Internet Engineering Task Force A. Charny
Internet-Draft Cisco Systems
Intended status: Informational F. Huang
Expires: December 24, 2010 Huawei Technologies
G. Karagiannis
U. Twente
M. Menth
University of Wuerzburg
T. Taylor, Ed.
Huawei Technologies
June 22, 2010
PCN Boundary Node Behaviour for the Controlled Load (CL) Mode of
Operation
draft-ietf-pcn-cl-edge-behaviour-04
Abstract
Precongestion notification (PCN) is a means for protecting quality of
service for inelastic traffic admitted to a Diffserv domain. The
overall PCN architecture is described in RFC 5559. This memo is one
of a series describing possible boundary node behaviours for a PCN
domain. The behaviour described here is that for a form of
measurement-based load control using three PCN marking states, not
PCN-marked, threshold-marked, and excess-traffic-marked. This
behaviour is known informally as the Controlled Load (CL) PCN edge
behaviour.
Status of this Memo
This Internet-Draft is submitted in full conformance with the
provisions of BCP 78 and BCP 79.
Internet-Drafts are working documents of the Internet Engineering
Task Force (IETF). Note that other groups may also distribute
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Drafts is at http://datatracker.ietf.org/drafts/current/.
Internet-Drafts are draft documents valid for a maximum of six months
and may be updated, replaced, or obsoleted by other documents at any
time. It is inappropriate to use Internet-Drafts as reference
material or to cite them other than as "work in progress."
This Internet-Draft will expire on December 24, 2010.
Copyright Notice
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Copyright (c) 2010 IETF Trust and the persons identified as the
document authors. All rights reserved.
This document is subject to BCP 78 and the IETF Trust's Legal
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Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 4
1.1. Terminology . . . . . . . . . . . . . . . . . . . . . . . 4
2. Assumed Core Network Behaviour for CL . . . . . . . . . . . . 5
3. Node Behaviours . . . . . . . . . . . . . . . . . . . . . . . 6
3.1. Overview . . . . . . . . . . . . . . . . . . . . . . . . . 6
3.2. Behaviour of the PCN-Egress-Node . . . . . . . . . . . . . 7
3.2.1. Data Collection . . . . . . . . . . . . . . . . . . . 7
3.2.2. Reporting the PCN Data . . . . . . . . . . . . . . . . 7
3.2.3. Optional Report Suppression . . . . . . . . . . . . . 7
3.2.4. Optional Calculation and Reporting of Congestion
Level Estimate . . . . . . . . . . . . . . . . . . . . 8
3.3. Behaviour of the Ingress Node . . . . . . . . . . . . . . 8
3.4. Behaviour at the Decision Point . . . . . . . . . . . . . 9
3.4.1. Flow Admission . . . . . . . . . . . . . . . . . . . . 9
3.4.2. Flow Termination . . . . . . . . . . . . . . . . . . . 9
3.4.3. Decision Point Action For Missing Egress Node
Reports . . . . . . . . . . . . . . . . . . . . . . . 10
3.5. Summary of Timers . . . . . . . . . . . . . . . . . . . . 11
4. Identifying Ingress and Egress Nodes for PCN Traffic . . . . . 12
5. Specification of Diffserv Per-Domain Behaviour . . . . . . . . 12
5.1. Applicability . . . . . . . . . . . . . . . . . . . . . . 12
5.2. Technical Specification . . . . . . . . . . . . . . . . . 12
5.3. Attributes . . . . . . . . . . . . . . . . . . . . . . . . 13
5.4. Parameters . . . . . . . . . . . . . . . . . . . . . . . . 13
5.5. Assumptions . . . . . . . . . . . . . . . . . . . . . . . 14
5.6. Example Uses . . . . . . . . . . . . . . . . . . . . . . . 14
5.7. Environmental Concerns . . . . . . . . . . . . . . . . . . 14
5.8. Security Considerations . . . . . . . . . . . . . . . . . 14
6. Security Considerations . . . . . . . . . . . . . . . . . . . 14
7. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 14
8. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . . 15
9. References . . . . . . . . . . . . . . . . . . . . . . . . . . 15
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9.1. Normative References . . . . . . . . . . . . . . . . . . . 15
9.2. Informative References . . . . . . . . . . . . . . . . . . 15
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 16
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1. Introduction
The objective of Pre-Congestion Notification (PCN) is to protect the
quality of service (QoS) of inelastic flows within a Diffserv domain,
in a simple, scalable, and robust fashion. Two mechanisms are used:
admission control, to decide whether to admit or block a new flow
request, and (in abnormal circumstances) flow termination to decide
whether to terminate some of the existing flows. To achieve this,
the overall rate of PCN-traffic is metered on every link in the
domain, and PCN-packets are appropriately marked when certain
configured rates are exceeded. These configured rates are below the
rate of the link thus providing notification to boundary nodes about
overloads before any congestion occurs (hence the "pre" part of pre-
congestion notification). The level of marking allows decisions to
be made on whether to admit or terminate individual flows. For more
details see [RFC5559].
