Defense Advanced Research Projects AgencyTagged Content List


Compatible interconnection of disparate components and systems

Showing 27 results for Integration + Decentralization RSS
Complex Defense systems, such as RADAR, communications, imaging and sensing systems rely on a wide variety of microsystems devices and materials. These diverse devices and materials typically require different substrates and different processing technologies, preventing the integration of these devices into single fabrication process flows. Thus, integration of these device technologies has historically occurred only at the chip-to-chip level, which introduces significant bandwidth and latency-related performance limitations on these systems, as well as increased size, weight, power, and packaging/assembly costs as compared to microsystems fully integrated on a single chip.
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.
Next-generation intelligent systems supporting Department of Defense (DoD) applications like artificial intelligence, autonomous vehicles, shared spectrum communication, electronic warfare, and radar require processing efficiency that is orders of magnitude beyond what is available through current commercial electronics. Reaching the performance levels required by these DoD applications however will require developing highly complex system-on-chip (SoC) platforms that leverage the most advanced integrated circuit technologies.
Due to engineering limitations and cost constraints, the dynamics of the electronic industry are continually changing. Commercial companies increasingly recognize the need to differentiate their products through research in areas other than device scaling, such as new circuit architectures and computing algorithms.
For decades, Global Positioning System (GPS) technology has been incorporated into vehicles and munitions to meet DoD requirements for precision guidance and navigation. GPS dependence creates a critical vulnerability for many DoD systems in situations where the GPS signal is degraded or unavailable.