Table Of Contents
Statistics Summary for Voice-Enabled Products
E.1 Data Transmission Process Overview
E.2 Connection Statistics
E.2.1 AXSM Connection
E.2.2 AXSM-E Connection
E.2.3 VXSM ATM Connection Statistics
E.2.4 MPSM16-T1E1 ATM Connection Statistics
E.2.5 VISM Connection Statistics
E.3 Service Line Statistics
E.3.1 SRM and SRME T3/E3 Service
E.3.2 SRM and SRME SONET Service Line
E.3.3 AXSM Line
E.3.4 AXSM-E Line
E.3.5 PXM1E Service Line
E.3.6 MPSM16-T1E1 ATM Cell-Layer Statistics Subobject Type 45
E.3.7 MPSM16-T1E1 ATM Cell-Layer Statistics Subobject Type 46
E.3.8 MPSM16-T1E1 ATM Cell-Layer Statistics Subobject Type 47
E.4 Port Statistics
E.4.1 AXSM Port
E.4.2 AXSM-E Port
E.4.3 PXM1E Port
E.4.4 VXSM Port Statistics
E.5 Card Statistics
E.5.1 AXSM Card Statistics
E.6 Path Statistics
E.6.1 VXSM STS Path Statistics
E.6.2 VXSM DS-3 Path Statistics
E.6.3 VXSM DS-1N DS-3 Path Statistics
E.6.4 VXSM DS-1 VT Path Statistics
E.7 PNNI Network Statistics
E.7.1 PNNI Nodal Statistics
E.7.2 PNNI Port Statistics
E.8 Protocol Statistics
E.8.1 VXSM H.248 Statistics
E.8.2 VXSM H.248 Physical Termination Protocol Statistics
E.8.3 VXSM H.248 Ephemeral Termination Protocol Statistics
E.8.4 VXSM SCTP Gateway Statistics
E.8.5 VXSM SCTP Association Statistics
E.8.6 VXSM LAPD Protocol Statistics
E.8.7 VXSM RUDP Protocol Statistics
E.8.8 VXSM TGCP Protocol Statistics
E.8.9 VXSM Megaco Physical Gateway Protocol Statistics
E.8.10 VXSM Megaco Ephemeral Termination Information Protocol Statistics
E.8.11 VXSM Megaco Overload Resource Protocol Statistics
E.8.12 VXSM DPNSS Protocol Statistics
E.8.13 VXSM DPNSS DLC Protocol Statistics
E.8.14 VXSM MTP LINKSCL Protocol Statistics
E.8.15 VXSM L3UA ASP Protocol Statistics
E.8.16 VXSM SCCP Protocol Statistics
E.9 Physical Line Statistics
E.9.1 AXSM-E T1/E1 Physical Line
E.9.2 AXSM-E T3/E3 Physical Line
E.9.3 AXSM-E SONET Physical Line
E.9.4 MPSM E3 Physical Line
E.9.5 MPSM16-T1E1 T1 Line Statistics
E.9.6 MPSM16-T1E1 E1 Line Statistics
E.9.7 PXM1E T3 Physical Line
E.9.8 PXM1E E3 Physical Line
E.9.9 PXM1E SONET Physical Line
E.9.10 PXM1E T1E1 Physical Line Statistics
E.9.11 VISM Line Statistics
E.9.12 VXSM SONET Physical Line
E.9.13 VXSM T1/E1 Physical Line Statistics
E.10 IMA Statistics
E.10.1 AXSM-E IMA Group Statistics
E.10.2 PXM1E IMA Group Statistics
E.10.3 PXM1E IMA Link Statistics
E.10.4 MPSM IMA Group Statistics
E.10.5 MPSM16-T1E1 IMA Group Statistics
E.11 MPP Protocol Statistics
E.11.1 PPP Link Statistics
E.12 VXSM Platform Statistics
E.12.1 PLFM System Statistics
E.12.2 PLFM Resource Scalar Statistics
E.12.3 PLFM VXSM GW Resource Statistics
E.13 VXSM Call Statistics
E.13.1 Codec Statistics
E.13.2 VBD Call Statistics
E.13.3 DS0 Utilization Statistics
E.13.4 Bearer PVC Statistics
E.13.5 Voice Quality Monitor Statistics
Statistics Summary for Voice-Enabled Products
This appendix defines the statistics that are collected from the following nodes:
•
Cisco MGX 8880 PXM45-based
•Cisco MGX 8850 PXM45-based
•Cisco MGX 8830 PXM1E-based
Data Transmission Process Overview details how data travels through two cards that are connected across the bus.
The statistics are categorized under a major grouping known by an object type name and organized by the subobject type number. Within the subtype, each statistic contains a statistic type number.
The following sections provide the reporting parameters for the various statistic types:
•Data Transmission Process Overview
•Connection Statistics
•Service Line Statistics
•Port Statistics
•Card Statistics
•Path Statistics
•PNNI Network Statistics
•Protocol Statistics
•Physical Line Statistics
•IMA Statistics
•MPP Protocol Statistics
•VXSM Platform Statistics
•VXSM Call Statistics
The statistics are organized in ascending order by object type, then subobject type.
Note The IDs of the statistics that are collected by CTM do not correspond to the IDs of the statistics that are collected by the switch.
E.1 Data Transmission Process Overview
Statistics are collected at different points during data transmission. The figure below shows how data travels through two cards that are connected across the bus.
Figure E-1 Data Flow Through Two Cards Connected Across a Bus
The ingress direction describes traffic that travels toward the bus. The egress direction describes traffic that travels away from the bus.
The numbers in Figure E-1 correspond to the points at which statistics are collected. Points 1-7 show data on the incoming path with policing. Points 8-13 show data on the return path without policing.
•1—Data enters the UNI/NNI port card (ingress).
•2—Data is queued (ingress).
•3—Data is scheduled for admission onto the bus (ingress).
•4—Data is queued for going onto the bus (ingress).
•5—Data is queued for being taken off the bus (egress).
•6—Data is processed on the trunk card (egress).
•7—Data is queued for going out the trunk (egress).
•8—Data enters the card from the trunk (ingress).
•9—Data is scheduled for admission onto the bus (ingress).
•10—Data is queued for going onto the bus (ingress).
•11—Data is queued for being taken off the bus (egress).
•12—Data is processed on the port card (egress).
•13—Data is queued for going out the port (egress).
Note The data flow process varies depending on the card type. See the corresponding sections in this chapter.
E.2 Connection Statistics
The following connection statistics are applicable:
•AXSM Connection
•AXSM-E Connection
•VXSM ATM Connection Statistics
•MPSM16-T1E1 ATM Connection Statistics
•VISM Connection Statistics
E.2.1 AXSM Connection
This section provides information about the statistics contained in the AXSM_ATM_conn group. This group contains statistics that are applicable to the AXSM card on the Cisco MGX 8850 PXM45-based switch.
The following table lists the attributes that are common to all of the AXSM connection statistics.
Table E-1 Attributes Common to All AXSM Connection Statistics
Object
|
Attribute
|
Front cards
|
MGX-AXSM-16-T3E3, MGX-AXSM-16-155, MGX-AXSM-4-622, MGX-AXSM-1-2488
|
Back cards
|
MGX-SMB-8-T3, MGX-SMB-8-E3, MGX-SMB-4-155, MGX-SMFIR-8-155, MGX-SMFLR-8-155, MGX-MMF-8-155, MGX-SMFLR-2-622, MGX-SMFIR-2-622, MGX-SMFSR-1-2488, MGX-SMFLR-1-2488, MGX-SMFXLR-1-2488
|
Object type
|
0
|
Subobject type
|
12
|
Default peak interval
|
300 seconds
|
The AXSM connection statistics are used primarily for gathering billing data.
The following table includes the description of each statistic and the point during the data flow at which the statistic gathers the appropriate information. Each measurement point refers to the corresponding point in Figure E-1.
Table E-2 AXSM Connection Statistics—Descriptions
Stat ID
|
AXSM Connection Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
0
|
Ingress CLP0 cells from port
|
No
|
Ingress-2, 8
|
Provides a count of the ingress cells with cell loss priority (CLP) equal to 0 that are received.
The range is from 0 to (240-1) cells.
|
1
|
Ingress CLP1 cells from port
|
No
|
Ingress-2, 8
|
Provides a count of the ingress cells with CLP equal to 1 that are received.
The range is from 0 to (240-1) cells.
|
2
|
Ingress CLP0 cells discarded
|
Ingress CLP0+1 cells discarded
|
Ingress-2, 8
|
Provides a count of the ingress cells with CLP equal to 0 that are discarded due to policing.
The range is from 0 to (240-1) cells.
|
3
|
Ingress CLP0+1 cells discarded
|
No
|
Ingress-2, 8
|
Provides a count of the total ingress cells with CLP (0+1) that are discarded due to policing.
The range is from 0 to (240-1) cells.
|
4
|
Ingress CLP0+1 noncompliant cells
|
No
|
Ingress-2, 8
|
Provides a count of the total cells that are noncompliant as a result of policing.
Depending on the configuration, this count includes cells that are tagged as noncompliant or are discarded.
The range is from 0 to (240-1) cells.
|
5
|
Ingress EFCI=1 cells from port
|
No
|
Ingress-3, 9
|
Provides a count of the ingress explicit forward congestion indication (EFCI) cells.
The range is from 0 to (240-1) cells.
|
6
|
Ingress EOF=1 cells from port
|
No
|
Ingress-3, 9
|
Provides a count of the ingress end of frame (EOF) cells.
The range is from 0 to (240-1) cells.
|
7
|
Egress CLP0 cells to port
|
No
|
Egress-7, 13
|
Provides a count of the egress cells with CLP equal to 0.
The range is from 0 to (240-1) cells.
|
8
|
Egress CLP1 cells to port
|
No
|
Egress-7, 13
|
Provides a count of the egress cells with CLP equal to 1.
The range is from 0 to (240-1) cells.
|
9
|
Egress EFCI=1 cells to port
|
No
|
Egress-6, 12
|
Provides a count of the egress cells with the EFCI equal to 1.
The range is from 0 to (240-1) cells.
|
10
|
Egress EOF=1 cells to port
|
No
|
Egress-6, 12
|
Provides a count of the egress cells with EOF equal to 1.
The range is from 0 to (240-1) cells.
|
E.2.2 AXSM-E Connection
This section provides information about the statistics contained in the AXSME_ATM_conn group. The AXSM-E connection statistics in this group are applicable to the Cisco MGX 8850 PXM45-based switch.
The following table lists the attributes that are common to the AXSM-E connection statistics.
Table E-3 AXSM-E Connection Statistics—Common Attributes
Object
|
Attribute
|
Front cards
|
AXSM-2-622-E, AXSM-8-155-E, AXSM-16-T3E3-E
|
Back cards
|
SMFLR-1-622, SMFIR-1-622, SMFLR-4-155, SMFIR-4-155, MMF-4-155, SMB-4-155, SMB-8-T3, SMB-8-E3
|
Object type
|
0
|
Subobject type
|
13
|
Allowable peak intervals
|
60 seconds, 300 seconds
|
Default peak interval
|
300 seconds
|
The AXSM-E connection statistics are used primarily for gathering troubleshooting and performance data.
The following table includes the description of each statistic and the point during the data flow at which the statistic gathers the appropriate information. Each measurement point refers to the corresponding point in Figure E-1.
Note AXSM-E statistics are only collected at measurement points 1, 2, and 13.
Table E-4 AXSM-E Connection Statistics—Descriptions
Stat ID
|
AXSM-E Connection Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
1
|
CLP1 noncompliant cells
|
Tagged noncompliant cells
|
Ingress-1
|
Provides a count of the discarded cells with CLP bit equal to 1 that are tagged as noncompliant.
The range is from 0 to (240-1) cells.
|
2
|
CLP0 noncompliant cells
|
Tagged noncompliant cells
|
Ingress-1
|
Provides a count of the discarded cells with CLP equal to 0 that are tagged as noncompliant.
The range is from 0 to (240-1) cells.
|
3
|
Tagged noncompliant cells
|
No
|
Ingress-1
|
Provides a count of the total number of cells that are tagged as noncompliant. These cells are received at the port.
The range is from 0 to (240-1) cells.
|
5
|
CLP0 cells from port
|
No
|
Ingress-1
|
Provides a count of the cells with CLP equal to 0. These cells are received from the port before policing.
The range is from 0 to (240-1) cells.
|
6
|
CLP1 cells from port
|
No
|
Ingress-1
|
Provides a count of the cells with CLP equal to 1. These cells are received from the port before policing.
The range is from 0 to (240-1) cells.
|
8
|
EFCI=1 cells from the port
|
No
|
Ingress-2
|
Provides a count of the cells with the EFCI equal to 1. These cells are received from the port.
