Towards Petabit/s All-Optical Flat Data Center Networks Based on WDM Optical Cross-Connect Switches with Flow Control

Miao, Wang; Yan, Fulong; Calabretta, Nicola

doi:10.1109/jlt.2016.2593040

Cited by 42 publications

(10 citation statements)

References 30 publications

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“…Beside various optical arithmetic and logic operations [1,2], a frequent signal manipulation task is the cross-connect switch. It is indispensable in the realization of optical buffers [3], wavelength division multiplexed interconnects [4] and data center networks [5]. Dualcore optical fibers represent one of the simplest architectures to ensure the all-optical cross-connect switching.…”

Section: Introductionmentioning

confidence: 99%

High Contrast All-Optical Dual Wavelength Switching of Femtosecond Pulses in Soft Glass Dual-Core Optical Fiber

Longobucco

Astrauskas

Pugžlys

et al. 2021

J. Lightwave Technol.

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All-optical switching of 77 fs pulses centered at 1560 nm, driven by 270 fs, 1030 nm pulses in a dual-core optical fiber exhibiting high index contrast is presented. The fiber is made of a thermally matched pair of lead silicate and borosilicate glasses used as core and cladding material, respectively. The novel switching approach is based on nonlinear balancing of dual-core asymmetry, by control pulse intensity induced group velocity reduction of the fast fiber channel. Due to the fiber core made of soft glass with high nonlinearity high switching contrast exceeding 20 dB is attained under application of control pulses of only few nanojoule energy. The optimization of the fiber length brought the best results at 14 mm, which is in good correspondence with the calculated coupling length at the signal wavelength. The results express significant progress in comparison to similar studies based on self-switching of solitonic pulses in dual-core fibers and represent high application potential.

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Section: Introductionmentioning

confidence: 99%

High Contrast All-Optical Dual Wavelength Switching of Femtosecond Pulses in Soft Glass Dual-Core Optical Fiber

Longobucco

Astrauskas

Pugžlys

et al. 2021

J. Lightwave Technol.

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“…If the OToR receives a positive ACK (no contention and packet successful forwarded), the stored packet will be released from the buffer. In response to a negative acknowledgement (NACK) which means the packet has been dropped due to the contention, the stored packet will be retransmitted and go through the same procedures again [30,31]. The SOA with nanoseconds switching speed works as fast optical gate and also as amplifier to compensate for the broadcasting architecture caused splitting losses and the WSS loss.…”

Section: Reconfigurable Optical Dcn Based On Pic-wssmentioning

confidence: 99%

SDN enabled flexible optical data center network with dynamic bandwidth allocation based on photonic integrated wavelength selective switch

Xue¹,

Nakamura²,

Prifti³

et al. 2020

Opt. Express

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“…Both the feed-forward buffering and TSI modules rely on the use of optical switching stages and variable optical delay lines where the level of delay-line variability defines the buffering time and time-slot re-arrangement boundaries, respectively. Considering that optical architectures proposed for DCs promote the employment of limited size buffering at the switches for minimal latency [24], it is apparent that such schemes have an opportunity for turning into practical elements of real applications, towards avoiding latency-and energy-intensive electronic SerDes circuitry.…”

Section: Introductionmentioning

confidence: 99%

Silicon Photonics towards Disaggregation of Resources in Data Centers

et al. 2018

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Abstract:In this paper, we demonstrate two subsystems based on Silicon Photonics, towards meeting the network requirements imposed by disaggregation of resources in Data Centers. The first one utilizes a 4 × 4 Silicon photonics switching matrix, employing Mach Zehnder Interferometers (MZIs) with Electro-Optical phase shifters, directly controlled by a high speed Field Programmable Gate Array (FPGA) board for the successful implementation of a Bloom-Filter (BF)-label forwarding scheme. The FPGA is responsible for extracting the BF-label from the incoming optical packets, carrying out the BF-based forwarding function, determining the appropriate switching state and generating the corresponding control signals towards conveying incoming packets to the desired output port of the matrix. The BF-label based packet forwarding scheme allows rapid reconfiguration of the optical switch, while at the same time reduces the memory requirements of the node's lookup table. Successful operation for 10 Gb/s data packets is reported for a 1 × 4 routing layout. The second subsystem utilizes three integrated spiral waveguides, with record-high 2.6 ns/mm 2 , delay versus footprint efficiency, along with two Semiconductor Optical Amplifier Mach-Zehnder Interferometer (SOA-MZI) wavelength converters, to construct a variable optical buffer and a Time Slot Interchange module. Error-free on-chip variable delay buffering from 6.5 ns up to 17.2 ns and successful timeslot interchanging for 10 Gb/s optical packets are presented.

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Towards Petabit/s All-Optical Flat Data Center Networks Based on WDM Optical Cross-Connect Switches with Flow Control

Cited by 42 publications

References 30 publications

High Contrast All-Optical Dual Wavelength Switching of Femtosecond Pulses in Soft Glass Dual-Core Optical Fiber

High Contrast All-Optical Dual Wavelength Switching of Femtosecond Pulses in Soft Glass Dual-Core Optical Fiber

SDN enabled flexible optical data center network with dynamic bandwidth allocation based on photonic integrated wavelength selective switch

Silicon Photonics towards Disaggregation of Resources in Data Centers

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