Award Data

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DESCRIPTION (provided by applicant): This Phase II application seeks to develop TEACH (Training to Enable & Achieve Culturally Sensitive Healthcare), a low-cost desktop-computer-based product for training culturally sensitive healthcare delivery. TEACH will serve patients from the African-American (and later other ethnic) communities confronting malignancy, as well as the clinicians who treat thes ...

CHI Systems proposes an innovative system of analytical tools to assess the local economic conditions. The goal of our system would be to allow the Marine/Soldier to assess the current local economic status by identifying economic infrastructure, recognizing power brokers and their relationship to other entities in the Area of Operation, and tracking economic changes overtime to better understand ...

DESCRIPTION (provided by applicant): New empirical descriptors to replace ab initio calculations will be generated to enable development of improved Ultra High Throughput (UHT, >200,000 compounds/hour) in silico models for Absorption, Distribution, Metabolism, Excretion and Toxicity (ADMET) properties of molecules from their structures. Partial atomic charges, atomic and molecular reactivities, pK ...

DESCRIPTION (provided by applicant): New empirical descriptors to replace ab initio calculations will be deployed for incorporation into new and improved Ultra High Throughput (UHT, gt200,000 compounds/hour) in silico models for Absorption, Distribution, Metabolism, Excretion and Toxicity (ADMET) properties of molecules, with only their 2D structures as input. In Phase I, we developed partial atom ...

This Small Business Innovation Research Phase I project will outline a plan to commercialize the retargetable power-aware compilation technology that we have developed over the past several years. The central thesis of this proposal is that much speculative information about a program can be extracted at compile time that is currently not exploited. This information can then be exposed and used in ...

This SBIR Phase II project will develop energy-aware compiler techniques to reduce power and energy consumption in microprocessors, without affecting performance. Over the past few years, energy consumption by computers has emerged as a major area of intellectual and commercial activity. A key principle behind this approach is to use speculative information available at compile time to reduce powe ...

This SBIR Phase II research project will develop energy-aware compiler techniques to reduce power and energy consumption in microprocessors, without affecting performance. A key principle behind this approach is to use speculative information available at compile time to reduce power and energy consumption. The key qualifier is speculative: the information does not have to be provably correct. Spe ...

This SBIR Phase II research project will develop energy-aware compiler techniques to reduce power and energy consumption in microprocessors, without affecting performance. A key principle behind this approach is to use speculative information available at compile time to reduce power and energy consumption. The key qualifier is speculative: the information does not have to be provably correct. Spe ...