Title :
ProDFA: Accelerating Domain Applications with a Coarse-Grained Runtime Reconfigurable Architecture
Author :
Ming Yan ; Ziyu Yang ; Lei Liu ; Sikun Li
Author_Institution :
Northwest Inst. of Nucl. Technol., Xian, China
Abstract :
With the on-chip resources largely increased, modern architectures are much different from traditional ones. The relation between temporal computing and spatial computing is getting more and more intricate. In this paper, we first analyzed and compared the abstract computing models of modern architectures. Then, a runtime reconfigurable architecture called programmable dataflow computing architecture (ProDFA) is proposed. The architecture of ProDFA is sumarized, then the process of how applications are mapped and execute are simply introduced. As a case study, a specific reconfigurable structure for symmetric ciphers is implemented. Performance of several typical symmetric ciphers are evaluated. The experimental results show high performance and efficiency of ProDFA.
Keywords :
cryptography; data flow computing; reconfigurable architectures; spatiotemporal phenomena; ProDFA; accelerating domain application; coarse grained runtime reconfigurable architecture; on-chip resource; programmable dataflow computing architecture; spatial computing; symmetric cipher; temporal computing; Arrays; Ciphers; Context; Synchronization; System-on-a-chip; coarse grain architecture; computing paradigm; reconfigurable computing; run-time reconfigurable architecture; spatial computing; temporal computing;
Conference_Titel :
Parallel and Distributed Systems (ICPADS), 2012 IEEE 18th International Conference on
Conference_Location :
Singapore
Print_ISBN :
978-1-4673-4565-1
Electronic_ISBN :
1521-9097
DOI :
10.1109/ICPADS.2012.136
