Cisco 12000/10720 Router Manager User's Guide, 3.0
Interface Performance
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Interface Performance

Table Of Contents

Interface Performance

Interfaces and Related Technology-Specific Windows

Launching the Interface Performance Windows

Generic Interface Performance

Viewing the Generic Interface Performance Window

Starting Performance Logging for a Selected Interface

Stopping Performance Logging for a Selected Interface

Generic Interface Performance Window—Detailed Description

Performance (1) Tab

Performance (2) Tab

Performance (3) Tab

SONET Interface Performance

Viewing the SONET Interface Performance Window

SONET Performance Window—Detailed Description

Section Tab

Line Tab

Path Tab

Virtual Tributary Tab

DS3/E3 Interface Performance

Viewing the DS3/E3 Interface Performance Window

DS3/E3 Interface Performance Window — Detailed Description

DS3 Performance Tab

E3 Performance Tab

Ethernet Interface Performance

Viewing the Ethernet Interface Performance Window

Ethernet Interface Performance Window—Detailed Description

General Statistics

Collision Statistics

SRP Performance

Viewing the SRP Performance Window

SRP Performance Window - Detailed Description

Interface Tab

Outer Ring Tab

Inner Ring Tab

Side Tab

SRP Side Performance

Viewing the SRP Side Performance Window

SRP Side Performance Window - Detailed Description

Ring Tab

Host Tab

Errors Tab


Interface Performance


This chapter describes how to view performance information for each of the interfaces on the Cisco 12000 series or the Cisco 10700 series internet routers you are managing, using the Cisco 12000/10720 Manager (C12k/10720M) application.

There are two performance options in C12k/10720M: the Interface Performance windows and the Cisco Element Management Framework (Cisco EMF) Performance Manager application. Performance Manager displays historical data as well as current data in the form of a line chart, bar chart, or table; Interface Performance windows display only current data in a raw numerical format.


Note Refer to the "Performance Management and Historical Data" chapter for information on viewing historical performance information for a selected chassis, module, or interface using the Performance Manager application.


This chapter contains the following information:

Interfaces and Related Technology-Specific Windows

Launching the Interface Performance Windows

Generic Interface Performance

SONET Interface Performance

DS3/E3 Interface Performance

Ethernet Interface Performance

SRP Performance

SRP Side Performance

Interfaces and Related Technology-Specific Windows

Interfaces on line cards can support multiple technologies. Performance windows are technology-specific. For example, a POS interface supports two technologies: Generic and SONET.

Therefore, to view the performance of a POS interface, you need to view two windows: the Generic Interface Performance window, and the SONET Interface Performance window.

This same process is applicable to all different types of interfaces: POS, DS-3, ATM, SRP or Ethernet.

Table 10-1 details which technology-specific performance windows apply to each interface type.

Table 10-1 Interface Types and Performance Windows

Interface Type
Technology-Specific Performance Window

DS-3

Generic, and DS-3

ATM

Generic, and SONET

Ethernet

Generic, and Ethernet

POS

Generic, and SONET

SRP

Generic, SRP and SRP Side

SRP Side

Generic, and SRP Side


Launching the Interface Performance Windows

Table 10-2 displays the Interface Performance windows that can be launched from each object type. For example, the Generic Interface Performance window can be launched from a Site, Chassis, Module, or Interface object.


Note Table 10-2 lists the menu options to launch the interface performance dialogs from the site level.


Table 10-2 Launching the Interface Performance Windows

C12k/10720M Window/Task
Objects (that can be selected) to Open the Window
Menu Options to Select to Open Window
Site
Chassis
Module
Interface
 

GSR

10720

 

Generic Interface Performance

Yes

Yes

Yes

Yes

Generic

C12k/10720 Management>Performance>
Interface>Generic>Performance

SONET Interface Performance

Yes

Yes

Yes

Yes

SONET

C12k/10720 Management>Performance>
Interface>SONET>Performance

DS3/E3 Interface Performance

Yes

Yes

No

Yes

DS3

C12k/10720 Management>Performance>
Interface>DS3>Performance

Ethernet Interface Performance

Yes

Yes

Yes

Yes

Ethernet

C12k/10720 Management>Performance>
Interface>Ethernet>Performance

SRP Performance

Yes

Yes

Yes

Yes

SRP

C12k/10720 Management>Performance>
Interface>SRP>Performance

SRP Side Performance

Yes

Yes

Yes

Yes

SRP and SRP Side

C12k/10720 Management>Performance>
Interface>SRP>Side>Performance



Note The Interface Performance windows cannot be opened when multiple objects are selected (the menu options to open the Cisco MDM windows are grayed out). Available menu options can be launched from a site object containing the required objects, when required.


