Cisco Systems ONS 15454 manual 22-39

Page 39

Chapter 22 DLPs A500 to A599

DLP- A533 Create Ethernet RMON Alarm Thresholds

Table 22-7

POS Threshold Variables (MIBs) (continued)

 

 

 

Variable

 

Definition

 

 

gfpStatsRxTypeInvalid

Receive frames with invalid type (PTI, EXI, UPI)

 

 

gfpStatsRxCRCErrors

Receive data frames with Payload cyclic redundancy check

 

 

(CRC) errors

 

 

gfpStatsRxCIDInvalid

Receive frames with Invalid CID

 

 

gfpStatsCSFRaised

Number of receive (Rx) client management frames with Client

 

 

Signal Fail indication.

 

 

gfpStatsRxFrame

Receive data frames

 

 

gfpStatsTxFrame

Transmit data frames

 

 

gfpStatsRxOctets

Received data Octets

 

 

gfpStatsTxOctets

Transmit data Octets

 

 

 

Step 7 From the Alarm Type drop-down list, indicate whether the event will be triggered by the rising threshold, falling threshold, or both the rising and falling thresholds.

Step 8 From the Sample Type drop-down list, choose either Relative or Absolute. Relative restricts the threshold to use the number of occurrences in the user-set sample period. Absolute sets the threshold to use the total number of occurrences, regardless of time period.

Step 9 Type in an appropriate number of seconds for the Sample Period.

Step 10 Type in the appropriate number of occurrences for the Rising Threshold.

For a rising type of alarm, the measured value must move from below the falling threshold to above the rising threshold. For example, if a network is running below a rising threshold of 1000 collisions every 15 seconds and a problem causes 1001 collisions in 15 seconds, the excess occurrences trigger an alarm.

Step 11 Enter the appropriate number of occurrences in the Falling Threshold field. In most cases a falling threshold is set lower than the rising threshold.

A falling threshold is the counterpart to a rising threshold. When the number of occurrences is above the rising threshold and then drops below a falling threshold, it resets the rising threshold. For example, when the network problem that caused 1001 collisions in 15 minutes subsides and creates only

799 collisions in 15 minutes, occurrences fall below a falling threshold of 800 collisions. This resets the rising threshold so that if network collisions again spike over a 1000 per 15-minute period, an event again triggers when the rising threshold is crossed. An event is triggered only the first time a rising threshold is exceeded (otherwise, a single network problem might cause a rising threshold to be exceeded multiple times and cause a flood of events).

Step 12 Click OK to complete the procedure.

Step 13 Return to your originating procedure (NTP).

 

 

Cisco ONS 15454 Procedure Guide, R7.0

 

 

 

 

 

 

November 2007

 

 

22-39

 

 

 

 

 

Image 39
Contents 22-1 DLP-A507 View OC-N PM ParametersCard View 22-222-3 DLP-A509 Provision CE-1000-4 Ethernet PortsClick the Provisioning Ether Ports tabs Click the Performance Ether Ports Statistics tabs22-4 DLP-A510 Provision a DS-3 Circuit Source and Destination22-5 DLP-A512 Change Node Access and PM Clearing Privilege22-6 DLP-A513 Provision CE-100T-8 Ethernet Ports22-7 DLP-A514 Provision CE-100T-8 and CE-1000-4 POS Ports Click the Performance POS Ports Statistics tabs22-8 DLP-A517 View Alarm or Event History Click the History Shelf tabs22-9 DLP-A518 Create a New or Cloned Alarm Severity Profile Alarm Profile Editor tabs Figure22-10 22-11 Node View Alarm Profile Editor22-12 Store Profiles Dialog Box 22-13DLP-A519 Apply Alarm Profiles to Ports Click the Provisioning Alarm Profiles Alarm Behavior tabs22-14 22-15 DLP-A520 Delete Alarm Severity ProfilesSelect Node/Profile Combination For Delete Dialog Box 22-1622-17 Alarm Filter Dialog Box General Tab22-18 Alarm Filter Dialog Box Conditions Tab22-19 DLP-A522 Suppress Alarm Reporting22-20 DLP-A523 Discontinue Alarm Suppression22-21 DLP-A524 Download an Alarm Severity ProfileClick OK Or Sonet Thresholds subtab22-22 22-23 Parameter Description Options22-24 IS-NR22-25 22-26 DLP-A527 Change the OC-N Card ALS Maintenance Settings22-27 Cisco ONS 15454 Reference ManualDLP-A528 Change the Default Network View Background Map DLP-A529 Delete Ethernet Rmon Alarm Thresholds22-28 22-29 DLP-A530 Install the Tie-Down Bar22-30 DLP-A531 Print CTC DataSelecting CTC Data For Print 22-3122-32 DLP-A532 Export CTC Data22-33 22-34 DLP-A533 Create Ethernet Rmon Alarm Thresholds22-35 Variable Definition22-36 22-37 22-38 22-39 22-40 DLP-A534 Provision OSI Routing ModeNode view, click the Provisioning OSI Tarp Config tabs DLP-A535 Provision or Modify Tarp Operating Parameters22-41 22-42 Node view, click the Provisioning OSI Tarp Static TDC tabs Click Add Static Entry22-43 DLP-A538 Add a Tarp Manual Adjacency Table Entry Click Delete Static Entry22-44 22-45 DLP-A539 Provision OSI RoutersDLP-A541 Enable the OSI Subnet on the LAN Interface DLP-A540 Provision Additional Manual Area Addresses22-46 22-47 22-48 DLP-A542 Create an IP-Over-CLNS TunnelDLP-A544 Change the OSI Routing Mode DLP-A543 Remove a Tarp Manual Adjacency Table Entry22-49 22-50 22-51 DLP-A545 Edit the OSI Router ConfigurationDLP-A546 Edit the OSI Subnetwork Point of Attachment Node view, click the Provisioning OSI Routers Subnet tabs22-52 DLP-A547 Edit an IP-Over-CLNS Tunnel22-53 DLP-A548 Delete an IP-Over-CLNS Tunnel22-54 DLP-A549 View IS-IS Routing Information Base22-55 Node view, click the Maintenance OSI ES-IS RIB tabsDLP-A550 View ES-IS Routing Information Base DLP-A551 Manage the Tarp Data Cache22-56 DLP-A552 Adjust the Java Virtual Memory Heap Size22-57 22-58 22-59 22-60 22-61 22-62 22-63 22-64 Click the Maintenance Protection tabs22-65 22-66
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ONS 15454 specifications

Cisco Systems ONS 15454 is a versatile optical networking platform designed to enable service providers and enterprises to deploy and manage robust optical networks efficiently. The ONS 15454 serves as a cornerstone in the evolution of transport networks, featuring various technologies that meet the increasing demand for bandwidth and service quality.

One of the standout features of the ONS 15454 is its support for multiple service types, including TDM, Ethernet, and Wavelength Division Multiplexing (WDM). This capability allows service providers to maximize network resources while delivering a wide range of services, from traditional voice to high-speed data and video.

The ONS 15454 leverages Dense Wavelength Division Multiplexing (DWDM) technology, enabling the transmission of multiple data streams over a single optical fiber. This effectively expands the network's capacity without the need for additional infrastructure, a crucial benefit in today's ever-growing data landscape. The system supports a variety of transponder modules, allowing for flexible scaling and seamless upgrades as bandwidth requirements increase.

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In conclusion, the Cisco ONS 15454 is a powerful optical networking solution that combines flexibility, scalability, and advanced management features. Its support for various services and technologies positions it as an essential asset for organizations looking to build a future-proof network capable of handling increasing data traffic while maintaining high service standards.