Deterministic Networking (DetNet) Data Plane - Tagged Cyclic Queuing and Forwarding (TCQF) for bounded latency with low jitter in large scale DetNets
draft-eckert-detnet-tcqf-06
Document | Type |
Expired Internet-Draft
(individual)
Expired & archived
|
|
---|---|---|---|
Authors | Toerless Eckert , Yizhou Li , Stewart Bryant , Andrew G. Malis , Jeong-dong Ryoo , Peng Liu , Guangpeng Li , Shoushou Ren , Fan Yang | ||
Last updated | 2025-01-06 (Latest revision 2024-07-05) | ||
Replaces | draft-eckert-detnet-mpls-tc-tcqf, draft-yizhou-detnet-ipv6-options-for-cqf-variant | ||
RFC stream | (None) | ||
Intended RFC status | (None) | ||
Formats | |||
Stream | Stream state | (No stream defined) | |
Consensus boilerplate | Unknown | ||
RFC Editor Note | (None) | ||
IESG | IESG state | Expired | |
Telechat date | (None) | ||
Responsible AD | (None) | ||
Send notices to | (None) |
This Internet-Draft is no longer active. A copy of the expired Internet-Draft is available in these formats:
Abstract
This memo specifies a forwarding method for bounded latency and bounded jitter for Deterministic Networks and is a variant of the IEEE TSN Cyclic Queuing and Forwarding (CQF) method. Tagged CQF (TCQF) supports more than 2 cycles and indicates the cycle number via an existing or new packet header field called the tag to replace the cycle mapping in CQF which is based purely on synchronized reception clock. This memo standardizes TCQF as a mechanism independent of the tagging method used. It also specifies tagging via the (1) the existing MPLS packet Traffic Class (TC) field for MPLS packets, (2) the IP/IPv6 DSCP field for IP/IPv6 packets, and (3) a new TCQF Option header for IPv6 packets. Target benefits of TCQF include low end-to-end jitter, ease of high- speed hardware implementation, optional ability to support large number of flow in large networks via DiffServ style aggregation by applying TCQF to the DetNet aggregate instead of each DetNet flow individually, and support of wide-area DetNet networks with arbitrary link latencies and latency variations as well as low accuracy clock synchronization.
Authors
Toerless Eckert
Yizhou Li
Stewart Bryant
Andrew G. Malis
Jeong-dong Ryoo
Peng Liu
Guangpeng Li
Shoushou Ren
Fan Yang
(Note: The e-mail addresses provided for the authors of this Internet-Draft may no longer be valid.)