University of Southern California launches computing into the next frontier

USC President Carol L. Folt launched a $1 billion-plus initiative to expand and infuse advanced computing throughout the university’s programs and curriculum with ethics at its core. Grounded in responsible technology, USC will accelerate innovation with novel and robust educational and research opportunities across all disciplines.

“I want every student who comes through our programs, whether they are in science, business, the humanities or the arts, to have a solid grounding in technology and the ethics of the work that they do,” Folt said. “We will integrate digital literacy across disciplines to create responsible leaders for the workforce of the future.”

The Frontiers of Computing initiative is a major step forward on one of Folt’s moonshots for USC. A $260 million gift to USC in 2019 jump-started the effort when Folt said the university would advance and expand computing research and education across the university in a strategic and thoughtful way.

Under USC Frontiers of Computing, USC unites its multiple strengths in computer science and advanced computing, data analytics, imaging, telemedicine and the creative economy. The initiative includes a new School of Advanced Computing that will serve as a nexus and incubator for advanced computation projects for students and faculty. It will spur research and innovation in advanced computing technologies, including artificial intelligence and machine learning, data science, blockchain and quantum information.


“I want every student who comes through our programs, whether they are in science, business, the humanities or the arts, to have a solid grounding in technology and the ethics of the work that they do. We will integrate digital literacy across disciplines to create responsible leaders for the workforce of the future.”

– Carol L. Folt, USC President
All of this will be guided by ethics and responsibility. USC has long been a leader in education, research and development that shape the formation of best practices for the uses of technology. The university will continue to acknowledge, anticipate and navigate the potentially adverse impacts of technology.

USC hosts a growing number of computer science graduates, including more than 1,330 graduate and undergraduate students who are set to earn their degrees this month, prepared to enter the jobs of today and spur the creation of new jobs for tomorrow through their own creativity, innovation and entrepreneurship.

Through USC Frontiers of Computing, USC will prepare society for a more tech-intensive world of work, spark new technological advances to improve people’s lives and shape responsible policy.

Because every discipline today requires a level of digital fluency, students in all schools will be exposed to training in data analytics, coding and ethics, among other topics. In addition, the university will be expanding experiential learning opportunities with industry partners, particularly in Silicon Beach. Already, USC is among the largest providers of tech talent in the U.S. and confers the most computer science degrees among private research institutions.


“This endeavor is a tremendous opportunity to apply new computing tools to accelerate and expand the impact of scientific discovery. It is not only the ability to solve problems that sets this apart, but the speed with which it can be done.”

— Ishwar K. Puri, USC Senior Vice President for Research and Innovation
USC will add to its brain trust a roster of world-class scientists, and computation experts across multiple fields with a track record of entrepreneurship, mentorship and groundbreaking research collaboration with colleagues across the spectrum of disciplines.

The initiative is expected to increase the university’s economic value to the region (already estimated at $8 billion in a 2017 analysis) and the globe. The initiative will result in thousands more students earning computer science degrees and gaining digital expertise to bring their technological talents to jobs across multiple professions worldwide.

USC Frontiers of Computing is an investment in education, research and the Southern California economy — in particular, Silicon Beach, an area encompassing Marina del Rey, currently the locus of the USC Viterbi School of Engineering’s Information Sciences Institute, and Playa del Rey, home of the USC Viterbi’s Institute for Creative Technologies.

The initiative will start in three key areas of technology: advancing AI and machine learning software; improving hardware efficiency and scalability; and, in this era of big data, expanding quantum computing.

“This endeavor is a tremendous opportunity to apply new computing tools to accelerate and expand the impact of scientific discovery,” said Ishwar K. Puri, USC senior vice president for research and innovation. “It is not only the ability to solve problems that sets this apart, but the speed with which it can be done. That’s paramount because such problems as climate change jeopardize our planet and we must begin to address this now to ensure a continuing and, we hope, improving quality of life.”

USC has been rising in the ranks for federal financing of computing research (it is now fourth with $110 million in federal funds, according to the National Science Foundation). It also leads the nation in the combined undergraduate and graduate students who earn computer science degrees.

Ultimately, the university’s endeavor to launch a renaissance in computing could propel greater investment, growth and innovation across the Southern California region, the state and the world.

“The world needs engineers and computer scientists to solve the grand challenges we face,” said Yannis C. Yortsos, dean of the USC Viterbi School of Engineering, which will oversee the new school. “The new School of Advanced Computing will tackle this goal by developing reimagined engineering curricula, that also emphasize the ethics of technology, in our fast-changing world.”

A legacy of innovation
For more than 50 years, USC has pioneered breakthroughs in computer science, AI, machine learning and quantum computing, including the creation of the domain name system (e.g., .com, .net, .edu), natural language processing that preceded current large language models, the first quantum computing system at a university and socially assistive robots.

USC Frontiers of Computing builds upon the university’s strong foundation of entrepreneurship and computing innovations, such as USC Viterbi’s ISI, which helped design, develop and run the early internet, and ICT, which pioneered new advances in virtual reality.

In addition, quantum computing holds the promise of processing vast, massive amounts of data quickly. Home of the USC-Lockheed Martin Quantum Computing Center, USC was the first university in the world and the only university in the United States to host and operate a commercial quantum computing system.

The USC Quantum Computing Center’s opening in 2011 ushered in a wave of new quantum computing centers, followed by Google and NASA in 2013.

“I am particularly excited about the prospect of expanding upon USC’s long history of leadership in quantum computing,” said Amber D. Miller, dean of the USC Dornsife College of Letters, Arts and Sciences, which oversees quantum information science. “The potential is tremendous not only for great progress in applications such as cryptography and seismic simulations, but also for foundational breakthroughs in research areas like black holes, computational biology and quantum materials.”

A pivotal moment
The new USC School of Advanced Computing will position the university to be the leading source of tech talent on the West Coast. Within the next decade, more than 28,000 USC students will graduate with computing-related proficiency across different disciplines and degrees, preparing them for tech-forward professions of the future, university projections show.

The school will be headquartered at the Dr. Allen and Charlotte Ginsburg Human-Centered Computation Hall. The seven-story, 116,000-square-foot hall, now under construction and due to be completed by spring 2024, features interactive spaces and laboratories.

By spring next year, the ranks of faculty at the new school will begin to expand. Thirty new faculty members will be appointed in priority areas by 2025; another 60 will have been recruited by 2030. While enhancing the educational and research opportunities attractive to undergraduate and graduate students, the addition of faculty will expand USC’s portfolio of intellectual property and widen its network of collaborators across academia and industry.