The Big Data Interagency Working Group (BD IWG) works to facilitate and further the goals of the White House Big Data R&D Initiative.
The CPS IWG is to coordinate programs, budgets, and policy recommendations for Cyber Physical Systems (CPS) research and development (R&D).
Cyber Security and Information Assurance (CSIA) Interagency Working Group coordinates the activities of the CSIA Program Component Area.
The Health Information Technology Research and Development Interagency Working Group coordinates programs, budgets and policy recommendations for Health IT R&D.
HCI&IM focuses on information interaction, integration, and management research to develop and measure the performance of new technologies.
HCSS R&D supports development of scientific foundations and enabling software and hardware technologies for the engineering, verification and validation, assurance, and certification of complex, networked, distributed computing systems and cyber-physical systems (CPS).
The HEC IWG coordinates the activities of the High End Computing (HEC) Infrastructure and Applications (I&A) and HEC Research and Development (R&D) Program Component Areas (PCAs).
LSN members coordinate Federal agency networking R&D in leading-edge networking technologies, services, and enhanced performance.
The purpose of the SPSQ IWG is to coordinate the R&D efforts across agencies that transform the frontiers of software science and engineering and to identify R&D areas in need of development that span the science and the technology of software creation and sustainment.
Formed to ensure and maximize successful coordination and collaboration across the Federal government in the important and growing area of video and image analytics
The Wireless Spectrum R&D (WSRD) Interagency Working Group (IWG) has been formed to coordinate spectrum-related research and development activities across the Federal government.
The goals of our research are to understand the physical phenomena encompassed by quantum chromodynamics (QCD) and to make precise calculations of the theory’s predictions. This requires large scale numerical simulations within the framework of lattice gauge theory. Such simulations are necessary to solve the fundamental problems in high energy and nuclear physics that are at the heart of the Department of Energy’s large experimental efforts in these ﬁelds. Computational facilities capable of sustaining many tens of teraﬂops are needed to achieve our near term scientiﬁc goals. Most members of the United States lattice gauge theory community have been working together for several years to develop uniﬁed plans for creating such facilities. The hardware we propose will consist of a mix of the QCDOC, a specially designed computer that combines computation and communication capabilities on a single chip; and commodity clusters, optimized for the study of QCD. We are targeting a price/performance of $1M per sustained teraﬂops. The software infrastructure needed to achieve very high efﬁciency on these platforms is under development with support from the Department of Energy’s SciDAC program...
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