Title :
Computation-skip error resilient scheme for recursive CORDIC
Author :
Yanxiang Huang ; Meng Li ; Chunshu Li ; Debacker, Peter ; Van der Perre, Liesbet
Author_Institution :
Interuniv. Microelectron. Centre (IMEC), Heverlee, Belgium
Abstract :
Aggressive voltage and frequency scaling are widely utilized to exploit the design margin introduced by the process, voltage and environment variations. However, scaling beyond the critical voltage or frequency results to numerous timing errors, and hence unacceptable output quality. In this paper, a computation-skip (CS) scheme is proposed for recursive digital signal processors with a fixed cycles per instruction (CPI) to correct timing errors. A CORDIC processor with the proposed CS scheme still functions when scaling beyond the sub-critical voltage or frequency. It improves EVM by 47.9 dB at its most critical frequency or supply voltage, and extends the voltage scaling limit by 90 mV w.r.t the conventional CORDIC. Besides, it is more than 1.7X energy efficient w.r.t. the conventional high-speed CORDIC, which is designed for a more aggressive scaling.
Keywords :
digital arithmetic; digital signal processing chips; CORDIC processor; EVM; aggressive voltage scaling; computation-skip error resilient scheme; cycles per instruction; design margin; frequency scaling; recursive CORDIC; recursive digital signal processors; timing errors; Approximation methods; Clocks; Energy consumption; Hardware; Latches; Monitoring; Timing;
Conference_Titel :
Signal Processing Systems (SiPS), 2014 IEEE Workshop on
Conference_Location :
Belfast
DOI :
10.1109/SiPS.2014.6986061
