Gonzalo M. Fernandez scite author profile

Abstract-This paper presents a novel cost-effective multicastcapable optical cross connect (MC-OXC) node architecture that features both tap-and-continue and tap-and-binary-split functionality. This architecture provides an interesting balance between simplicity, power efficiency and overall wavelength consumption with respect to models based on TaC (Tap and Continue) or SaD (Split-and-Delivery). The main component of this node is a novel Tap-and-2-Split Switch (Ta2S). In this paper, we propose and analyse an implementation of this switch based on integrated optics (namely, MMI taps and MZI switches), and we characterize and compare it with other alternatives implemented with the same technology. The study shows that, thanks to the presented Ta2S design, the 2-Split Tap Continue (2STC) node scales better in terms of number of components than the other alternatives. Moreover, it is more power efficient than the SaD design and requires less wavelengths than TaC thanks to the binary split capability. On the other hand, simulation results reveal that the 2-split condition does not add a significant additional wavelength consumption in usual network topologies with respect to SaD.Index Terms-All-optical multicast routing, light-trees, multicast node architectures, splitters, wavelength routed multicast.

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Depth-wise multi-protocol stateless switching of multicast traffic

Fernandez

Larrabeiti

2012

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On forwarding state control in VPN multicast based on MPLS multipoint LSPs

Fernandez

Larrabeiti

Fuente

2012

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Power-Cost-Effective Node Architecture for Light-Tree Routing in WDM Networks

Fernandez

Larrabeiti

Vázquez

et al. 2008

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Abstract-We present a novel cost-effective multicast capable optical cross connect (MC-OXC) node architecture which improves efficiency of optical power by constraining splitting to only two output ports, in order to reduce power losses derived from splitting into more than two output ports. This node would manage the following actions when necessary: (a) tap and binarysplitting, which consists of tapping a small percentage of the signal power to the local node (4-8%) and an n-splitting action (n=2); and (b) tap-and-continue. We call this type of node 2-STC node (binary-split-tap-continue). We compare it with other well known state-of-art proposals and analyze its benefits in terms of number of devices and power losses. An evaluation of applicability is given, showing that the binary-split restriction shows a good trade-off between power losses, bandwidth consumption and architectural simplicity. We conclude that the 2-STC node improves power efficiency and contributes to get a good trade-off between use of resources and optical power.

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