Related Manuals for IBM NETCOOL 4.3-X
Summary of Contents for IBM NETCOOL 4.3-X
- Page 1 Netcool®/Proviso® 4.3-X Tivoli Document Revision R2E1 Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide...
- Page 2 Web sites. The materials at those Web sites are not part of the materials for this IBM product and use of those Web sites is at your own risk. IBM may use or distribute any of the information you supply in any way it believes appropriate without incurring any obligation to you.
- Page 3 United States, other countries, or both. techniques on various operating systems. You may copy, modify, and distribute these sample programs in any form without payment to IBM, for the purposes of developing, using, marketing or distributing application programs conforming to the application programming interface for the operating system for which the sample programs are written.
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Page 5: Table Of Contents
Contents Audience ................xi Organization . - Page 6 Ethernet Port Latency Probe Loss Details ..........27 Ethernet Port Latency Probe Sequence Details .
- Page 7 MEEsa_ProbePacketInterval ............62 MEEsa_ProbePackets .
- Page 8 Chapter 5: Sub-Element Grouping Rules Overview ............... . . 99 NOC Reporting Grouping Rules .
- Page 9 Egress Oneway Delay Maximum ........... . . 131 Egress Oneway Delay Minimum .
- Page 10 Ingress Positive Jitter Variance ............167 Ingress Sync Errors.
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Page 11: Audience
Adva Optical Metro Ethernet Technology Pack provides to create the associated reporter sets. Audience The audiences for this manual are the network administration engineers at IBM customer sites who will install, configure, and use the Adva Optical Metro Ethernet Technology Pack as part of their Netcool/Proviso installation. - Page 12 Preface Describes the properties that the Adva Optical Metro Ethernet Technology Pack discovers during the inventory process. • Chapter 5, Sub-Element Grouping Rules Describes the sub-element collection grouping rules and the NOC reporting grouping rules that the Adva Optical Metro Ethernet Technology Pack defines. •...
- Page 13 • technical notes • online help The documentation is available for viewing and downloading on the infocenter at: http://publib.boulder.ibm.com/infocenter/tivihelp/v8r1/index.jsp?topic=/com.ibm.netcool_proviso.doc/welcome.htm Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X DataMart DataView provides data produces and management manages reports.
- Page 14 Preface Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
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Page 15: Chapter 1: Introduction
Chapter 1: Introduction This chapter discusses the following topics: Topic Overview How is the Data Collected? How is the Data Processed and Loaded into the Database? How is the Data Reported? Overview Netcool/Proviso Technology Packs are individually installed modules that contain discovery, grouping, collection, and reporting instructions created by Technology Pack developers or Professional Services personnel for a specific network technology or network equipment provider, such as Adva Optical Metro Ethernet. -
Page 16: Collection
Chapter 1: Introduction Technology Pack. The grouping rules use the properties and values defined within inventory formulas or adaptor design files to filter the sub-elements into their appropriate collection or reporting groups. • For non-SNMP network resources, a Technology Pack provides a Bulk Adaptor Design File. Bulk Adaptor Design Files define how data fields that reside in files generated by network resources are used to create sub- elements and set values for items defined as properties. -
Page 17: Cme Operation
CME Operation The CME is designed to work with data that is gathered over the space of one hour. Within that hour, there are several distinct phases that characterize the operation of the CME: • Loading Phase • Building Phase •... - Page 18 Chapter 1: Introduction A Technology Pack reporter set is a related group of reports that provide performance information on a specific set of devices or resources that exist in a network. Each report consists of a series of queries that retrieve related sub-elements and their corresponding metrics from the database using the RIDs and MIDs assigned during the inventory and collection processes.
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Page 19: Chapter 2: Supported Reports
Chapter 2: Supported Reports This chapter discusses the following topics: Topic Overview Report Reference Reporter Sets Overview The Adva Optical Metro Ethernet Technology Pack supplies a set of reports suitable for displaying information about the devices and activity associated with the Adva Optical Metro Ethernet environment. Reports contain metrics that are generated by the formulas that this technology pack provides. -
Page 20: Reporter Sets
Chapter 2: Supported Reports In cases where the stylesheet information is not available for a given report, only the number of tables or charts actually implemented is shown. • Metrics Used in Reports. The collection formulas that provide metrics for the report. •... -
Page 21: Reports
Reports This technology pack provides the following reports: Ethernet Port Drops and Discards Details Ethernet Port Drops and Discards Summary Group Ethernet Port Drops and Discards Summary Resource Ethernet Port Jitter Probe Egress Negative Details Ethernet Port Jitter Probe Egress Positive Details Ethernet Port Jitter Probe Ingress Negative Details Ethernet Port Jitter Probe Ingress Positive Details Ethernet Port Jitter Probe Summary Group... -
Page 22: Ethernet Port Drops And Discards Details
Chapter 2: Supported Reports Ethernet Port Drops and Discards Details Description AP Adva Optical Metro Ethernet - Per UNI Port QoS (DE Dropped) - Detail Chart Reporter Set Tables and Charts Charts: Resource Time Series Chart (8 of 8 implemented) - Real-Time support Metrics Used in Report Egress DE Dropped Frames Egress DE Frames... -
Page 23: Ethernet Port Drops And Discards Summary Group
Ethernet Port Drops and Discards Summary Group Description AP Adva Optical Metro Ethernet - Per UNI Port QoS Summary - GST Reporter Set Tables and Charts Tables: Group Summary Table (2 of 2 implemented) Charts: Resource Distribution Chart (0 of 4 implemented) Metrics Used in Report Egress DE Dropped Frames Egress DE Frames... -
Page 24: Ethernet Port Drops And Discards Summary Resource
Chapter 2: Supported Reports Ethernet Port Drops and Discards Summary Resource Description AP Adva Optical Metro Ethernet - Per UNI Port QoS (DE Frames) Summary - RST1 Reporter Set Tables and Charts Tables: Resource Summary Table (2 of 1 implemented) Charts: Resource Distribution Chart (0 of 2 implemented) Metrics Used in Report Egress DE Dropped Frames... -
Page 25: Ethernet Port Jitter Probe Egress Negative Details
Ethernet Port Jitter Probe Egress Negative Details Description AP Adva Optical Metro Ethernet - Port Jitter Probe Egress Negative - Detail Chart. Reporter Set ESA Probe Tables and Charts Charts: Resource Time Series Chart (5 of 9 implemented) - Real-Time support Metrics Used in Report Egress Negative Jitter Maximum Egress Negative Jitter Minimum... -
Page 26: Ethernet Port Jitter Probe Egress Positive Details
Chapter 2: Supported Reports Ethernet Port Jitter Probe Egress Positive Details Description AP Adva Optical Metro Ethernet - Port Jitter Probe Egress Positive - Detail Chart. Reporter Set ESA Probe Tables and Charts Charts: Resource Time Series Chart (5 of 9 implemented) - Real-Time support Metrics Used in Report Egress Positive Jitter Maximum Egress Positive Jitter Minimum... -
Page 27: Ethernet Port Jitter Probe Ingress Negative Details
Ethernet Port Jitter Probe Ingress Negative Details Description AP Adva Optical Metro Ethernet - Port Jitter Probe Ingress Negative - Detail Chart. Reporter Set ESA Probe Tables and Charts Charts: Resource Time Series Chart (5 of 9 implemented) - Real-Time support Metrics Used in Report Ingress Negative Jitter Maximum Ingress Negative Jitter Minimum... -
Page 28: Ethernet Port Jitter Probe Ingress Positive Details
Chapter 2: Supported Reports Ethernet Port Jitter Probe Ingress Positive Details Description AP Adva Optical Metro Ethernet - Port Jitter Probe Ingress Positive - Detail Chart. Reporter Set ESA Probe Tables and Charts Charts: Resource Time Series Chart (5 of 9 implemented) - Real-Time support Metrics Used in Report Ingress Positive Jitter Maximum Ingress Positive Jitter Minimum... -
Page 29: Ethernet Port Jitter Probe Summary Group
Ethernet Port Jitter Probe Summary Group Description AP Adva Optical Metro Ethernet - Port Jitter Probe Summary - GST. Reporter Set ESA Probe Tables and Charts Tables: GroupSummary (4 implemented) Metrics Used in Report Egress Negative Jitter Maximum Egress Negative Jitter Minimum Egress Negative Jitter Number Egress Negative Jitter Sum Egress Negative Jitter Variance... - Page 30 Chapter 2: Supported Reports NOC Reporting > Adva Optical Metro Ethernet > ESA Probes Drills Down To Ethernet Port Jitter Probe Summary Resource Drilled Down From None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
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Page 31: Ethernet Port Jitter Probe Summary Resource
Ethernet Port Jitter Probe Summary Resource Description AP Adva Optical Metro Ethernet - Port Jitter Probe Summary - RST. Reporter Set ESA Probe Tables and Charts Tables: ResSummary (4 implemented) Metrics Used in Report Egress Negative Jitter Maximum Egress Negative Jitter Minimum Egress Negative Jitter Number Egress Negative Jitter Sum Egress Negative Jitter Variance... - Page 32 Chapter 2: Supported Reports NOC Reporting > Adva Optical Metro Ethernet > ESA Probes > %(Element.NAME) Drills Down To Ethernet Port Jitter Probe Egress Negative Details Ethernet Port Jitter Probe Egress Positive Details Ethernet Port Jitter Probe Ingress Negative Details Ethernet Port Jitter Probe Ingress Positive Details Drilled Down From Ethernet Port Jitter Probe Summary Group...
