Computer Science Channel (Audio‪)‬ UCTV

Very large-scale integration technology (VLSI) is the magic that helps us cram a huge amount of electronic components onto a tiny microchip, enabling the creation of smaller and more powerful electronic devices that we use in our daily lives. VLSI technology is a continually evolving field, and new advancements and innovations continue to be made by researchers and engineers worldwide. Carver Mead, the 2022 Kyoto Prize Laureate in Advanced Technology is widely regarded as one of the pioneers of modern microelectronics having made significant contributions to the field of VLSI technology and semiconductor devices. Mead is joined by John Smee and Sanjay Jha for a roundtable discussion hosted by UC San Diego professor Andrew Kahng to demystify the technology and explore future possibilities for VLSI. Series: "Computer Science Channel" [Science] [Show ID: 38823]

Carver Mead is a pioneer of modern microelectronics. He proposed a new methodology, very large-scale integration (VLSI), that would make it possible for creating millions or billions of transistors on a single integrated circuit (microchip). His research investigated techniques for VLSI, designing and creating high-complexity microchips. This design process has advanced electronic technologies and transformed the lives of most of the people inhabiting our planet. Mead also paved the way to VLSI design automation and facilitating the revolutionary development of today's VLSI-based electronics and industry. For his work and contributions, Mead was awarded the 2022 Kyoto Prize in Advanced Technology. In his talk entitled, "Engineering Concepts Clarify Physical Law" Mead will discuss a simplified theory that might serve as an entry point for further development by generations of young people who feel disenfranchised by the existing establishment. Series: "Computer Science Channel" [Science] [Show ID: 38572]

The cell phone revolutionized how we communicate with each other, but its origins are extremely different from the device you use to talk, text and even surf the internet with on a daily basis. Its roots could be traced back to the early 1970s when the head of Motorola’s communications systems division, Martin Cooper was tasked with developing a device that would make the up and coming car phone obsolete technology. On April 3, 1973, Cooper made the very first handheld cell phone call while standing on Sixth Avenue outside the New York City Hilton in midtown Manhattan to engineer Joel Engel, head of AT&T’s rival project. In a conversation with Al Pisano, Dean of UC San Diego’s Jacobs School of Engineering, Cooper reflects on the past fifty years including what it took to develop the world’s first cellular telephone, the impact it’s had on the world and the future of smartphone technology. Series: "Computer Science Channel" [Science] [Show ID: 38819]

Computer Industry experts, including UC San Diego alumni share their insights about research opportunities and partnerships in the tech Industry at the CSE Winter 2020 Research Open House. Series: "Computer Science Channel" [Science] [Show ID: 35738]

Members of the group of student computer scientists who created the widely used and influential UCSD Pascal programming language in the 70's gathered to discuss their exploits under the tutelage of the late Kenneth Bowles, UC San Diego professor of computer science. Series: "Computer Science Channel" [Science] [Show ID: 35183]

Equitable and effective CS instruction is essential for broadening participation in computing, responding to the growing demand for computer scientists, and guiding the expansion of CS at the K12 level. Harvey Mudd College's Colleen Lewis shares a brief background of her work in this area and current projects from two newly-funded five-year NSF grants focused on understanding and optimizing CS learning, and understanding and removing barriers to CS. Series: "Computer Science Channel" [Science] [Education] [Show ID: 35381]