{
  "draft": "draft-ietf-teas-rsvp-te-scaling-rec-09",
  "doc_id": "RFC8370",
  "title": "Techniques to Improve the Scalability of RSVP-TE Deployments",
  "authors": [
    "V. Beeram, Ed.",
    "I. Minei",
    "R. Shakir",
    "D. Pacella",
    "T. Saad"
  ],
  "format": [
    "TEXT",
    "HTML"
  ],
  "page_count": "11",
  "pub_status": "PROPOSED STANDARD",
  "status": "PROPOSED STANDARD",
  "source": "Traffic Engineering Architecture and Signaling",
  "abstract": "Networks that utilize RSVP-TE LSPs are encountering implementations that have a limited ability to support the growth in the number of LSPs deployed.\n\n This document defines two techniques, Refresh-Interval Independent RSVP (RI-RSVP) and Per-Peer Flow Control, that reduce the number of processing cycles required to maintain RSVP-TE LSP state in Label Switching Routers (LSRs) and hence allow implementations to support larger scale deployments.",
  "pub_date": "May 2018",
  "keywords": [
    "RSVP-TE Scaling",
    "RI-RSVP",
    "Per-Peer Flow Control"
  ],
  "obsoletes": [],
  "obsoleted_by": [],
  "updates": [],
  "updated_by": [],
  "see_also": [],
  "doi": "10.17487/RFC8370",
  "errata_url": null
}