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Page 33: Ethernet Port Latency Probe Delay Egress Oneway Details
Ethernet Port Latency Probe Delay Egress Oneway Details Description AP Adva Optical Metro Ethernet - Port Latency Probe Egress Oneway Delay - Detail Chart Reporter Set ESA Probe Tables and Charts Charts: Resource Time Series Chart (5 of 9 implemented) - Real-Time support Metrics Used in Report Egress Delay Variance Egress Oneway Delay Average... -
Page 34: Ethernet Port Latency Probe Delay Ingress Oneway Details
Chapter 2: Supported Reports Ethernet Port Latency Probe Delay Ingress Oneway Details Description AP Adva Optical Metro Ethernet - Port Latency Probe Ingress Oneway Delay - Detail Chart Reporter Set ESA Probe Tables and Charts Charts: Resource Time Series Chart (5 of 9 implemented) - Real-Time support Metrics Used in Report Ingress Delay Variance Ingress Oneway Delay Average... -
Page 35: Ethernet Port Latency Probe Delay Round Trip Details
Ethernet Port Latency Probe Delay Round Trip Details Description AP Adva Optical Metro Ethernet - Port Latency Probe Round Trip Delay - Detail Chart Reporter Set ESA Probe Tables and Charts Charts: Resource Time Series Chart (5 of 9 implemented) - Real-Time support Metrics Used in Report Round Trip Delay Average Round Trip Delay Maximum... -
Page 36: Ethernet Port Latency Probe Delay Summary Group
Chapter 2: Supported Reports Ethernet Port Latency Probe Delay Summary Group Description AP Adva Optical Metro Ethernet - Port Latency Probe Delay Summary - GST Reporter Set ESA Probe Tables and Charts Tables: GroupSummary (3 implemented) Metrics Used in Report Egress Delay Variance Egress Oneway Delay Average Egress Oneway Delay Maximum... - Page 37 Chapter 2: Supported Reports Drilled Down From None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
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Page 38: Ethernet Port Latency Probe Delay Summary Resource
Chapter 2: Supported Reports Ethernet Port Latency Probe Delay Summary Resource Description AP Adva Optical Metro Ethernet - Port Latency Probe Delay Summary - RST Reporter Set ESA Probe Tables and Charts Tables: ResSummary (3 implemented) Metrics Used in Report Egress Delay Variance Egress Oneway Delay Average Egress Oneway Delay Maximum... - Page 39 Chapter 2: Supported Reports Ethernet Port Latency Probe Delay Round Trip Details Drilled Down From Ethernet Port Latency Probe Delay Summary Group Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
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Page 40: Ethernet Port Latency Probe Error Details
Chapter 2: Supported Reports Ethernet Port Latency Probe Error Details Description AP Adva Optical Metro Ethernet - Port Latency Probe Error - Detail Chart Reporter Set ESA Probe Tables and Charts Charts: Resource Time Series Chart (4 of 8 implemented) - Real-Time support Metrics Used in Report Egress Erred Packets Egress Sync Errors... -
Page 41: Ethernet Port Latency Probe Loss Details
Ethernet Port Latency Probe Loss Details Description AP Adva Optical Metro Ethernet - Port Latency Probe Loss - Detail Chart Reporter Set ESA Probe Tables and Charts Charts: Resource Time Series Chart (6 of 8 implemented) - Real-Time support Metrics Used in Report Egress Loss Percentage Egress Lost Packets Egress Packets... -
Page 42: Ethernet Port Latency Probe Sequence Details
Chapter 2: Supported Reports Ethernet Port Latency Probe Sequence Details Description AP Adva Optical Metro Ethernet - Port Latency Probe Sequence - Detail Chart Reporter Set ESA Probe Tables and Charts Charts: Resource Time Series Chart (4 of 8 implemented) - Real-Time support Metrics Used in Report Late Packets Lost Packets... -
Page 43: Ethernet Port Latency Probe Summary Group
Ethernet Port Latency Probe Summary Group Description AP Adva Optical Metro Ethernet - Port Latency Probe Summary - GST Reporter Set ESA Probe Tables and Charts Tables: GroupSummary (3 implemented) Metrics Used in Report Egress Erred Packets Egress Loss Percentage Egress Lost Packets Egress Packets Egress Sync Errors... - Page 44 Chapter 2: Supported Reports Drilled Down From None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
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Page 45: Ethernet Port Latency Probe Summary Resource
Ethernet Port Latency Probe Summary Resource Description AP Adva Optical Metro Ethernet - Port Latency Probe Summary - RST Reporter Set ESA Probe Tables and Charts Tables: ResSummary (3 implemented) Metrics Used in Report Egress Erred Packets Egress Loss Percentage Egress Lost Packets Egress Packets Egress Sync Errors... - Page 46 Chapter 2: Supported Reports Drilled Down From Ethernet Port Latency Probe Summary Group Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
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Page 47: Ethernet Port Optical Environment Details
Ethernet Port Optical Environment Details Description AP Adva Optical Metro Ethernet - Per UNI Port Optical Environment - Detail Chart Reporter Set Tables and Charts Charts: Resource Time Series Chart (3 of 9 implemented) - Real-Time support Metrics Used in Report Laser Bias Current Received Power Transmitted Power... -
Page 48: Ethernet Port Optical Environment Summary Group
Chapter 2: Supported Reports Ethernet Port Optical Environment Summary Group Description AP Adva Optical Metro Ethernet - Per UNI Port Optical Environment - GST Reporter Set Tables and Charts Tables: Group Summary Table (1 of 2 implemented) Charts: Resource Distribution Chart (0 of 4 implemented) Metrics Used in Report Laser Bias Current Received Power... -
Page 49: Ethernet Port Optical Environment Summary Resource
Ethernet Port Optical Environment Summary Resource Description AP Adva Optical Metro Ethernet - Per UNI Port Optical Environment Reporter Set Tables and Charts Tables: Resource Summary Table (1 of 1 implemented) Charts: Resource Distribution Chart (0 of 2 implemented) Metrics Used in Report Laser Bias Current Received Power Transmitted Power... -
Page 50: Ethernet Port Throughput Details
Chapter 2: Supported Reports Ethernet Port Throughput Details Description AP Adva Optical Metro Ethernet - Per UNI Port Throughput - Detail Chart Reporter Set Tables and Charts Charts: Resource Time Series Chart (6 of 8 implemented) - Real-Time support Metrics Used in Report Egress Broadcast Frames Egress Frames Egress Multicast Frames... -
Page 51: Ethernet Port Throughput Summary Group
Ethernet Port Throughput Summary Group Description AP Adva Optical Metro Ethernet - Port Throughput Summary - GST Reporter Set Tables and Charts Tables: Group Summary Table (1 of 2 implemented) Charts: Resource Distribution Chart (0 of 4 implemented) Metrics Used in Report Egress Broadcast Frames Egress Frames Egress Multicast Frames... -
Page 52: Ethernet Port Throughput Summary Resource
Chapter 2: Supported Reports Ethernet Port Throughput Summary Resource Description AP Adva Optical Metro Ethernet - Per UNI Port Throughput Summary Reporter Set Tables and Charts Tables: Resource Summary Table (1 of 1 implemented) Charts: Resource Distribution Chart (0 of 2 implemented) Metrics Used in Report Egress Broadcast Frames Egress Frames... -
Page 53: Metro Ethernet Overview
Metro Ethernet Overview Description AP Adva Optical Metro Ethernet - Dashboard Reporter Set Metro Ethernet Dashboard Tables and Charts Tables: TopN (5 of 9 implemented) Charts: TopN (5 of 9 implemented) Metrics Used in Report Egress Loss Percentage Egress Throughput (bps) Ingress Loss Percentage Ingress Throughput (bps) Round Trip Delay Average... -
Page 54: Wan Uplink Optical Environment Details
Chapter 2: Supported Reports WAN Uplink Optical Environment Details Description AP Adva Optical Metro Ethernet - Uplink (Gig-E) Optical Environment Stats - Detail Chart Reporter Set Tables and Charts Charts: Resource Time Series Chart (3 of 9 implemented) - Real-Time support Metrics Used in Report Laser Bias Current Received Power... -
Page 55: Wan Uplink Optical Environment Summary Group
WAN Uplink Optical Environment Summary Group Description AP Adva Optical Metro Ethernet - Uplink (Gig-E) Optical Environment Stats - GST Reporter Set Tables and Charts Tables: Group Summary Table (1 of 2 implemented) Charts: Resource Distribution Chart (0 of 4 implemented) Metrics Used in Report Laser Bias Current Received Power... -
Page 56: Wan Uplink Optical Environment Summary Resource
Chapter 2: Supported Reports WAN Uplink Optical Environment Summary Resource Description AP Adva Optical Metro Ethernet - Uplink (Gig-E) Optical Environment Stats - RST Reporter Set Tables and Charts Tables: Resource Summary Table (1 of 1 implemented) Charts: Resource Distribution Chart (0 of 2 implemented) Metrics Used in Report Laser Bias Current Received Power... -
Page 57: Wan Uplink Port Throughput Details
WAN Uplink Port Throughput Details Description AP Adva Optical Metro Ethernet - Uplink (Gig-E) Traffic (PB enabled) - Detail Chart Reporter Set Tables and Charts Charts: Resource Time Series Chart (6 of 8 implemented) - Real-Time support Metrics Used in Report Egress Bitrate Egress Broadcast Egress Bytes... -
Page 58: Wan Uplink Port Throughput Summary Group
Chapter 2: Supported Reports WAN Uplink Port Throughput Summary Group Description AP Adva Optical Metro Ethernet - Uplink (Gig-E) Throughput (PB enabled) - GST Reporter Set Tables and Charts Tables: Group Summary Table (1 of 2 implemented) Charts: Resource Distribution Chart (0 of 4 implemented) Metrics Used in Report Egress Bitrate Egress Broadcast... -