Generic Interface Performance

The Generic Interface Performance section covers the following areas:

Viewing the Generic Interface Performance Window

Starting Performance Logging for a Selected Interface

Stopping Performance Logging for a Selected Interface

Generic Interface Performance Window—Detailed Description

Viewing the Generic Interface Performance Window

To view the Interface Performance window, proceed as follows:


Step 1 Right click on the interface object and select the C12k/10720 Management>Performance>
Generic>Performance
option. Refer to Table 10-1 for information on which objects allow you to launch the Interface Performance window. The Interface Performance window appears, with the Performance (1) tab displayed:

Figure 10-1 Interface Performance Window—Performance 1 Tab

Step 2 Choose a Chassis, Module, and Interface from the list boxes displayed at the left of the window. The interface performance information for the selected interface appears in the tabs at right.


Note Transmitted/Received Bandwidth Utilization will not be calculated and displayed until after a performance logging poll (15 minutes), and only if performance logging is active for the interface.


Step 3 Choose the Performance(2) tab, if required.

Figure 10-2 Interface Performance Window—Performance 2 Tab

The Error Statistics for the selected interface appear.

Step 4 Choose the Performance (3) tab, if required.

Figure 10-3 Interface Performance Window - Performance 3 Tab

The Packets/Octets statistics for the selected interface appears.


Starting Performance Logging for a Selected Interface


Note Performance logging can also be started/stopped on a global basis for a selected chassis. Refer to the "Starting Global Performance Logging" section. Performance logging can also be started on a per module (GRP) basis. For details on how to start performance logging for a selected module (GRP), refer to the "Module Performance" section.


Starting performance logging allows performance data to be gathered for the selected interface. Performance polling occurs every polling period (15 minutes). Performance data is then gathered and stored for historical review. Current performance data can be viewed in the Interface Performance window, or you can view historical performance data in Performance Manager.


Note You must start performance logging if you want to view historical data in the Performance Manager. You do not need to have performance logging enabled on an interface to view the current data in the Interface Performance window.


To start performance logging for a selected interface, proceed as follows:


Step 1 Open the Interface Performance window. Refer to the "Viewing the Generic Interface Performance Window" section for further details.

Step 2 Choose a Chassis, Module, and Interface from the lists displayed at the left of the window.

Step 3 Click Start to begin performance logging for the selected interface. A window appears for you to confirm that you wish to start performance logging.

Figure 10-4 Start Performance Logging Confirmation Window

Step 4 Choose Yes to begin performance logging for the selected interface. An Action Report window appears to confirm that performance logging has started.

Figure 10-5 Action Report Window

Step 5 Choose Close to close the Action Report window.

Step 6 Choose Close from the File menu to close the Interface Performance window.

Refer to the "Performance Management and Historical Data"chapter for information on viewing historical performance information for a selected interface.


Stopping Performance Logging for a Selected Interface

To stop performance logging for a selected interface, proceed as follows:


Step 1 Open the Interface Performance window. Refer to the "Viewing the Generic Interface Performance Window" section for further details.

Step 2 Choose a Chassis, Module, and Interface from the lists displayed at the left of the window.

Step 3 Choose Stop to stop performance logging for the selected interface. A window appears for you to confirm that you wish to stop performance logging.

Figure 10-6 Stop Performance Logging Confirmation Window

Step 4 Choose Yes to stop performance logging for the selected interface. An Action Report window appears to confirm that performance logging has been stopped for the selected interface.

Figure 10-7 Action Report Window

Step 5 Choose Close to close the Action Report window.

Step 6 Choose Close from the File menu to close the Interface Performance window.


Generic Interface Performance Window—Detailed Description

The Interface Performance window contains three tabs: Performance (1), Performance (2) and Performance (3).

Performance (1) Tab

The Performance (1) tab (see Figure 10-1) contains three areas: General Information, Packets/Octets Statistics, and Performance Logging.

General Information

The General area contains the following fields:

Resets—Number of times the interface is internally reset.


Note Transmitted/Received Bandwidth Utilization will not be calculated and displayed until after a performance logging poll (15 minutes), and only if performance logging is active for the interface.


Transmitted Bandwidth Utilization—Percentage of transmitted bandwidth utilization. The percentage is calculated as packets per second divided by the speed of interface, averaged over the polling period (if performance polling is active).

Received Bandwidth Utilization—Percentage of received bandwidth utilization. The percentage is calculated as packets per second divided by the speed of interface, averaged over the polling period (if performance polling is active).

