Award Data

The objectives of this Phase II study are to develop a complete end-to-end capability for the operational hazard assessment modeling within limnological systems for all of CONUS and to develop preliminary techniques to determine limnological water quality parameters of OCONUS systems, allowing for the eventual hazard assessment modeling in denied or restricted regions. Achieving these objectives w ...

The objective of this study is to develop methods to adequately characterize the chemical and physical environments of lakes and reservoirs for the CONUS operational implementation within SHARC. Over the course of this project we will explore the novel and innovative integration of deep machine learning, data analytics, computational fluid mechanics and in-situ/overhead empirical data. Specificall ...

The goal of this workis to establish a radiation-aware capability in a commercial EDA design flow that will enable first-pass success in radiation resiliency for DoD ASIC designs in much the same way that existing EDA design suites ensure first pass functionality and performance success of complex ASICs destined for commercial applications.Such an integrated capability does not presently exist.The ...

Establish a radiation-aware analysis capability in a commercial EDA design flow that will enable first-pass success in radiation-hardened by design (RHBD) for DoD ASICs in much the same way that existing EDA design suites ensure first pass functionality and performance success of complex ASICs destined for commercial applications. Layout-aware, calibrated single-event radiation models that captur ...

The proposed Phase II project is to provide an advanced operational waterborne transport modeling capability of chemical agents within four-dimensional marine and fresh water environments. Based upon the findings of Phase I, we propose to further enhance the operational capabilities of ASA’s Waterborne Chemical Transport Model, relative to weaponized chemical agents, by developing comprehensive ...

The Defense Threat Reduction Agency has expressed the need for waterborne transport and dispersion capability to compliment its existing models for Chemical, Biological, Radiological and Nuclear (CBRN) releases. DTRA's current capability is limited to the atmospheric transport of CBRN agents using the HPAC system. The objective of this proposed Phase I study is to couple Applied Science Associat ...