Satendra Maurya
About Satendra Maurya
Satendra Maurya is a Senior Principal at Ampere, with extensive experience in circuit design and physical implementation. He holds a PhD in Electrical Engineering from Arizona State University and has previously worked at Intel, Qualcomm, and Tata Elxsi.
Current Role at Ampere
Satendra Maurya serves as a Senior Principal at Ampere since 2018. He is based in Raleigh, North Carolina, United States. In this role, he focuses on high-performance custom cache memory for advanced Ampere server processors. His responsibilities include overseeing the design and implementation of circuit elements, ensuring that projects meet stringent performance and power requirements.
Previous Experience at Qualcomm
Before joining Ampere, Satendra Maurya worked at Qualcomm as a Senior Design Engineer from 2012 to 2018. His tenure at Qualcomm lasted for six years, during which he contributed to various design projects. His experience at Qualcomm further solidified his expertise in circuit design and implementation.
Education and Expertise
Satendra Maurya holds a PhD in Electrical Engineering from Arizona State University, where he studied from 2009 to 2011. He also earned a Master of Science in VLSI from the same institution, completing his studies from 2007 to 2009. Prior to that, he obtained a Bachelor of Technology in Electronics and Communication Engineering from the National Institute of Technology, Tiruchirappalli, from 2000 to 2004. His academic background supports his extensive knowledge in circuit design.
Early Career and Teaching Experience
Satendra Maurya began his career as a Design Engineer at Tata Elxsi from 2004 to 2005. He then transitioned to academia, serving as a Teaching Assistant at Arizona State University for a total of ten months between 2007 and 2009. During his time as a Teaching Assistant, he contributed to the education of students while furthering his own studies.
Technical Skills and Achievements
Satendra Maurya possesses extensive experience in various aspects of circuit design, including full custom and semi-custom macros, as well as fully synthesizable designs. He has developed several in-house tools aimed at achieving high-frequency, low-power design targets. His track record includes a proven history of first-pass design success, highlighting his technical proficiency in the field.