{"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":["ASCII","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\r\nthat have a limited ability to support the growth in the number of\r\nLSPs deployed.\r\n\r\nThis document defines two techniques, Refresh-Interval Independent\r\nRSVP (RI-RSVP) and Per-Peer Flow Control, that reduce the number of\r\nprocessing cycles required to maintain RSVP-TE LSP state in Label\r\nSwitching Routers (LSRs) and hence allow implementations to support\r\nlarger 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}