Title :
AnySP: Anytime Anywhere Anyway Signal Processing
Author :
Woh, Mark ; Seo, Sangwon ; Mahlke, Scott ; Mudge, Trevor ; Chakrabarti, Chaitali ; Flautner, Krisztián
Author_Institution :
Univ. of Michigan, Ann Arbor, MI, USA
Abstract :
Looking forward, the computation requirements of mobile devices will increase by one to two orders of magnitude, but their power requirements will remain stringent to ensure reasonable battery lifetimes. Scaling existing approaches won´t suffice; instead, the hardware´s inherent computational efficiency, programmability, and adaptability must change. AnySP, a fully programmable architecture that targets multiple application domains, addresses these challenges for next-generation mobile signal processing.
Keywords :
mobile computing; mobile radio; signal processing; AnySP; battery lifetimes; mobile devices; next-generation mobile signal processing; power requirements; Computational efficiency; Computer architecture; Decoding; High definition video; Mobile computing; Parallel processing; Signal processing; Signal processing algorithms; Video signal processing; Wireless communication; 4G; AnySP; DSP; H.264; SIMD; embedded processor; multicore; software-defined radio;
Journal_Title :
Micro, IEEE
