Defense Advanced Research Projects AgencyTagged Content List

Manufacturing

Manufacturing

Showing 22 results for Manufacturing + Cost RSS
05/31/2019
For the second year in a row, DARPA is convening the electronics community to discuss the ambitions and achievements of its five-year, upwards of $1.5 billion investment in U.S. microelectronics advancement. Attendees at the second annual Electronics Resurgence Initiative (ERI) Summit – being held July 15-17 in Detroit, Michigan – will hear from commercial and defense leaders as they share their insights on the domestic semiconductor industry and the applications driving next-generation electronics.
06/17/2020
From August 18-20, DARPA will host its third Electronics Resurgence Initiative (ERI) Summit and Microsystems Technology Office (MTO) Symposium. The annual event brings together leaders from across the electronics ecosystem – spanning government, defense, academia, and industry – to foster collaboration and share technical progress on DARPA’s five-year, $1.5 billion dollar investment into the advancement of the U.S. semiconductor industry.
July 23-25, 2018,
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DARPA’s Microsystems Technology Office is hosting the first annual Electronics Resurgence Initiative (ERI) Summit. The three-day event will bring together those most impacted by the coming inflection in Moore’s Law, including senior representatives from the commercial sector, defense industrial base, academia, and government, to promote collaboration and cooperation on shaping the future direction of U.S. semiconductor innovation. The event will also highlight progress and opportunities within DARPA’s ERI research programs.

Adaptive Vehicle Make (AVM) is a portfolio of programs that address revolutionary approaches to the design, verification and manufacturing of complex defense systems and vehicles. The portfolio consists of three primary programs: META, Instant Foundry Adaptive through Bits (iFAB) and Fast Adaptable Next-Generation Ground Vehicle (FANG).

Following the announcement of a winner of the first FANG Challenge in April 2013, the winning design was built and tested. The test data has verified the new design paradigm, and as a result, DARPA is pursuing an opportunity for an early transition of the program to industry in 2014.

The general-purpose computer has remained the dominant computing architecture for the last 50 years, driven largely by the relentless pace of Moore’s Law. As this trajectory shows signs of slowing, however, it has become increasingly more challenging to achieve performance gains from generalized hardware, setting the stage for a resurgence in specialized architectures. Today’s specialized, application-specific integrated circuits (ASICs) — hardware customized for a specific application — offer limited flexibility and are costly to design, fabricate, and program.