![]() “Our goal is to build a completely new class of computers that can precisely control and manipulate physical matter. Our goal is not to compete with electronic computers or to operate word processors on this,” Prakash said. ![]() “We already have digital computers to process information. Prakash and his colleagues, however, have a more ambitious application in mind. “In this work, we finally demonstrate a synchronous, universal droplet logic and control,” Prakash said.īecause of its universal nature, the droplet computer can theoretically perform any operation that a conventional electronic computer can crunch, although at significantly slower rates. The work combines his expertise in manipulating droplet fluid dynamics with a fundamental element of computer science – an operating clock. The computer is nearly a decade in the making, incubated from an idea that struck Prakash when he was a graduate student. Prakash, an assistant professor of bioengineering at Stanford, and his students have built a synchronous computer that operates using the unique physics of moving water droplets. ![]() Stanford bioengineer Manu Prakash and his students have developed a synchronous computer that operates using the unique physics of moving water droplets.Ĭomputers and water typically don’t mix, but in Manu Prakash‘s lab, the two are one and the same.
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