Page 59: Wan Uplink Port Throughput Summary Resource
WAN Uplink Port Throughput Summary Resource Description AP Adva Optical Metro Ethernet - Uplink (Gig-E) Traffic (PB enabled) Summary Reporter Set Tables and Charts Tables: Resource Summary Table (1 of 1 implemented) Charts: Resource Distribution Chart (0 of 2 implemented) Metrics Used in Report Egress Bitrate Egress Broadcast... - Page 60 Chapter 2: Supported Reports NOTES Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
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Page 61: Chapter 3: Devices And Services
Chapter 3: Devices and Services This chapter discusses the following topics: Topic Overview Summary of Device Technology Supported MIBs Overview This chapter provides a summary of the Adva Optical Metro Ethernet device technology and the associated Management Information Bases (MIBs), which the Adva Optical Metro Ethernet Technology Pack is designed to support. -
Page 62: Supported Mibs
Chapter 3: Devices and Services Supported MIBs The Adva Optical Metro Ethernet Technology Pack uses the following MIBs for inventory and data collection: • ethernetServices.my • ethernetServicesPB.my • covEsa.my Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X... - Page 63 Chapter 3: Devices and Services NOTES Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
- Page 64 Chapter 3: Devices and Services Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
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Page 65: Chapter 4: Element And Sub-Element Properties
Chapter 4: Element and Sub-Element Properties This chapter discusses the following topics: Topic Overview Adva Optical Metro Ethernet Device Element Properties Adva Optical Metro Ethernet Device Sub-Element Properties Overview A Netcool/Proviso property is an attribute or characteristic of an element or sub-element. Typically, a Netcool/Proviso Technology Pack uses an inventory process to collect information generated by the devices, interfaces, and services operating in the technology environment it supports. -
Page 66: Adva Optical Metro Ethernet Device Sub-Element Properties
Chapter 4: Element and Sub-Element Properties Element Property Description A string that identifies the manufacturer of or some other information about the sysDescr network device to which the SNMP Agent element maps. For example, "Cisco Systems ws-C5000". A string that identifies the name of the computer or server to which the SNMP Agent sysName element maps. -
Page 67: Element.name
Element.NAME Description The Name of the Element. Captured in Discovery Formulas None. Used in CME Formulas None. Used in Reports None. Used in Grouping Rules NOC Reporting Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X Chapter 4: Element and Sub-Element Properties... -
Page 68: Element.state
Chapter 4: Element and Sub-Element Properties Element.STATE Description This property indicates if an element is active or not. The value should be ON for collection and discovery to occur. Captured in Discovery Formulas None. Used in CME Formulas None. Used in Reports None. -
Page 69: Esaprobehistoryindex
EsaProbeHistoryIndex Description An arbitrary integer index value used to uniquely identify this ESA Probe History entry. Captured in Discovery Formulas ESAProbes Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X Chapter 4: Element and Sub-Element Properties... -
Page 70: Esaprobeid
Chapter 4: Element and Sub-Element Properties EsaProbeId Description A unique identifier to distinguish the ESA Probe. Captured in Discovery Formulas ESAProbes Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X... -
Page 71: Lanport
LanPort Description An integer index value used to uniquely identify this Ethernet Services interface within the ethernetPBPortSvcTable. Captured in Discovery Formulas LanPort Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X Chapter 4: Element and Sub-Element Properties... -
Page 72: Lanporthistoryindex
Chapter 4: Element and Sub-Element Properties LanPortHistoryIndex Description An arbitrary integer index value used to uniquely identify the Ethernet Services history statistics entry. Captured in Discovery Formulas LanPort Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. -
Page 73: Lanportstatsindex
LanPortStatsIndex Description An arbitrary integer index vlaue used to uniquely identify the Ethernet Services statistics entry. Captured in Discovery Formulas LanPort Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X Chapter 4: Element and Sub-Element Properties... -
Page 74: Mecustomername
Chapter 4: Element and Sub-Element Properties MECustomerName Description The name of the customer. Captured in Discovery Formulas LanPort WanPort Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X... -
Page 75: Meesa_Destinationip
MEEsa_DestinationIP Description A variable that specifies the Reflector’s destination IP Address. This IP Address is used in the IP header of the ESA Probe generated packets as the destination address. Captured in Discovery Formulas ESAProbes Used in CME Formulas None. Used in Reports Ethernet Port Jitter Probe Egress Negative Details Ethernet Port Jitter Probe Egress Positive Details... -
Page 76: Meesa_Probepacketinterval
Chapter 4: Element and Sub-Element Properties MEEsa_ProbePacketInterval Description Specifies the interval (in milliseconds) between packet generation. A non-zero value must be specified. Captured in Discovery Formulas ESAProbes Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. -
Page 77: Meesa_Probepackets
MEEsa_ProbePackets Description Specifies the number of packets within a sample run for ESA traffic generation. A non-zero value must be specified. Captured in Discovery Formulas ESAProbes Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X Chapter 4: Element and Sub-Element Properties... -
Page 78: Meesa_Probepacketsize
Chapter 4: Element and Sub-Element Properties MEEsa_ProbePacketSize Description Specifies the fixed-length frame size (in bytes) for ESA traffic generation. A default value of 64 bytes is used unless otherwise specified. Captured in Discovery Formulas ESAProbes Used in CME Formulas None. Used in Reports None. -
Page 79: Meesa_Probeportid
MEEsa_ProbePortId Description This object has the same value as ifIndex for Ethernet Port, on which the service to be monitored resides. Captured in Discovery Formulas ESAProbes Used in CME Formulas None. Used in Reports Ethernet Port Jitter Probe Egress Negative Details Ethernet Port Jitter Probe Egress Positive Details Ethernet Port Jitter Probe Ingress Negative Details Ethernet Port Jitter Probe Ingress Positive Details... -
Page 80: Meesa_Probepriority
Chapter 4: Element and Sub-Element Properties MEEsa_ProbePriority Description Specifies the Priority Value for esaProbePrioMapMode as TOS/DSCP. Captured in Discovery Formulas ESAProbes Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X... -
Page 81: Meesa_Probestoragetype
MEEsa_ProbeStorageType Description The type of storage configured for this entry. Captured in Discovery Formulas ESAProbes Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X Chapter 4: Element and Sub-Element Properties... -
Page 82: Meesa_Protocol
Chapter 4: Element and Sub-Element Properties MEEsa_Protocol Description Protocol used in ESA Probe messages. Note that an udpEcho protocol can be used for standard ESA - in other words the reflector can be any node running the UDP Echo service (in this case only round-trip delay time metrics are available). -
Page 83: Meesa_Servicetype
MEEsa_ServiceType Description Specifies whether or not to use VLAN tagged or untagged ESA traffic generation on the Probe. Captured in Discovery Formulas ESAProbes Used in CME Formulas None. Used in Reports Ethernet Port Jitter Probe Egress Negative Details Ethernet Port Jitter Probe Egress Positive Details Ethernet Port Jitter Probe Ingress Negative Details Ethernet Port Jitter Probe Ingress Positive Details Ethernet Port Latency Probe Delay Egress Oneway Details... -
Page 84: Meesa_Sourceip
Chapter 4: Element and Sub-Element Properties MEEsa_SourceIP Description Specifies the Probe’s source IP Address. This IP Address is used as the source address in the IP header of the ESA Probe generated packets. Captured in Discovery Formulas ESAProbes Used in CME Formulas None. -
Page 85: Meesa_Vlanid
MEEsa_VlanId Description Specifies the monitored service’s VLAN tag. It is valid if esaProbeSvcType is specified as VLAN tagged. Captured in Discovery Formulas ESAProbes Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X Chapter 4: Element and Sub-Element Properties... -
Page 86: Meesa_Vlanpriority
Chapter 4: Element and Sub-Element Properties MEEsa_VlanPriority Description Specifies the monitored service’s VLAN priority. It is valid if esaProbeSvcType is specified as VLAN tagged. Captured in Discovery Formulas ESAProbes Used in CME Formulas None. Used in Reports Ethernet Port Jitter Probe Egress Negative Details Ethernet Port Jitter Probe Egress Positive Details Ethernet Port Jitter Probe Ingress Negative Details Ethernet Port Jitter Probe Ingress Positive Details... -
Page 87: Mesitename
MESiteName Description The Name of the Site. Captured in Discovery Formulas LanPort Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X Chapter 4: Element and Sub-Element Properties... -
Page 88: Meuni_Cbs