The range is from 0 to (240-1) cells.
|
12
|
EFCI=1 cells to the network
|
No
|
Ingress-2
|
Provides a count of the cells with EFCI equal to 1 that are transmitted to the bus after policing.
The range is from 0 to (240-1) cells.
|
14
|
Ingress CLP0 cells discarded in qe
|
No
|
Ingress-2
|
Provides a count of the cells with CLP equal to 0 that are discarded due to an overflow in the queuing engine.
The range is from 0 to (240-1) cells.
|
15
|
Ingress CLP1 cells discarded in qe
|
No
|
Ingress-2
|
Provides a count of the cells with CLP equal to 1 that are discarded due to an overflow in the queuing engine.
The range is from 0 to (240-1) cells.
|
19
|
CLP1 cells to the port
|
No
|
After 13
|
Provides a count of the cells with CLP equal to 1 that are transmitted to the port.
The range is from 0 to (240-1) cells.
|
20
|
CLP0 cells to the port
|
No
|
After 13
|
Provides a count of the cells with CLP equal to 0 that are transmitted to the port.
The range is from 0 to (240-1) cells.
|
23
|
EFCI=1 cells to the port
|
No
|
Egress-13
|
Provides a count of the cells with EFCI equal to 1 that are transmitted to the port.
The range is from 0 to (240-1) cells.
|
28
|
EFC1=1 cells from the network
|
No
|
Egress-13
|
Provides a count of the cells with EFCI equal to 1 that are received from the bus prior to queuing.
The range is from 0 to (240-1) cells.
|
30
|
Egress CLP0 cells discarded in qe
|
No
|
Egress-13
|
Provides a count of the cells with CLP equal to 0 that are discarded due to an overflow in the queuing engine.
The range is from 0 to (240-1) cells.
|
31
|
Egress CLP1 cells discarded in qe
|
No
|
Egress-13
|
Provides a count of the cells with CLP equal to 1 that are discarded due to an overflow in the queuing engine.
The range is from 0 to (240-1) cells.
|
E.2.3 VXSM ATM Connection Statistics
This section provides information about the statistics contained in the VXSM_ATM_conn group. The VXSM connection statistics are applicable to the VXSM cards on the Cisco MGX 8880 PXM45-based nodes and the Cisco MGX 8850 PXM45-based nodes.
The following table lists the attributes that are common to all of the VXSM connection statistics.
Table E-5 Attributes Common to All VXSM Connection Statistics
Object
|
Attribute
|
Front card
|
VXSM
|
Back card
|
VXSM-BC-4-155
|
Object type
|
0
|
Subobject type
|
17
|
Default peak interval
|
300 seconds
|
The following table includes the VXSM ATM connection statistics.
Table E-6 VXSM ATM Connection Statistics—Descriptions
Stat ID
|
VXSM ATM Connection Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
0
|
Total ingress cells from port
|
—
|
Ingress
|
Provides a count of the total ingress cells.
The range is from 0 to (264-1).
|
1
|
CLP0 cells from port (before policing)
|
—
|
Ingress-1
|
Provides a count of the ingress cells with CLP equal to 0 that are received prior to policing.
The range is from 0 to (264-1).
|
2
|
CLP1 cells from port (before policing)
|
—
|
Ingress-1
|
Provides a count of the ingress cells with CLP equal to 1 that are received prior to policing.
The range is from 0 to (264-1).
|
3
|
EFCI=1 CLP0 cells from the port
|
—
|
Ingress
|
Provides a count of the CLP0 cells with the EFCI equal to 1. These cells are received from the port.
The range is from 0 to (264-1).
|
4
|
EFCI=1 CLP1 cells from the port
|
—
|
Ingress
|
Provides a count of the CLP1 cells with the EFCI equal to 1. These cells are received from the port.
The range is from 0 to (264-1).
|
5
|
Total egress cells to network
|
—
|
Egress
|
Provides a count of the total egress cells.
The range is from 0 to (264-1).
|
6
|
CLP0 cells to network (before policing)
|
—
|
Egress-1
|
Provides a count of the egress cells with CLP equal to 0 that are received prior to policing.
The range is from 0 to (264-1).
|
7
|
CLP1 cells to network (before policing)
|
—
|
Egress-1
|
Provides a count of the egress cells with CLP equal to 1 that are received prior to policing.
The range is from 0 to (264-1).
|
8
|
EFCI=1 CLP0 cells to the network
|
—
|
Egress
|
Provides a count of the CLP0 cells with the EFCI equal to 1.
The range is from 0 to (264-1).
|
9
|
EFCI=1 CLP1 cells to the network
|
—
|
Egress
|
Provides a count of the CLP1 cells with the EFCI equal to 1.
The range is from 0 to (264-1).
|
E.2.4 MPSM16-T1E1 ATM Connection Statistics
This section provides information about the statistics contained in the MPSM16-T1E1_ATM_Conn group. The MPSM16-T1E1 ATM connection statistics are applicable to the MPSM16-T1E1 cards on the Cisco MGX 8850 PXM45-based and Cisco MGX 8830 nodes.
The following table lists the attributes that are common to all of the MPSM16-T1E1 ATM connection statistics.
Table E-7 Attributes Common to All MPSM16-T1E1 ATM Connection Statistics
Object
|
Attribute
|
Back card
|
RBBN-16T1E1, MCC-16E1, RBBN-16-T1E1-1N, MCC-16-E1-1N, RED-16-T1E1
|
Object type
|
0
|
Subobject type
|
22
|
Default peak interval
|
300 seconds
|
The following table includes the MPSM16-T1E1 ATM connection statistics.
Table E-8 MPSM16-T1E1 ATM—Descriptions
Stat ID
|
MPSM16-T1E1 ATM Connection Statistics
|
Ingress/Egress Measurement Point
|
1
|
From port: CLP0 cells from port
|
Ingress
|
2
|
From port: CLP1 cells from port
|
Ingress
|
5
|
From port: EOF1 cells from port
|
Ingress
|
6
|
From port: EFCI1 cells from port
|
Ingress
|
9
|
From port: CLP0 noncompliant cells from port
|
Ingress
|
10
|
From port: CLP1 noncompliant cells from port
|
Ingress
|
11
|
From port: CLP0 tagged cells from port
|
Ingress
|
13
|
To network: CLP0 cells to network
|
Ingress
|
14
|
To network: CLP1 cells to network
|
Ingress
|
15
|
To network: CLP0 EFCI1 cells to network
|
Ingress
|
16
|
To network: CLP1 EFCI1 cells to network
|
Ingress
|
23
|
To port: CLP0 cells to port
|
Egress
|
24
|
To port: CLP1 cells to port
|
Egress
|
27
|
To port: EOF=1 cells to port
|
Egress
|
28
|
To port: EFCI1 cells to port
|
Egress
|
31
|
From network: CLP0 cells from network
|
Egress
|
32
|
From network: CLP1 cells from network
|
Egress
|
E.2.5 VISM Connection Statistics
This section provides information about the VISM connection statistics.
Table E-9 VISM Connection Statistics—Descriptions
CWM_OBJTYPE
|
CWM_SUBTYPE
|
CWM_STATTYPE
|
CWM_STATDESCR
|
STAT_LEVEL
|
0
|
20
|
0
|
Total number of cells transmitted.
|
1
|
0
|
20
|
1
|
Total number of cells received.
|
1
|
0
|
20
|
2
|
Average number of cells transmitted per second.
|
1
|
0
|
20
|
3
|
Average number of cells received per second.
|
1
|
0
|
20
|
4
|
Peak number of cells transmitted per second.
|
1
|
0
|
20
|
5
|
Peak number of cells received per second.
|
1
|
0
|
20
|
6
|
Number of OAM end-to-end loopback cells transmitted.
|
1
|
0
|
20
|
7
|
Number of OAM end-to-end loopback cells received.
|
1
|
0
|
20
|
8
|
Number of OAM segment loopback cells transmitted.
|
1
|
0
|
20
|
9
|
Number of OAM segment loopback cells received.
|
1
|
0
|
20
|
10
|
Number of OAM loopback cells lost.
|
1
|
0
|
20
|
11
|
Number of OAM cells with a CRC error.
|
1
|
0
|
20
|
12
|
Number of instances of an ATM AIS alarm suppressed.
|
1
|
0
|
20
|
13
|
Number of instances of an ATM AIS alarm transmitted.
|
1
|
0
|
20
|
14
|
Number of instances of an ATM AIS alarm received.
|
1
|
0
|
20
|
15
|
Number of instances of an ATM FERF alarm transmitted.
|
1
|
0
|
20
|
16
|
Number of instances of an ATM FERF alarm received.
|
1
|
0
|
20
|
17
|
Number of AIS cells transmitted.
|
1
|
0
|
20
|
18
|
Number of AIS cells received.
|
1
|
0
|
20
|
19
|
Number of FERF cells transmitted.
|
1
|
0
|
20
|
20
|
Number of FERF cells received.
|
1
|
0
|
20
|
21
|
Number of AAL2 CPS packets transmitted.
|
1
|
0
|
20
|
22
|
Number of AAL2 CPS packets received.
|
1
|
0
|
20
|
23
|
Number of AAL2 CPS PDUs dropped - HEC error.
|
1
|
0
|
20
|
24
|
Number of AAL2 Type 3 CPS PDUs dropped - invalid CRC-10.
|
1
|
0
|
20
|
25
|
Number of AAL2 cells dropped - invalid OSF.
|
1
|
0
|
20
|
26
|
Number of AAL2 cells dropped - invalid parity bit.
|
1
|
0
|
20
|
27
|
Number of AAL2 CPS packets dropped - invalid CID.
|
1
|
0
|
20
|
28
|
Number of AAL2 CPS packets dropped - invalid UUI.
|
1
|
0
|
20
|
29
|
Number of AAL2 CPS packets dropped - invalid length.
|
1
|
0
|
20
|
30
|
Number of AAL5 PDUs transmitted to the network.
|
1
|
0
|
20
|
31
|
Number of AAL5 PDUs received from the network.
|
1
|
0
|
20
|
32
|
Number of AAL5 PDUs dropped - invalid CPI.
|
1
|
0
|
20
|
33
|
Number of 5 PDUs dropped - invalid SDU.
|
1
|
0
|
20
|
34
|
Number of AAL5 PDUs dropped - length violations.
|
1
|
0
|
20
|
35
|
Number of AAL5 PDUs dropped - CRC-32 errors.
|
1
|
0
|
20
|
36
|
Number of AAL5 PDU reassembly timer expirations.
|
1
|
E.3 Service Line Statistics
The following service line statistics are applicable:
•SRM and SRME T3/E3 Service
•SRM and SRME SONET Service Line
•AXSM Line
•AXSM-E Line
•PXM1E Service Line
•MPSM16-T1E1 ATM Cell-Layer Statistics Subobject Type 45
•MPSM16-T1E1 ATM Cell-Layer Statistics Subobject Type 46
•MPSM16-T1E1 ATM Cell-Layer Statistics Subobject Type 47
E.3.1 SRM and SRME T3/E3 Service
This section provides information about the statistics contained in the MGX-T3/E3 group. The SRM and SRME T3/E3 service line statistics are applicable to the Cisco MGX 8230, Cisco MGX 8250, and Cisco MGX 8850 PXM1-based nodes.
The following table lists the attributes that are common to all of the SRM and SRME T3/E3 service line statistics.
Table E-10 Attributes Common to All SRM and SRME T3/E3 Service Line Statistics
Object
|
Attribute
|
Front cards
|
SRM-3T3, SRME-3T3
|
Back cards
|
RJ48-8T1, RJ48-8E1, SMB-8E1, BNC-2T3, BNC-2E3, SCSC2-2HSSI
|
Object type
|
1
|
Subobject type
|
6
|
Default peak interval
|
60 seconds (fixed setting)
|
The SRM and SRME T3/E3 service line statistics are used primarily for gathering billing and performance data.
The following table includes a description of each statistic and the point during the data flow at which the statistic gathers the appropriate information. Each measurement point refers to the corresponding point in Figure E-1.
Table E-11 SRM and SRME T3/E3 Service Line Statistics—Descriptions
Stat ID
|
SRM and SRME T3/E3 Service Line Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
2
|
Out of frames
|
No
|
Ingress-1
|
Provides a count of the times an out of frame (OOF) is detected.
The count includes the number of OOF alarms.
The range is from 0 to (232-1).
|
3
|
Losses of signal
|
No
|
Ingress-1
|
Provides a count of the times a loss of signal (LOS) is detected.
The count includes the number of LOS alarms.
The range is from 0 to (232-1).
|
28
|
B3ZS line code violations
|
No
|
Ingress-1
|
Provides a count of the B3ZS line code violations (LCVs) that are encountered by the interface.
