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to update underlying capabilities in large and massively complex systems inexpensively and quickly is crucial to avoid outdated and inferior electronics.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
03/30/2015
For decades, the United States has successfully countered the threats of competitor nations by harnessing advanced technologies to create exceedingly robust and capable military platforms. But as advanced technologies have become more readily available to adversaries on commercial markets, the Nation’s focus on ever more complex weapons systems has become not just a strength but also a weakness. Effective as they are, U.S. military systems today are often too expensive to procure in the quantities needed, and may take so long to develop that the electronic components they contain are obsolete by the time they become operational.
06/29/2016
More than 500,000 pieces of manmade space debris—including spent rocket stages, defunct satellites, and fragments as small as flecks of paint—currently hurtle around the Earth at roughly 17,000 miles per hour. At those speeds, impacts involving even the smallest of those items can damage satellites and spawn chain reactions of collisions, increasing the amount of orbital flotsam and creating “minefields” in space that can remain unpassable for centuries.
08/19/2016
Nothing is more iconic of today’s high technology than the semiconductor chips inside our computers, phones, military systems, household appliances, fitness monitors, and even birthday cards and pets. Since its inception in 1992, DARPA’s Microsystems Technology Office (MTO) has helped create and prevent strategic surprise through investments in compact microelectronic components, such as microprocessors, microelectromechanical systems (MEMS), and photonic devices. MTO’s pioneering efforts to apply advanced capabilities in areas such as wide-band-gap materials, phased array radars, high-energy lasers, and infrared imaging, have helped the United States establish and maintain technological superiority for more than two decades.
06/15/2017
As nation-state and non-state adversaries adapt and apply commercially available state-of-the-art technology in urban conflict, expeditionary U.S. forces face a shrinking operational advantage. To address this challenge, a new DARPA program is aiming to create powerful, digital tools for exploring novel expeditionary urban operations concepts—with a special emphasis on coastal cities, where future such battles are deemed most likely to occur. The program will test the new tools and concepts in an integrated virtual environment, with the ultimate goal of developing fluidly composable force packages able to maximize tactical advantage in these complex, urban environments.
09/13/2017
With the official roll out of the Electronics Resurgence Initiative’s latest investments today, DARPA hopes to open new innovation pathways to address impending engineering and economics challenges that, if left unanswered, could challenge what has been a relentless half-century run of progress in microelectronics technology. To maintain healthy forward momentum, the ERI over the next four years will commit hundreds of millions of dollars to nurture research in advanced new materials, circuit design tools, and system architectures. In addition to a half-dozen or so existing DARPA programs, and the largest program in the U.S. that funds basic electronics research at universities,