DocumentCode
1765818
Title
OFDM Allocation Optimization for Crosstalk Mitigation in Multiple Free-Space Optical Interconnection Links
Author
Bykhovsky, Dima ; Arnon, Shlomi
Author_Institution
Electrooptical Eng. Unit, Ben-Gurion Univ. of the Negev, Beer-Sheva, Israel
Volume
33
Issue
13
fYear
2015
fDate
July1, 1 2015
Firstpage
2777
Lastpage
2783
Abstract
The growing demand for high interconnection speed in next-generation computers is driving the technology shift for communication from the electronic to the optic domain. One of the favored interconnection technologies for this task is the freespace optical interconnect (FSOI). FSOI technology uses laser links between computer components and provides a lower bound on propagation delay due to the low index of refraction of air, when compared with the indexes common in waveguide technologies. FSOIs based on dc-biased optical orthogonal frequency-division multiplexing (DCO-OFDM) may provide excellent data throughput in intensity modulation/direct detection systems. However, the main drawback limiting the implementation of FSOIs is the inevitable tradeoff between interconnection density and the crosstalk level, resulting from the diffraction effect and from optical misalignment. The purpose of this paper is to promote improved interconnection density of such FSOIs by use of inherent DCO-OFDM resource allocation capabilities. The crosstalk-resulted interference was formulated as joint multilink bit-and-power allocation optimization. The theoretical analysis reveals general guidelines for dense FSOI. Further, a reduced-complexity numerical suboptimal algorithm for joint multilink bit-and-power allocation was proposed. The simulation results show that the proposed suboptimal algorithm outcome is close to the theoretical optimal performance.
Keywords
OFDM modulation; computational complexity; light interference; light propagation; light refraction; numerical analysis; optical crosstalk; optical links; optimisation; resource allocation; DCO-OFDM resource allocation capabilities; FSOI; FSOI technology; OFDM allocation optimization; computer components; crosstalk level; crosstalk mitigation; crosstalk-resulted interference; data throughput; dc-biased optical orthogonal frequency-division multiplexing; direct detection system; high interconnection speed; intensity modulation system; interconnection density; joint multilink bit-and-power allocation optimization; low air refraction index; multiple free-space optical interconnection links; next-generation computers; optical misalignment; propagation delay; reduced-complexity numerical suboptimal algorithm; technology shift; Crosstalk; Optical transmitters; Optimization; Receivers; Resource management; Transceivers; Crosstalk; DCO-OFDM; DMT; FSOI; OFDM; crosstalk; discrete multitone modulation; free-space optical interconnect; interference avoidance; multi-access communication; parallel optical interconnect;
fLanguage
English
Journal_Title
Lightwave Technology, Journal of
Publisher
ieee
ISSN
0733-8724
Type
jour
DOI
10.1109/JLT.2015.2413056
Filename
7061443
Link To Document