These violations occur when more than three zeroes in a row are transmitted.
The range is from 0 to (232-1).
|
29
|
Line errored seconds
|
No
|
Ingress-1
|
Provides a count of the line code violation errored seconds that occur within the collection interval.
The range is from 0 to (232-1).
|
30
|
Line severely errored seconds
|
Line errored seconds
|
Ingress-1
|
Provides a count of the line code violation severely errored seconds (SES) that occur within the collection interval.
Severely errored seconds are classified as errored seconds that are greater than the total line bits per second multiplied by 10-6.
The range is from 0 to (232-1).
|
31
|
P-bit line parity errors
|
No
|
Ingress-1
|
Provides a count of the parity bit (P-bit) code violations that are encountered by the interface.
The range is from 0 to (232-1).
|
32
|
Errored seconds-parity
|
No
|
Ingress-1
|
Provides a count of the parity code violation (PCV) errored seconds that occur within the collection interval.
The range is from 0 to (232-1).
|
33
|
Severely errored seconds- parity
|
Errored seconds-parity
|
Ingress-1
|
Provides a count of the P-bit code SES violations that occur within the collection interval.
The range is from 0 to (232-1).
|
34
|
C-bit parity code violations
|
No
|
Ingress-1
|
Provides a count of the C-bit code violations that are encountered by the interface.
The range is from 0 to (232-1).
|
35
|
Errored seconds-path
|
No
|
Ingress-1
|
Provides a count of the PCV errored seconds that occur within the collection interval.
The range is from 0 to (232-1).
|
36
|
Severely errored seconds- path
|
Errored seconds-path
|
Ingress-1
|
Provides a count of the PCV SES that occur within the collection interval.
The range is from 0 to (232-1).
|
37
|
Severely errored framing seconds
|
No
|
Ingress-1
|
Provides a count of the severely errored framing seconds (SEFS) that occur within the collection interval.
The range is from 0 to (232-1).
|
38
|
Alarm indication signal seconds
|
No
|
Ingress-1
|
Provides a count of the alarm seconds that occur within the collection interval.
The range is from 0 to (232-1).
|
39
|
Unavailable seconds
|
No
|
Ingress-1
|
Provides a count of the unavailable seconds (UAS) that occur within the collection interval.
The range is from 0 to (232-1).
|
144
|
FEBE counts
|
No
|
Ingress-1
|
Provides a count of the far-end block errors (FEBEs) that are detected.
The range is from 0 to (232-1).
|
145
|
FE counts
|
No
|
Ingress-1
|
Provides a count of the framing pattern errors that are encountered by a DS-3/E3 interface.
The range is from 0 to (232-1).
|
150
|
YEL transitions
|
No
|
Ingress-1
|
Provides a count of the times yellow alarms are detected.
The count includes the number of remote alarm indicator (RAI) alarms.
The range is from 0 to (232-1).
|
220
|
Excessive zero counts
|
No
|
Ingress-1
|
Provides a count of the excessive zero bits that are encountered by the interface.
Excessive zeros are three or more zeros occurring on the line.
The range is from 0 to (232-1).
|
221
|
PLCP OOF transition counts
|
No
|
Ingress-1
|
Provides a count of the times the OOF is detected by the physical layer convergence protocol (PLCP) interface.
The range is from 0 to (232-1).
|
222
|
PLCP remote alarm indication
|
No
|
Ingress-1
|
Provides a count of the remote alarms that are detected by the PLCP interface.
The range is from 0 to (232-1).
|
223
|
PLCP framing errors
|
No
|
Ingress-1
|
Provides a count of the framing errors that are detected by the PLCP interface.
The range is from 0 to (232-1).
|
224
|
PLCP FEBE counts
|
No
|
Ingress-1
|
Provides a count of the FEBEs that are encountered by the PLCP interface.
The range is from 0 to (232-1).
|
225
|
PLCP FEBE err secs
|
No
|
Ingress-1
|
Provides a count of the FEBE errored seconds that occur within the collection interval.
The range is from 0 to (232-1).
|
226
|
PLCP FEBE severely err secs
|
PLCP FEBE err secs
|
Ingress-1
|
Provides a count of the FEBE severely errored seconds that occur within the collection interval.
The range is from 0 to (232-1).
|
227
|
PLCP HCS errors
|
No
|
Ingress-1
|
Provides a count of the cell header checksum errors that are encountered by the PLCP interface.
The range is from 0 to (232-1).
|
228
|
PLCP HCS errored secs
|
No
|
Ingress-1
|
Provides a count of the cell header checksum errored seconds that occur within the collection interval.
The range is from 0 to (232-1).
|
229
|
PLCP HCS severely errored secs
|
PLCP HCS err secs
|
Ingress-1
|
Provides a count of the cell header checksum severely errored seconds that occur within the collection interval.
The range is from 0 to (232-1).
|
230
|
PLCP BIP-8 code violations
|
No
|
Ingress-1
|
Provides a count of the BIP-8 code violations that are encountered by the interface.
The range is from 0 to (232-1).
|
231
|
PLCP BIP8 CV err secs
|
No
|
Ingress-1
|
Provides a count of the BIP-8 code violation errored seconds that occur within the collection interval.
The range is from 0 to (232-1).
|
232
|
PLCP BIP8 CV severely err secs
|
PLCP BIP8 CV err secs
|
Ingress-1
|
Provides a count of the BIP-8 code violation severely errored seconds that occur within the collection interval.
The range is from 0 to (232-1).
|
233
|
PLCP severely err framing secs
|
No
|
Ingress-1
|
Provides a count of the SEFS that occur within the collection interval.
The range is from 0 to (232-1).
|
234
|
PLCP unavailable secs
|
No
|
Ingress-1
|
Provides a count of the UAS that occur within the collection interval.
The range is from 0 to (232-1).
|
235
|
Alarm indication signal severely seconds
|
No
|
Ingress-1
|
Provides a count of the alarm indication signal (AIS) SES that occur within the collection interval.
The range is from 0 to (232-1).
|
E.3.2 SRM and SRME SONET Service Line
This section provides information about the statistics contained in the SONET group. The SONET line statistics are applicable to the SRM and SRME cards on the Cisco MGX 8230, Cisco MGX 8250, and Cisco MGX 8850 PXM1-based nodes.
The following table lists the attributes that are common to all of the SONET line statistics.
Table E-12 Attributes Common to All SONET Line Statistics
Object
|
Attribute
|
Front card
|
SRM, SRME
|
Back card
|
SRM-3T3-NOBC
|
Object type
|
1
|
Subobject type
|
10
|
Default peak interval
|
60 seconds (fixed setting)
|
The SRM and SRME SONET line statistics are used primarily for gathering billing and performance data.
The following table includes the description of each statistic and the point during the data flow at which the statistic gathers the appropriate information. Each measurement point refers to the corresponding point in Figure E-1.
Table E-13 SRM and SRME SONET Line Statistics—Descriptions
Stat ID
|
SRM and SRME SONET Line Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
236
|
Sonet loss of signal
|
—
|
—
|
Provides a count of the times an LOS is detected.
The count includes the number of LOS alarms.
The range is from 0 to (232-1).
|
237
|
Sonet loss of frames
|
—
|
—
|
Provides a count of the loss of frames (LOFs) that are encountered by a SONET line.
The range is from 0 to (232-1).
|
238
|
Sonet path alarm indictn sgnl secs
|
—
|
—
|
Provides a count of the AIS instances on the path.
The range is from 0 to (232-1).
|
239
|
Sonet remote failure indication
|
—
|
—
|
Provides a count of the remote failure indications (RFIs) that occur.
The range is from 0 to (232-1).
|
240
|
Sonet line alarm indication signal
|
—
|
—
|
Provides a count of the times that an AIS is detected on the line.
The range is from 0 to (232-1).
|
241
|
Sonet line remote far-end indicatn
|
—
|
—
|
Provides a count of the RFIs that are encountered by a SONET line.
The range is from 0 to (232-1).
|
E.3.3 AXSM Line
This section provides information about the ATM line statistics contained in the AXSM_ATM_line group. The AXSM ATM line statistics are applicable to the Cisco MGX 8850 PXM45-based switch.
The following table lists the attributes that are common to all of the AXSM line statistics.
Table E-14 Attributes Common to All AXSM Line Statistics
Object
|
Attribute
|
Front card
|
MGX-AXSM-16-T3E3, MGX-AXSM-16-155, MGX-AXSM-4-622, MGX-AXSM-1-2488
|
Back cards
|
MGX-SMB-8-T3, MGX-SMB-8-E3, MGX-SMB-4-155, MGX-SMFIR-8-155, MGX-SMFLR-8-155, MGX-MMF-8-155, MGX-SMFLR-2-622, MGX-SMFIR-2-622, MGX-SMFSR-1-2488, MGX-SMFLR-1-2488, MGX-SMFXLR-1-2488
|
Object type
|
1
|
Subobject type
|
11
|
Default peak interval
|
300 seconds
|
The AXSM line statistics are used primarily for gathering billing data.
The following table includes the description of each statistic and the point during the data flow at which the statistic gathers the appropriate information. Each measurement point refers to the corresponding point in Figure E-1.
Table E-15 AXSM Line Statistics—Descriptions
Stat ID
|
AXSM Line Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
0
|
Ingress CLP0 cells from port
|
Ingress CLP0+1 cells
|
Ingress-2, 8
|
Provides a count of the ingress cells with CLP equal to 0 that are received.
The range is from 0 to (240-1) cells.
|
1
|
Ingress CLP1 cells from port
|
Ingress CLP0+1 cells
|
Ingress-2, 8
|
Provides a count of the ingress cells with CLP equal to 1 that are received.
The range is from 0 to (240-1) cells.
|
2
|
Ingress CLP0+1 cells from port
|
No
|
Ingress-2, 8
|
Provides a count of the ingress cells with CLP (0+1) that are received.
The range is from 0 to (240-1) cells.
|
3
|
Ingress UPC CLP0 discards
|
Ingress UPC CLP0+1 discards
|
Ingress-2, 8
|
Provides a count of the total cells with CLP equal to 0 that are discarded due to usage parameter control (UPC).
The range is from 0 to (240-1) cells.
|
4
|
Ingress UPC CLP0+1 discards
|
No
|
Ingress-2, 8
|
Provides a count of the total cells with CLP (0+1) that are discarded due to UPC.
The range is from 0 to (240-1) cells.
|
5
|
Ingress noncompliant CLP0+1
|
No
|
Ingress-2, 8
|
Provides a count of the total cells with CLP (0+1) that are noncompliant or discarded due to policing.
The range is from 0 to (240-1) cells.
|
6
|
Ingress total valid
OAM cells
|
No
|
Ingress-2, 8
|
Provides a count of the ingress operation, administration, and maintenance (OAM) cells that have a valid cell type and function type.
The range is from 0 to (240-1) cells.
|
7
|
Ingress total valid RM cells
|
No
|
Ingress-2, 8
|
Provides a count of the ingress resource management (RM) cells that have a valid cell type and function type.
The range is from 0 to (240-1) cells.
|
8
|
Ingress total errored OAM/RM cells
|
No
|
Ingress-2, 8
|
Provides a count of the total errored OAM and RM cells in the ingress direction.
The errored cells include:
•OAM cells with an incorrect CRC-10
•Undefined OAM or function type
•RM cells with an incorrect CRC-10
The range is from 0 to (240-1) cells.
|
9
|
Ingress nonzero GFC cells
|
No
|
Ingress-2, 8
|
Provides a count of the cells with a nonzero generic flow control (GFC) field.
This statistic is applicable only for UNI and ingress directions.
The range is from 0 to (240-1) cells.
|
10
|
Ingress invalid VPI/VCI cells
|
No
|
Ingress-2, 8
|
Provides a count of the ingress cells with an unassigned or invalid virtual path identifier (VPI) or virtual channel identifier (VCI).
The range is from 0 to (240-1) cells.
|
11
|
Ingress last unknown VPI.VCI (invalid)
|
No
|
Ingress-2, 8
|
Provides the last unknown VPI.VCI value on the line.
The range is the VPI/VCI value.
|
12
|
Ingress HEC errored cells discarded
|
Ingress total HEC-errored cells
|
Ingress-2, 8
|
Provides a count of the header error control (HEC) errored cells that are discarded on the line.
The range is from 0 to (240-1) cells.
|
13
|
Ingress HEC errored cells corrected
|
Ingress total HEC-errored cells
|
Ingress-2, 8
|
Provides a count of the HEC errored cells that are corrected on the line.
The range is from 0 to (240-1) cells.
|
14
|
Ingress total HEC-errored cells
|
No
|
Ingress-2, 8
|
Provides a count of the total HEC errored cells that are received on the line.
