We are at a pivotal moment where technology is rapidly evolving, and we have some exciting opportunities within our MCU organization that place us right at the center of this transformation.
Our current work is focused on developing solutions for high-growth markets such as AI-driven data centers and emerging domains like humanoid systems. These areas are shaping the future of computing, automation, and intelligent systems, and offer a unique chance to work on cutting-edge technologies with real-world impact.
If you are passionate about solving complex technical challenges and want to contribute to innovations in these fast-growing segments, I encourage you to come forward and apply. This is an opportunity to be part of a journey that is not only technically rewarding but also strategically significant.
Looking forward to seeing many of you take this step
QualificationsMinimum requirements:
- B.S. (or M.S.) in Electrical/Electronics/Computer Engineering or related discipline.
- 5 + years of hands‑on RTL design experience on high‑performance SoCs, preferably MCUs or wireless connectivity devices.
- Strong proficiency in SystemVerilog or VHDL; demonstrated ability to write clean, synthesizable, and testable RTL.
- Deep understanding of digital design fundamentals: pipelining, state‑machine design, bus protocols (AHB/APB/AXI), FIFO, arbitration, and clock domain crossing.
- Experience with synthesis tools (DC, Design Compiler, Innovus) and static timing analysis; ability to meet tight performance and power targets.
- Proven track record in low‑power RTL techniques (clock gating, power‑domain isolation, dynamic voltage/frequency scaling).
- Familiarity with verification flow (UVM, simulation, coverage) to effectively collaborate with DV teams.
- Advanced scripting/automation skills (tcl, perl, python, Bash) for flow automation and CI/CD pipelines.
- Excellent written and verbal communication; strong stakeholder‑management skills across global functional teams.
- Demonstrated ability to lead design efforts, meet aggressive schedule milestones, and mentor junior engineers.
Preferred qualifications:
- Define and implement RTL architecture for complex SoCs, selecting appropriate coding styles, clocking strategies, and low‑power techniques.
- Develop and maintain synthesizable SystemVerilog/VHDL code for digital blocks (core, peripherals, interfaces, DMA, etc.).
- Create and own RTL simulation and synthesis testbenches, running regression to verify functional correctness and timing closure.
- Collaborate with verification engineers to ensure comprehensive test coverage, resolve RTL bugs, and support pre‑silicon validation.
- Perform timing analysis, constraint development (SDC), and STA, iterating on RTL to meet clock‑frequency, setup/hold, and power budgets.
- Lead power‑aware design techniques (clock gating, power domains, voltage scaling) and ensure compliance with low‑power specifications.
- Participate in design reviews, providing clear documentation of design decisions, trade‑offs, and risk assessments.
- Drive RTL quality improvement by establishing coding guidelines, linting policies, and best‑practice checklists.
- Mentor junior RTL designers, fostering a culture of code quality, continuous learning, and knowledge sharing.
- Work with the EDA team to evaluate and integrate new synthesis, place‑and‑route, and static timing tools, improving flow efficiency.
- Support post‑silicon bring‑up and bring‑down activities, assisting software/ROM teams with RTL‑related debug and performance tuning.
- 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
- B.S. or M.S. in Electrical/Electronics/Computer Engineering or related discipline
- 5+ years of hands-on RTL design experience on high-performance SoCs
- Strong proficiency in SystemVerilog or VHDL
- Deep understanding of digital design fundamentals
- Experience with synthesis tools and static timing analysis
- Proven track record in low-power RTL techniques
- Familiarity with verification flow
- Advanced scripting/automation skills
- Excellent written and verbal communication
- Demonstrated ability to lead design efforts and mentor junior engineers
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

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