In this paper, a buffer-less shared-per-wavelength optical switch is equipped with multi-fiber interfaces and operated in asynchronous context. An analytical model to evaluate loss performance is proposed using an approximate Markov-chain based approach and the model is validated by simulations. The model is demonstrated to be quite accurate in spite of the difficulty in capturing correlation effects especially for small switch sizes. The model is also applied to calculate the number of optical components needed to design the optical switch according to packet loss requirements. The impact of the adoption of multiple fiber interfaces is outlined in terms of the remarkable saving in the number of wavelength converters employed, while increas...
Next-generation optical routers will be designed to support the flexibility required by Future Inter...
This paper compares selected Optical Packet Switching architectures that use the wavelength conversi...
It is cost-effective to install multiple fibers in each link of an all-optical network, because the ...
In this paper, a buffer-less shared-per-wavelength optical switch is equipped with multi-fiber...
This paper proposes new analytical models to study optical packet switching architectures with multi...
Cataloged from PDF version of article.This paper proposes new analytical models to study optical pac...
This paper discusses a multi-fiber all-optical switch which shares wavelength converters for content...
This paper compares four different architectures for sharing wavelength converters in asynchronous o...
none4This paper discusses a multi-fiber all-optical switch which shares wavelength converters for c...
A Multi-fiber all-optical switch which employs wavelength converters with fixed input wavelength is ...
A multi-fibre switch is a switch with multiple fibre per interface. This property is here exploited ...
A new wavelength converter sharing strategy for multi-fiber optical switches, namely shared-per-wave...
A new wavelength converter sharing strategy for multifiber optical switches, namely shared-per-wavel...
Application of synchronous optical switches in Optical Packet/Burst switched networks is considered....
The objective of this study is to investigate the performances of packet-switching architectures wor...
Next-generation optical routers will be designed to support the flexibility required by Future Inter...
This paper compares selected Optical Packet Switching architectures that use the wavelength conversi...
It is cost-effective to install multiple fibers in each link of an all-optical network, because the ...
In this paper, a buffer-less shared-per-wavelength optical switch is equipped with multi-fiber...
This paper proposes new analytical models to study optical packet switching architectures with multi...
Cataloged from PDF version of article.This paper proposes new analytical models to study optical pac...
This paper discusses a multi-fiber all-optical switch which shares wavelength converters for content...
This paper compares four different architectures for sharing wavelength converters in asynchronous o...
none4This paper discusses a multi-fiber all-optical switch which shares wavelength converters for c...
A Multi-fiber all-optical switch which employs wavelength converters with fixed input wavelength is ...
A multi-fibre switch is a switch with multiple fibre per interface. This property is here exploited ...
A new wavelength converter sharing strategy for multi-fiber optical switches, namely shared-per-wave...
A new wavelength converter sharing strategy for multifiber optical switches, namely shared-per-wavel...
Application of synchronous optical switches in Optical Packet/Burst switched networks is considered....
The objective of this study is to investigate the performances of packet-switching architectures wor...
Next-generation optical routers will be designed to support the flexibility required by Future Inter...
This paper compares selected Optical Packet Switching architectures that use the wavelength conversi...
It is cost-effective to install multiple fibers in each link of an all-optical network, because the ...