The range is from 0 to (240-1) cells.
|
15
|
Egress CLP0 cells to port
|
Egress CLP0+1 cells
|
Egress-7, 13
|
Provides a count of the egress cells with CLP equal to 0.
The range is from 0 to (240-1) cells.
|
16
|
Egress CLP1 cells to port
|
Egress CLP0+1 cells
|
Egress-7, 13
|
Provides a count of the egress cells with CLP equal to 1.
The range is from 0 to (240-1) cells.
|
17
|
Egress CLP0+1 cells to port
|
No
|
Egress-7, 13
|
Provides a count of the egress cells with CLP (0+1).
The range is from 0 to (240-1) cells.
|
18
|
Egress OAM valid cells
|
No
|
Egress-7, 13
|
Provides a count of the egress valid OAM cells.
The range is from 0 to (240-1) cells.
|
19
|
Egress RM valid cells
|
No
|
Egress-7, 13
|
Provides a count of the egress valid RM cells.
The range is from 0 to (240-1) cells.
|
20
|
Egress OAM/RM errored cells
|
No
|
Egress-7, 13
|
Provides a count of the errored OAM and RM cells in the egress direction.
The errored cells include:
•OAM cells with an incorrect CRC-10
•Undefined OAM type or function type
•RM cells with an incorrect CRC-10
The range is from 0 to (240-1) cells.
|
21
|
Egress invalid VPI/VCI cells
|
No
|
Egress-7, 13
|
Provides a count of the egress cells with errored headers.
This count includes cells with an unassigned or invalid VPI or VCI.
The range is from 0 to (240-1) cells.
|
E.3.4 AXSM-E Line
This section provides information about the ATM statistics contained in the AXSME_ATM_line group. The AXSM-E line statistics in this group are applicable to the Cisco MGX 8850 PXM45-based switch.
The following table lists the attributes that are common to the AXSM-E line statistics.
Table E-16 Attributes Common to All AXSM-E Line Statistics
Object
|
Attribute
|
Front cards
|
AXSM-2-622-E, AXSM-8-155-E, AXSM-16-T3E3-E
|
Back cards
|
SMFLR-1-622, SMFIR-1-622, SMFLR-4-155, SMFIR-4-155, MMF-4-155, SMB-4-155, SMB-8-T3, SMB-8-E3
|
Object type
|
1
|
Subobject type
|
12
|
Allowable peak intervals
|
60 seconds, 300 seconds
|
Default peak interval
|
300 seconds
|
The AXSM-E line statistics are used primarily for gathering troubleshooting and performance data.
The following table includes the description of each statistic and the point during the data flow at which the statistic gathers the appropriate information. Each measurement point refers to the corresponding point in Figure E-1.
Note AXSM-E statistics are only collected at measurement points 1, 2, and 13.
Table E-17 AXSM-E Line Statistics—Descriptions
Stat ID
|
AXSM-E Line Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
0
|
Ingress CLP0 cells received
|
Cells received
|
Ingress-1
|
Provides a count of the ingress cells with CLP equal to 0 that are received.
The range is from 0 to (240-1) cells.
|
1
|
Ingress CLP1 cells received
|
Cells received
|
Ingress-1
|
Provides a count of the ingress cells with CLP equal to 1 that are received.
The range is from 0 to (240-1) cells.
|
2
|
Ingress valid OAM cells received
|
No
|
Ingress-1
|
Provides a count of the OAM cells that are received at the port.
The range is from 0 to (240-1) cells.
|
3
|
Ingress valid RM cells received
|
No
|
Ingress-1
|
Provides a count of the RM cells that are received at the port.
The range is from 0 to (240-1) cells.
|
4
|
UNI only cells received
|
No
|
Ingress-1
|
Provides a count of the cells tagged as UNI. These cells are received at the port.
The range is from 0 to (240-1) cells.
|
5
|
Error OAM cells received
|
No
|
Ingress-1
|
Provides a count of the errored OAM cells that are received.
The errored cells include:
•OAM cells with an incorrect CRC-10
•Undefined OAM type or function type
The range is from 0 to (240-1) cells.
|
6
|
Ingress cells received with header error
|
No
|
Before-1
|
Provides a count of the total cells with a header error. These cells are received at the port.
The range is from 0 to (240-1) cells.
|
7
|
Egress CLP0 cells received
|
Cells transmitted
|
After 13
|
Provides a count of the cells with CLP equal to 0 that are received at the port in the egress direction.
The range is from 0 to (240-1) cells.
|
8
|
Egress CLP1 cells received
|
Cells transmitted
|
After 13
|
Provides a count of the cells with CLP equal to 1 that are received at the port in the egress direction.
The range is from 0 to (240-1) cells.
|
9
|
Egress valid OAM cells received
|
Cells transmitted
|
After 13
|
Provides a count of the OAM cells that are received at the port in the egress direction.
The range is from 0 to (240-1) cells.
|
10
|
Egress valid RM cells received
|
Cells transmitted
|
After 13
|
Provides a count of the RM cells that are received at the port in the egress direction.
The range is from 0 to (240-1) cells.
|
11
|
Egress OAM cells received with errors
|
No
|
After 13
|
Provides a count of the errored OAM cells that are received at the port in the egress direction.
The errored cells include:
•OAM cells with an incorrect CRC-10
•Undefined OAM type or function type
The range is from 0 to (240-1) cells.
|
12
|
Uncorrectable header errors
|
No
|
Before 1
|
Provides a count of the cells that are discarded due to uncorrectable header errors.
The range is from 0 to (240-1) cells.
|
13
|
Corrected header errors
|
No
|
Before 1
|
Provides a count of the cells with header errors that are corrected.
The range is from 0 to (240-1) cells.
|
14
|
Idle/unassigned cells
|
No
|
Before 1
|
Provides a count of the idle or unassigned cells that are received.
The range is from 0 to (240-1) cells.
|
15
|
Cells received
|
No
|
Ingress-1
|
Provides a count of the total cells that are received at the port.
The range is from 0 to (240-1) cells.
|
16
|
Cells transmitted
|
No
|
After 13
|
Provides a count of the total cells that are transmitted.
The range is from 0 to (240-1) cells.
|
E.3.5 PXM1E Service Line
This section provides information about the statistics contained in the PXM1E group. The PXM1E connection statistics in this group are applicable to the Cisco MGX 8830 and Cisco MGX 8850 nodes.
The following table lists the attributes that are common to the PXM1E service line statistics.
Table E-18 Attributes Common to All PXM1E Service Line Statistics
Object
|
Attribute
|
Front cards
|
PXM1E-8-T3E3, PXM1E-8-155, PXM1E-2-622, PXM1E-T3E3-155 (combo card)
|
Back cards
|
MGX-SMB-8T3, MGX-SMB-8E3, MGX-SMFIR-8-155LC/B, MGX-SMFLR-8-155LC/B, MGB-MMF-8-155/B, MGX-SMFIR-8-155LC/C, MGX-SMFLR-8-155LC/C, MGB-MMF-8-155/C, MGX-SMFIR-2-622/B, MGX-SMFLR-2-622/B, MGX-SMFIR-2-622/C, MGX-SMFLR-2-622/C, MGX-FRU-T3E3-155
|
Object type
|
1
|
Subobject type
|
13
|
Allowable peak intervals
|
60 seconds, 300 seconds
|
Default peak interval
|
300 seconds
|
The PXM1E service line statistics are used primarily for gathering troubleshooting and performance data.
The following table includes the description of each statistic and the point during the data flow at which the statistic gathers the appropriate information. Each measurement point refers to the corresponding point in Figure E-1.
Table E-19 PXM1E Service Line Statistics—Descriptions
Stat ID
|
PXM1E Line Statistics
|
Subset of Other Stats
|
Ingress/Egress Measurement Point
|
Description
|
0
|
CLP0 Cells before Policing (Ingress)
|
No
|
Ingress-2, 8
|
Provides a count of the ingress cells with CLP equal to 0 that are received prior to policing.
The range is from 0 to (240-1) cells.
|
1
|
CLP1 Cells before Policing (Ingress)
|
No
|
Ingress-2, 8
|
Provides a count of the ingress cells with CLP equal to 1 that are received prior to policing.
The range is from 0 to (240-1) cells.
|
2
|
Total Valid OAM Cells (Ingress)
|
No
|
Ingress-2, 8
|
Provides a count of the ingress operation, administration, and maintenance (OAM) cells that have a valid cell type and function type.
The range is from 0 to (240-1) cells.
|
3
|
Total Valid RM Cells (Ingress)
|
No
|
Ingress-2, 8
|
Provides a count of the ingress resource management (RM) cells that have a valid cell type and function type.
The range is from 0 to (240-1) cells.
|
4
|
Nonzero GFC Cells (Ingress)
|
No
|
Ingress-2, 8
|
Provides a count of the cells with a nonzero generic flow control (GFC) field.
This statistic is applicable only for UNI and ingress directions.
The range is from 0 to (240-1) cells.
|
5
|
Invalid OAM+RM Cells (Ingress)
|
No
|
Ingress-2, 8
|
Provides a count of the ingress invalid OAM and RM cells.
The range is from 0 to (240-1) cells.
|
6
|
Invalid Header Cells (Ingress)
|
No
|
Ingress-2, 8
|
Provides a count of the invalid header error control errored cells that are received on the line.
The range is from 0 to (240-1) cells.
|
7
|
CLP0 cells (Egress)
|
Egress CLP0+1 Cells
|
Egress-7, 13
|
Provides a count of the egress cells with CLP equal to 0.
The range is from 0 to (240-1) cells.
|
8
|
CLP1 cells (Egress)
|
Egress CLP0+1 Cells
|
Egress-7, 13
|
Provides a count of the egress cells with CLP equal to 1.
The range is from 0 to (240-1) cells.
|
9
|
Valid OAM cells (Egress)
|
No
|
Egress-7, 13
|
Provides a count of the egress valid OAM cells.
The range is from 0 to (240-1) cells.
|
10
|
Valid RM cells (Egress)
|
No
|
Egress-7, 13
|
Provides a count of the egress RM valid cells.
The range is from 0 to (240-1) cells.
|
11
|
InValid OAM cells (Egress)
|
No
|
Egress-7, 13
|
Provides a count of the egress invalid OAM cells.
The range is from 0 to (240-1) cells.
|
12
|
Uncorrectable Header cells (Ingress)
|
No
|
Ingress-2, 8
|
Provides a count of the header error control errored cells that are not corrected on the line.
The range is from 0 to (240-1) cells.
|
13
|
Corrected Header cells (Ingress)
|
No
|
Ingress-2, 8
|
Provides a count of the HEC errored cells that are corrected on the line.
The range is from 0 to (240-1) cells.
|
14
|
Idle cells (Ingress)
|
Total cells (Ingress)
|
Ingress-2, 8
|
Provides a count of the total idle cells received in the ingress direction.
The range is from 0 to (240-1) cells.
|
15
|
Total cells (Ingress)
|
No
|
Ingress-2, 8
|
Provides a count of the total cells received in the ingress direction.
The range is from 0 to (240-1) cells.
|
16
|
Total cells (Egress)
|
No
|
Egress-7, 13
|
Provides a count of the total cells received in the egress direction.
The range is from 0 to (240-1) cells.
|
E.3.6 MPSM16-T1E1 ATM Cell-Layer Statistics Subobject Type 45
This section provides information about the statistics contained in the MPSM16-T1E1_Cell_Layer_stats group. The MPSM16-T1E1 ATM cell-layer statistics are applicable to the MPSM16-T1E1 cards on the Cisco MGX 8850 PXM45-based and Cisco MGX 8830 nodes.
The following table lists the attributes that are common to all of the MPSM16-T1E1 ATM connection statistics.
Table E-20 Attributes Common to All MPSM16-T1E1 ATM Connection Statistics
Object
|
Attribute
|
Front card
|
MPSM16-T1E1
|
Back card
|
RBBN-16T1E1, MCC-16E1, RBBN-16-T1E1-1N, MCC-16-E1-1N, RED-16-T1E1
|
Object type
|
1
|
Subobject type
|
45
|
Default peak interval
|
300 seconds
|
The following table includes the MPSM16-T1E1 ATM cell-layer statistics.