Chapter 4: Element and Sub-Element Properties MEUNI_CBS Description This object allows configuration of the Commited Burst Size (CBS) on the Ethernet port. It is only applicable in connection-oriented TLS mode. Captured in Discovery Formulas LanPort Used in CME Formulas None. Used in Reports Ethernet Port Drops and Discards Details Ethernet Port Throughput Details... -
Page 89: Meuni_Cir
MEUNI_CIR Description Enables configuration of the Commited Information Rate(CIR) on the Ethernet port. This object is only applicable in connection-oriented TLS mode. Captured in Discovery Formulas LanPort Used in CME Formulas None. Used in Reports Ethernet Port Drops and Discards Details Ethernet Port Throughput Details Used in Grouping Rules None. -
Page 90: Meuni_Ebs
Chapter 4: Element and Sub-Element Properties MEUNI_EBS Description This object allows SNMP management entities to set the Excess Burst Size (EBS) of the Ethernet Service Port, when the port is in connection-oriented TLS mode. Captured in Discovery Formulas LanPort Used in CME Formulas None. -
Page 91: Meuni_Egresscbs
MEUNI_EgressCBS Description This object allows configuration of the Egress Commited Burst Size (CBS) on Ethernet port. It is only applicable in connection-oriented TLS mode and is valid only if ethernetPBPortSvcEgressRateLimitingEnabled is TRUE. Captured in Discovery Formulas LanPort Used in CME Formulas None. -
Page 92: Meuni_Egresscir
Chapter 4: Element and Sub-Element Properties MEUNI_EgressCIR Description This object is applicable only for connection-oriented TLS mode.It allows for configuration of the Egress Commited Information Rate (CIR) on Ethernet port. It is valid only if ethernetPBPortSvcEgressRateLimitingEnabled is TRUE. Captured in Discovery Formulas LanPort Used in CME Formulas None. -
Page 93: Meuni_Egressebs
MEUNI_EgressEBS Description This object allows SNMP management entities to set the Excess Burst Size (EBS) of the Ethernet Service Port, when the port is in connection-oriented TLS mode. This object is valid only if ethernetPBPortSvcEgressRateLimitingEnabled is TRUE. Captured in Discovery Formulas LanPort Used in CME Formulas None. -
Page 94: Meuni_Egresseir
Chapter 4: Element and Sub-Element Properties MEUNI_EgressEIR Description This object is applicable only for connection-oriented TLS mode. It allows for configuration of the Egress Peak Information Rate(EIR) on Ethernet port. It is valid only if ethernetPBPortSvcEgressRateLimitingEnabled is TRUE. Captured in Discovery Formulas LanPort Used in CME Formulas None. -
Page 95: Meuni_Eir
MEUNI_EIR Description This object allows SNMP management entities to set the Excess Information Rate (EIR) of the Ethernet Service Port, when the port is in connection-oriented TLS mode. Captured in Discovery Formulas LanPort Used in CME Formulas None. Used in Reports Ethernet Port Drops and Discards Details Ethernet Port Throughput Details Used in Grouping Rules... -
Page 96: Meuni_Interfacetype
Chapter 4: Element and Sub-Element Properties MEUNI_InterfaceType Description Specifies a transparent (TLS) service or VLAN/priority classified service (TVLS). This object is only applicable when ethernetPBPortSvcPortMode is connection-oriented. Captured in Discovery Formulas LanPort Used in CME Formulas None. Used in Reports Ethernet Port Drops and Discards Details Ethernet Port Optical Environment Details Ethernet Port Throughput Details... -
Page 97: Meuni_Portid
MEUNI_PortID Description An integer index value used to uniquely identify the Ethernet Services interface. This object has the same value as ifIndex for Ethernet Port. Captured in Discovery Formulas LanPort Used in CME Formulas None. Used in Reports Ethernet Port Drops and Discards Details Ethernet Port Optical Environment Details Ethernet Port Throughput Details Used in Grouping Rules... -
Page 98: Meuni_Portmode
Chapter 4: Element and Sub-Element Properties MEUNI_PortMode Description This object allows SNMP management entities to indicate whether the Ethernet Service Port is connected or not. Captured in Discovery Formulas LanPort Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. -
Page 99: Meuni_Portspeed
MEUNI_PortSpeed Description This object allows configuration of the port speed. Speed-auto enables auto-negotiation and advertises all speeds (10M Half Duplex, 10M Full Duplex, 100M Half Duplex, 100M Full Duplex). Speed-auto with specific settings enables auto-negotiation for that specific speed/duplexicity only (for example, speed-auto-10M-half is auto negotiation enabled with advertisement for 10M Half Duplex). -
Page 100: Meuni_Priority
Chapter 4: Element and Sub-Element Properties MEUNI_Priority Description This object specifies the port Priority on the Ethernet port. Captured in Discovery Formulas LanPort Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X... -
Page 101: Meuni_Priovid
MEUNI_PrioVID Description This object specifies the Priority VLAN Id on the Ethernet port. Captured in Discovery Formulas LanPort Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X Chapter 4: Element and Sub-Element Properties... -
Page 102: Meuni_Taggedframes
Chapter 4: Element and Sub-Element Properties MEUNI_TaggedFrames Description This object determines whether Port supports Tagged Frames. It is not applicable in connection-less port mode. Captured in Discovery Formulas LanPort Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. -
Page 103: Meuni_Vlanid
MEUNI_VlanId Description This object is only applicable for a connection-oriented, TVLS service. It specifies the port VLAN Id on Ethernet port. Captured in Discovery Formulas LanPort Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X Chapter 4: Element and Sub-Element Properties... -
Page 104: Mevendorname
Chapter 4: Element and Sub-Element Properties MEVendorName Description The Name of the Vendor. Captured in Discovery Formulas LanPort WanPort Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X... -
Page 105: Mewan_Interfacetype
MEWAN_InterfaceType Description Specifies the Type of Ethernet Media. Captured in Discovery Formulas WanPort Used in CME Formulas None. Used in Reports WAN Uplink Optical Environment Details WAN Uplink Port Throughput Details Used in Grouping Rules None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X Chapter 4: Element and Sub-Element Properties... -
Page 106: Mewan_Portid
Chapter 4: Element and Sub-Element Properties MEWAN_PortId Description This object has the same value as ifIndex for Ethernet WAN Port. An integer index value used to uniquely identify this Ethernet WAN interface. Captured in Discovery Formulas WanPort Used in CME Formulas None. -
Page 107: State
STATE Description Indicates whether the entry is active. Captured in Discovery Formulas None. Used in CME Formulas None. Used in Reports None. Used in Grouping Rules NOC Reporting Sub-Element Collect Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X Chapter 4: Element and Sub-Element Properties... -
Page 108: Wanport
Chapter 4: Element and Sub-Element Properties WanPort Description An integer index value used to uniquely identify an Ethernet WAN interface. Captured in Discovery Formulas WanPort Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X... -
Page 109: Wanporthistoryindex
WanPortHistoryIndex Description An arbitrary integer index value used to uniquely identify the Ethernet WAN statistics history entry. Captured in Discovery Formulas WanPort Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X Chapter 4: Element and Sub-Element Properties... -
Page 110: Wanportstatsindex
Chapter 4: Element and Sub-Element Properties WanPortStatsIndex Description An arbitrary integer index value used to uniquely identify the Ethernet WAN statistics entry. Captured in Discovery Formulas WanPort Used in CME Formulas None. Used in Reports None. Used in Grouping Rules None. - Page 111 Chapter 4: Element and Sub-Element Properties NOTES Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
- Page 112 Chapter 4: Element and Sub-Element Properties Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
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Page 113: Chapter 5: Sub-Element Grouping Rules
Chapter 5: Sub-Element Grouping Rules This chapter discusses the following topics: Topic Overview NOC Reporting Grouping Rules Sub-Element Collect Grouping Rules Overview Typically, a Netcool/Proviso Technology Pack defines sub-element grouping rules. Grouping rules organize and filter networking data into a structure that makes it easier to collect data on thousands or millions of resources. Sub-element grouping rules organize data in tree structures. -
Page 114: Sub-Element Collect Grouping Rules
Chapter 5: Sub-Element Grouping Rules The branches are described as follows: Branch Name Description Adva Optical Metro Type: Static. Ethernet Purpose: Organization only (contains all Adva Optical Metro Ethernet sub-elements). WAN Port Type: Rule. Purpose: Filter by condition. [%(MEWAN_PortID) IS NOT NULL] Ethernet Port Type: Rule. - Page 115 Branch Name Description Type: Rule. Purpose: Filters by condition: [%(MEWAN_PortId) IS NOT NULL] Contains Adva Optical Metro Ethernet WAN sub-elements. Type: Rule. Purpose: Filters by condition: [%(MEUNI_PortID) IS NOT NULL] Contains Adva Optical Metro Ethernet UNI sub-elements. ESA Probes Type: Rule. Purpose: Filters by condition: [%(MEEsa_ProbePortId) IS NOT NULL] Contains Adva Optical Metro Ethernet ESA Probes sub-elements.
