The FASTER vision for designing dynamically reconfigurable systems

Extending product functionality and lifetime requires constant addition of new features to satisfy the growing customer needs and the evolving market and technology trends. software component adaptivity is straightforward but not enough: recent products include hardware accelerators for reasons of performance and power efficiency that also need to adapt to new requirements. Reconfigurable logic allows the definition of new functions to be implemented in dynamically instantiated hardware units, combining adaptivity with hardware speed and efficiency. For the Intrusion Detection System example, new rules can be hardcoded into the reconfigurable logic, achieving high performance, while providing the necessary adaptivity to new threats. The FASTER (Facilitating Analysis and Synthesis Technologies for Effective Reconfiguration) project aims at introducing a complete methodology to allow designers to easily implement a system specification on a platform combining a general purpose processor with multiple accelerators running on an FPGA, taking as input a high-level description and fully exploiting, both at design- and run-time, the capabilities of partial dynamic reconfiguration. The FASTER project will facilitate the use of reconfigurable hardware by providing a complete methodology that enables designers to easily implement and verify applications on platforms with general-purpose processors and acceleration modules implemented in the latest reconfigurable technology

Smart technologies for effective reconfiguration: the FASTER approach

Current and future computing systems increasingly require that their functionality stays flexible after the system is operational, in order to cope with changing user requirements and improvements in system features, i.e. changing protocols and data-coding standards, evolving demands for support of different user applications, and newly emerging applications in communication, computing and consumer electronics. Therefore, extending the functionality and the lifetime of products requires the addition of new functionality to track and satisfy the customers needs and market and technology trends. Many contemporary products along with the software part incorporate hardware accelerators for reasons of performance and power efficiency. While adaptivity of software is straightforward, adaptation of the hardware to changing requirements constitutes a challenging problem requiring delicate solutions. The FASTER (Facilitating Analysis and Synthesis Technologies for Effective Reconfiguration) project aims at introducing a complete methodology to allow designers to easily implement a system specification on a platform which includes a general purpose processor combined with multiple accelerators running on an FPGA, taking as input a high-level description and fully exploiting, both at design time and at run time, the capabilities of partial dynamic reconfiguration. The goal is that for selected application domains, the FASTER toolchain will be able to reduce the design and verification time of complex reconfigurable systems providing additional novel verification features that are not available in existing tool flows