Table E-21 MPSM16-T1E1 ATM Cell-Layer Statistics—Descriptions
Stat ID
|
MPSM16-T1E1 ATM Cell-Layer Statistics
|
Ingress/Egress Measurement Point
|
0
|
All CLP0 cells from PIF
|
Ingress
|
1
|
All CLP1 cells from PIF
|
Ingress
|
2
|
All valid OAM cells from PIF
|
Ingress
|
3
|
All valid RM cells from PIF
|
Ingress
|
7
|
All CLP0 cells to PIF
|
Egress
|
8
|
All CLP1 cells to PIF
|
Egress
|
9
|
All valid OAM cells to PIF
|
Egress
|
10
|
All valid RM cells to PIF
|
Egress
|
12
|
ATM uncorrectable header errors from PIF
|
Ingress
|
13
|
ATM corrected header errors from PIF
|
Ingress
|
E.3.7 MPSM16-T1E1 ATM Cell-Layer Statistics Subobject Type 46
This section provides information about the statistics contained in the MPSM16-T1E1_Cell_Layer_stats group. The MPSM16-T1E1 ATM connection statistics are applicable to the MPSM16-T1E1 cards on the Cisco MGX 8850 PXM45-based and Cisco MGX 8830 nodes.
The following table lists the attributes that are common to all of the MPSM16-T1E1 ATM connection statistics.
Table E-22 Attributes Common to All MPSM16-T1E1 ATM Connection Statistics
Object
|
Attribute
|
Front card
|
MPSM16-T1E1
|
Back card
|
RBBN-16T1E1, MCC-16E1, RBBN-16-T1E1-1N, MCC-16-E1-1N, RED-16-T1E1
|
Object type
|
1
|
Subobject type
|
46
|
Default peak interval
|
300 seconds
|
The following table includes the MPSM16-T1E1 ATM cell-layer statistics.
Table E-23 MPSM16-T1E1 ATM Cell-Layer Statistics—Descriptions
Stat ID
|
MPSM16-T1E1 ATM Cell-Layer Statistics
|
Ingress/Egress Measurement Point
|
0
|
All CLP0 cells from PIF
|
Ingress
|
1
|
All CLP1 cells from PIF
|
Ingress
|
2
|
All valid OAM cells from PIF
|
Ingress
|
3
|
All valid RM cells from PIF
|
Ingress
|
7
|
All CLP0 cells to PIF
|
Egress
|
8
|
All CLP1 cells to PIF
|
Egress
|
9
|
All valid OAM cells to PIF
|
Egress
|
10
|
All valid RM cells to PIF
|
Egress
|
12
|
ATM uncorrectable header errors from PIF
|
Ingress
|
13
|
ATM corrected header errors from PIF
|
Ingress
|
E.3.8 MPSM16-T1E1 ATM Cell-Layer Statistics Subobject Type 47
This section provides information about the statistics contained in the MPSM16-T1E1_Cell_Layer_stats group. The MPSM16-T1E1 ATM cell-layer statistics are applicable to the MPSM16-T1E1 cards on the Cisco MGX 8850 PXM45-based and Cisco MGX 8830 nodes.
The following table lists the attributes that are common to all of the MPSM16-T1E1 ATM cell-layer statistics.
Table E-24 Attributes Common to All MPSM16-T1E1 ATM Cell-Layer Statistics
Object
|
Attribute
|
Front card
|
MPSM16-T1E1
|
Back card
|
RBBN-16T1E1, MCC-16E1, RBBN-16-T1E1-1N, MCC-16-E1-1N, RED-16-T1E1
|
Object type
|
1
|
Subobject type
|
47
|
Default peak interval
|
300 seconds
|
The following table includes the MPSM16-T1E1 ATM cell-layer statistics.
Table E-25 MPSM16-T1E1 ATM Cell-Layer Statistics—Descriptions
Stat ID
|
MPSM16-T1E1 ATM Cell-Layer Statistics
|
Ingress/Egress Measurement Point
|
0
|
All CLP0 cells from PIF
|
Ingress
|
1
|
All CLP1 cells from PIF
|
Ingress
|
2
|
All valid OAM cells from PIF
|
Ingress
|
3
|
All valid RM cells from PIF
|
Ingress
|
7
|
All CLP0 cells to PIF
|
Egress
|
8
|
All CLP1 cells to PIF
|
Egress
|
9
|
All valid OAM cells to PIF
|
Egress
|
10
|
All valid RM cells to PIF
|
Egress
|
12
|
ATM uncorrectable header errors from PIF
|
Ingress
|
13
|
ATM corrected header errors from PIF
|
Ingress
|
E.4 Port Statistics
The following port statistics are supported:
•AXSM Port
•AXSM-E Port
•PXM1E Port
•VXSM Port Statistics
E.4.1 AXSM Port
This section provides information about the statistics contained in the AXSM_ATM_ port group. The statistics in this group are applicable to the Cisco MGX 8850 PXM45-based switch.
The following table lists the attributes that are common to all of the AXSM port statistics.
Table E-26 Attributes Common to All AXSM Port Statistics
Object
|
Attribute
|
Front cards
|
MGX-AXSM-16-T3E3, MGX-AXSM-16-155, MGX-AXSM-4-622, MGX-AXSM-1-2488
|
Back cards
|
MGX-SMB-8-T3, MGX-SMB-8-E3, MGX-SMB-4-155, MGX-SMFIR-8-155, MGX-SMFLR-8-155, MGX-MMF-8-155, MGX-SMFLR-2-622, MGX-SMFIR-2-622, MGX-SMFSR-1-2488, MGX-SMFLR-1-2488, MGX-SMFXLR-1-2488
|
Object type
|
3
|
Subobject type
|
9
|
Default peak interval
|
300 seconds
|
The AXSM port statistics are used primarily for gathering performance data.
The following table includes the description of each statistic and the point during the data flow at which the statistic gathers the appropriate information. Each measurement point refers to the corresponding point in Figure E-1.
Table E-27 AXSM Port Statistics—Descriptions
Stat ID
|
AXSM Port Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
0
|
Ingress CLP0 cells from policer
|
No
|
Ingress-3, 9
|
Provides a count of the cells with CLP equal to 0 that arrive at the queueing engine.
The count includes both discarded and nondiscarded cells.
The range is from 0 to (240-1) cells.
|
1
|
Ingress CLP1 cells from policer
|
No
|
Ingress-3, 9
|
Provides a count of the cells with CLP equal to 1 that arrive at the queueing engine.
The count includes both discarded and nondiscarded cells.
The range is from 0 to (240-1) cells.
|
2
|
Ingress CLP0 cells discarded (dropped)
|
Ingress CLP0 cells from policer
|
Ingress-3, 9
|
Provides a count of ingress cells with CLP equal to 0 that are discarded by the queueing engine.
The range is from 0 to (240-1) cells.
|
3
|
Ingress CLP1 cells discarded (dropped)
|
Ingress CLP0 cells from policer
|
Ingress-3, 9
|
Provides a count of ingress cells with CLP equal to 1 that are discarded by the queueing engine.
The range is from 0 to (240-1) cells.
|
4
|
Ingress CLP0 cells to backplane
|
No
|
Ingress-3, 9
|
Provides a count of the cells with CLP equal to 0 that travel from the queueing engine to the bus.
The range is from 0 to (240-1) cells.
|
5
|
Ingress CLP1 cells to backplane
|
No
|
Ingress-3, 9
|
Provides a count of the cells with CLP equal to 1 that travel from the queueing engine to the bus.
The range is from 0 to (240-1) cells.
|
6
|
Egress CLP0 cells from backplane
|
No
|
Egress-6, 12
|
Provides a count of the cells with CLP equal to 0 that arrive at the queueing engine.
The count includes both discarded and nondiscarded cells.
The range is from 0 to (240-1) cells.
|
7
|
Egress CLP1 cells from backplane
|
No
|
Egress-6, 12
|
Provides a count of the cells with CLP equal to 1 that arrive at the queueing engine.
The count includes both discarded and nondiscarded cells.
The range is from 0 to (240-1) cells.
|
8
|
Egress CLP0 cells discarded (dropped)
|
Egress CLP0 cells from backplane
|
Egress-6, 12
|
Provides a count of egress cells with CLP equal to 0 that are discarded by the queueing engine.
The range is from 0 to (240-1) cells.
|
9
|
Egress CLP1 cells discarded (dropped)
|
Egress CLP1 cells from backplane
|
Egress-6, 12
|
Provides a count of egress cells with CLP equal to 1 that are discarded by the queueing engine.
The range is from 0 to (240-1) cells.
|
10
|
Egress CLP0 cells to port
|
No
|
Egress-6, 12
|
Provides a count of the cells with CLP equal to 0 that travel from the queueing engine to the line.
The range is from 0 to (240-1) cells.
|
11
|
Egress CLP1 cells to port
|
No
|
Egress-6, 12
|
Provides a count of the cells with CLP equal to 1 that travel from the queueing engine to the line.
The range is from 0 to (240-1) cells.
|
12
|
Egress Total OAM cells
|
No
|
Egress-6, 12
|
Provides a count of the OAM cells that travel from the queueing engine to the line.
The range is from 0 to (240-1) cells.
|
E.4.2 AXSM-E Port
This section provides information about the statistics contained in the AXSME_ATM_port group. The AXSM-E port statistics in this group are applicable to the Cisco MGX 8850 PXM45-based switch.
The following table lists the attributes that are common to the AXSM-E port statistics.
Table E-28 Attributes Common to All AXSM-E Port Statistics
Object
|
Attribute
|
Front cards
|
AXSM-2-622-E, AXSM-8-155-E, AXSM-16-T3E3-E
|
Back cards
|
SMFLR-1-622, SMFIR-1-622, SMFLR-4-155, SMFIR-4-155, MMF-4-155, SMB-4-155, SMB-8-T3, SMB-8-E3
|
Object type
|
3
|
Subobject type
|
11
|
Allowable peak intervals
|
60 seconds, 300 seconds
|
Default peak interval
|
300 seconds
|
The AXSM-E port statistics are used primarily for gathering troubleshooting and performance data.
The following table includes the description of each statistic and the point during the data flow at which the statistic gathers the appropriate information. Each measurement point refers to the corresponding point in Figure E-1.
Note AXSM-E statistics are only collected at measurement points 1, 2, and 13.
Table E-29 AXSM-E Port Statistics—Descriptions
Stat ID
|
AXSM-E Port Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
0
|
CLP0 cells transmitted
|
No
|
After 13
|
Provides a count of the cells with CLP equal to 0 that are transmitted to the port.
The range is from 0 to (240-1) cells.
|
1
|
CLP1 cells transmitted
|
No
|
After 13
|
Provides a count of the total cells with CLP equal to 1 that are transmitted to the port.
The range is from 0 to (240-1) cells.
|
2
|
OAM cells transmitted
|
No
|
After 13
|
Provides a count of the OAM cells that are transmitted to the port.
The range is from 0 to (240-1) cells.
|
3
|
RM cells transmitted
|
No
|
After 13
|
Provides a count of the RM cells that are transmitted to the port.
The range is from 0 to (240-1) cells.
|
4
|
CLP0 cells not discarded
|
No
|
Egress
|
Provides a count of the cells with CLP equal to 0 that are received at the port.
The range is from 0 to (240-1) cells.
|
5
|
CLP1 cells not discarded
|
No
|
Egress
|
Provides a count of the cells with CLP equal to 1 that are received at the port.
The range is from 0 to (240-1) cells.
|
6
|
CLP0 cells discarded due to congestion
|
No
|
Egress
|
Provides a count of the cells with CLP equal to 0 that are received at the port, then discarded due to congestion.
The range is from 0 to (240-1) cells.
|
7
|
CLP1 cells discarded due to congestion
|
No
|
Egress
|
Provides a count of the cells with CLP equal to 1 that are received at the port, then discarded due to congestion.
The range is from 0 to (240-1) cells.
|
8
|
OAM cells received
|
No
|
Egress
|
Provides a count of the OAM cells that are received at the port.
The range is from 0 to (240-1) cells.
|
9
|
RM cells received
|
No
|
Egress
|
Provides a count of the RM cells that are received at the port.
The range is from 0 to (240-1) cells.
|
10
|
EFCI cells transmitted
|
No
|
Egress-13
|
Provides a count of the cells with the EFCI bit set that are transmitted to the port.
The range is from 0 to (240-1) cells.
|
11
|
EFCI cells received
|
No
|
Egress
|
Provides a count of the cells with the EFCI bit set that are received at the port.
The range is from 0 to (240-1) cells.
|
12
|
Cells received by Qbin 0
|
—
|
—
|
Provides a count of the cells that are received on Qbin 0.
The range is from 0 to (240-1) cells.
|
13
|
Cells discarded by
Qbin 0
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 0.
The range is from 0 to (240-1) cells.
|
14
|
Cells transmitted by Qbin 0
|
—
|
—
|
Provides a count of the cells that are transmitted out of Qbin 0.
The range is from 0 to (240-1) cells.
|
15
|
Cells received by Qbin 1
|
—
|
—
|
Provides a count of the cells that are received on Qbin 1.
The range is from 0 to (240-1) cells.
|
16
|
Cells discarded by
Qbin 1
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 1.
