The Westwood Children

The Westwood Children

Access: Use of this item is restricted to the UNT Community.
Date: 1807~
Creator: Johnson, Joshua
Description: Portrait of three boys wearing green suits, standing together. The boy on the far left is holding a branch of berries or flowers, the boy in the middle is holding a rose, and the tallest boy, on the right, is holding a basket of flowers. A small black dog is on the right, holding a bird in its mouth.
Contributing Partner: UNT College of Visual Arts + Design
Mr. Baylor

Mr. Baylor

Access: Use of this item is restricted to the UNT Community.
Date: 1805~
Creator: Johnson, Joshua
Description: None
Contributing Partner: UNT College of Visual Arts + Design
Investigating the effectiveness of many-core network processors for high performance cyber protection systems. Part I, FY2011.

Investigating the effectiveness of many-core network processors for high performance cyber protection systems. Part I, FY2011.

Date: September 1, 2011
Creator: Wheeler, Kyle Bruce; Naegle, John Hunt; Wright, Brian J.; Benner, Robert E., Jr.; Shelburg, Jeffrey Scott; Pearson, David Benjamin et al.
Description: This report documents our first year efforts to address the use of many-core processors for high performance cyber protection. As the demands grow for higher bandwidth (beyond 1 Gbits/sec) on network connections, the need to provide faster and more efficient solution to cyber security grows. Fortunately, in recent years, the development of many-core network processors have seen increased interest. Prior working experiences with many-core processors have led us to investigate its effectiveness for cyber protection tools, with particular emphasis on high performance firewalls. Although advanced algorithms for smarter cyber protection of high-speed network traffic are being developed, these advanced analysis techniques require significantly more computational capabilities than static techniques. Moreover, many locations where cyber protections are deployed have limited power, space and cooling resources. This makes the use of traditionally large computing systems impractical for the front-end systems that process large network streams; hence, the drive for this study which could potentially yield a highly reconfigurable and rapidly scalable solution.
Contributing Partner: UNT Libraries Government Documents Department