- Page 116 Chapter 5: Sub-Element Grouping Rules Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
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Page 117: Chapter 6: Defined Resources
Sub-Element Types Overview A Netcool/Proviso resource is a network element or sub-element, such as a router or a hub. Typically, an IBM Technology Pack defines a set of Netcool/Proviso elements, sub-elements, and properties that map to specific devices and services operating in a network. These resources allow IBM support engineers to: •... -
Page 118: Sub-Element Types
Chapter 6: Defined Resources Resource Description Sub-element An element has one or more sub-elements for statistics that apply to the Adva Optical Metro Ethernet technology. The sub-element name identifies a sub-element that resides in the database. Sub-element names are often used in reports to identify specific entities. The sub-element name is constructed from the element name plus the instance name. - Page 119 — References to element names, instance names, and other variables are presented in italic type (for example, _< ElementName InstanceName • The Properties row lists the Adva Optical Metro Ethernet Technology Pack properties associated with the particular sub-element type. For descriptions of the properties, see the chapter on element and sub-element properties.
- Page 120 Chapter 6: Defined Resources Latency and Jitter Probes per COS-VLAN-Port (UNI-N) Adva Family Sub-element name: ElementName_EsaProbeId<EsaProbeId>EsaProbeHistoryIndex<EsaProbeHistoryIndex> Naming Instance name: Structure Label: EsaProbeId Properties EsaProbeHistoryIndex ElementName EsaProbeId Comments EsaProbeHistoryIndex ESA Probe History entry. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X EsaProbeId<EsaProbeId>EsaProbeHistoryIndex<EsaProbeHistoryIndex>...
- Page 121 Chapter 6: Defined Resources NOTES Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
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Page 123: Chapter 7: Snmp Collection Formulas
Chapter 7: SNMP Collection Formulas This chapter discusses the following topics: Topic Overview Data Collection Formulas and Metrics Formula Reference Overview The Adva Optical Metro Ethernet Technology Pack provides SNMP collection formulas specific to the associated network devices and technologies on which it operates. These SNMP collection formulas are installed with the Adva Optical Metro Ethernet Technology Pack. -
Page 124: Formula Reference
Chapter 7: SNMP Collection Formulas Generic and CME formulas may not be included in this technology pack. Note: Metrics may appear in DataView reports as raw data, or they may be further processed by the Complex Metric Engine — for example, to produce data aggregations over time. To learn where the metrics generated by the formulas in this chapter are used, see the chapter on supported reports in this guide. -
Page 125: Egress Bitrate
Egress Bitrate Type SNMP (collection) Description The average bit rate transmitted over a specific interval in the egress direction, based on Bytes Sent. If there is link down during the interval, the bin is not accessible. Syntax Dim I1 AS Integer Default * NAME WanIndex; Dim I2 AS Integer Default * NAME WanStatsIndex;... -
Page 126: Egress Broadcast Frames
Chapter 7: SNMP Collection Formulas Egress Broadcast Frames Type SNMP (collection) Description The Broadcast Frames Sent in the egress direction. Syntax Dim I1 AS Integer Default * NAME PortSvcIndex; Dim I2 AS Integer Default * NAME PortSvcStatsIndex; Dim I3 AS Integer Default * NAME PortSvcHistoryIndex; ethernetPBPortSvcHistoryBFTx.%I1.%I2.%I3;... -
Page 127: Egress Broadcast
Egress Broadcast Type SNMP (collection) Description The Broadcast Frames Sent in the egress direction. If there is link down during the interval, the bin is not accessible. Syntax Dim I1 AS Integer Default * NAME WanIndex; Dim I2 AS Integer Default * NAME WanStatsIndex; Dim I3 AS Integer Default * NAME WanHistoryIndex;... -
Page 128: Egress Bytes
Chapter 7: SNMP Collection Formulas Egress Bytes Type SNMP (collection) Description The Bytes Sent in the egress direction. If there is link down during the interval, the bin is not accessible. Syntax Dim I1 AS Integer Default * NAME WanIndex; Dim I2 AS Integer Default * NAME WanStatsIndex;... -
Page 129: Egress De Dropped Frames
Egress DE Dropped Frames Type SNMP (collection) Description Only applicable when Port is in Connection-oriented, TLS mode. The number of Frames Marked Yello and Discarded in the egress direction. Syntax Dim I1 AS Integer Default * NAME PortSvcIndex; Dim I2 AS Integer Default * NAME PortSvcStatsIndex; Dim I3 AS Integer Default * NAME PortSvcHistoryIndex;... -
Page 130: Egress De Frames
Chapter 7: SNMP Collection Formulas Egress DE Frames Type SNMP (collection) Description Only applicable when Port is in Connection-oriented, TLS mode. The number of Frames Marked Yello in the egress direction. Syntax Dim I1 AS Integer Default * NAME PortSvcIndex; Dim I2 AS Integer Default * NAME PortSvcStatsIndex;... -
Page 131: Egress Delay Variance
Egress Delay Variance Type SNMP (collection) Description Transmitted packets in Variance of one way delay from source to destination in history interval. Syntax Dim I1 As DisplayString Default * NAME esaProbeId; Dim I2 As Integer Default * NAME esaProbeHistoryIndex; (esaProbeHistorySumOfSqOnewayP2RDelay.%I1.%I2 - (esaProbeHistorySumOnewayP2RDelay.%I1.%I2 * esaProbeHistorySumOnewayP2RDelay.%I1.%I2))/distrib((esaProbeHistoryP2RPkts.%I1.% I2 - 1), ">0:*");... -
Page 132: Egress Discarded Frames
Chapter 7: SNMP Collection Formulas Egress Discarded Frames Type SNMP (collection) Description Only applicable when Port is in Connection-oriented, TLS mode. The number of Frames Marked Red and Discarded in the egress direction. Syntax Dim I1 AS Integer Default * NAME PortSvcIndex; Dim I2 AS Integer Default * NAME PortSvcStatsIndex;... -
Page 133: Egress Erred Packets
Egress Erred Packets Type SNMP (collection) Description The total number of Packets in the history interval, for which there was a problem in transmission. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryP2RErredPkts.%I1.%I2;... -
Page 134: Egress Frames
Chapter 7: SNMP Collection Formulas Egress Frames Type SNMP (collection) Description The average bit rate transmitted over a specific interval in the egress direction, based on EtherStats Octets. Syntax Dim I1 AS Integer Default * NAME PortSvcIndex; Dim I2 AS Integer Default * NAME PortSvcStatsIndex; Dim I3 AS Integer Default * NAME PortSvcHistoryIndex;... -
Page 135: Egress Loss Percentage
Egress Loss Percentage Type SNMP (collection) Description The number of Lost Pkts in percentage from probe to reflector in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; 100 * esaProbeHistoryP2RLostPkts.%I1.%I2 / distrib(esaProbeHistoryP2RPkts.%I1.%I2, ">0:*");... -
Page 136: Egress Lost Packets
Chapter 7: SNMP Collection Formulas Egress Lost Packets Type SNMP (collection) Description The number of Lost Pkts from probe to reflector in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryP2RLostPkts.%I1.%I2;... -
Page 137: Egress Multicast Frames
Egress Multicast Frames Type SNMP (collection) Description The Multicast Frames Sent in the egress direction. Syntax Dim I1 AS Integer Default * NAME PortSvcIndex; Dim I2 AS Integer Default * NAME PortSvcStatsIndex; Dim I3 AS Integer Default * NAME PortSvcHistoryIndex; ethernetPBPortSvcHistoryMFTx.%I1.%I2.%I3;... -
Page 138: Egress Multicast
Chapter 7: SNMP Collection Formulas Egress Multicast Type SNMP (collection) Description The Multicast Frames Sent in the egress direction. If there is link down during the interval, the bin is not accessible. Syntax Dim I1 AS Integer Default * NAME WanIndex; Dim I2 AS Integer Default * NAME WanStatsIndex;... -
Page 139: Egress Negative Jitter Maximum
Egress Negative Jitter Maximum Type SNMP (collection) Description The maximum negative one-way jitter from source to destination in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryMaxNegP2RJitter.%I1.%I2; Generic Database Alias None. -
Page 140: Egress Negative Jitter Minimum
Chapter 7: SNMP Collection Formulas Egress Negative Jitter Minimum Type SNMP (collection) Description The minimum negative one-way jitter from source to destination in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryMinNegP2RJitter.%I1.%I2;... -
Page 141: Egress Negative Jitter Number
Egress Negative Jitter Number Type SNMP (collection) Description The total number of negative one-way jitters from source to destination in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryNumNegP2RJitter.%I1.%I2;... -
Page 142: Egress Negative Jitter Sum
