Physical Design Engineer

Role Summary

Join Texas Instruments' Connectivity engineering team as a Physical Design Engineer. You will deliver high-performance wireless connectivity solutions that power next-generation IoT, automotive, and industrial applications.

Experience Level

Mid-level: 2-5 years of hands-on experience in physical design implementation.

Responsibilities

The successful candidate will be responsible for:

• Creating and optimizing chip floorplans to meet performance, power, and area targets.
• Executing placement optimization and detailed routing for complex SoC designs.
• Designing and implementing robust clock distribution networks.
• Developing comprehensive power grid strategies.
• Collaborating with EDA vendors and internal teams to improve design flows.
• Verifying DRC and LVS violations for physical design.
• Conducting power management checks and ensuring integrity.
• Fine-tuning design to meet frequency and timing requirements.
• Minimizing die size while sustaining functionality.
• Working closely with cross-functional teams and creating documentation.
• Providing mentorship to junior engineers.

Requirements

Applicants must have the following qualifications:

• Bachelor's / Master's degree in Electrical Engineering, Electronics Engineering, or Computer Engineering.
• 2-5 years of hands-on physical design experience.
• Proficiency with Cadence EDA tools including Innovus and Conformal Low Power.
• Experience with scripting languages (TCL, Perl, Python, Shell).
• Understanding of mixed-signal and analog layout considerations is preferred.

Education Requirements

Bachelor's or Master's degree in Electrical Engineering or a related field is required.

About the Company

Company: Texas Instruments

Headquarters: Dallas, Texas, USA

Texas Instruments is a global semiconductor company that designs, manufactures, and sells analog and embedded processing chips for various markets including industrial, automotive, and personal electronics. The company's innovations aim to make electronics more affordable and reliable, fostering advancements in technology through each generation of semiconductors.