The range is from 0 to (240-1) cells.
|
17
|
Cells transmitted by Qbin 1
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 1.
The range is from 0 to (240-1) cells.
|
18
|
Cells received by Qbin 2
|
—
|
—
|
Provides a count of the cells that are received on Qbin 2.
The range is from 0 to (240-1) cells.
|
19
|
Cells discarded by
Qbin 2
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 2.
The range is from 0 to (240-1) cells.
|
20
|
Cells transmitted by Qbin 2
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 2.
The range is from 0 to (240-1) cells.
|
21
|
Cells received by Qbin 3
|
—
|
—
|
Provides a count of the cells that are received on Qbin 3.
The range is from 0 to (240-1) cells.
|
22
|
Cells discarded by
Qbin 3
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 3.
The range is from 0 to (240-1) cells.
|
23
|
Cells transmitted by Qbin 3
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 3.
The range is from 0 to (240-1) cells.
|
24
|
Cells received by Qbin 4
|
—
|
—
|
Provides a count of the cells that are received on Qbin 4.
The range is from 0 to (240-1) cells.
|
25
|
Cells discarded by
Qbin 4
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 4.
The range is from 0 to (240-1) cells.
|
26
|
Cells transmitted by Qbin 4
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 4.
The range is from 0 to (240-1) cells.
|
27
|
Cells received by Qbin 5
|
—
|
—
|
Provides a count of the cells that are received on Qbin 5.
The range is from 0 to (240-1) cells.
|
28
|
Cells discarded by
Qbin 5
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 5.
The range is from 0 to (240-1) cells.
|
29
|
Cells transmitted by Qbin 5
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 5.
The range is from 0 to (240-1) cells.
|
30
|
Cells received by Qbin 6
|
—
|
—
|
Provides a count of the cells that are received on Qbin 6.
The range is from 0 to (240-1) cells.
|
31
|
Cells discarded by
Qbin 6
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 6.
The range is from 0 to (240-1) cells.
|
32
|
Cells transmitted by Qbin 6
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 6.
The range is from 0 to (240-1) cells.
|
33
|
Cells received by Qbin 7
|
—
|
—
|
Provides a count of the cells that are received on Qbin 7.
The range is from 0 to (240-1) cells.
|
34
|
Cells discarded by
Qbin 7
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 7.
The range is from 0 to (240-1) cells.
|
35
|
Cells transmitted by Qbin 7
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 7.
The range is from 0 to (240-1) cells.
|
36
|
Cells received by Qbin 8
|
—
|
—
|
Provides a count of the cells that are received on Qbin 8.
The range is from 0 to (240-1) cells.
|
37
|
Cells discarded by
Qbin 8
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 8.
The range is from 0 to (240-1) cells.
|
38
|
Cells transmitted by Qbin 8
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 8.
The range is from 0 to (240-1) cells.
|
39
|
Cells received by Qbin 9
|
—
|
—
|
Provides a count of the cells that are received on Qbin 9.
The range is from 0 to (240-1) cells.
|
40
|
Cells discarded by
Qbin 9
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 9.
The range is from 0 to (240-1) cells.
|
41
|
Cells transmitted by Qbin 9
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 9.
The range is from 0 to (240-1) cells.
|
42
|
Cells received by Qbin10
|
—
|
—
|
Provides a count of the cells that are received on Qbin 10.
The range is from 0 to (240-1) cells.
|
43
|
Cells discarded by Qbin10
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 10.
The range is from 0 to (240-1) cells.
|
44
|
Cells transmitted by Qbin10
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 10.
The range is from 0 to (240-1) cells.
|
45
|
Cells received by Qbin11
|
—
|
—
|
Provides a count of the cells that are received on Qbin 11.
If Qbin 11 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
46
|
Cells discarded by Qbin11
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 11.
If Qbin 11 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
47
|
Cells transmitted by Qbin11
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 11.
If Qbin 11 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
48
|
Cells received by Qbin12
|
—
|
—
|
Provides a count of the cells that are received on Qbin 12.
If Qbin 12 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
49
|
Cells discarded by Qbin12
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 12.
If Qbin 12 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
50
|
Cells transmitted by Qbin12
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 12.
If Qbin 12 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
51
|
Cells received by Qbin13
|
—
|
—
|
Provides a count of the cells that are received on Qbin 13.
If Qbin 13 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
52
|
Cells discarded by Qbin13
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 13.
If Qbin 13 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
53
|
Cells transmitted by Qbin13
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 13.
If Qbin 13 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
54
|
Cells received by Qbin14
|
—
|
—
|
Provides a count of the cells that are received on Qbin 14.
If Qbin 14 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
55
|
Cells discarded by Qbin14
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 14.
If Qbin 14 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
56
|
Cells transmitted by Qbin14
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 14.
If Qbin 14 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
57
|
Cells received by Qbin15
|
—
|
—
|
Provides a count of the cells that are received on Qbin 15.
If Qbin 15 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
58
|
Cells discarded by Qbin15
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 15.
If Qbin 15 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
59
|
Cells transmitted by Qbin15
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 15.
If Qbin 15 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
61
|
CLP0 cells transmitted (ingress)
|
—
|
Ingress
|
Provides a count of the cells with CLP equal to 0 that are transmitted from the port.
The range is from 0 to (240-1) cells.
|
62
|
CLP1 cells transmitted (ingress)
|
—
|
Ingress
|
Provides a count of the total cells with CLP equal to 1 that are transmitted from the port.
The range is from 0 to (240-1) cells.
|
63
|
OAM cells transmitted (ingress)
|
No
|
Ingress
|
Provides a count of the OAM cells that are transmitted from the port.
The range is from 0 to (240-1) cells.
|
64
|
RM cells transmitted (ingress)
|
No
|
Ingress
|
Provides a count of the RM cells that are transmitted from the port.
The range is from 0 to (240-1) cells.
|
65
|
CLP0 cells not discarded due to congestion
|
No
|
Ingress
|
Provides a count of the cells with CLP equal to 0 that are received at the port.
The range is from 0 to (240-1) cells.
|
66
|
CLP1 cells not discarded due to congestion
|
No
|
Ingress
|
Provides a count of the cells with CLP equal to 1 that are received at the port.
The range is from 0 to (240-1) cells.
|
67
|
CLP0 cells discarded due to congestion
|
No
|
Ingress-1
|
Provides a count of the cells with CLP equal to 0 that are received at the port, then discarded due to congestion.
The range is from 0 to (240-1) cells.
|
68
|
CLP1 cells discarded due to congestion
|
No
|
Ingress-1
|
Provides a count of the cells with CLP equal to 1 that are received at the port, then discarded due to congestion.
The range is from 0 to (240-1) cells.
|
69
|
OAM cells received (ingress)
|
No
|
Ingress-1
|
Provides a count of the OAM cells that are received at the port.
The range is from 0 to (240-1) cells.
|
70
|
RM cells received (ingress)
|
No
|
Ingress-1
|
Provides a count of the RM cells that are received at the port.
The range is from 0 to (240-1) cells.
|
71
|
EFCI cells transmitted (ingress)
|
No
|
Egress-13
|
Provides a count of the cells with the EFCI bit set that are transmitted to the port.
The range is from 0 to (240-1) cells.
|
72
|
EFCI cells received (ingress)
|
No
|
Ingress-1
|
Provides a count of the cells with the EFCI bit set that are received at the port.
The range is from 0 to (240-1) cells.
|
E.4.3 PXM1E Port
This section provides information about the statistics contained in the PXM1E Port group. The PXM1E port statistics in this group are applicable to the Cisco MGX 8830 and Cisco MGX 8850 nodes.
The following table lists the attributes that are common to the PXM1E port statistics.
Table E-30 Attributes Common to All PXM1E Port Statistics
Object
|
Attribute
|
Front cards
|
PXM1E-8-T3E3, PXM1E-8-155, PXM1E-2-622, PXM1E-T3E3-155 (combo card)
|
Back cards
|
MGX-SMB-8T3, MGX-SMB-8E3, MGX-SMFIR-8-155LC/B, MGX-SMFLR-8-155LC/B, MGB-MMF-8-155/B, MGX-SMFIR-8-155LC/C, MGX-SMFLR-8-155LC/C, MGB-MMF-8-155/C, MGX-SMFIR-2-622/B, MGX-SMFLR-2-622/B, MGX-SMFIR-2-622/C, MGX-SMFLR-2-622/C, MGX-FRU-T3E3-155
|
Object type
|
3
|
Subobject type
|
12
|
Allowable peak intervals
|
60 seconds, 300 seconds
|
Default peak interval
|
300 seconds
|
The PXM1E port statistics are used primarily for gathering troubleshooting and performance data.
The following table includes the description of each statistic and the point during the data flow at which the statistic gathers the appropriate information. Each measurement point refers to the corresponding point in Figure E-1.
Table E-31 PXM1E Port Statistics—Descriptions
Stat ID
|
PXM1E Port Statistics
|
Subset of Other Stats
|
Ingress/Egress Measurement Point
|
Description
|
0
|
CLP0 Cells transmitted
|
No
|
After 13
|
Provides a count of the cells with CLP equal to 0 that are transmitted to the port.
The range is from 0 to (240-1) cells.
|
1
|
CLP1 Cells transmitted
|
No
|
After 13
|
Provides a count of the total cells with CLP equal to 1 that are transmitted to the port.
The range is from 0 to (240-1) cells.
|
2
|
OAM Cells transmitted
|
No
|
After 13
|
Provides a count of the operation, administration, and maintenance (OAM) cells that are transmitted to the port.
The range is from 0 to (240-1) cells.
|
3
|
RM Cells transmitted
|
No
|
After 13
|
Provides a count of the resource management (RM) cells that are transmitted to the port.
The range is from 0 to (240-1) cells.
|
4
|
CLP0 Cells received without discard
|
No
|
Ingress-1
|
Provides a count of the cells with CLP equal to 0 that are received at the port.
The range is from 0 to (240-1) cells.
|
5
|
CLP1 Cells received without discard
|
No
|
Ingress-1
|
Provides a count of the cells with CLP equal to 1 that are received at the port.
The range is from 0 to (240-1) cells.
|
6
|
CLP0 Cells discarded due to congestion
|
No
|
Ingress-1
|
Provides a count of the cells with CLP equal to 0 that are received at the port, then discarded due to congestion.
The range is from 0 to (240-1) cells.
|
7
|
CLP1 Cells discarded due to congestion
|
No
|
Ingress-1
|
Provides a count of the cells with CLP equal to 1 that are received at the port, then discarded due to congestion.
The range is from 0 to (240-1) cells.
|
8
|
OAM Cells received
|
No
|
Ingress-1
|
Provides a count of the OAM cells that are received at the port.
The range is from 0 to (240-1) cells.
|
9
|
RM Cells received
|
No
|
Ingress-1
|
Provides a count of the RM cells that are received at the port.
The range is from 0 to (240-1) cells.
|
10
|
EFCI Cells transmitted
|
No
|
Egress-13
|
Provides a count of the cells with the EFCI bit set that are transmitted to the port.
The range is from 0 to (240-1) cells.
|
11
|
EFCI Cells received
|
No
|
Ingress-1
|
Provides a count of the cells with the EFCI bit set that are received at the port.
The range is from 0 to (240-1) cells.
|
12
|
Cells Received for
Qbin 0
|
—
|
—
|
Provides a count of the cells that are received on Qbin 0.
The range is from 0 to (240-1) cells.
|
13
|
Cells discarded for
Qbin 0
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 0.
The range is from 0 to (240-1) cells.
|
14
|
Cells transmitted for Qbin 0
|
—
|
—
|
Provides a count of the cells that are transmitted out of Qbin 0.
The range is from 0 to (240-1) cells.
|
15
|
Cells Received for
Qbin 1
|
—
|
—
|
Provides a count of the cells that are received on Qbin 1.
The range is from 0 to (240-1) cells.
|
16
|
Cells discarded for
Qbin 1
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 1.
The range is from 0 to (240-1) cells.
|
17
|
Cells transmitted for Qbin 1
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 1.
The range is from 0 to (240-1) cells.
|
18
|
Cells Received for Qbin 2
|
—
|
—
|
Provides a count of the cells that are received on Qbin 2.
The range is from 0 to (240-1) cells.
|
19
|
Cells discarded for
Qbin 2
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 2.
The range is from 0 to (240-1) cells.
|
20
|
Cells transmitted for Qbin 2
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 2.
The range is from 0 to (240-1) cells.
|
21
|
Cells Received for
Qbin 3
|
—
|
—
|
Provides a count of the cells that are received on Qbin 3.
The range is from 0 to (240-1) cells.
|
22
|
Cells discarded for
Qbin 3
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 3.
The range is from 0 to (240-1) cells.
|
23
|
Cells transmitted for Qbin 3
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 3.
