Title :
Adaptive Equalizer Training for High-Speed Low-Power Communication Systems
Author :
Yuan Fang ; Ling Chen ; Jaiswal, Ayush ; Hofmann, Klaus ; Gregorius, Peter
Author_Institution :
Integrated Electron. Syst. Lab., Tech. Univ. Darmstadt, Darmstadt, Germany
Abstract :
In high-speed communication systems, adaptive equalizers are widely applied to improve signal integrity in both master chip and slave chip. In this paper, a novel architecture with the equalizers applied only in the master chip is proposed for the low-power design through adaptive equalizer training. The system architecture is verified by implementing the receiver equalizer training at the circuit level and the transmitter equalizer training using different algorithms: 1) direct calculation 2) LMS algorithm 3) pilot signal/peak detection in Matlab/Simulink. Results show that LMS algorithm improves the vertical and horizontal eye opening by more than 30% and 10%, respectively. Furthermore, the proposed architecture can achieve 411mW per channel, which is a two-fold reduction in the power dissipation with respect to the conventional architecture. To adapt the concept, Graphic DDR5 is taken as a study case.
Keywords :
adaptive equalisers; radio receivers; radio transmitters; Graphic DDR5; LMS algorithm; Matlab-Simulink; adaptive equalizer training; circuit level; high-speed low-power communication systems; horizontal eye opening; low-power design; master chip; pilot signal-peak; power dissipation; receiver equalizer training; signal integrity; signal-peak detection; slave chip; transmitter equalizer; two-fold reduction; vertical eye opening; Adaptive equalizers; Adaptive systems; Computer architecture; Decision feedback equalizers; Integrated circuits; Least squares approximations; Training; GDDR5; adaptive equalizer training; memory systems; signal integrity;
Conference_Titel :
Digital System Design (DSD), 2013 Euromicro Conference on
Conference_Location :
Los Alamitos, CA
DOI :
10.1109/DSD.2013.85
