Defense Advanced Research Projects AgencyTagged Content List

Decentralization

The ability to update underlying capabilities in large and massively complex systems inexpensively and quickly is crucial to avoid outdated and inferior electronics. The increasing complexity of our major military systems precludes rapid change so it is essential that we move towards a new model that allows for quick adoption of new and modern electronics.

Showing 59 results for Decentralization RSS
12/10/2018
Today’s critical Department of Defense (DOD) systems and platforms rely on advanced electronics to address national security objectives. To help tackle obstacles facing a half-century of electronics advancement, DARPA launched the Electronics Resurgence Initiative (ERI) – a five-year, upwards of $1.5 billion investment in the future of domestic electronic systems. In November, DARPA expanded ERI with the announcement of ERI Phase II, which seeks to further enmesh the technology needs and capabilities of the defense enterprise with the commercial and manufacturing realities of the electronics 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.
September 20, 2016,
DARPA Conference Center
The Defense Advanced Research Projects Agency (DARPA) Microsystems Technology Office (MTO) is sponsoring a Proposers Day to present its technical vision and mission and to provide information to potential proposers on the MTO Office-Wide Broad Agency Announcement (BAA) and the anticipated Commercial Performer Program Announcement.

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.

Today’s electromagnetic (EM) systems use antenna arrays to provide unique capabilities, such as multiple beam forming and electronic steering, which are important for a wide variety of applications such as communications, signal intelligence (SIGINT), radar, and electronic warfare.