Chapter 7: SNMP Collection Formulas Egress Negative Jitter Sum Type SNMP (collection) Description The total sum of negative one-way jitters from source to destination in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistorySumNegP2RJitter.%I1.%I2;... -
Page 143: Egress Negative Jitter Variance
Egress Negative Jitter Variance Type SNMP (collection) Description Transmitted packets in Variance of negative one-way jitters from source to destination in the history interval. Syntax Dim I1 As DisplayString Default * NAME esaProbeId; Dim I2 As Integer Default * NAME esaProbeHistoryIndex; (esaProbeHistorySumOfSqNegP2RJitter.%I1.%I2 - (esaProbeHistorySumNegP2RJitter.%I1.%I2 * esaProbeHistorySumNegP2RJitter.%I1.%I2))/distrib((esaProbeHistoryR2PPkts.%I1.%I2... -
Page 144: Egress Oneway Delay Average
Chapter 7: SNMP Collection Formulas Egress Oneway Delay Average Type SNMP (collection) Description The average one-way source to destination delay (in milliseconds) across all packets received in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryAvgOnewayP2RDelay.%I1.%I2;... -
Page 145: Egress Oneway Delay Maximum
Egress Oneway Delay Maximum Type SNMP (collection) Description The maximum one-way source to destination delay (in milliseconds) across all packets received in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryMaxOnewayP2RDelay.%I1.%I2;... -
Page 146: Egress Oneway Delay Minimum
Chapter 7: SNMP Collection Formulas Egress Oneway Delay Minimum Type SNMP (collection) Description The minimum one-way source to destination delay (in milliseconds) across all packets received in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryMinOnewayP2RDelay.%I1.%I2;... -
Page 147: Egress Oneway Delay Sum
Egress Oneway Delay Sum Type SNMP (collection) Description The sum total of one-way delay from source to destination in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistorySumOnewayP2RDelay.%I1.%I2; Generic Database Alias None. -
Page 148: Egress Packets
Chapter 7: SNMP Collection Formulas Egress Packets Type SNMP (collection) Description The total number of Transmitted Packets in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryP2RPkts.%I1.%I2; Generic Database Alias None. -
Page 149: Egress Positive Jitter Maximum
Egress Positive Jitter Maximum Type SNMP (collection) Description The maximum positive one-way jitter from source to destination in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryMaxPosP2RJitter.%I1.%I2; Generic Database Alias None. -
Page 150: Egress Positive Jitter Minimum
Chapter 7: SNMP Collection Formulas Egress Positive Jitter Minimum Type SNMP (collection) Description The minimum positive one-way jitter from source to destination in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryMinPosP2RJitter.%I1.%I2;... -
Page 151: Egress Positive Jitter Number
Egress Positive Jitter Number Type SNMP (collection) Description The total number of positive one-way jitters from source to destination in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryNumPosP2RJitter.%I1.%I2;... -
Page 152: Egress Positive Jitter Sum
Chapter 7: SNMP Collection Formulas Egress Positive Jitter Sum Type SNMP (collection) Description The total sum of positive one-way jitters from source to destination in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistorySumPosP2RJitter.%I1.%I2;... -
Page 153: Egress Positive Jitter Variance
Egress Positive Jitter Variance Type SNMP (collection) Description Transmitted packet Variance of positive one-way jitters from source to destination in the history interval. Syntax Dim I1 As DisplayString Default * NAME esaProbeId; Dim I2 As Integer Default * NAME esaProbeHistoryIndex; (esaProbeHistorySumOfSqPosP2RJitter.%I1.%I2 - (esaProbeHistorySumPosP2RJitter.%I1.%I2 * esaProbeHistorySumPosP2RJitter.%I1.%I2))/distrib((esaProbeHistoryR2PPkts.%I1.%I2... -
Page 154: Egress Sync Errors
Chapter 7: SNMP Collection Formulas Egress Sync Errors Type SNMP (collection) Description The number of Synchronization Errors from probe to reflector in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryP2RSyncErrs.%I1.%I2;... -
Page 155: Egress Tail Drop (Frames)
Egress Tail Drop (Frames) Type SNMP (collection) Description Only applicable when Port is in Connection-oriented, TLS mode. The Frames Tail Dropped in the egress direction. Syntax Dim I1 AS Integer Default * NAME PortSvcIndex; Dim I2 AS Integer Default * NAME PortSvcStatsIndex; Dim I3 AS Integer Default * NAME PortSvcHistoryIndex;... -
Page 156: Egress Throughput (Bps)
Chapter 7: SNMP Collection Formulas Egress Throughput (bps) Type SNMP (collection) Description The average bit rate transmitted over a specific interval in the egress direction, based on EtherStats Octets. Syntax Dim I1 AS Integer Default * NAME PortSvcIndex; Dim I2 AS Integer Default * NAME PortSvcStatsIndex; Dim I3 AS Integer Default * NAME PortSvcHistoryIndex;... -
Page 157: Egress Unicast Frames
Egress Unicast Frames Type SNMP (collection) Description The Unicast Frames Sent in the egress direction. Syntax Dim I1 AS Integer Default * NAME PortSvcIndex; Dim I2 AS Integer Default * NAME PortSvcStatsIndex; Dim I3 AS Integer Default * NAME PortSvcHistoryIndex; ethernetPBPortSvcHistoryUFTx.%I1.%I2.%I3;... -
Page 158: Egress Unicast
Chapter 7: SNMP Collection Formulas Egress Unicast Type SNMP (collection) Description The Unicast Frames Sent in the egress direction If there is link down during the interval, the bin is not accessible. Syntax Dim I1 AS Integer Default * NAME WanIndex; Dim I2 AS Integer Default * NAME WanStatsIndex;... -
Page 159: Ingress Bitrate
Ingress Bitrate Type SNMP (collection) Description The average bit rate received over the specific interval in the ingress direction. If there is link down during the interval, the bin is not accessible. This counter is valid for all modes of the ethernet interface. In case of transparent In case of transparent ethernet service, this counter is based on RMON etherStatsOctets. -
Page 160: Ingress De Dropped Frames
Chapter 7: SNMP Collection Formulas Ingress DE Dropped Frames Type SNMP (collection) Description Only applicable when Port is in Connection-oriented, TLS mode. The number of Frames Marked Yello and Discarded in the ingress direction. Syntax Dim I1 AS Integer Default * NAME PortSvcIndex; Dim I2 AS Integer Default * NAME PortSvcStatsIndex;... -
Page 161: Ingress De Frames
Ingress DE Frames Type SNMP (collection) Description Only applicable when Port is in Connection-oriented, TLS mode. The number of Frames Marked Yello in the ingress direction. Syntax Dim I1 AS Integer Default * NAME PortSvcIndex; Dim I2 AS Integer Default * NAME PortSvcStatsIndex; Dim I3 AS Integer Default * NAME PortSvcHistoryIndex;... -
Page 162: Ingress Delay Variance
Chapter 7: SNMP Collection Formulas Ingress Delay Variance Type SNMP (collection) Description Received packets in Variance of one-way delay from destination to source in the history interval Syntax Dim I1 As DisplayString Default * NAME esaProbeId; Dim I2 As Integer Default * NAME esaProbeHistoryIndex; (esaProbeHistorySumOfSqOnewayR2PDelay.%I1.%I2 - (esaProbeHistorySumOnewayR2PDelay.%I1.%I2 * esaProbeHistorySumOnewayR2PDelay.%I1.%I2))/distrib((esaProbeHistoryR2PPkts.%I1.%... -
Page 163: Ingress Discarded Frames
Ingress Discarded Frames Type SNMP (collection) Description Only applicable when Port is in Connection-oriented, TLS mode. The number of Frames Marked Red and Discarded in the ingress direction. Syntax Dim I1 AS Integer Default * NAME PortSvcIndex; Dim I2 AS Integer Default * NAME PortSvcStatsIndex; Dim I3 AS Integer Default * NAME PortSvcHistoryIndex;... -
Page 164: Ingress Erred Packets
Chapter 7: SNMP Collection Formulas Ingress Erred Packets Type SNMP (collection) Description The total number of Received Packets in the history interval, which had protocol errors or timestamp synchronization problems. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryR2PErredPkts.%I1.%I2;... -
Page 165: Ingress Loss Percentage
Ingress Loss Percentage Type SNMP (collection) Description The number of Lost Pkts (as a percentage) from reflector to probe in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; 100 * esaProbeHistoryR2PLostPkts.%I1.%I2 / distrib(esaProbeHistoryR2PPkts.%I1.%I2, ">0:*");... -
Page 166: Ingress Lost Packets
Chapter 7: SNMP Collection Formulas Ingress Lost Packets Type SNMP (collection) Description The number of Lost Pkts from reflector to probe in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryR2PLostPkts.%I1.%I2;... -
Page 167: Ingress Negative Jitter Maximum
Ingress Negative Jitter Maximum Type SNMP (collection) Description The maximum negative one-way jitter from destination to source in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryMaxNegR2PJitter.%I1.%I2; Generic Database Alias None. -
