Zvika Veig
About Zvika Veig
Zvika Veig is a chip architect with extensive experience in VLSI design and digital-analog-mixed-signal environments. He has worked at notable companies including Sony and ON Semiconductor, contributing to innovations such as a patented power-efficient latch-based FIR filter.
Work at ON Semiconductor
Zvika Veig has been employed at ON Semiconductor as a Chip Architect since 2020. In this role, he focuses on the design and development of integrated circuits, leveraging his expertise in digital, analog, and mixed-signal environments. His work involves collaboration with various teams and contractors, ensuring that projects meet performance and efficiency standards.
Previous Experience at Sony
Prior to joining ON Semiconductor, Zvika Veig worked at Sony as a Staff VLSI Design Engineer from 2010 to 2020. During his tenure, he contributed to various projects in the field of VLSI design, enhancing the company's capabilities in integrated circuit development. His experience at Sony spanned a decade and involved significant contributions to the design processes.
Background in VLSI Engineering
Zvika Veig began his career at Zoran, where he worked as a VLSI Engineer from 2008 to 2009. This role provided him with foundational experience in VLSI design and engineering, which he later expanded upon during his time at Sony and ON Semiconductor. His background includes a strong focus on digital and mixed-signal circuit design.
Education and Expertise
Zvika Veig earned a Bachelor of Science degree in Electrical Engineering from Tel Aviv University, where he studied from 2004 to 2008. His education laid the groundwork for his expertise in chip architecture and VLSI design. He specializes in developing Digital-Analog-Mixed-Signal environments for full-chip simulations, which is critical in the design of modern integrated circuits.
Innovations and Patents
Zvika Veig has developed a patented power-efficient latch-based FIR filter, showcasing his innovative approach to circuit design. Additionally, he has designed a MIPI CSI2 compliant 1Gbps/lane transmitter and created a hardware-based processor that functions as a hardware accelerator. These contributions reflect his commitment to advancing technology in the semiconductor industry.