Institution
Ciena
Company•Hanover, Maryland, United States•
About: Ciena is a company organization based out in Hanover, Maryland, United States. It is known for research contribution in the topics: Signal & Node (networking). The organization has 1259 authors who have published 1557 publications receiving 25989 citations.
Topics: Signal, Node (networking), Optical performance monitoring, Optical fiber, Optical cross-connect
Papers published on a yearly basis
Papers
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TL;DR: In this article, the authors propose a method of forwarding traffic through a network node including an ingress IO card, an egress IO card and a pair of parallel switch fabric cards.
Abstract: A method of forwarding traffic through a network node including an ingress IO card, an egress IO card, and a pair of parallel switch fabric cards. One of the switch fabric cards is designated as a working switch fabric card, and the other one of the switch fabric cards is designated as a protection switch fabric card. In the ingress IO card, the traffic flow is divided into a committed information rate (CIR) component and an extra information rate (EIR) signal. Under a normal operating condition of the node, the ingress IO card forwards the CIR traffic component through the working switch fabric card, and forwards the EIR traffic component through the protection switch fabric card. Upon detection of a failure impacting the working switch fabric card, the ingress IO card drops the EIR traffic component and forwards the CIR traffic component through the protection switch fabric card.
18 citations
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10 Dec 2007TL;DR: The serializer/deserializer (SERDES) as discussed by the authors is a four-channel implementation to meet the requirement of both client-and network-side interfaces for high-speed data rates.
Abstract: The present invention provides a serializer/deserializer (SERDES) circuit that can cover both client- and network-side interfaces for high-speed data rates. The present invention leverages commonality between the client and network (also known as line) side, and accommodates differences in a flexible manner. In one exemplary embodiment, the present invention provides a four-channel implementation to meet the requirement of both interfaces. The SERDES circuit can be capable of supporting both 40 Gb/s and 56 Gb/s data rates, can include an integrated DQPSK pre-coder and I/Q input/output signals, and can support RZ clock recovery. Additionally, the SERDES circuit can include differential coding support, electronic pre-emphasis, receiver-side electronic dispersion compensation, and the like.
18 citations
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20 Sep 2006TL;DR: In this paper, a metric value indicative of the quality of a multi-bit sample stream is derived for each one of a pair of orthogonal received polarizations of the optical signal and a gain of an analog front end of the coherent optical receiver is adjusted based on the derived metric values.
Abstract: In a coherent optical receiver, a method of at least partially compensating Polarization Dependent Loss (PDL) of an optical signal received through an optical communications system. A respective multi-bit sample stream of each one of a pair of orthogonal received polarizations of the optical signal is tapped, and used to derive a respective metric value indicative of a quality of each multi-bit sample stream. A gain of an analog front end of the coherent optical receiver is adjusted based on the derived metric values.
18 citations
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07 Apr 2006TL;DR: In this article, a method and system for changing the extent of data plane resources controlled by a control plane for a network connection which spans a contiguous set of nodes controlled by existing network control resources is disclosed.
Abstract: A method and system for changing the extent of data plane resources controlled by a control plane for a network connection which spans a contiguous set of nodes controlled by existing network control resources is disclosed. This is done in a non-disruptive manner. This typically involves two steps: i) Creating a new set of control plane resources for said network connection such that said data plane resources are shared with said existing network control resources; and ii) then terminating the existing network control resources such that said data plane resources are fully transferred to the new set of control plane resources without disrupting said network connection. The existing network control resources can be either a control plane resource or a non control plane resource. An example of a non control plane resource is network management software (e.g., an OSS (Operation Support System)), which forms part of the Management Plane. It should be noted that this does not need to be done for a complete end-to-end connection, but rather can be executed for the portion of the end-to-end connection which is to be controlled by the control plane.
18 citations
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28 Oct 2015TL;DR: In this article, the authors optimize the physical arrangement of cards to maximize cooling effectiveness and line card pitch while minimizing backplane trace lengths between line interface and switch fabric cards, and provide full NEBS compliance through an arrangement supporting full air intake/outtake through a front and/or back of the shelf or system.
Abstract: A system, a shelf, and a high density platform optimize the physical arrangement of cards to maximize cooling effectiveness and line card pitch while minimizing backplane trace lengths between line interface and switch fabric cards. The shelf and system and associated card arrangement supports scaling to a larger, double-size system that maintains the required length of backplane traces for card communications without compromising card cooling. Advantageously, the shelf and system maintains full NEBS compliance through an arrangement supporting full air intake/outtake through a front and/or back of the shelf or system, i.e. no side ventilation, and includes a false front to ensure all cards (switch fabric and line interface cards) are substantially flush with one another.
18 citations
Authors
Showing all 1261 results
Name | H-index | Papers | Citations |
---|---|---|---|
Hsiang-Tsung Kung | 65 | 359 | 25458 |
Amir K. Khandani | 48 | 394 | 9590 |
Kim B. Roberts | 41 | 203 | 5605 |
Weidong Zhou | 40 | 314 | 5885 |
Seb J. Savory | 38 | 240 | 7292 |
Zuyuan He | 38 | 498 | 5643 |
Chandra Sekhar Bontu | 37 | 144 | 4147 |
Leo Strawczynski | 33 | 75 | 3795 |
Maurice O'Sullivan | 28 | 126 | 2615 |
John C. Cartledge | 27 | 245 | 2686 |
Qunbi Zhuge | 24 | 180 | 2006 |
Yun Wang | 23 | 77 | 1803 |
David Côté | 22 | 40 | 2254 |
Petar Djukic | 22 | 60 | 1734 |
Andrzej Borowiec | 21 | 53 | 1717 |