Field trial of a 1.5 Tb/s adaptive and gridless OXC supporting elastic 1000-fold all-optical bandwidth granularity

An adaptive gridless OXC is implemented using a 3D-MEMS optical backplane plus optical modules (sub-systems) that provide elastic spectrum and time switching functionality. The OXC adapts its architecture on demand to fulfill the switching requirements of incoming traffic. The system is implemented...

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Published in:Optics express 2011-12, Vol.19 (26), p.B235-B241
Main Authors: Amaya, N, Zervas, G S, Rofoee, B Rahimzadeh, Irfan, M, Qin, Y, Simeonidou, D
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cited_by cdi_FETCH-LOGICAL-c328t-15aa01a164580cea04b5f801b12bc971ce7236ce68e8c2d3fb5c4f81c12ed54e3
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creator Amaya, N
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description An adaptive gridless OXC is implemented using a 3D-MEMS optical backplane plus optical modules (sub-systems) that provide elastic spectrum and time switching functionality. The OXC adapts its architecture on demand to fulfill the switching requirements of incoming traffic. The system is implemented in a seven-node network linked by installed fiber and is shown to provide suitable architectures on demand for three scenarios with increasing traffic and switching complexity. In the most complex scenario, signals of mixed bit-rates and modulation formats are successfully switched with flexible per-channel allocation of spectrum, time and space, achieving over 1000-fold bandwidth granularity and 1.5 Tb/s throughput with good end-to-end performance.
doi_str_mv 10.1364/OE.19.00B235
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title Field trial of a 1.5 Tb/s adaptive and gridless OXC supporting elastic 1000-fold all-optical bandwidth granularity
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