Title :
Application Specific Processors for Multimedia Applications
Author :
Rashid, Muhammad ; Apvrille, Ludovic ; Pacalet, Renaud
Author_Institution :
Syst.-on-Chip Lab., GET/ENST, Sophia-Antipolis
Abstract :
A well-known challenge during processor design is to obtain best possible results for a typical target application domain by combining flexibility and computational performance. ASIPs (Application Specific Instruction Set Processors) provide a tradeoff between generality of processor (flexibility) and its physical characteristics (computational performance and silicon area). This paper evaluates an ASIP design methodology based on the extension of an existing instruction set and architecture described with LISA 2.0 language. The objective is to accelerate the ASIPs design process by using partially predefined, configurable RISC-like embedded processor cores that can be quickly tuned to given applications by means of ISE (Instruction Set Extension) techniques. A case study demonstrates the methodological approach for the JPEG algorithm and motion estimation encoding algorithm of H.264 encoding standard.
Keywords :
instruction sets; microcomputers; multimedia systems; reduced instruction set computing; H.264 encoding standard; JPEG algorithm; LISA 2.0 language; RISC-like embedded processor core; application specific instruction set processor; application specific processor; instruction set extension; motion estimation encoding algorithm; multimedia application; reduced instruction set computing; Acceleration; Application specific processors; Computer aided instruction; Computer architecture; Design methodology; Encoding; Motion estimation; Physics computing; Process design; Silicon;
Conference_Titel :
Computational Science and Engineering, 2008. CSE '08. 11th IEEE International Conference on
Conference_Location :
Sao Paulo
Print_ISBN :
978-0-7695-3193-9
DOI :
10.1109/CSE.2008.26