The range is from 0 to (240-1) cells.
|
24
|
Cells Received for
Qbin 4
|
—
|
—
|
Provides a count of the cells that are received on Qbin 4.
The range is from 0 to (240-1) cells.
|
25
|
Cells discarded for
Qbin 4
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 4.
The range is from 0 to (240-1) cells.
|
26
|
Cells transmitted for Qbin 4
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 4.
The range is from 0 to (240-1) cells.
|
27
|
Cells Received for
Qbin 5
|
—
|
—
|
Provides a count of the cells that are received on Qbin 5.
The range is from 0 to (240-1) cells.
|
28
|
Cells discarded for
Qbin 5
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 5.
The range is from 0 to (240-1) cells.
|
29
|
Cells transmitted for Qbin 5
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 5.
The range is from 0 to (240-1) cells.
|
30
|
Cells Received for
Qbin 6
|
—
|
—
|
Provides a count of the cells that are received on Qbin 6.
The range is from 0 to (240-1) cells.
|
31
|
Cells discarded for
Qbin 6
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 6.
The range is from 0 to (240-1) cells.
|
32
|
Cells transmitted for Qbin 6
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 6.
The range is from 0 to (240-1) cells.
|
33
|
Cells Received for
Qbin 7
|
—
|
—
|
Provides a count of the cells that are received on Qbin 7.
The range is from 0 to (240-1) cells.
|
34
|
Cells discarded for
Qbin 7
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 7.
The range is from 0 to (240-1) cells.
|
35
|
Cells transmitted for Qbin 7
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 7.
The range is from 0 to (240-1) cells.
|
36
|
Cells Received for
Qbin 8
|
—
|
—
|
Provides a count of the cells that are received on Qbin 8.
The range is from 0 to (240-1) cells.
|
37
|
Cells discarded for
Qbin 8
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 8.
The range is from 0 to (240-1) cells.
|
38
|
Cells transmitted for Qbin 8
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 8.
The range is from 0 to (240-1) cells.
|
39
|
Cells Received for
Qbin 9
|
—
|
—
|
Provides a count of the cells that are received on Qbin 9.
The range is from 0 to (240-1) cells.
|
40
|
Cells discarded for
Qbin 9
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 9.
The range is from 0 to (240-1) cells.
|
41
|
Cells transmitted for Qbin 9
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 9.
The range is from 0 to (240-1) cells.
|
42
|
Cells Received for
Qbin 10
|
—
|
—
|
Provides a count of the cells that are received on Qbin 10.
The range is from 0 to (240-1) cells.
|
43
|
Cells discarded for
Qbin 10
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 10.
The range is from 0 to (240-1) cells.
|
44
|
Cells transmitted for Qbin 10
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 10.
The range is from 0 to (240-1) cells.
|
45
|
Cells Received for
Qbin 11
|
—
|
—
|
Provides a count of the cells that are received on Qbin 11.
If Qbin 11 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
46
|
Cells discarded for
Qbin 11
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 11.
If Qbin 11 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
47
|
Cells transmitted for Qbin 11
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 11.
If Qbin 11 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
48
|
Cells Received for
Qbin 12
|
—
|
—
|
Provides a count of the cells that are received on Qbin 12.
If Qbin 12 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
49
|
Cells discarded for
Qbin 12
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 12.
If Qbin 12 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
50
|
Cells transmitted for Qbin 12
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 12.
If Qbin 12 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
51
|
Cells Received for
Qbin 13
|
—
|
—
|
Provides a count of the cells that are received on Qbin 13.
If Qbin 13 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
52
|
Cells discarded for
Qbin 13
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 13.
If Qbin 13 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
53
|
Cells transmitted for Qbin 13
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 13.
If Qbin 13 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
54
|
Cells Received for
Qbin 14
|
—
|
—
|
Provides a count of the cells that are received on Qbin 14.
If Qbin 14 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
55
|
Cells discarded for
Qbin 14
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 14.
If Qbin 14 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
56
|
Cells transmitted for Qbin 14
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 14.
If Qbin 14 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
57
|
Cells Received for
Qbin 15
|
—
|
—
|
Provides a count of the cells that are received on Qbin 15.
If Qbin 15 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
58
|
Cells discarded for
Qbin 15
|
—
|
—
|
Provides a count of the cells that are discarded on Qbin 15.
If Qbin 15 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1) cells.
|
59
|
Cells transmitted for Qbin 15
|
—
|
—
|
Provides a count of the cells that are transmitted by Qbin 15.
If Qbin 15 is not assigned a traffic service, the count returns a value of 0.
The range is from 0 to (240-1).
|
E.4.4 VXSM Port Statistics
This section provides information about the statistics contained in the VXSM ATM Port group. The VXSM port statistics are applicable to the VXSM cards on the Cisco MGX 8880 PXM45-based nodes and the Cisco MGX 8850 PXM45-based nodes.
The following table lists the attributes that are common to all of the VXSM port statistics.
Table E-32 Attributes Common to All VXSM Port Statistics
Object
|
Attribute
|
Front card
|
VXSM
|
Back card
|
VXSM-BC-4-155
|
Object type
|
3
|
Subobject type
|
15
|
Default peak interval
|
300 seconds
|
The VXSM port statistics are used primarily for gathering troubleshooting and performance data.
The following table includes the description of each statistic and the point during the data flow at which the statistic gathers the appropriate information. Each measurement point refers to the corresponding point in Figure E-1.
Table E-33 VXSM Port Statistics—Descriptions
Stat ID
|
VXSM Port Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
0
|
Ingress CLP0 cells transmitted
|
—
|
Ingress
|
Provides a count of the ingress cells with CLP equal to 0 that are transmitted.
The range is from 0 to (264-1).
|
1
|
Ingress CLP1 cells transmitted
|
—
|
Ingress
|
Provides a count of the ingress cells with CLP equal to 1 that are transmitted.
The range is from 0 to (264-1).
|
2
|
Egress CLP0 cells not discarded to congestion
|
—
|
Egress
|
Provides a count of the egress cells with CLP equal to 0 that are not discarded due to congestion.
The range is from 0 to (264-1).
|
3
|
Egress CLP1 cells not discarded to congestion
|
—
|
Egress
|
Provides a count of the egress cells with CLP equal to 1 that are not discarded due to congestion.
The range is from 0 to (264-1).
|
4
|
Egress CLP0 cells discarded due to congestion
|
—
|
Egress
|
Provides a count of the egress cells with CLP equal to 0 that are discarded due to congestion.
The range is from 0 to (264-1).
|
5
|
Egress CLP1 cells discarded due to congestion
|
—
|
Egress
|
Provides a count of the egress cells with CLP equal to 1 that are discarded due to congestion.
The range is from 0 to (264-1).
|
E.5 Card Statistics
The following card statistics are supported:
•AXSM Card Statistics
E.5.1 AXSM Card Statistics
This section provides information about the statistics contained in the AXSM_ATM_card group. The AXSM card statistics are applicable to the Cisco MGX 8850 PXM45-based switch.
The following table lists the attributes that are common to the AXSM card statistics.
Table E-34 Attributes Common to All AXSM Card Statistics
Object
|
Attribute
|
Front cards
|
MGX-AXSM-16-T3E3, MGX-AXSM-16-155, MGX-AXSM-4-622, MGX-AXSM-1-2488
|
Back cards
|
MGX-SMB-8-T3, MGX-SMB-8-E3, MGX-SMB-4-155, MGX-SMFIR-8-155, MGX-SMFLR-8-155, MGX-MMF-8-155, MGX-SMFLR-2-622, MGX-SMFIR-2-622, MGX-SMFSR-1-2488, MGX-SMFLR-1-2488, MGX-SMFXLR-1-2488
|
Object type
|
4
|
Subobject type
|
0
|
Default peak interval
|
300 seconds
|
The AXSM card statistics are used primarily for gathering performance data.
The following table includes the description of each statistic and the point during the data flow at which the statistic gathers the appropriate information. Each measurement point refers to the corresponding point in Figure E-1.
Table E-35 AXSM Card Statistics—Descriptions
Stat ID
|
AXSM Card Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
0
|
Cells to backplane - QLSI
|
No
|
Ingress-4, 10
|
Provides a count of the cells that are sent to the bus.
The range is from 0 to (240-1) cells.
|
1
|
Cells from queue (from QE48)
|
No
|
Ingress-4, 10
|
Provides a count of the cells traveling from the queueing engine to the bus.
The range is from 0 to (240-1) cells.
|
2
|
Cells from backplane - QLSI
|
No
|
Egress-5, 11
|
Provides a count of the cells that are received from the bus.
The range is from 0 to (240-1) cells.
|
3
|
CLP0 cells dropped due to congestion
|
No
|
Ingress-3, 9
Egress-6, 12
|
Provides a count of the cells with CLP equal to 0 that are discarded due to congestion or buffer management by the queueing engine.
The range is from 0 to (240-1) cells.
|
4
|
CLP1 cells dropped due to congestion
|
No
|
Ingress-3, 9
Egress-6, 12
|
Provides a count of the cells with CLP equal to 1 that are dropped due to congestion or buffer management by the queueing engine.
The range is from 0 to (240-1) cells.
|
5
|
Undefined cells from port
|
No
|
Ingress-3, 9
Egress-6, 12
|
Provides a count of the undefined cells from the queuing engine.
An undefined cell can be routed, but it might not be discarded. The queueing engine cannot distinguish between payload or OAM cells.
The range is from 0 to (240-1) cells.
|
6
|
Errored OAM cells from port
|
No
|
Ingress-3, 9
Egress-6, 12
|
Provides a count of OAM cells that have cyclic redundancy check (CRC) errors.
The range is from 0 to (240-1) cells.
|
7
|
Invalid OAM cells from port
|
No
|
Ingress-3, 9
Egress-6, 12
|
Provides a count of OAM cells with a bad cell or function type that the queueing engine cannot decode.
The range is from 0 to (240-1) cells.
|
8
|
Unsupported OAM cells from port
|
No
|
Ingress-3, 9
Egress-6, 12
|
Provides a count of unsupported OAM cells. These cells are discarded at the queuing engine.
The range is from 0 to (240-1) cells.
|
9
|
Errored RM cells from port
|
No
|
Ingress-3, 9
Egress-6, 12
|
Provides a count of RM cells that have CRC errors.
The range is from 0 to (240-1) cells.
|
E.6 Path Statistics
The following path statistics are supported:
•VXSM STS Path Statistics
•VXSM DS-3 Path Statistics
•VXSM DS-1N DS-3 Path Statistics
•VXSM DS-1 VT Path Statistics
E.6.1 VXSM STS Path Statistics
This section provides information about the statistics contained in the VXSM_STS Path group. The VXSM STS path statistics are applicable to the VXSM cards on the
Cisco MGX 8880 PXM45-based nodes and the Cisco MGX 8850 PXM45-based nodes.
The following table lists the attributes that are common to all of the VXSM path statistics.
Table E-36 Attributes Common to All VXSM Path Statistics
Object
|
Attribute
|
Front card
|
VXSM
|
Back card
|
VXSM-BC-4-155
|
Object type
|
6
|
Subobject type
|
2
|
Default peak interval
|
300 seconds
|
The following table includes the description of each statistic.
Table E-37 VXSM STS Path Statistics—Descriptions
Stat ID
|
VXSM Path Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
0
|
Sonet path AIS
|
—
|
—
|
Provides a count of the AIS instances on the path.
The range is from 0 to (264-1).
|
1
|
Sonet path RDI
|
—
|
—
|
Provides a count of the remote defect indications (RDIs)/yellow alarms that occur on the path.
The range is from 0 to (264-1).
|
2
|
Loss of pointer
|
—
|
—
|
Provides a count of the loss of pointer (LOP) defect states.
The range is from 0 to (264-1).
|
3
|
Trace path
|
—
|
—
|
Provides a count of the trace paths.
The range is from 0 to (264-1).
|
4
|
Code violations for path
|
—
|
—
|
Provides a count of the code violations (CVs) for the path.
The range is from 0 to (264-1).
|
5
|
Errored seconds for path
|
—
|
—
|
Provides a count of the errored seconds (ES) for the path.
The range is from 0 to (264-1).
|
6
|
Severely errored seconds for path
|
—
|
—
|
Provides a count of the SES for the path.
The range is from 0 to (264-1).
|
7
|
Unavailable seconds for path
|
—
|
—
|
Provides a count of the UAS for the path.
The range is from 0 to (264-1).
|
E.6.2 VXSM DS-3 Path Statistics
This section provides information about the statistics contained in the VXSM_DS3 Path group. The VXSM DS-3 path statistics are applicable to the VXSM cards on the
Cisco MGX 8880 PXM45-based nodes and the Cisco MGX 8850 PXM45-based nodes.
