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Smart Bandwidth Limit
Click this radio button to configure the default limitation for
bandwidth.
When session number exceeds –
type the value here as a
threshold to apply the smart bandwidth limit.
TX limit
- Define the default speed of the upstream for
each computer in LAN.
RX limit
- Define the default speed of the downstream for
each computer in LAN.
User-defined Bandwidth
Limit
Click this radio button to configure the user-defined
limitation for bandwidth.
Limitation List
- Display a list of specific limitations that
you set on this web page.
Start IP
- Bandwidth limit can be applied on certain IP
range. That’s, only the PCs within the range will be
influenced by the bandwidth limitation set here. Please
define the start IP address for the specific limitation.
End IP
- Define the end IP address for the specific
limitation.
TX Limit
- Define the limitation for the speed of the
upstream to be applied as specific limitation. If you do not
set the limit in this field, the system will use the default
speed for the specific limitation you set for each index.
RX Limit
- Define the limitation for the speed of the
downstream to be applied as specific limitation. If you do
not set the limit in this field, the system will use the default
speed for the specific limitation you set for each index.
Add
- Add the specific speed limitation onto the list above.
Edit
- Allows you to edit the settings for the selected
limitation.
Delete
- Remove the selected settings existing on the
limitation list.
When you finish adding a new bandwidth limit, simply click
OK
.
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3.4.3 Port Rate Control
A policer can limit the bandwidth of received frames. It is located in front of the ingress queue.
And a shaper can limit the bandwidth of transmitted frames. It is located after the ingress
queues. This page allows you to configure the switch port rate limit for Policers and Shapers.
Port
Represent LAN or WAN interface.
Policer Enabled
Check this box to enable policer function.
Policer Rate(Rx)
Type the number for policer function. The default value is 500.
It is restricted to 500-1000000 when the Policer Unit is set in
kbps, and it is restricted to 1-1000 when the Policer Unit is set
in Mbps.
Policer Unit
Determine the unit (kbps/Mbps) for policer.
Shaper Enabled
Check this box to enable shaper function.
Shaper Rate (Tx)
Type the number for shaper function. The default value is 500.
It is restricted to 500-1000000 when the Shaper Unit is set in
kbps, and it is restricted to 1-1000 when the Shaper Unit is set
in Mbps.
Shaper Unit
Determine the unit (kbps/Mbps) for shaper function.
3.4.4 QoS Control List
Deploying QoS (Quality of Service) management to guarantee that all applications receive the
service levels required and sufficient bandwidth to meet performance expectations is indeed
one important aspect of modern enterprise network.
One reason for QoS is that numerous TCP-based applications tend to continually increase their
transmission rate and consume all available bandwidth, which is called TCP slow start. If
other applications are not protected by QoS, it will detract much from their performance in the
overcrowded network. This is especially essential to those are low tolerant of loss, delay or
jitter (delay variation).
Another reason is due to congestions at network intersections where speeds of interconnected
circuits mismatch or traffic aggregates, packets will queue up and traffic can be throttled back
to a lower speed. If there’s no defined priority to specify which packets should be discarded
(or in another term “dropped”) from an overflowing queue, packets of sensitive applications
mentioned above might be the ones to drop off. How this will affect application performance?
There are two components within Primary configuration of QoS deployment:
z
Classification: Identifying low-latency or crucial applications and marking them for
high-priority service level enforcement throughout the network.
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z
Scheduling: Based on classification of service level to assign packets to queues and
associated service types
The basic QoS implementation in Vigor routers is to classify and schedule packets based on
the service type information in the IP header. For instance, to ensure the connection with the
headquarter, a teleworker may enforce an index of QoS Control to reserve bandwidth for
HTTPS connection while using lots of application at the same time.
One more larger-scale implementation of QoS network is to apply DSCP (Differentiated
Service Code Point) and IP Precedence disciplines at Layer 3. Compared with legacy IP
Precedence that uses Type of Service (ToS) field in the IP header to define 8 service classes,
DSCP is a successor creating 64 classes possible with backward IP Precedence compatibility.
In a QoS-enabled network, or Differentiated Service (DiffServ or DS) framework, a DS
domain owner should sign a Service License Agreement (SLA) with other DS domain owners
to define the service level provided toward traffic from different domains. Then each DS node
in these domains will perform the priority treatment. This is called per-hop-behavior (PHB).
The definition of PHB includes Expedited Forwarding (EF), Assured Forwarding (AF), and
Best Effort (BE). AF defines the four classes of delivery (or forwarding) classes and three
levels of drop precedence in each class.
Vigor routers as edge routers of DS domain shall check the marked DSCP value in the IP
header of bypassing traffic, thus to allocate certain amount of resource execute appropriate
policing, classification or scheduling. The core routers in the backbone will do the same
checking before executing treatments in order to ensure service-level consistency throughout
the whole QoS-enabled network.
However, each node may take different attitude toward packets with high priority marking
since it may bind with the business deal of SLA among different DS domain owners. It’s not
easy to achieve deterministic and consistent high-priority QoS traffic throughout the whole
network with merely Vigor router’s effort.
In the
Bandwidth Management
menu, click
QoS Control List
(QCL) to open the web page.
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QCE Type
Display the type of that QCE (QoS Control Entries).
Type Value
Display the value specified for the QCE.
Traffic Class
Display the class of the data transmission for the QCE.
QoS Control List allows users to set up to
five
groups of QCL. Each QCL group can contain
12 QCE settings.
Adding a New QCE
Click
to add a new QCE onto this page. Different QCE type will bring out different web
settings.
z
If you choose
Ethernet Type
as QCE Type, you have to type value for it and specify
traffic class from Low, Normal, Medium and High.
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Ethernet Type Value
Either
8~63
ASCII characters, such as 012345678(or 64
Hexadecimal digits leading by 0x, such as "0x321253abcde...").
z
If you choose
VLAN ID
as QCE Type, you have to type the ID number for it and specify
traffic class from Low, Normal, Medium and High.
z
If you choose
TCP/UDP Port
as QCE Type, you have to type the port number for it and
specify traffic class from Low, Normal, Medium and High.
TCP/UDP Port
Click
Single
or
Range
. If you select Range, you have to type
in the starting port number and the end porting number on
the boxes below.
TCP/UDP Port Range
Type in the starting port number and the end porting number
here if you choose Range as the type.
z
If you choose
DSCP
as QCE Type, you have to type value for it and specify traffic class
from Low, Normal, Medium and High.

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