Hajiesmaili and Musco, UMass Amherst College of Information and Computer Sciences Faculty, Each Receive National Science Foundation CAREER Award

Cameron Musco
Cameron Musco
Mohammad Hajiesmaili
Mohammad Hajiesmaili

Mohammad Hajiesmaili and Cameron Musco, both of UMass Amherst’s College of Information and Computer Sciences, have just received CAREER grants from the National Science Foundation (NSF), among the most prestigious grants that the NSF offers.

The NSF’s CAREER program is intended to provide junior scholars who have the potential to serve as role models, both in their research and teaching activities, with significant funding. The ultimate goal of the grant program is to help cement the foundation for a lifetime of integrating research and teaching activities.

Hajiesmaili, an expert in carbon-intelligent computing and data-driven online optimization, will use his grant to continue studying how to decarbonize the internet. An enormous amount of energy, often derived from fossil fuels, is required for streaming music and video, running data centers and hosting large data-crunching applications. Indeed, by 2030 computing is projected to account for around 10% of the world’s energy demand. Any serious attempt to grapple with global climate change will therefore have to address energy use in the digital world. Hajiesmaili’s work aims to develop new methodologies so that massive distributed systems, such as those operated by Google, Amazon, Microsoft, and Apple, can reliably draw on low-carbon energy sources, such as wind, solar, or hydro power, twenty-four hours a day, with no loss in computing performance.

Musco’s research focuses on computational linear algebra, which studies how to efficiently solve a host of algebraic problems using computer algorithms. Algorithms for computational linear algebra are critical in many applications, including scientific modeling, image processing and machine learning. Musco will use his CAREER grant to develop new algorithms that vastly decrease the time it takes to solve large-scale linear algebraic problems. One of his main approaches is to use randomized algorithmswhich can compute approximate solutions to a problem in far less time than it takes to compute an exact solution.

Each of the CAREER grants will conclude in 2026. Stay tuned for more news of Hajiesmaili’s and Musco’s innovative work in the years to come.