Larry Pileggi is the Tanoto Professor and Head of Electrical and Computer Engineering, and has previously held positions at Westinghouse Research and Development and the University of Texas at Austin. He received his Ph.D. in electrical and computer engineering from Carnegie Mellon in 1989. He has consulted for various semiconductor and EDA companies, and was co-founder of Fabbrix Inc. (acquired by PDF Solutions) and Extreme DA (acquired by Synopsys).
His research interests include various aspects of digital and analog integrated circuit design, and design methodologies. He has received various awards, including Westinghouse corporation’s highest engineering achievement award; a Presidential Young Investigator award from the National Science Foundation; Semiconductor Research Corporation (SRC) Technical Excellence Awards in 1991 and 1999; the FCRP inaugural Richard A. Newton GSRC Industrial Impact Award; the SRC Aristotle award in 2008; the 2010 IEEE Circuits and Systems Society Mac Van Valkenburg Award; the ACM/IEEE A. Richard Newton Technical Impact Award in Electronic Design Automation in 2011; the Carnegie Institute of Technology B.R. Teare Teaching Award for 2013; and the 2015 Semiconductor Industry Association (SIA) University Researcher Award.
He is a co-author of Electronic Circuit and System Simulation Methods (McGraw-Hill, 1995), and IC Interconnect Analysis (Kluwer, 2002). He has published more than 300 conference and journal and holds 39 U.S. patents. He is a Fellow of IEEE.
Making Integrated Circuits Smaller and More Powerful
1989 Ph.D., Electrical and Computer Engineering, Carnegie Mellon University
1984 MS, Electrical Engineering, University of Pittsburgh
1983 BS, Electrical Engineering, University of Pittsburgh
Preparing the chip workforce of the future
With decreasing interest in the field of integrated circuit design, CMU has found a way to attract students to the career opportunities.
CyLab Security and Privacy Institute
Phishing, fairness, and more: CyLab’s 2021 seed funding awardees
Over $350K in seed funding has been awarded to 14 different faculty and staff in seven different departments across three colleges at CMU.
Greet Tech Media
Pileggi’s Pearl Street Technologies featured in Green Tech Media
ECE Head Larry Pileggi’s Pittsburgh-based startup Pearl Street Technologies has raised pre-seed investment for its integrated-circuit modeling technology SUGAR.
Kar, Nock, and Pileggi named Energy Fellows
ECE’s Soummya Kar and CEE/EPP’s Destenie Nock were named Energy Fellows at the Scott Institute. ECE Head Larry Pileggi was named a Senior Energy Fellow.
Pileggi on Tesla’s legacy
ECE Head Larry Pileggi commented on Nikola Tesla inventions that should have made the inventor famous, including the Tesla coils.
Energy Week 2019: What’s next in energy innovation
From March 25 – 28, 2019, the Wilton E. Scott Institute for Energy Innovation at Carnegie Mellon University will hold CMU Energy Week 2019.
Carnegie Mellon – CMKL | Thailand
Carnegie Mellon – CMKL | Thailand partners visited CMU Pittsburgh campus to foster collaboration
Carnegie Mellon – CMKL | Thailand hosted three of Thailand’s corporate leaders at CMU’s Pittsburgh campus on March 11-13, 2019. The visit was designed to foster collaboration between CMU and its new partners in Thailand.
Pileggi named Electrical and Computer Engineering department head
Larry Pileggi has been named head of the Department of Electrical and Computer Engineering at Carnegie Mellon University effective March 1.
Pileggi comments on vulnerability of US power grid
According to ECE’s Larry Pileggi in an article for Choose Energy, hackers can most certainly use vulnerabilities like Meltdown and Spectre to attack the country's power grid.
Pileggi comments on benefits of microgrids in ChooseEnergy
In an article for ChooseEnergy, ECE’s Larry Pileggi talks about the benefits and importance of microgrids.
Protecting the power grid
Electrical and Computer Engineering Professor Larry Pileggi and his graduate students have developed a simulation approach that could potentially help experts model and simulate the power grid more reliably, thereby protecting it from possible cybersecurity threats in the future.