Boundary node behaviours specify a detailed set of algorithms and
edge node behaviours used to implement the PCN mechanisms. Since the
algorithms depend on specific metering and marking behaviour at the
interior nodes, it is also necessary to specify the assumptions made
about interior node behaviour. Finally, because PCN uses DSCP values
to carry its markings, a specification of boundary node behaviour
must include the per domain behaviour (PDB) template specified in
[RFC3086], filled out with the appropriate content. The present
document accomplishes these tasks for the controlled load (CL) mode
of operation.
1.1. Terminology
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in RFC2119 [RFC2119].
In addition to the terms defined in [RFC5559], this document uses the
following terms:
decision point
The node that makes the decision about which flows to admit and to
terminate. In a given network deployment, this may be the ingress
node or a centralized control node. Regardless of the location of
the decision point, the ingress node is the point where the
decisions are enforced.
NM-rate
rate of not-marked PCN traffic in octets per second. For further
details see Section 3.2.1.
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ThM-rate
rate of threshold-marked PCN traffic in octets per second. For
further details see Section 3.2.1.
ETM-rate
rate of excess-traffic-marked PCN traffic in octets per second.
For further details see Section 3.2.1.
Congestion level estimate (CLE)
A value derived from the measurement of PCN packets received at a
PCN-egress-node for a given ingress-egress-aggregate, representing
the ratio of marked to total PCN traffic (measured in octets) over
a short period. For further details see Section 3.2.4.
PCN-admission-state
The state ("admit" or "block") derived by the decision point for a
given ingress-egress-aggregate based on PCN packet marking
statistics. The decision point decides to admit or block new
flows offered to the aggregate based on the current value of the
PCN-admission-state. For further details see Section 3.4.1.
Admission decision threshold
A fractional value to which the decision point compares the CLE to
determine the PCN-admission-state for a given ingress-egress
aggregate. If the CLE is below the admission decision threshold
the PCN-admission-state is set to "admit". If the CLE is above
the admission decision threshold the PCN-admission-state is set to
"block". For further details see Section 3.4.1.
2. Assumed Core Network Behaviour for CL
This section describes the assumed behaviour for nodes of the PCN-
domain when acting in their role as PCN-interior-nodes. The CL mode
of operation assumes that:
o encoding of PCN status within individual packets is based on
[RFC5696], extended to provide a third PCN encoding state.
Possible extensions for this purpose are documented in
[ID.PCN3state] or alternatively [ID.PCN3in1];
o the domain satisfies the conditions specified in the applicable
encoding extension document;
o on each link the reference rate for the threshold meter is
configured to be equal to the PCN-admissible-rate for the link;
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o on each link the reference rate for the excess traffic meter is
configured to be equal to the PCN-supportable-rate for the link;
o PCN-interior-nodes perform threshold-marking and excess-traffic-
marking of packets according to the rules specified in [RFC5670],
and any additional rules specified in the applicable encoding
extension document;
According to [RFC5696], the encoding extension documents should
specify the allowable transitions between marking states. However,
to be absolutely clear, these allowable transitions are specified
here. At any interior node, the only permitted transitions are
these:
o a PCN packet which is not-marked (NM) MAY be threshold-marked
(ThM) or excess-traffic-marked (ETM);
o a PCN packet which is threshold-marked (ThM) MAY be excess-
traffic-marked (ETM).
An interior node MUST NOT re-mark a packet from PCN to non-PCN, or
vice versa.
3. Node Behaviours
3.1. Overview
This section describes the behaviour of the PCN ingress and egress
nodes and the decision point (which may be collocated with the
ingress node). The PCN egress node collects and reports the rates of
not-marked, threshold-marked, and excess-traffic-marked PCN traffic
to the decision point. It may also identify individual flows that
have experienced excess-traffic-marking. For a detailed description,
see Section 3.2.
The PCN ingress node reports the rate of PCN traffic admitted to a
given ingress-egress aggregate when requested by the decision point.
