The presenter will be giving the talk virtually. Join us in EER 1.518 to watch the talk. Pizza will be provided.

The success of deep neural networks (DNNs) from Machine Learning (ML) has inspired domain specific architectures  (DSAs) for them. Google’s first generation DSA offered 50x improvement over conventional architectures for ML inference in 2015. Google next built the first production DSA supercomputer for the much harder problem of training. Subsequent generations greatly improved performance of both phases. We start the talk with ten lessons learned from such efforts. 

The rapid growth of DNNs rightfully raised concerns about their carbon footprint. The second part of the talk identifies the “4Ms” (Model, Machine, Mechanization, Map) that, if optimized, can reduce ML training energy by up to 100x and carbon emissions up to 1000x. By improving the 4Ms, ML held steady at <15% of Google’s total energy use despite it consuming ~75% of its floating point computation.  With continuing focus on the 4Ms, we can realize the amazing potential of ML to positively impact many fields in a sustainable way.

David Patterson is a UC Berkeley professor emeritus, a Google distinguished engineer, and the RISC-V International Vice-Chair. His most influential Berkeley projects likely were RISC and RAID. His best-known book is Computer Architecture: A Quantitative Approach. He and his co-author John Hennessy shared the 2017 ACM A.M Turing Award and the 2022 NAE Charles Stark Draper Prize for Engineering. The Turing Award is often referred to as the “Nobel Prize" of Computing and the Draper Prize is considered a “Nobel Prize" of Engineering.