University of Pittsburgh Joins New DOE Cybersecurity Manufacturing Innovation Institute
Five-year, $111 million public-private partnership led by the University of Texas at San Antonio
SAN ANTONIO, TX (November 19, 2020) ... The University of Texas at San Antonio (UTSA) today formally launched the Cybersecurity Manufacturing Innovation Institute (CyManII), a $111 million public-private partnership. Led by UTSA, the university will enter into a five-year cooperative agreement with the U.S. Department of Energy (DOE) to lead a consortium of 59 proposed member institutions in introducing a cybersecure energy-ROI that drives American manufacturers and supply chains to further adopt secure, energy-efficient approaches, ultimately securing and sustaining the nation’s leadership in global manufacturing competitiveness.
U.S. manufacturers are one of the top targets for cyber criminals and nation-state adversaries, impacting the production of energy technologies such as electric vehicles, solar panels and wind turbines. Integration across the supply chain network and an increased use of automation applied in manufacturing processes can make industrial infrastructures vulnerable to cyber-attacks. To protect American manufacturing jobs and workers, CyManII will transform U.S. advanced manufacturing and make manufacturers more energy efficient, resilient and globally competitive against our nation’s adversaries.
“The University of Pittsburgh is proud to be among the inaugural member institutions of this national effort to develop cyber security and energy research to benefit U.S. manufacturing expertise,” noted Rob A. Rutenbar,
Senior Vice Chancellor for Research at Pitt. “Both our Swanson School of Engineering and School of Computing and Information at the forefront of innovations in advanced manufacturing, cyber infrastructure and security, sustainable energy, materials science and supply chain management. Our faculty are looking forward to participating in this groundbreaking institute.”
“The exploitation of advanced materials and computing can provide us with a more holistic approach to secure the nation’s manufacturing infrastructure, from communication networks and assembly lines to intricate computer code and distribution systems,” added Daniel Cole, Associate Professor of Mechanical Engineering and Materials Science and co-director of the Swanson School’s Hacking for Defense program. “Just as our personal computers and cell phones are vulnerable to cyber-attacks, so too is our complex manufacturing industry. But thanks to this national effort through CyManII, we will not only be able to develop defenses but also create more sustainable and energy efficient technologies for industry.”
“I am excited for the potential collaborations between our faculty and the innovations they will develop,” said David Vorp, Associate Dean for Research at the Swanson School. “We already have a healthy collaboration with faculty in the School of Computing and Information, and sustainability informs our research, academics, and operations. CyManII presents a new opportunity for us to engage in transformative, trans-disciplinary research.”
As part of its national strategy, CyManII will focus on three high priority areas where collaborative research and development can help U.S. manufacturers: securing automation, securing the supply chain network, and building a national program for education and workforce development.
“As U.S. manufacturers increasingly deploy automation tools in their daily work, those technologies must be embedded with powerful cybersecurity protections,” said Howard Grimes, CyManII Chief Executive Officer and UTSA Associate Vice President and Associate Vice Provost for Institutional Initiatives. “UTSA has assembled a team of best-in-class national laboratories, industry, nonprofit and academic organizations to cybersecure the U.S. manufacturing enterprise. Together, we will share the mission to protect the nation’s supply chain, preserve its critical infrastructure and boost its economy.”
CyManII’s research objectives will focus on understanding the evolving cybersecurity threats to greater energy efficiency in manufacturing industries, developing new cybersecurity technologies and methods, and sharing information and knowledge with the broader community of U.S. manufacturers.
CyManII aims to revolutionize cybersecurity in manufacturing by designing and building a secure manufacturing architecture that is pervasive, unobtrusive and enables energy efficiency. Grimes says this industry-driven approach is essential, allowing manufacturers of all sizes to invest in cybersecurity and achieve an energy ROI rather than continually spending money on cyber patches.
These efforts will result in a suite of methods, standards and tools rooted in the concept that everything in the manufacturing supply chain has a unique authentic identity. These solutions will address the comprehensive landscape of complex vulnerabilities and be economically implemented in a wide array of machines and environments.
“CyManII leverages the unique research capabilities of the Idaho, Oak Ridge and Sandia National Laboratories as well as critical expertise across our partner cyber manufacturing ecosystem,” said UTSA President Taylor Eighmy. “UTSA is proud and honored to partner with the DOE to advance cybersecurity in energy-efficient manufacturing for the nation.”
CyManII has 59 proposed members including three Department of Energy National Laboratories (Idaho National Laboratory, Oak Ridge National Laboratory, and Sandia National Laboratories), four Manufacturing Innovation Institutes, 24 powerhouse universities, 18 industry leaders, and 10 nonprofits.
This national network of members will drive impact across the nation and solve the biggest challenges facing cybersecurity in the U.S manufacturing industry.
CyManII is funded by the Office of Energy Efficiency and Renewable Energy’s Advanced Manufacturing Office (AMO) and co-managed with the Office of Cybersecurity, Energy Security, and Emergency Response (CESER).
Learn more about the Cybersecurity Manufacturing Innovation Institute.