Page 168: Ingress Negative Jitter Minimum
Chapter 7: SNMP Collection Formulas Ingress Negative Jitter Minimum Type SNMP (collection) Description The minimum negative one-way jitter from destination to source in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryMinNegR2PJitter.%I1.%I2;... -
Page 169: Ingress Negative Jitter Number
Ingress Negative Jitter Number Type SNMP (collection) Description The total number of negative one-way jitters from destination to source in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryNumNegR2PJitter.%I1.%I2;... -
Page 170: Ingress Negative Jitter Sum
Chapter 7: SNMP Collection Formulas Ingress Negative Jitter Sum Type SNMP (collection) Description The total sum of negative one-way jitters from destination to source in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistorySumNegR2PJitter.%I1.%I2;... -
Page 171: Ingress Negative Jitter Variance
Ingress Negative Jitter Variance Type SNMP (collection) Description Received packets in Variance of negative one-way jitters from destination to source in the history interval. Syntax Dim I1 As DisplayString Default * NAME esaProbeId; Dim I2 As Integer Default * NAME esaProbeHistoryIndex; (esaProbeHistorySumOfSqNegR2PJitter.%I1.%I2 - (esaProbeHistorySumNegR2PJitter.%I1.%I2 * esaProbeHistorySumNegR2PJitter.%I1.%I2))/distrib((esaProbeHistoryR2PPkts.%I1.%I2... -
Page 172: Ingress Oneway Delay Average
Chapter 7: SNMP Collection Formulas Ingress Oneway Delay Average Type SNMP (collection) Description The average one-way destination to source delay (in milliseconds) across all packets received in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryAvgOnewayR2PDelay.%I1.%I2;... -
Page 173: Ingress Oneway Delay Maximum
Ingress Oneway Delay Maximum Type SNMP (collection) Description The maximum one-way destination to source delay (in milliseconds) across all packets received in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryMaxOnewayR2PDelay.%I1.%I2;... -
Page 174: Ingress Oneway Delay Minimum
Chapter 7: SNMP Collection Formulas Ingress Oneway Delay Minimum Type SNMP (collection) Description The minimum one-way destination to source delay (in milliseconds) across all packets received in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryMinOnewayR2PDelay.%I1.%I2;... -
Page 175: Ingress Oneway Delay Sum
Ingress Oneway Delay Sum Type SNMP (collection) Description The sum total of one-way delay from destination to source in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistorySumOnewayR2PDelay.%I1.%I2; Generic Database Alias None. -
Page 176: Ingress Packets
Chapter 7: SNMP Collection Formulas Ingress Packets Type SNMP (collection) Description The total number of Received Packets in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryR2PPkts.%I1.%I2; Generic Database Alias None. -
Page 177: Ingress Positive Jitter Maximum
Ingress Positive Jitter Maximum Type SNMP (collection) Description The maximum positive one-way jitter from destination to source in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryMaxPosR2PJitter.%I1.%I2; Generic Database Alias None. -
Page 178: Ingress Positive Jitter Minimum
Chapter 7: SNMP Collection Formulas Ingress Positive Jitter Minimum Type SNMP (collection) Description The minimum positive one-way jitter from destination to source in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryMinPosR2PJitter.%I1.%I2;... -
Page 179: Ingress Positive Jitter Number
Ingress Positive Jitter Number Type SNMP (collection) Description The total number of positive one-way jitters from destination to source in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryNumPosR2PJitter.%I1.%I2;... -
Page 180: Ingress Positive Jitter Sum
Chapter 7: SNMP Collection Formulas Ingress Positive Jitter Sum Type SNMP (collection) Description The total sum of positive one-way jitters from destination to source in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistorySumPosR2PJitter.%I1.%I2;... -
Page 181: Ingress Positive Jitter Variance
Ingress Positive Jitter Variance Type SNMP (collection) Description Received packets in variance of positive one-way jitters from destination to source in the history interval. Syntax Dim I1 As DisplayString Default * NAME esaProbeId; Dim I2 As Integer Default * NAME esaProbeHistoryIndex; (esaProbeHistorySumOfSqPosR2PJitter.%I1.%I2 - (esaProbeHistorySumPosR2PJitter.%I1.%I2 * esaProbeHistorySumPosR2PJitter.%I1.%I2))/distrib((esaProbeHistoryR2PPkts.%I1.%I2... -
Page 182: Ingress Sync Errors
Chapter 7: SNMP Collection Formulas Ingress Sync Errors Type SNMP (collection) Description The number of Synchronization Errors from reflector to probe in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryR2PSyncErrs.%I1.%I2;... -
Page 183: Ingress Tail Drop (Frames)
Ingress Tail Drop (Frames) Type SNMP (collection) Description Only applicable when Port is in Connection-oriented, TLS mode. The number of Frames Tail Dropped (FTD) in the ingress direction. Syntax Dim I1 AS Integer Default * NAME PortSvcIndex; Dim I2 AS Integer Default * NAME PortSvcStatsIndex; Dim I3 AS Integer Default * NAME PortSvcHistoryIndex;... -
Page 184: Ingress Throughput (Bps)
Chapter 7: SNMP Collection Formulas Ingress Throughput (bps) Type SNMP (collection) Description Average bit rate received over the specific interval in the ingress direction. Syntax Dim I1 AS Integer Default * NAME PortSvcIndex; Dim I2 AS Integer Default * NAME PortSvcStatsIndex; Dim I3 AS Integer Default * NAME PortSvcHistoryIndex;... -
Page 185: Laser Bias Current
Laser Bias Current Type SNMP (collection) Description Laser Bias Current retrieved from the SFP. Applicable only if the media type is fiber. Syntax Dim I1 AS Integer Default * NAME PortSvcIndex; Dim I2 AS Integer Default * NAME PortSvcStatsIndex; Dim I3 AS Integer Default * NAME PortSvcHistoryIndex; ethernetPBPortSvcHistoryLBC.%I1.%I2.%I3;... -
Page 186: Laser Bias Current
Chapter 7: SNMP Collection Formulas Laser Bias Current Type SNMP (collection) Description Laser Bias Current retrieved from the SFP. Syntax Dim I1 AS Integer Default * NAME WanIndex; Dim I2 AS Integer Default * NAME WanStatsIndex; Dim I3 AS Integer Default * NAME WanHistoryIndex; ethernetPBWanHistoryLBC.%I1.%I2.%I3;... -
Page 187: Late Packets
Late Packets Type SNMP (collection) Description The total number of Late Arrival Packets in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryLatePkts.%I1.%I2; Generic Database Alias None. Formula Editor Path AP >... -
Page 188: Lost Packets
Chapter 7: SNMP Collection Formulas Lost Packets Type SNMP (collection) Description The total number of Lost Packets in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryLostPkts.%I1.%I2; Generic Database Alias None. -
Page 189: Out Of Sequence Errors
Out of Sequence Errors Type SNMP (collection) Description The total number of out of sequence errors across all packets received in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryOutOfSeqErrs.%I1.%I2;... -
Page 190: Received Power
Chapter 7: SNMP Collection Formulas Received Power Type SNMP (collection) Description Received Optical Power retrieved from the SFP. Applicable only if the media type is fiber. Syntax Dim I1 AS Integer Default * NAME PortSvcIndex; Dim I2 AS Integer Default * NAME PortSvcStatsIndex; Dim I3 AS Integer Default * NAME PortSvcHistoryIndex;... -
Page 191: Received Power
Received Power Type SNMP (collection) Description Received Optical Power retrieved from the SFP. Syntax Dim I1 AS Integer Default * NAME WanIndex; Dim I2 AS Integer Default * NAME WanStatsIndex; Dim I3 AS Integer Default * NAME WanHistoryIndex; ethernetPBWanHistoryOPR.%I1.%I2.%I3; Generic Database Alias None. -
Page 192: Round Trip Delay Average
Chapter 7: SNMP Collection Formulas Round Trip Delay Average Type SNMP (collection) Description The average round-trip delay (in milliseconds) across all packets received in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryAvgRoundTripDelay.%I1.%I2;... -
Page 193: Round Trip Delay Maximum
Round Trip Delay Maximum Type SNMP (collection) Description The maximum round-trip delay (in milliseconds) across all packets received in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryMaxRoundTripDelay.%I1.%I2; Generic Database Alias None. -
Page 194: Round Trip Delay Minimum
Chapter 7: SNMP Collection Formulas Round Trip Delay Minimum Type SNMP (collection) Description The minimum round-trip delay (in milliseconds) across all packets received in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistoryMinRoundTripDelay.%I1.%I2;... -
Page 195: Round Trip Delay Sum
Round Trip Delay Sum Type SNMP (collection) Description The total sum of round trip delay (in milliseconds) in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistorySumRoundTripDelay.%I1.%I2; Generic Database Alias None. -
