problem-solving skills with a data-driven approach
  • Demonstrated ability to work cross-functionally in fast-paced environments
  • Experience with advanced reticle layout and Resolution Enhancement Techniques (RET)
  • Demonstrated strong analytical and problem-solving skills, with a collaborative team-player mindset
  • Technical Skills: Deep understanding of Immersion lithography, DUV, and multi-patterning processes. Demonstrated ability to Design for Manufacturing
  • Software Skills: Proficiency with lithography simulation software (ProLith, S-Litho) and data analysis tools (e.g., JMP, Python)

About Us
Why TI?
  • Engineer your future. We empower our employees to truly own their career and development. Come collaborate with some of the smartest people in the world to shape the future of electronics.
  • We're different by design. Diverse backgrounds and perspectives are what push innovation forward and what make TI stronger. We value each and every voice, and look forward to hearing yours. Meet the people of TI
  • Benefits that benefit you. We offer competitive pay and benefits designed to help you and your family live your best life. Your well-being is important to us. Please find our country-specific benefits here

About Texas Instruments
Texas Instruments Incorporated (Nasdaq: TXN) is a global semiconductor company that designs, manufactures and sells analog and embedded processing chips for markets such as industrial, automotive, data center, personal electronics and communications equipment. At our core, we have a passion to create a better world by making electronics more affordable through semiconductors. This passion is alive today as each generation of innovation builds upon the last to make our technology more reliable, more affordable and lower power, making it possible for semiconductors to go into electronics everywhere. Learn more at TI.com.
Texas Instruments is an equal opportunity employer and supports a diverse, inclusive work environment. All qualified applicants will receive consideration for employment without regard to race, color, religion, creed, disability, genetic information, national origin, gender, gender identity and expression, age, sexual orientation, marital status, veteran status, or any other characteristic protected by federal, state, or local laws.
If you are interested in this position, please apply to this requisition.
About the Team
TI does not make recruiting or hiring decisions based on citizenship, immigration status or national origin. However, if TI determines that information access or export control restrictions based upon applicable laws and regulations would prohibit you from working in this position without first obtaining an export license, TI expressly reserves the right not to seek such a license for you and either offer you a different position that does not require an export license or decline to move forward with your employment.

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About Texas Instruments

Sourced by ZipRecruiter

As a global semiconductor company, we design, manufacture, test and sell analog and embedded processing chips to nearly 100,000 customers. Our products enable electronics everywhere and in things you experience every day - from health care, smart homes and connected cars to drones, smart phones and more. Our passion to create a better and more sustainable world by making electronics more affordable through semiconductors drives us to make our technology smaller, more efficient, more reliable and more affordable.

Industry

Semiconductor and electronic component manufacturing

Company size

10,000+ Employees

Headquarters location

Dallas, TX, US

Year founded

1930