It also enforces flow admission and termination decisions. For
details, see Section 3.3.
Finally, the decision point makes flow admission decisions and
selects flows to terminate based on the information provided by the
ingress and egress nodes for a given ingress-egress-aggregate. For
details, see Section 3.4.
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3.2. Behaviour of the PCN-Egress-Node
3.2.1. Data Collection
The PCN-egress-node MUST meter received PCN traffic in order to
derive periodically the following rates for each ingress-egress-
aggregate passing through it:
o NM-rate: octets per second of PCN traffic in packets which are not
PCN-marked;
o ThM-rate: octets per second of PCN traffic in PCN-threshold-
marked packets;
o ETM-rate: octets per second of PCN traffic in PCN-excess-marked
packets.
It is RECOMMENDED that the interval Tcalc between calculation of
these quantities be in the range of 100 to 500 ms to provide a
reasonable tradeoff between signalling demands on the network and the
time taken to react to impending congestion.
The PCN-traffic SHOULD be metered continuously and the intervals
themselves SHOULD be of equal length, to minimize the statistical
variance introduced by the measurement process itself.
In networks with multipath routing, the PCN-egress-node SHOULD record
flow identifiers of the individual flows for which excess-traffic-
marked packets have been observed. These can be used by the decision
point when it selects flows for termination.
3.2.2. Reporting the PCN Data
If the report suppression option described in the next sub-section is
not enabled, the PCN-egress-node MUST report the latest values of NM-
rate, ThM-rate, and ETM-rate to the decision point each time that it
calculates them.
If so configured and if excess-traffic-marked packets were observed
during the measurement interval, the PCN-egress-node MUST also report
the set of flow identifiers of flows experiencing excess-traffic-
marking.
3.2.3. Optional Report Suppression
Report suppression MUST be provided as a configurable option. If
this option is enabled, the PCN-egress-node MUST NOT send a report to
the decision node for a given ingress-egress-aggregate whenever all
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of the following conditions are satisfied:
o ThM-rate and ETM-rate were zero in the latest interval.
o ThM-rate and ETM-rate were zero in the next most recent interval.
o Less than time Tmaxnorep has elapsed since the last time the PCN-
egress-node sent a report to the decision point for the given
aggregate, where Tmaxnorep is a configurable value.
Egress reports may be lost and they are also a demonstration of
liveness to the decision point. These are the reasons for requiring
at least one report per period Tmaxnorep. Depending on the transport
used for reporting, the operator may choose to set Tmaxnorep to an
effectively infinite value. For example, the transport may include
its own keep-alive signalling at a sufficiently frequent interval
that liveness is not a concern for PCN.
3.2.4. Optional Calculation and Reporting of Congestion Level Estimate
Congestion level estimate (CLE) calculation and reporting MUST be
provided as a configurable option. If this option is enabled, then
before sending any report, the PCN-egress-node MUST also calculate a
congestion level estimate (CLE) for the measurement interval, for
each ingress-egress-aggregate. The CLE is equal to the ratio:
(ThM-Rate + ETM-Rate) / (NM-rate + ThM-rate + ETM-rate)
if any PCN traffic was observed, or zero otherwise. The PCN-egress-
node MUST report the calculated CLE along with the values of NM-rate,
ThM-rate, and ETM-rate for the interval.
3.3. Behaviour of the Ingress Node
The PCN-ingress-node MUST provide the estimated current rate of
admitted PCN traffic (octets per second) for a specific ingress-
egress-aggregate when the decision point requests it. The way this
rate estimate is derived is a matter of implementation.
For example, the rate that the PCN-ingress-node supplies MAY be
based on a quick sample taken at the time the information is
required. It is RECOMMENDED that such a sample be based on
observation of at least 30 PCN packets to achieve reasonable
statistical reliability.
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3.4. Behaviour at the Decision Point
Operators may choose to deploy just flow admission, or just flow
termination. The decision point MUST implement both mechanisms, but
configurable options MUST be provided to activate or deactivate PCN-
based flow admission and flow termination independently of each other
at a given decision point.
3.4.1. Flow Admission
When the decision point receives a report from the egress node for a
given ingress-egress-aggregate that contains non-zero rates, it
calculates the CLE as described in Section 3.2.4 if the CLE is not
already present in the report. The decision point MUST compare the
reported or calculated CLE to an admission decision threshold
CLElimit. If the CLE is less than the threshold, the PCN-admission-
state for that aggregate MUST be set to "admit"; otherwise it MUST be
set to "block".
