A new innovation from Cornell researchers lowers the energy use needed to power artificial intelligence – a step toward shrinking the carbon footprints of data centers and AI infrastructure.
Students who decide to pursue the B.A. in public policy will be admitted into the College of Arts and Sciences and take courses in both Brooks and A&S.
By combining the design principles and materials of soft robotics with microscale combustions, researchers created a high-resolution electronic tactile display that can operate in messy, unpredictable environments.
As generative AI reshapes how we communicate, work, and make decisions, Angelina Wang is making sure these systems serve everyone — not just a privileged few.
A Cornell doctoral student has developed an open-source software package that could transform how engineers design floating offshore structures for renewable energy and other ocean applications.
Claudia Fischbach-Teschl, director of the Meinig School of Biomedical Engineering, was appointed leader of Engineering Innovations in Medicine, an initiative to transform human health through data-driven innovation and interdisciplinary collaboration.
From mapping the human gut-brain connection to creating safer cancer nanotherapies, the latest Expanded SPROUT Awards from Cornell Engineering are exploring breakthroughs in microbiome science, quantum materials and biomedical engineering.
Using time-delay snapshots, researchers led by mathematician Yunan Yang have introduced a new way to identify the underlying dynamics of unpredictable systems, such as the atmosphere and turbulent fluids.
Cornell researchers have developed a powerful new biosensor that reveals, in unprecedented detail, how and where kinases – enzymes that control nearly all cellular processes – turn on and off inside living cells.