Bandwidth Constraints Models for Differentiated Services -aware MPLS Traffic Engineering: Performance Evaluation
RFC 4128, “Bandwidth Constraints Models for Differentiated Services -aware MPLS Traffic Engineering: Performance Evaluation”, is an Informational document published in June 2005 by W. Lai. The canonical text is published by the RFC Editor.
Abstract
"Differentiated Services (Diffserv)-aware MPLS Traffic Engineering Requirements", RFC 3564, specifies the requirements and selection criteria for Bandwidth Constraints Models. Two such models, the Maximum Allocation and the Russian Dolls, are described therein. This document complements RFC 3564 by presenting the results of a performance evaluation of these two models under various operational conditions: normal load, overload, preemption fully or partially enabled, pure blocking, or complete sharing. This memo provides information for the Internet community.
What “Informational” means
Published for the general information of the community. It does not define an IETF standard and carries no standards-track status.
The canonical text of RFC 4128 is hosted at rfc-editor.org. Available in TXT,PDF,HTML.
- RFC 4127 Russian Dolls Bandwidth Constraints Model for Diffserv-aware MPLS Traffic Engineering
- RFC 4129 Digital Private Network Signaling System /Digital Access Signaling System 2 Extensions to the IUA Protocol
- RFC 4126 Max Allocation with Reservation Bandwidth Constraints Model for Diffserv-aware MPLS Traffic Engineering & Performance Comparisons
- RFC 4130 MIME-Based Secure Peer-to-Peer Business Data Interchange Using HTTP, Applicability Statement 2
- RFC 4125 Maximum Allocation Bandwidth Constraints Model for Diffserv-aware MPLS Traffic Engineering
- RFC 4131 Management Information Base for Data Over Cable Service Interface Specification Cable Modems and Cable Modem Termination Systems for Baseline Privacy Plus
- RFC 4124 Protocol Extensions for Support of Diffserv-aware MPLS Traffic Engineering
- RFC 4132 Addition of Camellia Cipher Suites to Transport Layer Security