Packets/Octets Statistics

The Packets/Octets Statistics area contains the following fields:

In Octets—Total number of packets received on the interface, including framing characters.

Out Octets—Total number of packets transmitted out of the interface, including framing characters.

In Bits/sec—Five-minute exponentially decayed moving average of input bits per second.

Out Bits/sec—Five-minute exponentially decayed moving average of output bits per second.

In Packets/sec—Five-minute exponentially decayed moving average of input packets per second.

Out Packets/sec—Five-minute exponentially decayed moving average of output packets per second.

In Unicast Packets—Total number of packets received by the layer which were not addressed as multicast or broadcast.

Out Unicast Packets—Total number of packets transmitted by the layer which were not addressed as multicast or broadcast.

In Multicast Packets—Not applicable to C12k/10720M.

Out Multicast Packets—Not applicable to C12k/10720M.

In Broadcast Packets—Not applicable to C12k/10720M.

Out Broadcast Packets—Not applicable to C12k/10720M.

Performance Logging

The performance Logging area displays Start and Stop buttons.

Start—Click Start to begin performance logging for the selected interface.

Stop—Click Stop to stop performance logging for the selected interface.


Note The VLAN sub-interfaces do not support the fields, In Bits/sec, In Packets/sec, Out Bits/sec, Out Packets/sec, displayed in the Packets/Octets Statistics area in the Performance (1) tab.


Performance (2) Tab

The Performance (2) tab (see Figure 10-2) displays a single Error Statistics area.

Error Statistics

The Error Statistics area displays the following fields:

Runts—Number of packets input which were smaller than the physical media permitted.

Giants—Number of input packets which were larger than the physical media permitted.

Collisions—Number of output collisions detected on this interface.

Aborted Packets—Number of input packets which were aborted.

Ignored Packets—Number of input packets which were ignored by the interface.

Overrun Packets—Displays the number of input packets that arrived too quickly for the hardware to receive.

Misaligned Packets—Number of input packets which were misaligned.

In Errored Packets—Number of inbound packets that contained errors.

In Discarded Packets—Number of inbound packets chosen to be discarded even though no errors were found.

In Packets Dropped—Number of packets dropped because the input queue was full.

Out Errored Packets—Number of outbound packets that could not be transmitted because of errors.

Out Discarded Packets—Number of outbound packets chosen to be discarded even though no errors were found.

Out Packets Dropped—Number of packets dropped because the output queue was full.

CRC Errored Packets—Number of input packets which had cyclic redundancy checksum errors.


Note The VLAN sub-interfaces do not support the fields displayed in the Performance (2) tab.


Performance (3) Tab

In Octets—Number of high capacity input octets (64-bit counter)

Out Octets—Number of high capacity output octets (64-bit counter)

In Unicast Packets—Number of high capacity input unicast packets (64-bit counter)

OutUnicast Packets—Number of high capacity output Unicast packets (64-bit counter)

In Multicast Packets—not applicable to C12k/10720M

Out Multicast Packets—not applicable to C12k/10720M

In Broadcast Packets—not applicable to C12k/10720M

OutBroadcast Packets—not applicable to C12k/10720M

SONET Interface Performance

The SONET Interface Performance section covers the following areas:

Viewing the SONET Interface Performance Window

SONET Performance Window—Detailed Description

Viewing the SONET Interface Performance Window

To view the SONET Interface Performance window, proceed as follows:


Step 1 Right click on the SONET interface object and select the C12k/10720 Management>
Performance>SONET>Performance
option. Refer to Table 10-2 for information on which objects allow you to launch the SONET Interface Performance window. The SONET Interface Performance window appears, with the Section tab displayed:

Figure 10-8 SONET Interface Performance—Section Tab

Step 2 Choose a Chassis, Module, and SONET Interface from the list boxes at the left of the window. The performance information for the selected interface appears (see Figure 10-8).

Step 3 Choose the Line tab, if required.

Figure 10-9 SONET Interface Performance—Line Tab

Step 4 Choose the Path tab, if required.

Figure 10-10 SONET Interface Performance—Path Tab


Note The Virtual Tributary tab is not applicable to C12k/10720M.



SONET Performance Window—Detailed Description

The SONET Performance window displays four tabs: Section, Line, Path, and Virtual Tributary (not applicable to C12k/10720M).

Section Tab

The Section tab (see Figure 10-8) displays a single Section area containing the following fields:

Errored Seconds—Total number of errored seconds encountered by the SONET interface in the current 15 minute interval.

