Career Accelerator Program - Analog IC Design Engineer AI/ML
Texas InstrumentsRole Summary
The Analog IC Design Engineer will be part of a unique team that merges classical analog IC design with artificial intelligence. This role focuses on creating integrated circuit designs for various applications, contributing to how analog products are developed at Texas Instruments.
Experience Level
Entry-level position for recent graduates or those with advanced degrees in relevant fields.
Responsibilities
The responsibilities of the Analog IC Design Engineer include:
- Creating integrated circuit designs for audio, imaging, high-speed interfaces, and other applications.
- Designing and drawing schematics and simulating functionality and performance of ICs.
- Collaborating in IC layout and performing post-layout extracted simulations.
- Applying AI/ML-enabled tools to enhance product development.
- Driving adoption of innovative tools and ideas across product teams.
- Engaging in design verification and digital design practices.
Requirements
To be considered for this position, candidates must meet the following:
- Master's or PhD in Electrical Engineering, Computer Engineering, or related field.
- Cumulative GPA of 3.0/4.0 or higher.
- Strong knowledge of analog circuit design concepts and relevant project experience.
- Familiarity with circuit design tools, particularly Cadence Virtuoso ADE.
- Proficiency in Python and machine learning frameworks such as TensorFlow or PyTorch.
- Excellent verbal and written communication skills.
- Analytical problem-solving skills and ability to collaborate across teams.
Education Requirements
Master's or PhD in Electrical Engineering, Computer Engineering, or a related field.
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.
