This document describes the design and functionality of the hardware components implemented in the Field-programmable Port eXtender (FPX) to support the Washington University Network Services Platform (NSP). This includes support for the Multi-Service Router (MSR) and Extreme Networking projects. The functionality of each component is described along with supporting top-level entity diagrams, block dia-grams, and interface timing diagrams. For more information on the NSP and related projects, see [1][2]. For more information on the FPX, see [3][4][5][6][7]
The FPX provides simple and fast mechanisms to process cells or packets. By performing all computati...
As the focus of networking research shifts from raw performance to the delivery of advanced network ...
Purpose The NSI main objective is to provide a unified communication method enabling independent sin...
This document describes the design and functionality of the hardware components implemented in the F...
A prototype platform has been developed that allows pro-cessing of packets at the edge of a multi-gi...
An instructional platform has been developed that allows rapid prototype of network packet processin...
The Field-programmable Port eXtender (FPX) provides dynamic, fast, and flexible mechanisms to proces...
The ongoing increases of line speed in the Internet backbone combined with the need for increased fu...
Reconfigurable hardware platforms are the key to extensible high speed networks. They provide flexib...
This manual summarizes how to insert the Field Programmable Port Extender (FPX) into the Washington ...
A library of layered protocol wrappers has been developed that process Internet packets in reconfigu...
The Field-programmable Port eXtender (FPX) provides dynamic, fast, and flexible mechanisms to proces...
A library of layered protocol wrappers has been developed that process Internet packets in reconfigu...
While hardware plugins are well suited for processing data with high throughput, software plugins ar...
The NetFPGA platform enables students and researchers to build high-performance networking systems i...
The FPX provides simple and fast mechanisms to process cells or packets. By performing all computati...
As the focus of networking research shifts from raw performance to the delivery of advanced network ...
Purpose The NSI main objective is to provide a unified communication method enabling independent sin...
This document describes the design and functionality of the hardware components implemented in the F...
A prototype platform has been developed that allows pro-cessing of packets at the edge of a multi-gi...
An instructional platform has been developed that allows rapid prototype of network packet processin...
The Field-programmable Port eXtender (FPX) provides dynamic, fast, and flexible mechanisms to proces...
The ongoing increases of line speed in the Internet backbone combined with the need for increased fu...
Reconfigurable hardware platforms are the key to extensible high speed networks. They provide flexib...
This manual summarizes how to insert the Field Programmable Port Extender (FPX) into the Washington ...
A library of layered protocol wrappers has been developed that process Internet packets in reconfigu...
The Field-programmable Port eXtender (FPX) provides dynamic, fast, and flexible mechanisms to proces...
A library of layered protocol wrappers has been developed that process Internet packets in reconfigu...
While hardware plugins are well suited for processing data with high throughput, software plugins ar...
The NetFPGA platform enables students and researchers to build high-performance networking systems i...
The FPX provides simple and fast mechanisms to process cells or packets. By performing all computati...
As the focus of networking research shifts from raw performance to the delivery of advanced network ...
Purpose The NSI main objective is to provide a unified communication method enabling independent sin...