Defense Advanced Research Projects AgencyTagged Content List

Data Analysis at Massive Scales

Extracting information and insights from massive datasets; "big data"; "data mining"

Showing 9 results for Data + Fundamentals RSS
Novel methods, tools, and approaches to better understand social systems and dynamics in a national security context
In early September, DARPA hosted Wait, What? A Future Technology Forum in St. Louis. There, 1400 people gathered for a national discussion and showcase of new ideas and advances in the technoscape, among them optical techniques for seeing around corners and neural interfaces that allow people with paralysis to control a prosthetic limb by thought alone. At the forum, DARPA’s Defense Sciences Office (DSO) ran a pair of breakout sessions titled Science, Disrupted: Beyond the Limits of Intuition, Computation and Measurement, with the hope of learning from attendees what they imagine could throttle up science into an even more powerful engine of discovery and technology than it is now.
As the complexity and volume of global digital data grows, so too does the need for more capable and compact means of processing and storing data. To address this challenge, DARPA has announced its Molecular Informatics program, which seeks a new paradigm for data storage, retrieval, and processing. Instead of relying on the binary digital logic of computers based on the Von Neumann architecture, Molecular Informatics aims to investigate and exploit the wide range of structural characteristics and properties of molecules to encode and manipulate data.
Chemical innovation plays a key role in developing cutting-edge technologies for the military. Research chemists design and synthesize new molecules that could enable a slew of next-generation military products, such as novel propellants for spacecraft engines; new pharmaceuticals and medicines for troops in the field; lighter and longer-lasting batteries and fuel cells; advanced adhesives, coatings and paints; and less expensive explosives that are safer to handle. The problem, however, is that existing molecule design and production methods rely primarily on experts’ intuition in a laborious, trial-and-error research process.
A rapidly increasing percentage of the world’s population is connected to the global information environment. At the same time, the information environment is enabling social interactions that are radically changing how and at what rate information spreads. Both nation-states and nonstate actors have increasingly drawn upon this global information environment to promote their beliefs and further related goals.