Institute for Foundations of Machine Learning (IFML): Advancing AI systems that will transform our world

• Published in: The AI magazine Vol. 45; no. 1; pp. 35 - 41
• Main Authors: Klivans, Adam, Dimakis, Alexandros G., Grauman, Kristen, Tamir, Jonathan I., Diaz, Daniel J., Davidson, Karen
• Format: Journal Article
• Language: English
• Published: La Canada John Wiley & Sons, Inc 01.03.2024
• Subjects: Algorithms; Artificial intelligence; Audio data; Bias; Collaboration; Computer engineering; Data augmentation; Datasets; Deep learning; Foundations; Generative artificial intelligence; Industrial development; Machine learning; Magnetic resonance imaging; Medical imaging; Proteins; Researchers; Social networks; Students; Technological change; Workforce
• ISSN: 0738-4602; 2371-9621; 2371-9621
• DOI: 10.1002/aaai.12163

The Institute for Foundations of Machine Learning (IFML) focuses on core foundational tools to power the next generation of machine learning models. Its research underpins the algorithms and data sets that make generative artificial intelligence (AI) more accurate and reliable. Headquartered at The University of Texas at Austin, IFML researchers collaborate across an ecosystem that spans University of Washington, Stanford, UCLA, Microsoft Research, the Santa Fe Institute, and Wichita State University. Over the past year, we have witnessed incredible breakthroughs in AI on topics that are at the heart of IFML's agenda, such as foundation models, LLMs, fine‐tuning, and diffusion with game‐changing applications influencing almost every area of science and technology. In this article, we seek to highlight seek to highlight the application of foundational machine learning research on key use‐inspired topics: Fairness in Imaging with Deep Learning: designing the correct metrics and algorithms to make deep networks less biased. Deep proteins: using foundational machine learning techniques to advance protein engineering and launch a biomanufacturing revolution. Sounds and Space for Audio‐Visual Learning: building agents capable of audio‐visual navigation in complex 3D environments via new data augmentations. Improving Speed and Robustness of Magnetic Resonance Imaging: using deep learning algorithms to develop fast and robust MRI methods for clinical diagnostic imaging. IFML is also responding to explosive industry demand for an AI‐capable workforce. We have launched an accessible, affordable, and scalable new degree program—the MSAI—that looks to wholly reshape the AI/ML workforce pipeline.