Defense Advanced Research Projects AgencyTagged Content List

Microchips and Components

Relating to miniaturized electronic circuitry and its components and features

Showing 26 results for Microchips + Integration RSS
11/26/2013
Long coils of optical waveguides—any structure that can guide light, like conventional optical fiber—can be used to create a time delay in the transmission of light. Such photonic delays are useful in military application ranging from small navigation sensors to wideband phased array radar and communication antennas. Although optical fiber has extremely low signal loss, an advantage that enables the backbone of the global Internet, it is limited in certain photonic delay applications. Connecting fiber optics with microchip-scale photonic systems requires sensitive, labor-intensive assembly and a system with a large number of connections suffers from signal loss.
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, 
04/06/2018
The microelectronics community is facing an array of long foreseen obstacles to Moore’s Law, the transistor scaling that has allowed for 50 years of rapid progress in electronics. Current economic, geopolitical, and physics-based complications make the future of the electronics industry uniquely interesting at this moment. To jump-start innovation in the field, DARPA announced in June 2017 that it would coalesce a broad series of programs into the Electronics Resurgence Initiative (ERI).
04/25/2018
Only a few decades ago, finding a particular channel on the radio or television meant dialing a knob by hand, making small tweaks and adjustments to hone in on the right signal. Of course, we now take such fine tuning for granted, simply pressing a button to achieve the same effect. This convenience is enabled by radio frequency synthesis, the generation of accurate signal frequencies from a single reference oscillator.
06/26/2018
First announced in June 2017, DARPA’s Electronics Resurgence Initiative (ERI) is a multi-year, upwards of $1.5 billion investment in jumpstarting innovation and collaboration across the U.S. electronics community to address an array of long foreseen challenges to Moore’s Law. To kickoff this community-wide effort, DARPA is hosting its first annual ERI Summit from July 23-25 in San Francisco, CA. The three-day event will bring together leading voices from across the electronics community–including Alphabet, Applied Materials, Intel, Synopsys, Cadence, Mentor Graphics, NVIDIA, and IBM–to address challenges and opportunities for the next half century of electronics progress.