Cisco Cisco TelePresence MCU 4510 Maintenance Manual
Configuring QoS settings
Quality of Service (QoS) settings are defined on the
Network > QoS
page to set priorities for outbound traffic
from the MCU. They are specified as 6-bit binary values (tags) in the Type of Service header field for IPv4 or
the Traffic Class header field for IPv6, and can be interpreted by networks as Type of Service (ToS) or
Differentiated Services (DiffServ).
the Traffic Class header field for IPv6, and can be interpreted by networks as Type of Service (ToS) or
Differentiated Services (DiffServ).
QoS tags are supported for every IP packet type transmitted by the MCU: media (audio and video),
streaming, signaling, and administration.
streaming, signaling, and administration.
CAUTION: We advise you not to alter QoS settings unless you have specific requirements to do so.
Note: In a cluster, a slave MCU only tags OA&M (Operations, Administration, and Maintenance) types of
traffic because the master MCU handles all other types of traffic on behalf of the cluster, and does the QoS
tagging for those types. You can change the slave's OA&M QoS value on the slave's
traffic because the master MCU handles all other types of traffic on behalf of the cluster, and does the QoS
tagging for those types. You can change the slave's OA&M QoS value on the slave's
Network > QoS
page.
QoS tags
Field (tag)
Defines priority for...
Audio
Audio data packets, including RTP and RTCP streams.
Video
Video data packets, including FECC, BFCP, RTP, and RTCP streams.
Streaming Multimedia streaming packets.
Signaling
H.225, H.245, and SIP signaling packets.
OA&M
Operations, Administration, and Maintenance packets, including HTTP, HTTPS, FTP, DNS, syslog,
OCSP, and NTP traffic.
OCSP, and NTP traffic.
Any traffic that is not covered by one of these categories is tagged as OA&M.
ToS configuration
ToS uses six out of a possible eight bits. The MCU allows you to set bits 0 to 5, and places zeros for bits 6
and 7.
and 7.
n
Bits 0-2 set IP precedence (the priority of the packet).
n
Bit 3 sets delay: 0 = normal delay, 1 = low delay.
n
Bit 4 sets throughput: 0 = normal throughput, 1 = high throughput.
n
Bit 5 sets reliability: 0 = normal reliability, 1 = high reliability.
n
Bits 6-7 are reserved for future use and cannot be set using the MCU interface.
ToS configuration represents a tradeoff between precedence, delay, throughput, and reliability. Ensure that
you maintain a balance when prioritizing packets, so that other packets on the network are not subject to
undue delay (so for example, do not set every value to 1).
you maintain a balance when prioritizing packets, so that other packets on the network are not subject to
undue delay (so for example, do not set every value to 1).
DiffServ configuration
DiffServ uses six out of a possible eight bits to set a codepoint. There are 64 possible codepoints. The MCU
allows you to set bits 0 to 5, and places zeros for bits 6 and 7. The codepoint is interpreted by DiffServ nodes
allows you to set bits 0 to 5, and places zeros for bits 6 and 7. The codepoint is interpreted by DiffServ nodes
Cisco TelePresence MCU Series 4.5 Online Printable Help
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Configuring network and system settings
Configuring QoS settings