Title :
Designing a Deployable Internet: The Locator/Identifier Separation Protocol
Author :
Saucez, Damien ; Iannone, Luigi ; Bonaventure, Olivier ; Farinacci, Dino
Abstract :
The Internet was designed to interconnect a few hundreds networks, but now has more than a billion hosts. The scalability issues associated with this growth have driven both academia and industry to review the current architecture in the light of the Locator/Identifier Split paradigm. However, changing the routing and addressing architecture of the Internet in an incrementally deployable manner imposes several constraints. The authors use the IETF´s Locator/Identifier Separation Protocol (LISP) as a reference to describe different design choices necessary to achieve deployability, which is the ultimate goal of any future Internet architecture.
Keywords :
Internet; routing protocols; IETF; Internet architecture; LISP; addressing architecture; deployability; deployable Internet; identifier split paradigm; locator split paradigm; locator/identifier separation protocol; routing architecture; scalability issues; IP networks; Internet; Protocols; Routing; Scalability; Servers; Virtual private networks; IP networks; Internet; Protocols; Routing; Scalability; Servers; Virtual private networks; architectures. LISP; communication; emerging technologies; information technology; locator/identifier separation protocol; networking; protocol architecture; routers; standards;
Journal_Title :
Internet Computing, IEEE
DOI :
10.1109/MIC.2012.98
