Change the world. Love your job.
Texas Instruments is in an exciting era of growth and innovation, and our Advanced Technology Development (ATD) organization is at the center of it. We are developing the 28nm process technologies that will define TI’s next generation of analog and embedded processing capabilities. As part of ATD, you won’t just support production, you’ll create the technology that makes it possible. Our engineers are working at the leading edge of computational lithography, Resolution Enhancement Techniques, and advanced process integration, solving the fundamental patterning and process challenges that determine whether a 28nm technology can be manufactured at scale and at yield. The work done in ATD directly enables fabs that will manufacture tens of millions of analog and embedded processing chips every day supporting customer demand for decades to come. We’re committed to responsible, sustainable semiconductor manufacturing and to building a diverse, technically excellent team that drives meaningful impact across the industry. In this role, you’ll work at the intersection of fundamental research and high-volume manufacturing, turning process innovations into production-ready technologies that power electronics everywhere.
Job Description:
At 28nm and below, photolithography cannot simply print a chip design as drawn but rather optical diffraction causes critical features to print incorrectly, with direct consequences to yield and device performance. Solving that problem is your job. As a DFM/OPC Engineer in TI’s Resolution Enhancement Techniques (RET) team within ATD, you are the technical authority responsible for bridging the gap between what designers draw and what the fab can reliably print. You’ll develop, optimize, and deploy Optical Proximity Correction (OPC) models and Design for Manufacturability (DFM) solutions that ensure every product tapeout can be accurately realized in silicon at 28nm at yield entitlement. This role sits at the intersection of computational lithography, layout design, and process integration; your work is a prerequisite for every analog product TI ships from LFAB.
Responsibilities:
Develop, evaluate, and implement advanced OPC models and recipes for 28nm and equivalent advanced node technologies
Perform comprehensive DFM analysis on product designs, identifying and mitigating potential manufacturing issues (e.g., hotspots, yield detractors)
Collaborate with design teams to define DFM guidelines and ensure layout compliance with manufacturing capabilities
Work with lithography and process engineering teams to optimize OPC recipes and improve patterning performance, yield, and process window
Interface with OPC and lithography engineers to co-optimize layout structures for printability
Analyze lithography process data and wafer yield data to identify root causes of patterning defects and drive corrective actions
Evaluate and qualify new OPC/DFM software tools and methodologies
Develop and maintain automation scripts for OPC/DFM flows
Contribute to DFM-aware layout methodologies for custom analog IPs
Mentor junior engineers and contribute to team knowledge sharing
Minimum Requirements:
Master’s or Ph.D. in Electrical Engineering, Physics, Materials Science, or related field
5+ years of hands-on OPC and DFM experience in the semiconductor industry
Strong understanding of optical lithography principles and RET (OPC, SRA, assist features, mask technology)
Hands-on experience with industry-standard OPC tools (e.g., Synopsys Sentaurus Lithography, Siemens EDA Calibre, ASML Brion)
Familiarity with 28nm/22nm process constraints and lithographic limitations
Proficiency in scripting languages (Python, TCL, Perl, or equivalent)
Preferred Qualifications:
Experience with analog layout interaction with lithography and OPC flows
Familiarity with layout tools (e.g., Cadence Virtuoso); knowledge of DRC and LVS
Experience applying machine learning or AI techniques to OPC/DFM problems
Strong cross-functional collaboration and analytical skills
- 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
Skills Required
- Master's or Ph.D. in Electrical Engineering, Physics, Materials Science, or related field
- 5+ years of hands-on OPC and DFM experience in the semiconductor industry
- Strong understanding of optical lithography principles and RET
- Hands-on experience with industry-standard OPC tools
- Familiarity with 28nm/22nm process constraints and lithographic limitations
- Proficiency in scripting languages (Python, TCL, Perl, or equivalent)
Texas Instruments Compensation & Benefits Highlights
The following summarizes recurring compensation and benefits themes identified from responses generated by popular LLMs to common candidate questions about Texas Instruments and has not been reviewed or approved by Texas Instruments.
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Strong & Reliable Incentives — Profit sharing and annual bonuses are portrayed as a meaningful, formula-linked upside that can materially lift total earnings in strong years. An employee stock purchase plan with a discount further reinforces recurring, wealth-building incentives.
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Retirement Support — A 401(k) match is described as a stable core benefit, with some references to additional legacy employer contributions and even pension-like elements for certain cohorts. This framing positions long-term savings support as a notable part of the overall rewards package.
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Healthcare Strength — Medical coverage is depicted as broadly comprehensive, with preventive care and access to HSA/FSA features cited as value-adds. Company-seeded HSA contributions are repeatedly characterized as an important offset to the plan design for those enrolled.
Texas Instruments Insights
What We Do
Texas Instruments develops semiconductor and computer technology for cellular handsets, digital signal processors and analog semiconductors. Texas Instruments has been making progress possible for decades. We are a global semiconductor company that designs, manufactures, tests and sells analog and embedded processing chips. Our more than 80,000 products help over 100,000 customers efficiently manage power, accurately sense and transmit data and provide the core control or processing in their designs, going into markets such as industrial, automotive, personal electronics, communications equipment and enterprise systems. Our passion to create a better world by making electronics more affordable through semiconductors is alive today as each generation of innovation builds upon the last to make our technology smaller, more efficient, more reliable and more affordable – opening new markets and making it possible for semiconductors to go into electronics everywhere. We think of this as Engineering Progress. It’s what we do and have been doing for decades. Learn more https://news.ti.com/index.cfm
