Versatile optical code based MPLS for circuit-, burst-, and packet switchings
- Title :
Versatile optical code based MPLS for circuit-, burst-, and packet switchings
- Author :
M.Murata and K. Kitayama
- Journal :
IEEE/OSA J. Lightwave Technol., November 2003.
- Abstract :
We will present versatile optical code (OC) based photonic MPLS, so-called OC-MPLS
which ranges from circuit- switching, burst switching to packet switching. OC-label is an
identifier attached to the data, of which information is mapped onto an optical code,
a sequence of optical pulses. The OC-label recognition is performed by the optical correlation
between an incoming OC-label and the OC-label entries. Unique to the OC-label processing
is that it is analog operation entirely in optical domain, and no optical logic operation is involved,
therefore, the processing speed is only limited by the propagation delay in the optical correlator,
which is a passive optical device. This is a key to the ultrahigh-speed processing capability.
Circuit-switching of OC-label switched path (OC-LSP) is characterized by the finer data
granularity than the wavelength path of MPlS, resulting in a better bandwidth efficiency. In an
one-way reservation protocol of photonic burst switching, the OC-labeled control packet
improves the throughout by nearly cutting the offset time between the control packet and the
following data burst. OC-labeled header of the packet can enables the ultrafast routing in photonic
packet switching. To exploit the ultrafast routing capability, a new packet switch architecture
is investigated, in which the longest-prefix match algorithm as well as WDM buffering into the
fiber delay lines are introduced.
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