Page 196: Round Trip Delay Variance
Chapter 7: SNMP Collection Formulas Round Trip Delay Variance Type SNMP (collection) Description The Variance of the Round Trip Delay in history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; (esaProbeHistorySumOfSqRoundTripDelay.%I1.%I2 - (esaProbeHistorySumRoundTripDelay.%I1.%I2 * esaProbeHistorySumRoundTripDelay.%I1.%I2))/distrib((esaProbeHistoryP2RPkts.%I1.%... -
Page 197: Sequence Gaps
Sequence Gaps Type SNMP (collection) Description The total number of sequence gaps across all packets received in the history interval. Syntax Dim I1 AS DisplayString Default * NAME esaProbeId; Dim I2 AS Integer Default * NAME esaProbeHistoryIndex; esaProbeHistorySeqGaps.%I1.%I2; Generic Database Alias None. -
Page 198: Transmitted Power
Chapter 7: SNMP Collection Formulas Transmitted Power Type SNMP (collection) Description Transmit Optical Power retrieved from the SFP. Applicable only if the media type is fiber. Syntax Dim I1 AS Integer Default * NAME PortSvcIndex; Dim I2 AS Integer Default * NAME PortSvcStatsIndex; Dim I3 AS Integer Default * NAME PortSvcHistoryIndex;... -
Page 199: Transmitted Power
Transmitted Power Type SNMP (collection) Description Transmit Optical Power retrieved from the SFP. Syntax Dim I1 AS Integer Default * NAME WanIndex; Dim I2 AS Integer Default * NAME WanStatsIndex; Dim I3 AS Integer Default * NAME WanHistoryIndex; ethernetPBWanHistoryOPT.%I1.%I2.%I3; Generic Database Alias None. - Page 200 Chapter 7: SNMP Collection Formulas Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
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Page 201: Chapter 8: Discovery Formulas
Chapter 8: Discovery Formulas This chapter discusses the following topics: Topic Overview Netcool/Proviso Discovery Formula Tree Discovery Formula Structure Overview A discovery formula (also called an inventory formula) allows Netcool/Proviso to recognize resources specific to the target devices and technologies supported in the Adva Optical Metro Ethernet environment so that information can then be collected on those resources. -
Page 202: The Results Line
Chapter 8: Discovery Formulas • Temporary variable definition. Temporary variables hold the result of an SNMP query. These variables can then be used as parameters in subsequent queries. The following line is an example of a temporary variable definition: V01=OIDINST(rttMonCtrlAdminStatus.%I1==1, once); •... -
Page 203: Esaprobes
ESAProbes Type SNMP (discovery) Description Formula to discover the Ethernet Services Assurance (ESA) Probes Syntax Dim I1 AS DisplayString Default * NAME EsaProbeId; Dim I2 AS Integer Default * NAME EsaProbeHistoryIndex; V01 = OIDVAL(esaProbeSrcIpAddress.%I1); V02 = OIDVAL(esaProbeDestIpAddress.%I1); V03 = OIDVAL(esaProbeProtocol.%I1 format clean); V04 = OIDVAL(esaProbePortIfIndex.%I1);... -
Page 204: Lanport
Chapter 8: Discovery Formulas LanPort Type SNMP (discovery) Description Formula to discover the Adva Optical ME FSP 150CCF-825 Ports Syntax Def UseQuotedStrings no; Dim I1 AS Integer Default * NAME LanPortIndex; Dim I2 AS Integer Default * NAME LanPortStatsIndex; Dim I3 AS Integer Default * NAME LanPortHistoryIndex; V01 = OIDVAL(ethernetPBPortSvcCircuitName.%I1 format clean);... - Page 205 Chapter 8: Discovery Formulas Formula Editor Path Alias Instance and Label Inventory > AP > Adva etherServicesPB.my Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
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Page 206: Wanport
Chapter 8: Discovery Formulas WanPort Type SNMP (discovery) Description Formula to discover the Uplink (WAN) interfaces of the FSP 825CC Syntax Def UseQuotedStrings no; Dim I1 AS Integer Default * NAME ethernetPBWanIndex; Dim I2 AS Integer Default * NAME ethernetPBWanStatsIndex; Dim I3 AS Integer Default * NAME ethernetPBWanHistoryIndex;... - Page 207 Chapter 8: Discovery Formulas NOTES Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
- Page 208 Chapter 8: Discovery Formulas Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
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Page 209: Appendix A: Configuration
Appendix A: Configuration This appendix explains how to configure the Adva Optical Metro Ethernet Technology Pack and consists of the following topics: Topic Overview Before You Begin Configure the Technology Pack Other Tasks and Considerations Overview The Adva Optical Metro Ethernet Technology Pack is a MIB-based, SNMP pack, and its configuration is relatively straightforward. -
Page 210: Configure The Technology Pack
Appendix A: Configuration — Access to the SilverStream server. — Access to the DataChannel server. • Have completed the following tasks: — Reviewed the release notes for the current technology pack. Release notes contain important information you need to consider before installing a technology pack. Important: They also contain information on specific patches that need to be installed before you configure a technology pack. - Page 211 2-a. Change your working directory to DataMart server. 2-b. Invoke the DataMart GUI by entering the following command and pressing 2-c. Click the Configuration 2-d. Click the tab. Collection 2-e. Click Refresh The predefined data collection requests are loaded into the Request Editor from the database. 2-f.
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Page 212: Other Tasks And Considerations
Appendix A: Configuration (Requires the Netcool/Proviso DataMart Configuration Guide) Run the initial SNMP inventory and initiate a discovery. An inventory collects data about the network resources that the technology pack monitors. After you install an SNMP technology pack, you must create an inventory profile using the initiate a discovery by executing the inventory profile using the Running the initial inventory against SNMP objects is an intricate task and unfortunately beyond the scope of this configuration appendix. - Page 213 Appendix A: Configuration See the Netcool/Proviso DataMart Configuration Guide for information on using the Netcool/Proviso DataMart Resource Editor. Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
- Page 214 Appendix A: Configuration Netcool/Proviso Adva Optical Metro Ethernet 2.1.1.0 Technology Pack User’s Guide, Version 4.3-X...
- Page 215 Additional Copyright Information The following copyright information is for software used by Netcool/Proviso. Tcl 8.3.3, Combat/TCL 0.7.3, Combat/TCL 0.7.5, TclX 8.3, TK 8.3.3 This software is copyrighted by the Regents of the University of California, Sun Microsystems, Inc., Scriptics Corporation, and other parties.
- Page 216 Additional Copyright information DISTRIBUTORS HAVE NO OBLIGATION TO PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS. Various copyrights apply to this package, listed in 3 separate parts below. Please make sure that you include all the parts. Up until 2001, the project was based at UC Davis, and the first part covers all code written during this time. From 2001 onwards, the project has been based at SourceForge, and Networks Associates Technology, Inc hold the copyright on behalf of the wider Net-SNMP community, covering all derivative work done since then.
- Page 217 • Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. • The name of Cambridge Broadband Ltd. may not be used to endorse or promote products derived from this software without specific prior written permission.
- Page 218 Additional Copyright information This software is copyrighted by the Regents of the University of California, Sun Microsystems, Inc., and other parties. The following terms apply to all files associated with the software unless explicitly disclaimed in individual files. The authors hereby grant permission to use, copy, modify, distribute, and license this software and its documentation for any purpose, provided that existing copyright notices are retained in all copies and that this notice is included verbatim in any distributions.
- Page 219 3. Neither the names of Networks Associates Technology, Inc, Cambridge Broadband Ltd., Sparta, Inc., Cisco, Inc, Beijing University of Posts and Telecommunications, Fabasoft R&D Software GmbH & Co KG or any of its subsidiaries, brand or product names, nor the names of their contributors may be used to endorse or promote products derived from this software without specific prior written permission.
- Page 220 Additional Copyright information for loss of data, loss of profit, or any other damage resulting directly or indirectly from the use of the software, even if the damage is caused by defects in the software. 3. You may use this software in any applications you build. 4.