The outcome of the comparison is not very sensitive to the value
of CLElimit in practice, because when marking occurs it tends to
persist long enough that marked traffic becomes a large proportion
of the received traffic in a given interval.
If the PCN-admission-state for a given ingress-egress-aggregate is
"admit", the decision point SHOULD allow new flows to be admitted to
that aggregate. If the PCN-admission-state for a given ingress-
egress-aggregate is "block", the decision point SHOULD NOT allow new
flows to be admitted to that aggregate. These actions MAY be
modified by policy in specific cases.
3.4.2. Flow Termination
When the report from the egress node includes a non-zero value of the
ETM-Rate for the given ingress-egress-aggregate, the decision point
MUST request the PCN-ingress-node to provide an estimate of the rate
(Admit-Rate) at which PCN-traffic is being admitted to the aggregate.
If the decision point is collocated with the ingress node, the
request and response are internal operations.
The decision point MUST then wait, both for the requested rate from
the ingress node and for the next report from the egress node. If
this next egress node report also includes a non-zero value for the
ETM-Rate, the decision point MUST determine an amount of flow to
terminate in the following steps:
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1. The sustainable aggregate rate (SAR) for the given ingress-
egress-aggregate is estimated by the sum:
SAR = NM-Rate + ThM-Rate
for the latest reported interval.
2. The amount of traffic that should be terminated is the
difference:
Admit-Rate - SAR,
where Admit-Rate is the value provided by the ingress node.
If the difference calculated in the second step is positive, the
decision point SHOULD select flows to terminate using its knowledge
of the bandwidth required by individual flows gained, e.g., from
resource signalling, until it determines that the PCN traffic
admission rate will no longer be greater than the estimated
sustainable aggregate rate.
Flow termination MAY be spread out over multiple rounds to avoid
over-termination. If this is done, it is RECOMMENDED that enough
time elapse between successive rounds of termination to allow the
effects of previous rounds to be reflected in the measurements
upon which the termination decisions are based (see
[I-D.satoh-pcn-performance-termination] and sections 4.2 and 4.3
of [Menth08-sub-9]).
If the egress node has supplied a list of flow identifiers
(Section 3.2), the decision point SHOULD first look to terminate
flows from that list. In general, the selection of flows for
termination MAY be guided by policy.
3.4.3. Decision Point Action For Missing Egress Node Reports
If the decision point fails to receive reports from a given egress
node for a configurable interval Tfail, it SHOULD cease to admit
flows to that aggregate and raise an alarm to management. This
provides some protection against the case where congestion is
preventing the transfer of reports from the egress node to the
decision point. If a report is subsequently received from the egress
node concerned, the decision point MUST restart failure timing and
resume making admission and termination decisions based on the
reports it receives.
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3.5. Summary of Timers
Table 1 summarizes the timers implied by the preceding procedures.
Tcol and Trep are reset upon expiry. Tmon is reset by management
action or by receipt of a report from the egress node concerned.
+-------+----------+--------------+-----------+---------------------+
| Timer | Location | Incidence | Limit | Action on Expiry |
+-------+----------+--------------+-----------+---------------------+
| Tcol | Egress | One per node | Tcalc | Calculate and |
| | node | | | possibly report |
| | | | | NM-rate, ThM-rate, |
| | | | | ETM-rate and |
| | | | | optionally CLE for |
| | | | | each IEA. |
| - | - | - | - | - |
| Trep | Egress | One per IEA | Tmaxnorep | Send a report for |
| | node | if report | | that IEA at the |
| | | suppression | | next expiry of |
| | | is enabled. | | Tcol. |
| - | - | - | - | - |
| Tmon | Decision | One per | Tfail | Assume failure and |
| | point | egress node | | cease to admit |
| | | | | flows passing |
| | | | | through that egress |
| | | | | node. |
+-------+----------+--------------+-----------+---------------------+
IEA = ingress-egress-aggregate
Table 1: Timers Used For the CL Edge Behaviour
The value of Tcalc SHOULD be configurable, and is RECOMMENDED to be
of the order of 100 to 500 ms.
Trep is active only when report suppression is enabled. The value of
Tmaxnorep SHOULD be configurable. The appropriate value depends on
the transport used to carry the egress node reports. For unreliable
transport, Tmaxnorep is RECOMMENDED to be of the order of one second.