Severely Errored Seconds—Number of severely errored seconds encountered by the SONET interface in the current 15 minute interval.

Severely Errored Framing Seconds—Number of severely errored framing seconds encountered by the SONET interface in the current 15 minute interval.

Coding Violations—Number of coding violations encountered by the SONET interface in the current 15 minute interval.

Line Tab

The Line tab (see Figure 10-9) displays two areas: Line and Far End Line, as follows:

Line

The Line area displays the following fields:

Errored Seconds—Total number of errored seconds encountered by the SONET line.

Severely Errored Seconds—Number of severely errored seconds encountered by the SONET line.

Unavailable Seconds—Total number of unavailable seconds encountered by the SONET line.

Coding Violations—Number of coding violations encountered by the SONET line.

Far End Line

The Far End Line area displays the following fields:

Errored Seconds—Total number of far end errored seconds encountered by the SONET line.

Severely Errored Seconds—Number of far end severely errored seconds encountered by the SONET line.

Unavailable Seconds—Total number of far end unavailable seconds encountered by the SONET line.

Coding Violations—Number of far end coding violations encountered by the SONET line.

Path Tab

The Path tab (see Figure 10-10) displays two areas: Path and Far End Path.

Path

The Path area displays the following fields:

Errored Seconds—Total number of errored seconds encountered by the SONET path.

Severely Errored Seconds—Number of severely errored seconds encountered by the SONET path.

Unavailable Seconds—Total number of unavailable seconds encountered by SONET path.

Coding Violations—Number of coding violations encountered by the SONET path.

Far End Path

The Far End Path area displays the following fields:

Errored Seconds—Total number of far end errored seconds encountered by the SONET path.

Severely Errored Seconds—Number of far end severely errored seconds encountered by the SONET path.

Unavailable Seconds—Total number of far end unavailable seconds encountered by the SONET path.

Coding Violations—Number of far end coding violations encountered by the SONET path.

Virtual Tributary Tab

The Virtual Tributary tab is not applicable to C12k/10720M.

DS3/E3 Interface Performance

The DS3/E3 Interface Performance section covers the following areas:

Viewing the DS3/E3 Interface Performance Window

DS3/E3 Interface Performance Window — Detailed Description


Note The DS3 interface support is not provided by the Cisco 10720 chassis.


Viewing the DS3/E3 Interface Performance Window

To view the DS3/E3 Interface Performance window, proceed as follows:


Step 1 Right click on a DS3 interface object and select the C12k/10720 Management>Performance>
DS3>Performance
option. Refer to Table 10-2 for information on which objects allow you to launch the DS3/E3 Interface Performance window. The DS3/E3 Interface Performance window appears, with the DS3 Performance tab displayed:

Figure 10-11 DS3/E3 Interface Performance Window—DS3 Performance Tab

Step 2 Choose a Chassis, Module, and DS3 Interface from the list boxes displayed at the left of the window. The DS3/E3 interface performance information for the selected interface appears.

Step 3 Choose the E3 Performance tab, if required, to view the E3 Performance details (see Figure 10-12).

Figure 10-12 DS3/E3 Interface Performance Window—E3 Performance Tab


DS3/E3 Interface Performance Window — Detailed Description

The DS3/E3 Interface Performance window displays two tabs: DS3 Performance and E3 Performance.

DS3 Performance Tab

The DS3 Performance tab (see Figure 10-11) displays two areas: DS3 Statistics and Far End DS3 Statistics.

DS3 Statistics

The DS3/E3 Statistics area displays the following information:

C-bit Coding Violations—Number of C-bit coding violations encountered by the interface.

C-bit Errored Seconds—Number of C-bit errored seconds detected by the interface.

C-bit Severely Errored Seconds—Number of times C-bit severely errored seconds detected by the interface.

P-bit Coding Violations—Number of P-bit coding violations detected by the interface.

P-bit Errored Seconds—Number of P-bit errored seconds detected by the interface.

P-bit Severely Errored Seconds—Number of P-bit severely errored seconds encountered by the interface.

Unavailable Seconds—Count of the unavailable seconds encountered by interface.

Far End DS3 Statistics

The Far End DS3 Statistics area displays the following information:

C-bit Coding Violations—Number of far end C-bit coding violations encountered by the interface.

C-bit Errored Seconds—Number of far end C-bit errored seconds detected by the interface.

C-bit Severely Errored Seconds—Number of times far end C-bit severely errored seconds detected by the interface.

Unavailable Seconds—Count of the far end unavailable seconds encountered by the interface.

