Department of Mechanical Engineering
Stanford University
Principal Investigator
Kenneth E. Goodson
Joe Miler
jmiler@stanford.edu
Joe Miler is developing computationally efficient methods of detecting and predicting hotspots in microprocessors with applications for Dynamic Thermal Management (DTM). Previously he developed a thermo-fluidic model for flow instabilities in two-phase microfluidic heat exchangers.
Joe has experience consulting for cleantech start-up companies, especially in battery technologies, and is active in the Stanford entrpreneurial community.
He is a recipient of the Stanford Department of Mechanical Engineering Graduate Teaching and Research Fellowship (2006) and a co-recipient of the Stanford Graduate School of Business Feigenbaum Nii Foundation Award (2011). Joe received his BS in mechanical engineering with a concentration in chemical engineering from MIT in 2006 and his MS in mechanical engineering from Stanford in 2008.
Joe maintains an individual site at: www.stanford.edu/~jmiler/
Related Projects
Micro- and nanotechnology have revolutionized the design opportunities, and the relevant fundamental transport phenomena, associated with heat exchangers. Much progress has been motivated by heat...
The performance density of modern electronic systems (including desktop and mainframe computers and routers) is severely limited by the temperature rise at hotspots. Hotspots are regions of...
Related Publications
Miler, J., Etessam-Yazdani, K., Asheghi, M., Touzelbaev, M., and Goodson, K.E., 2012, "Temperature Sensor Distribution, Measurement Uncertainty, and Data Interpretation for Microprocessor Hotspots," IEEE Transactions on Components, Packaging, and Manufacturing Technology, under review.