The value of Tfail MUST be configurable. When unreliable transport
is used, the value of Tfail is RECOMMENDED to be of the order of 3 *
Tmaxnorep if report suppression is enabled, and of the order of 3 *
Tcalc if report suppression is not enabled. When reliable transport
is used, the operator may choose to provide similar values for Tfail
or may choose to disable report timing by setting an effectively
infinite value for Tfail.
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4. Identifying Ingress and Egress Nodes for PCN Traffic
The operation of PCN depends on the ability of the ingress node to
identify the ingress-egress-aggregate to which each new flow belongs
and the ability of the egress node to identify the aggregate to which
each received PCN packet belongs. If the decision point is
collocated with the ingress node, the egress node also needs to
associate each aggregate with the address of the ingress node to
which it must send its reports.
The means by which this is done depends on the packet routing
technology in use in the network. In general, classification of
individual packets at the ingress node (for enforcement and metering
of admission rates) and at the egress node must use the content of
the outer packet header. The process may well require configuration
of routing information in the ingress and egress nodes.
5. Specification of Diffserv Per-Domain Behaviour
This section provides the specification required by [RFC3086] for a
per-domain behaviour.
5.1. Applicability
This section draws heavily upon points made in the PCN architecture
document, [RFC5559].
The PCN CL boundary node behaviour specified in this document is
applicable to inelastic traffic (particularly video and voice) where
quality of service for admitted flows is protected primarily by
admission control at the ingress to the domain. In exceptional
circumstances (e.g. due to network failures) already-admitted flows
may be terminated to protect the quality of service of the remaining
flows. The CL boundary node behaviour is less likely to terminate
too many flows under such circumstances than the SM boundary node
behaviour ([I-D.SM-edge-behaviour]).
5.2. Technical Specification
The technical specification of the PCN CL per domain behaviour is
provided by the contents of [RFC5559], [RFC5696], [RFC5670], the
specification of the encoding extension (e.g. [ID.PCN3state],
[ID.PCN3in1]), and the present document.
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5.3. Attributes
The purpose of this per-domain behaviour is to achieve low loss and
jitter for the target class of traffic. Recovery from overloads
through the use of flow termination should happen within 1-3 seconds.
5.4. Parameters
In the list that follows, note that most PCN-ingress-nodes are also
egress nodes, and vice versa. Furthermore, the ingress nodes may be
collocated with decision points.
Parameters at the PCN-ingress-node:
o Filters for distinguishing PCN from non-PCN inbound traffic.
o The DSCP(s) to be used to mark PCN traffic.
o Reference rates on each inward link for the PCN-threshold-rate and
PCN-excess-rate; see Section 2.
o The information needed to distinguish PCN traffic belonging to a
given ingress-egress-aggregate.
Parameters at the PCN-egress-node:
o The calculation interval Tcalc.
o Whether report suppression is enabled and, if so, the value of
Tmaxnorep, the maximum interval between reports for a given
ingress-egress-aggregate.
o Whether calculation and reporting of congestion level estimates is
enabled at the PCN-egress-node.
o Whether individual flow identifiers must be reported for excess-
traffic-marked PCN traffic.
o The information needed to distinguish PCN traffic belonging to a
given ingress-egress-aggregate.
o The marking rules for re-marking PCN traffic leaving the PCN
domain.
Parameters at each interior node:
o Reference rates on each link for the PCN-threshold-rate and PCN-
excess-rate; see Section 2.
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Parameters at the decision point:
o Activation/deactivation of PCN-based flow admission.
o Activation/deactivation of PCN-based flow termination.
o The admission decision threshold CLElimit.
o The maximum interval Tfail between reports from a given egress
node, for detecting failure of communications with that node.
o The information needed to map between each ingress-egress-
aggregate and its edgepoints, particularly the corresponding
ingress node.
5.5. Assumptions
Assumed that a specific portion of link capacity has been reserved
for PCN traffic.
5.6. Example Uses
The PCN CL behaviour may be used to carry real-time traffic,
particularly voice and video.
5.7. Environmental Concerns
The PCN CL per-domain behaviour may interfere with the use of end-
to-end ECN due to reuse of ECN bits for PCN marking. See the
applicable PCN marking specifications for details.
5.8. Security Considerations
Please see the security considerations in Section 6 as well as those
in [RFC2474] and [RFC2475].
6. Security Considerations
[RFC5559] provides a general description of the security
considerations for PCN. This memo introduces no new considerations.
7. IANA Considerations
This memo includes no request to IANA.
