The Rapid Prototyping of Application-Specific Signal Processors (RASSP) program is changing the way engineers design embedded signal processors. The objective of the program was to reduce time-to-market and cost by at least a factor of four, and improve design quality by at least a factor of four. These improvements were achieved by developing complementary methodology, model-year architecture and enterprise system infrastructure elements which, when combined, significantly reduce the cost and time required to field embedded signal processors. The model-year architecture defines how elements must be designed to achieve low-cost upgrades through the use of open interface standards. LM/ATL has defined and demonstrated a Standard Virtual Interface (SVI) and a Reconfigurable Network Interface (RNI) that when used properly can greatly reduce your product upgrade cycle time and cost
The ATL RASSP team developed the model-year architecture to promote design upgrades and reuse via standardized, open interfaces while leveraging state-of-the-art commercial technology developments. What drives the RASSP signal processor architecture are the requirements imposed on signal processors to meet changing mission-critical processing needs, and the military's requirements for long-term life cycle support.
1.0 Executive Summary
2.0 Introduction
3.0 Model Year Functional Architecture Technology Overview
4.0 Implementation of the Functional Architecture Standard Virtual Interface (SVI) and Reconfigurable Network Interface (RNI)