FuSe-TG: A Co-Design Model for Advanced Manufacturing and Workforce Development to Enhance — NSF Award to Boise State University (
Manipulating information at the sub-cellular scale inspired Richard Feynman to imagine biological approaches to miniaturize computing architectures. At the time of his now prescient lecture, There’s Plenty of Room at the Bottom, this possibility seemed like science fiction. Today, technology exists where we can explore
| Award title | FuSe-TG: A Co-Design Model for Advanced Manufacturing and Workforce Development to Enhance |
|---|---|
| Award ID | 2235294 |
| Awardee | Boise State University |
| City | BOISE |
| State | ID |
| Amount obligated | $400,000 |
| Principal investigator | David Estrada |
| Program | FuSe-Future of Semiconductors, Advanced Tech Education Prog |
| Start date | 03/01/2023 |
| Abstract | Manipulating information at the sub-cellular scale inspired Richard Feynman to imagine biological approaches to miniaturize computing architectures. At the time of his now prescient lecture, There’s Plenty of Room at the Bottom, this possibility seemed like science fiction. Today, technology exists where we can explore the possibility of integrating biology with semiconductor materials to manipulate matter at the atomic scale in order to enable novel computing architectures. This project aims to |
| Source | NSF Awards |
$799/mo
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