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8. Acknowledgements
The content of this memo bears a family resemblance to
[ID.briscoe-CL]. The authors of that document were Bob Briscoe,
Philip Eardley, and Dave Songhurst of BT, Anna Charny and Francois Le
Faucheur of Cisco, Jozef Babiarz, Kwok Ho Chan, and Stephen Dudley of
Nortel, Giorgios Karagiannis of U. Twente and Ericsson, and Attila
Bader and Lars Westberg of Ericsson.
Ruediger Geib, Philip Eardley, and Bob Briscoe have helped to shape
the present document with their comments.
9. References
9.1. Normative References
[RFC2474] Nichols, K., Blake, S., Baker, F., and D. Black,
"Definition of the Differentiated Services Field (DS
Field) in the IPv4 and IPv6 Headers", RFC 2474,
December 1998.
[RFC2475] Blake, S., Black, D., Carlson, M., Davies, E., Wang, Z.,
and W. Weiss, "An Architecture for Differentiated
Services", RFC 2475, December 1998.
[RFC5559] Eardley, P., "Pre-Congestion Notification (PCN)
Architecture", RFC 5559, June 2009.
[RFC5670] Eardley, P., "Metering and Marking Behaviour of PCN-
Nodes", RFC 5670, November 2009.
[RFC5696] Moncaster, T., Briscoe, B., and M. Menth, "Baseline
Encoding and Transport of Pre-Congestion Information",
RFC 5696, November 2009.
9.2. Informative References
[I-D.SM-edge-behaviour]
Charny, A., Zhang, J., Karagiannis, G., Menth, M., and T.
Taylor, "PCN Boundary Node Behaviour for the Single
Marking (SM) Mode of Operation (Work in progress)",
June 2010.
[I-D.babiarz-pcn-explicit-marking]
Liu, X. and J. Babiarz, "Simulations Results for 3sM
(expired Internet Draft)", July 2007.
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Internet-Draft PCN CL Boundary Node Behaviour June 2010
[I-D.satoh-pcn-performance-termination]
Satoh, D., Ueno, H., and M. Menth, "Performance Evaluation
of Termination in CL-Algorithm (Work in progress)",
July 2009.
[I-D.zhang-pcn-performance-evaluation]
Zhang, X., "Performance Evaluation of CL-PHB Admission and
Termination Algorithms (expired Internet Draft)",
July 2007.
[ID.PCN3in1]
Briscoe, B., "PCN 3-State Encoding Extension in a single
DSCP (Work in progress)", February 2010.
[ID.PCN3state]
Moncaster, T., Briscoe, B., and M. Menth, "A PCN encoding
using 2 DSCPs to provide 3 or more states (Work in
progress)", February 2010.
[ID.briscoe-CL]
Briscoe, B., "An edge-to-edge Deployment Model for Pre-
Congestion Notification: Admission Control over a
DiffServ Region (expired Internet Draft)", 2006.
[Menth08-sub-9]
Menth, M. and F. Lehrieder, "PCN-Based Measured Rate
Termination", July 2009, <http://www3.informatik.uni-
wuerzburg.de/~menth/Publications/papers/
Menth08-Sub-9.pdf>.
[Menth08f]
Menth, M. and F. Lehrieder, "Performance Evaluation of
PCN-Based Admission Control", in Proceedings of the 16th
International Workshop on Quality of Service (IWQoS)",
June 2008, <http://www3.informatik.uni-wuerzburg.de/
~menth/Publications/papers/Menth08f.pdf>.
[RFC3086] Nichols, K. and B. Carpenter, "Definition of
Differentiated Services Per Domain Behaviors and Rules for
their Specification", RFC 3086, April 2001.
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Internet-Draft PCN CL Boundary Node Behaviour June 2010
Authors' Addresses
Anna Charny
Cisco Systems
300 Apollo Drive
Chelmsford, MA 01824
USA
Email: acharny@cisco.com
Fortune Huang
Huawei Technologies
Section F, Huawei Industrial Base,
Bantian Longgang, Shenzhen 518129
P.R. China
Phone: +86 15013838060
Email: fqhuang@huawei.com
Georgios Karagiannis
U. Twente
Phone:
Email: karagian@cs.utwente.nl
Michael Menth
University of Wuerzburg
Am Hubland
Wuerzburg D-97074
Germany
Phone: +49-931-888-6644
Email: menth@informatik.uni-wuerzburg.de
Tom Taylor (editor)
Huawei Technologies
1852 Lorraine Ave
Ottawa, Ontario K1H 6Z8
Canada
Phone: +1 613 680 2675
Email: tom111.taylor@bell.net
Charny, et al. Expires December 24, 2010 [Page 17]