E3 Performance Tab

The E3 Performance tab (see Figure 10-12) displays three areas: Current E3 Status, Interval E3 Status, and Total E3 Status.

Current E3 Status

The Current E3 Status area displays the following information:

C-Severely Errored Framing Seconds—Number of C-bit severely errored seconds encountered by the interface in the current 15 minute interval.

C-Line Errored Seconds—Number of line errored seconds encountered by the interface in the current 15 minute interval.

C-Line Coding Violations—Number of line coding violations encountered by the interface in the current 15 minute interval.

Interval E3 Status

The Interval E3 Status area displays the following information:

I-Severely Errored Framing Seconds—Number of I-line severely errored seconds encountered by the interface in any 15 minute interval.

I-Line Errored Seconds—Number of I-line errored seconds encountered by the interface in any 15 minute interval.

I-Line Coding Violations—Number of I-line coding violations encountered by the interface in any 15 minute interval.

Total E3 Status

The Total E3 Statistics area displays the following information:

T-Severely Errored Framing Seconds—Number of T-line severely errored framing seconds encountered by the interface in the current 24 hour interval.

T-Line Errored Seconds—Number of errored seconds encountered by the interface in the current 24 hour interval.

T-Line Coding Violations—Number of coding violations encountered by the interface in the current 24 hour interval.

Ethernet Interface Performance

The Ethernet Interface Performance section covers the following areas:

Viewing the Ethernet Interface Performance Window

Ethernet Interface Performance Window—Detailed Description

Viewing the Ethernet Interface Performance Window

To view the Ethernet Interface Performance window, proceed as follows:


Step 1 Right click on the Ethernet interface object and select the C12k/10720 Management>
Performance>Ethernet>Performance
option. Refer to Table 10-2 for information on which objects allow you to launch the Ethernet Interface Performance window. The Ethernet Interface Performance window appears, with the Performance tab displayed:

Figure 10-13 Ethernet Interface Performance Window—Performance Tab

Step 2 Choose a Chassis, Module, and Ethernet Interface from the list boxes displayed at the left of the window. The performance information for the selected interface appears.


Ethernet Interface Performance Window—Detailed Description

The Ethernet Interface Performance tab (see Figure 10-13) displays two areas: General Statistics and Collision Statistics.

General Statistics

The General Statistics area displays the following statistics:

Multiple Collision Frames—Count of frames transmitted across an interface where more than one collision exists.

Frame Check Sequence Errors—Count of Frames received with Frame Check Sequence Error status.

Alignment Error—Count of Frames received with alignment errors.

Internal MAC Transmit Errors—Count of frames transmitted that failed due to an external transmit error.

Deferred Transmissions—Number of first transmissions attempts delayed because the medium was busy.

Frames Too Long—Number of frames transmitted, where the size of the frames are larger than the permissible frame size.

Carrier Sense Errors—Number of times the carrier sense was lost while transferring frames.

Late Collisions—Number of collisions detected on the interface after the transmission of a packet.

Signal Quality Errors (SQE)—Count of SQE error messages generated by the interface.

Single Collision Frames—Count of frames transmitted across an interface with one collision.

Excessive Collisions—Number of times transmission failed due to excessive collision.

Internal MAC Receive Errors—Count of frames transmitted that failed due to an internal MAC receive error.

Collision Statistics

The Collision Statistics area displays the following statistics:

Collision Count—Number of collisions per frame on a particular interface

Collision Frequency—The corresponding count of frames for the specified number of collisions.

SRP Performance

The SRP Performance section covers the following areas:

Viewing the SRP Performance Window

SRP Performance Window - Detailed Description

Viewing the SRP Performance Window

To view the SRP Performance window, proceed as follows:


Step 1 Right click on the SRP interface object and select the C12k/10720 Management>Performance>
SRP>Performance
option. Refer to Table 10-2 for information on which objects allow you to launch the SRP Performance window. The SRP Performance window appears, with the Ring tab displayed:

Figure 10-14 SRP Performance Window

Step 2 Choose a Chassis, Module, and SRP Interface from the list boxes displayed at the left of the window. The performance information for the selected interface appears.


Note The performance dialogs are not applicable to the OC-12 linecards



SRP Performance Window - Detailed Description

The SRP Performance window displays four tabs: Interface, Outer Ring, Inner Ring and Side


Note All the counters that are mentioned in this dialog are subjected to the current 15 minutes interval on the device.



Note This dialog is not supported on OC-12 SRP interface (except Engine 3 OC-12c/STM-4 line card interface) objects.


