Title :
A simple data link (SDL) protocol for next generation packet network
Author :
Doshi, Bharat ; Dravida, Subra ; Hernandez-Valencia, Enrique ; Matragi, Wassim ; Qureshi, M. Akber ; Langner, Paul ; Anderson, Jon ; Manchester, James
Author_Institution :
Lucent Technol. Bell Labs., Holmdel, NJ, USA
Abstract :
The simple data link (SDL) is a new framing protocol for variable/fixed length packets over a general-purpose point-to-point communications channel. SDL extends the HEC-like framing mechanism used in ATM to variable-length data. Its low implementation complexity makes it particularly suitable for high-speed transport links in wavelength channels and dark fiber applications. SDL is a very attractive alternative to conventional solutions such as ATM and PPP-over-SONET (POS) for high data rate environments. SDL has also been designed to facilitate many OAM&P functions needed in next generation multiservice optical packet networks including multiprotocol encapsulation, virtual links, quality-of-service (QoS) differentiation, link management, and control. We describe framing and data link synchronization procedures in SDL, and evaluate its performance over octet and bit synchronous transport facilities.
Keywords :
SONET; asynchronous transfer mode; maintenance engineering; optical fibre networks; packet switching; protocols; quality of service; synchronisation; telecommunication links; telecommunication network management; ATM; HEC-like framing mechanism; OAM&P functions; PPP-over-SONET; QoS differentiation; SDL protocol; WDM; bit synchronous transport facilities; dark fiber applications; data link synchronization; framing protocol; high data rate environments; high-speed transport links; link management; low implementation complexity; multiprotocol encapsulation; multiservice optical packet networks; next generation packet network; octet synchronous transport facilities; performance evaluation; point-to-point communications channel; quality-of-service differentiation; simple data link protocol; variable-length data; variable/fixed length packets; virtual links; wavelength channels; Communication channels; Encapsulation; High speed optical techniques; Next generation networking; Optical design; Optical fiber communication; Optical fiber networks; Protocols; Quality management; Quality of service;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
