%% You should probably cite draft-dhody-pce-cso-enabled-path-computation-07 instead of this revision.
@techreport{dhody-pce-cso-enabled-path-computation-03,
    number =    {draft-dhody-pce-cso-enabled-path-computation-03},
    type =      {Internet-Draft},
    institution =   {Internet Engineering Task Force},
    publisher = {Internet Engineering Task Force},
    note =      {Work in Progress},
    url =       {https://datatracker.ietf.org/doc/draft-dhody-pce-cso-enabled-path-computation/03/},
    author =    {Dhruv Dhody and Young Lee and Nicola Ciulli and Luis M. Contreras and Oscar Gonzalez de Dios},
    title =     {{Cross Stratum Optimization enabled Path Computation}},
    pagetotal = 20,
    year =      2013,
    month =     feb,
    day =       25,
    abstract =  {Applications like cloud computing, video gaming, HD Video streaming, Live Concerts, Remote Medical Surgery, etc are offered by Data Centers. These data centers are geographically distributed and connected via a network. Many decisions are made in the Application space without any concern of the underlying network. Cross stratum application/network optimization focus on the challenges and opportunities presented by data center based applications and carriers networks together {[}CSO-DATACNTR{]}. Constraint-based path computation is a fundamental building block for traffic engineering systems such as Multiprotocol Label Switching (MPLS) and Generalized Multiprotocol Label Switching (GMPLS) networks. {[}RFC4655{]} explains the architecture for a Path Computation Element (PCE)-based model to address this problem space. This document explains the architecture for CSO enabled Path Computation.},
}