Interface Tab

The Interface tab displays three panels: Counters for last x seconds, Utilization and Data Traffic

Counters for last x seconds

Time Elapsed—Indicates the number of seconds which have elapsed in the current interval. The Time Elapsed value ranges between 0 to 900. When this value is 0, all the counters in the dialog are of value 0. For example, when the value of Time Elapsed is 100 sec, all the counters displayed in this dialog are calculated using the traffic in the last 100 seconds.

Utilization

Bandwidth Utilization—The percentage bandwidth of the interface utilized in the specified time. For example, when the bandwidth utilization is 60, it means that the interface is utilized at 60% on average in the last Time Elapsed seconds.

Data Traffic

The Data Traffic panel has two areas: bits/sec and Packets/sec.

The bits/sec area has the following attributes,

Transit Traffic—The rate of traffic passing through this node but not meant for this node. The displayed value is in bits/sec, the traffic in the last Time Elapsed seconds is considered for calculation.

Node Traffic—The rate of traffic reached to/going from this host. The displayed value is in bits/sec, the traffic in the last Time Elapsed seconds is considered for calculation.

Node Transmit Traffic—The rate of traffic transmitted by this node into the ring. The displayed value is in bits/sec, the traffic in the last Time Elapsed seconds is considered for calculation.

Node Receive Traffic—The rate of traffic received by this node from the ring. The displayed value is in bits/sec, the traffic in the last Time Elapsed seconds is considered for calculation.

The Packets/sec area has the following attributes,

Transit Traffic—The rate of traffic passing through this node but not meant for this node. Displayed value is in Packets/sec, the traffic in the last Time Elapsed seconds is considered for calculation.

Node Traffic—The rate of traffic reached to/going from this host. The displayed value is in Packets/sec, the traffic in the last Time Elapsed seconds is considered for calculation.

Node Transmit Traffic—The rate of traffic transmitted by this node into the ring. The displayed value is in Packets/sec, the traffic in the last Time Elapsed seconds is considered for calculation.

Node Receive Traffic—The rate of traffic received by this node from the ring. The displayed value is in Packets/sec, the traffic in the last Time Elapsed seconds is considered for calculation.

Outer Ring Tab

The Outer Ring tab displays three panels: Counters for last x seconds, Utilization and Data Traffic

Counters for last x seconds

Time Elapsed—Indicates the number of seconds that have elapsed in the current interval. The Time Elapsed value ranges between 0-900. When this value is 0, all the counters in the dialog are of value 0. For example, when the value of Time Elapsed is 100 sec, it means that all the counters displayed in this dialog are calculated using the traffic in the last 100 seconds.

Utilization

Bandwidth Utilization—The percentage bandwidth of the outer ring utilized in the specified time. For example, when the bandwidth utilization is 60, it means that the outer ring is utilized at 60% on average in the last Time Elapsed seconds.


Note To get the correct bandwidth utilization, please ensure that the interface bandwidth is set to the maximum value in IOS. To achieve this, run the "no bandwidth" command in the interface mode in IOS CLI.


Data Traffic

The Data Traffic panel has two areas: bits/sec and Packets/sec.

The bits/sec area has the following attributes,

Transit Traffic—The rate of traffic passing through the outer ring at this node but not meant for this node. The displayed value is in bits/sec, traffic in the last Time Elapsed seconds is considered for calculation.

Node Traffic—The rate of traffic on the outer ring, reached to/going from this host. The displayed value is in bits/sec, traffic in the last Time Elapsed seconds is considered for calculation.

Node Transmit Traffic—The rate of traffic on the outer ring, transmitted by this node into the ring. Displayed value is in bits/sec, traffic in the last Time Elapsed seconds is considered for calculation.

Node Receive Traffic—The rate of traffic on the outer ring, received by this node from the ring. The displayed value is in bits/sec, traffic in the last Time Elapsed seconds is considered for calculation.

The Packets/sec area has the following attributes,

Transit Traffic—The rate of traffic passing through the outer ring at this node but not meant for this node. The displayed value is in Packets/sec, traffic in the last Time Elapsed seconds is considered for calculation.

Node Traffic—The rate of traffic on the outer ring, reached to/going from this host. The displayed value is in Packets/sec, traffic in the last Time Elapsed seconds is considered for calculation.

Node Transmit Traffic—The rate of traffic on the outer ring, transmitted by this node into the ring. The displayed value is in Packets/sec, traffic in the last Time Elapsed seconds is considered for calculation.

Node Receive Traffic—The rate of traffic on the outer ring, received by this node from the ring. The displayed value is in Packets/sec, traffic in the last Time Elapsed seconds is considered for calculation.

