We present circuit implementations of blind phase search (BPS) carrier phase recovery (CPR) for M-QAM coherent optical receivers and highlight some BPS algorithm modifications necessary to obtain efficient VLSI circuits. In addition, we show how three key design parameters (input word length, number of test phases, and type and size of averaging window) affect the resulting implementation. To study design tradeoffs, we develop BPS CPR circuit netlists for a 32-GBaud system, using a 22-nm CMOS process technology: Our implementations reach energy efficiencies of around 1 pJ/bit for 16QAM up to 3 pJ/bit for 256QAM, at an SNR penalty of approximately 0.25 dB at a BER of 10^(−2). Furthermore, we present a circuit implementation of pilot-symbol-a...
AbstractThis paper provides a study of adaptive phase recovery in quadrature amplitude modulation (Q...
The inherent discrete phase search nature of the conventional blind phase search (C-BPS) algorithm i...
2013-2014 > Academic research: refereed > Refereed conference paperVersion of RecordPublishe
We develop circuit implementations and explore design optimizations for one blind and one pilot-base...
Fiber-optic links form a vital part of our increasingly connected world, and as the number of Intern...
We benchmark blind carrier phase recovery DSP circuits in terms of SNR penalty, power dissipation, l...
International audienceA novel feedforward M-QAM carrier phase recovery is presented and validated wi...
Two novel low-complexity multi-stage digital feedforward carrier phase estimation (CPE) algorithms f...
A feed-forward pilot-symbols aided carrier phase recovery scheme is described. The approach relies ...
Nowadays, the coherent optical communication system plays an important role in communication field b...
2011-2012 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
Coherent optical detection has drawn a considerable interest in the past few years. This is mainly d...
Using coherent optical detection and digital signal processing, laser phase noise and equalization e...
A novel low-complexity two-stage digital feedforward carrier phase estimation algorithm based on the...
Using FPGA-accelerated simulations, we study the cycle-slip rate of 16QAM blind phase search impleme...
AbstractThis paper provides a study of adaptive phase recovery in quadrature amplitude modulation (Q...
The inherent discrete phase search nature of the conventional blind phase search (C-BPS) algorithm i...
2013-2014 > Academic research: refereed > Refereed conference paperVersion of RecordPublishe
We develop circuit implementations and explore design optimizations for one blind and one pilot-base...
Fiber-optic links form a vital part of our increasingly connected world, and as the number of Intern...
We benchmark blind carrier phase recovery DSP circuits in terms of SNR penalty, power dissipation, l...
International audienceA novel feedforward M-QAM carrier phase recovery is presented and validated wi...
Two novel low-complexity multi-stage digital feedforward carrier phase estimation (CPE) algorithms f...
A feed-forward pilot-symbols aided carrier phase recovery scheme is described. The approach relies ...
Nowadays, the coherent optical communication system plays an important role in communication field b...
2011-2012 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
Coherent optical detection has drawn a considerable interest in the past few years. This is mainly d...
Using coherent optical detection and digital signal processing, laser phase noise and equalization e...
A novel low-complexity two-stage digital feedforward carrier phase estimation algorithm based on the...
Using FPGA-accelerated simulations, we study the cycle-slip rate of 16QAM blind phase search impleme...
AbstractThis paper provides a study of adaptive phase recovery in quadrature amplitude modulation (Q...
The inherent discrete phase search nature of the conventional blind phase search (C-BPS) algorithm i...
2013-2014 > Academic research: refereed > Refereed conference paperVersion of RecordPublishe