Inner Ring Tab

The Inner Ring tab displays three panels: Counters for last x seconds, Utilization and Data Traffic

Counters for last x seconds

Time Elapsed—Indicates the number of seconds that have elapsed in the current interval. The Time Elapsed value ranges between 0-900. When the Time Elapsed is of value 0, all the counters in the dialog are of value 0. For example, when the Time Elapsed is of value 100 sec, it means that all the counters displayed in this dialog are calculated using the traffic in the last 100 seconds.

Utilization

Bandwidth Utilization—The percentage bandwidth of the inner ring utilized in the specified time. For example, when the bandwidth utilization is 60, it means that the inner ring is utilized at 60% on average in the last Time Elapsed seconds.


Note To get the correct bandwidth utilization, please ensure that the interface bandwidth is set to the maximum value in IOS. To achieve this, run the "no bandwidth" command in the interface mode in IOS CLI.


Data Traffic

The Data Traffic panel has two areas: bits/sec and Packets/sec.

The bits/sec area has the following attributes,

Transit Traffic—The rate of the traffic passing through the inner ring at this node but not meant for this node. The displayed value is in bits/sec, traffic in the last Time Elapsed seconds is considered for calculation.

Node Traffic—The rate of traffic on the inner ring, reached to/going from this host. The displayed value is in bits/sec, traffic in the last Time Elapsed seconds is considered for calculation.

Node Transmit Traffic—The rate of traffic on the inner ring, transmitted by this node into the ring. The displayed value is in bits/sec, traffic in the last Time Elapsed seconds is considered for calculation.

Node Receive Traffic—The rate of traffic on the inner ring, received by this node from the ring. The displayed value is in bits/sec, traffic in the last Time Elapsed seconds is considered for calculation.

The Packets/sec area has the following attributes,

Transit Traffic—The rate of traffic passing through the inner ring at this node but not meant for this node. The displayed value is in Packets/sec, traffic in the last Time Elapsed seconds is considered for calculation.

Node Traffic—The rate of traffic on the inner ring, reached to/going from this host. The displayed value is in Packets/sec, traffic in the last Time Elapsed seconds is considered for calculation.

Node Transmit Traffic—The rate of traffic on the inner ring, transmitted by this node into the ring. The displayed value is in Packets/sec, traffic in the last Time Elapsed seconds is considered for calculation.

Node Receive Traffic—The rate of traffic on the inner ring, received by this node from the ring. The displayed value is in Packets/sec, traffic in the last Time Elapsed seconds is considered for calculation.

Side Tab

The Side tab displays three panels: Counters for last x seconds, Side A Data Traffic and Side B Data Traffic

Counters for last x seconds

Time Elapsed—Indicates the number of seconds that have elapsed in the current interval. The Time Elapsed value ranges between 0-900. When the Time Elapsed is of value 0, all the counters in the dialog are of value 0. For example, when the Time Elapsed is 100 sec, it means that all the counters displayed in this dialog are calculated using the traffic in the last 100 seconds.


Note All the counters displayed are in Bytes.


Side A Data Traffic

Total Transmit Traffic—Total traffic reaching side A on both rings. The displayed value is in Bytes, traffic in the last Time Elapsed seconds is considered for calculation.

Host Transmit Traffic—Total traffic at side A, transmitted by this node into the ring. The displayed value is in Bytes, traffic in the last Time Elapsed seconds is considered for calculation.

Total Receive Traffic—Total traffic going from side A on both rings. The displayed value is in Bytes, traffic in the last Time Elapsed seconds is considered for calculation.

Host Receive Traffic—Total traffic at side A, received by this node from the ring. The displayed value is in Bytes, traffic in the last Time Elapsed seconds is considered for calculation.

Side B Data Traffic

Total Transmit Traffic—Total traffic reaching side B on both rings. The displayed value is in Bytes, traffic in the last Time Elapsed seconds is considered for calculation.

Host Transmit Traffic—Total traffic at side B, transmitted by this node into the ring. The displayed value is in Bytes, traffic in the last Time Elapsed seconds is considered for calculation.

Total Receive Traffic—Total traffic going from side B on both rings. The displayed value is in Bytes, traffic in the last Time Elapsed seconds is considered for calculation.

Host Receive Traffic—Total traffic at side B, received by this node from the ring. The displayed value is in Bytes, traffic in the last Time Elapsed seconds is considered for calculation.

SRP Side Performance

The SRP Side Performance section covers the following areas:

Viewing the SRP Side Performance Window

SRP Side Performance Window - Detailed Description

Viewing the SRP Side Performance Window

To view the SRP Side Performance window, proceed as follows:


Step 1 Right click on a SRP Side interface object and select the C12k0/10720 Management>
Performance>SRP>Side>Performance
option. Refer to Table 10-2 for information on which objects allow you to launch the SRP Side Performance window. The SRP Side Performance window appears, with the Ring tab displayed:

Figure 10-15 SRP Side Performance Window

Step 2 Choose a Chassis, Module, SRP Interface and SRP Side from the list boxes displayed at the left of the window. The performance information for the selected interface appears.


Note The performance dialogs are not applicable to the OC-12 linecards



SRP Side Performance Window - Detailed Description

The SRP Side Performance window displays three tabs: Ring, Host and Errors


Note All the counters that are mentioned in this dialog are subjected to the current 15 minutes interval on the device.


Ring Tab

The Ring tab displays four panels: Packets In, Packets Out, Octets In and Octets Out

Packets In

Low Priority Unicast - Displays the number of low priority unicast packets received from the physical layer.

High Priority Unicast - Displays the number of high priority unicast packets received from the physical layer.

Low Priority Multicast - Displays the number of low priority multicast packets received from the physical layer.

High Priority Multicast - Displays the number of high priority multicast packets received from the physical layer.

Packets Out

Low Priority Unicast - Displays the number of low priority unicast packets going to the physical layer.

High Priority Unicast - Displays the number of high priority unicast packets going to the physical layer.

Low Priority Multicast - Displays the number of low priority multicast packets going to the physical layer.

High Priority Multicast - Displays the number of high priority multicast packets going to the physical layer.

Octets In

Low Priority Unicast - Displays the number of low priority unicast octets received from the physical layer.

High Priority Unicast - Displays the number of high priority unicast octets received from the physical layer.

Low Priority Multicast - Displays the number of low priority multicast octets received from the physical layer.

High Priority Multicast - Displays the number of high priority multicast octets received from the physical layer.

Octets Out

Low Priority Unicast - Displays the number of low priority unicast octets going to the physical layer.

High Priority Unicast - Displays the number of high priority unicast octets going to the physical layer.

Low Priority Multicast - Displays the number of low priority multicast octets going to the physical layer.

High Priority Multicast - Displays the number of high priority multicast octets going to the physical layer.

Host Tab

The Host tab displays four panels: Packets In, Packets Out, Octets In and Octets Out

Packets In

Low Priority Unicast - Displays the number of low priority unicast packets received from the higher layer.

High Priority Unicast - Displays the number of high priority unicast packets received from the higher layer.

Low Priority Multicast - Displays the number of low priority multicast packets received from the higher layer.

High Priority Multicast - Displays the number of high priority multicast packets received from the higher layer.

Packets Out

Low Priority Unicast - Displays the number of low priority unicast packets going to the higher layer.

High Priority Unicast - Displays the number of high priority unicast packets going to the higher layer.

Low Priority Multicast - Displays the number of low priority multicast packets going to the higher layer.

High Priority Multicast - Displays the number of high priority multicast packets going to the higher layer.

Octets In

Low Priority Unicast - Displays the number of low priority unicast octets received from the higher layer.

High Priority Unicast - Displays the number of high priority unicast octets received from the higher layer.

Low Priority Multicast - Displays the number of low priority multicast octets received from the higher layer.

High Priority Multicast - Displays the number of high priority multicast octets received from the higher layer.

Octets Out

Low Priority Unicast - Displays the number of low priority unicast octets going to the higher layer.

High Priority Unicast - Displays the number of high priority unicast octets going to the higher layer.

Low Priority Multicast - Displays the number of low priority multicast octets going to the higher layer.

High Priority Multicast - Displays the number of high priority multicast octets going to the higher layer.

Errors Tab

The Errors tab displays two panels: Ring and Host

Ring

Received TTL Expiry Packets - Displays the number of discarded packets received from the physical layer, due to TTL expiry

Received Aborted Packets - Displays the number of packets aborted from the physical layer by an abort sequence code.

Received Giant Packets - Displays the number of giant packets received from the physical layer.


Note A giant packet is larger than the maximum size packet, which is 9216 octets


Received Short Packets - Displays the number of short packets received from the physical layer.


Note A short packet is 16 octets or less


CRC Error Packets - Displays the number of packets with CRC errors.

Host

Received Discarded Packets - Displays the number of packets that are not delivered to a higher layer due to lack of resources.

Received Giant Packets - Displays the number of packets discarded due to packet size being too big for the higher layer.

Received Short Packets - Displays the number of packets discarded due to packet size being too small for the higher layer.