The following table lists the attributes that are common to all of the VXSM DS-3 path statistics.
Table E-38 Attributes Common to All VXSM DS-3 Path Statistics
Object
|
Attribute
|
Front card
|
VXSM
|
Back card
|
VXSM-BC-4-155
|
Object type
|
6
|
Subobject type
|
3
|
Default peak interval
|
300 seconds
|
The following table includes the description of each statistic.
Table E-39 VXSM DS-3 Path Statistics—Descriptions
Stat ID
|
VXSM DS-3 Path Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
0
|
LOF count
|
—
|
—
|
Provides a count of the LOFs on the DS-3 path.
The range is from 0 to (264-1).
|
1
|
Remote AIS count
|
—
|
—
|
Provides a count of the remote AIS instances on the DS-3 path.
The range is from 0 to (264-1).
|
2
|
Remote defect count
|
—
|
—
|
Provides a count of the RDIs/yellow alarms that occur on the DS-3 path.
The range is from 0 to (264-1).
|
3
|
P-bit code violations for path
|
—
|
—
|
Provides a count of the P-bit CVs for the DS-3 path.
The range is from 0 to (264-1).
|
4
|
C-bit code violations for path
|
—
|
—
|
Provides a count of the C-bit CVs for the DS-3 path.
The range is from 0 to (264-1).
|
144
|
FEBE counts
|
—
|
—
|
Provides a count of the FEBEs that are encountered by the DS-3 path.
The range is from 0 to (232-1).
|
6
|
P-bit errored seconds for path
|
—
|
—
|
Provides a count of the ES for the DS-3 path.
The range is from 0 to (264-1).
|
7
|
C-bit errored seconds for path
|
—
|
—
|
Provides a count of the ES for the DS-3 path.
The range is from 0 to (264-1).
|
8
|
P-bit severely errored seconds for path
|
—
|
—
|
Provides a count of the SES for the DS-3 path.
The range is from 0 to (264-1).
|
9
|
C-bit severely errored seconds for path
|
—
|
—
|
Provides a count of the SES for the DS-3 path.
The range is from 0 to (264-1).
|
10
|
Severely errored framing seconds for DS-3 path
|
—
|
—
|
Provides a count of the SEFS for the DS-3 path.
The range is from 0 to (264-1).
|
11
|
Unavailable seconds for DS-3 path
|
—
|
—
|
Provides a count of the UAS for the DS-3 path.
The range is from 0 to (264-1).
|
E.6.3 VXSM DS-1N DS-3 Path Statistics
This section provides information about the statistics contained in the VXSM_DS1 N DS3 Path group. The VXSM DS-1N DS-3 path statistics are applicable to the VXSM cards on the
Cisco MGX 8880 PXM45-based nodes and the Cisco MGX 8850 PXM45-based nodes.
The following table lists the attributes that are common to all of the VXSM DS-1N DS-3 path statistics.
Table E-40 Attributes Common to All VXSM DS-1N DS-3 Path Statistics
Object
|
Attribute
|
Front card
|
VXSM
|
Back card
|
VXSM-BC-4-155
|
Object type
|
6
|
Subobject type
|
4
|
Default peak interval
|
300 seconds
|
The following table includes the description of each statistic.
Table E-41 VXSM DS-1N DS-3 Path Statistics—Descriptions
Stat ID
|
VXSM DS-1N DS-3 Path Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
0
|
Errored seconds for path
|
—
|
—
|
Provides a count of the ES for the DS-1 path.
The range is from 0 to (264-1).
|
1
|
Severely errored seconds for path
|
—
|
—
|
Provides a count of the SES for the DS-1 path.
The range is from 0 to (264-1).
|
2
|
Severely errored framing seconds for path
|
—
|
—
|
Provides a count of the SEFS for the DS-1 path.
The range is from 0 to (264-1).
|
3
|
Unavailable seconds for path
|
—
|
—
|
Provides a count of the UAS for the DS-1 path.
The range is from 0 to (264-1).
|
4
|
Code violations for path
|
—
|
—
|
Provides a count of the CVs for the DS-1 path.
The range is from 0 to (264-1).
|
5
|
Errored seconds for line
|
—
|
—
|
Provides a count of the ES for the DS-1 path.
The range is from 0 to (264-1).
|
6
|
Severely errored seconds for line
|
—
|
—
|
Provides a count of the SES for the DS-1 path.
The range is from 0 to (264-1).
|
7
|
Severely errored framing seconds for line
|
—
|
—
|
Provides a count of the SEFS for the DS-1 path.
The range is from 0 to (264-1).
|
8
|
Losses of signal
|
—
|
—
|
Provides a count of the times an LOS is detected.
The count includes the number of LOS alarms.
The range is from 0 to (264-1).
|
9
|
LOF count
|
—
|
—
|
Provides a count of the LOFs on the DS-1 path.
The range is from 0 to (264-1).
|
10
|
Remote AIS count
|
—
|
—
|
Provides a count of the remote AIS instances on the DS-1 path.
The range is from 0 to (264-1).
|
11
|
Errored seconds for DS-1 path at far end
|
—
|
—
|
Provides a count of the ES for the DS-1 path at the far end.
The range is from 0 to (264-1).
|
12
|
Severely errored seconds for DS-1 path at far end
|
—
|
—
|
Provides a count of the SES for the DS-1 path at the far end.
The range is from 0 to (264-1).
|
13
|
Severely errored framing seconds for DS-1 path at far end
|
—
|
—
|
Provides a count of the SEFS for the DS-1 path at the far end.
The range is from 0 to (264-1).
|
14
|
Unavailable seconds for DS-1 path at far end
|
—
|
—
|
Provides a count of the UAS for the DS-1 path at the far end.
The range is from 0 to (264-1).
|
15
|
Severely errored seconds for DS-1 line at far end
|
—
|
—
|
Provides a count of the SES for the DS-1 line at the far end.
The range is from 0 to (264-1).
|
16
|
Code violations for DS-1 path at far end
|
—
|
—
|
Provides a count of the CVs for the DS-1 path at the far end.
The range is from 0 to (264-1).
|
17
|
Code violations for line
|
—
|
—
|
Provides a count of the CVs for the DS-1 line.
The range is from 0 to (264-1).
|
18
|
LOF count
|
—
|
—
|
Provides a count of the LOFs on the DS-1 path.
The range is from 0 to (264-1).
|
19
|
Remote AIS count
|
—
|
—
|
Provides a count of the remote AIS instances on the DS-1 path.
The range is from 0 to (264-1).
|
20
|
Remote defect count
|
—
|
—
|
Provides a count of the RDIs/yellow alarms that occur on the DS-1 path.
The range is from 0 to (264-1).
|
21
|
Bursty errored seconds for path
|
—
|
—
|
Provides a count of the bursty errored seconds (BES) for the DS-1 path.
The range is from 0 to (264-1).
|
22
|
Degraded minutes
|
—
|
—
|
Provides a count of the degraded minutes (60-second periods where the cumulative errors exceed 1E-6 but do not exceed 1E-3) for the DS-1 path.
The range is from 0 to (264-1).
|
23
|
Controlled slip seconds for path
|
—
|
—
|
Provides a count of the controlled slip seconds (CSS) for the DS-1 path.
A controlled slip is the replication or deletion of the payload bits of a DS-1 frame. A controlled slip may be performed when there is a difference between the timing of a synchronous receiving terminal and the received signal. A controlled slip does not cause an OOF defect.
The range is from 0 to (264-1).
|
E.6.4 VXSM DS-1 VT Path Statistics
This section provides information about the statistics contained in the VXSM_DS1 VT Path group. The VXSM DS-1 VT path statistics are applicable to the VXSM cards on the
Cisco MGX 8880 PXM45-based nodes and the Cisco MGX 8850 PXM45-based nodes.
The following table lists the attributes that are common to all of the VXSM DS-1 VT path statistics.
Table E-42 Attributes Common to All VXSM DS-1 VT Path Statistics
Object
|
Attribute
|
Front card
|
VXSM
|
Back card
|
VXSM-BC-4-155
|
Object type
|
6
|
Subobject type
|
5
|
Default peak interval
|
300 seconds
|
The following table includes the description of each statistic.
Table E-43 VXSM DS-1 VT Path Statistics—Descriptions
Stat ID
|
VXSM DS-1 VT Path Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
0
|
Errored seconds for path
|
—
|
—
|
Provides a count of the ES for the DS-1 path.
The range is from 0 to (264-1).
|
1
|
Severely errored seconds for path
|
—
|
—
|
Provides a count of the SES for the DS-1 path.
The range is from 0 to (264-1).
|
2
|
Severely errored framing seconds for path
|
—
|
—
|
Provides a count of the SEFS for the DS-1 path.
The range is from 0 to (264-1).
|
3
|
Unavailable seconds for path
|
—
|
—
|
Provides a count of the UAS for the DS-1 path.
The range is from 0 to (264-1).
|
4
|
Code violations for path
|
—
|
—
|
Provides a count of the CVs for the DS-1 path.
The range is from 0 to (264-1).
|
5
|
Errored seconds for line
|
—
|
—
|
Provides a count of the ES for the DS-1 path.
The range is from 0 to (264-1).
|
6
|
Severely errored seconds for line
|
—
|
—
|
Provides a count of the SES for the DS-1 path.
The range is from 0 to (264-1).
|
7
|
Severely errored framing seconds for line
|
—
|
—
|
Provides a count of the SEFS for the DS-1 path.
The range is from 0 to (264-1).
|
8
|
Losses of signal
|
—
|
—
|
Provides a count of the times an LOS is detected.
The count includes the number of LOS alarms.
The range is from 0 to (264-1).
|
9
|
LOF count
|
—
|
—
|
Provides a count of the LOFs on the DS-1 path.
The range is from 0 to (264-1).
|
10
|
Remote AIS count
|
—
|
—
|
Provides a count of the remote AIS instances on the DS-1 path.
The range is from 0 to (264-1).
|
11
|
Errored seconds for DS-1 path at far end
|
—
|
—
|
Provides a count of the ES for the DS-1 path at the far end.
The range is from 0 to (264-1).
|
12
|
Severely errored seconds for DS-1 path at far end
|
—
|
—
|
Provides a count of the SES for the DS-1 path at the far end.
The range is from 0 to (264-1).
|
13
|
Severely errored framing seconds for DS-1 path at far end
|
—
|
—
|
Provides a count of the SEFS for the DS-1 path at the far end.
The range is from 0 to (264-1).
|
14
|
Unavailable seconds for DS-1 path at far end
|
—
|
—
|
Provides a count of the UAS for the DS-1 path at the far end.
The range is from 0 to (264-1).
|
15
|
Severely errored seconds for DS-1 line at far end
|
—
|
—
|
Provides a count of the SES for the DS-1 line at the far end.
The range is from 0 to (264-1).
|
16
|
Code violations for DS-1 path at far end
|
—
|
—
|
Provides a count of the CVs for the DS-1 path at the far end.
The range is from 0 to (264-1).
|
17
|
Code violations for line
|
—
|
—
|
Provides a count of the CVs for the DS-1 line.
The range is from 0 to (264-1).
|
18
|
LOF count
|
—
|
—
|
Provides a count of the LOFs on the DS-1 path.
The range is from 0 to (264-1).
|
19
|
Remote AIS count
|
—
|
—
|
Provides a count of the remote AIS instances on the DS-1 path.
The range is from 0 to (264-1).
|
20
|
Remote defect count
|
—
|
—
|
Provides a count of the RDIs/yellow alarms that occur on the DS-1 path.
The range is from 0 to (264-1).
|
21
|
Bursty errored seconds for path
|
—
|
—
|
Provides a count of the BES for the DS-1 path.
The range is from 0 to (264-1).
|
22
|
Degraded minutes
|
—
|
—
|
Provides a count of the degraded minutes (60-second periods where the cumulative errors exceed 1E-6 but do not exceed 1E-3) for the DS-1 path.
The range is from 0 to (264-1).
|
23
|
Controlled slip seconds for path
|
—
|
—
|
Provides a count of the CSS for the DS-1 path.
A controlled slip is the replication or deletion of the payload bits of a DS-1 frame. A controlled slip may be performed when there is a difference between the timing of a synchronous receiving terminal and the received signal. A controlled slip does not cause an OOF defect.
The range is from 0 to (264-1).
|
E.7 PNNI Network Statistics
The following PNNI network statistics are supported:
•PNNI Nodal Statistics
•PNNI Port Statistics
E.7.1 PNNI Nodal Statistics
This section provides information about the PNNI_Nodal_Level group. The PNNI nodal statistics are applicable to the Cisco MGX 8950, Cisco MGX 8850 PXM45-based,
Cisco MGX 8850 PXM1E-based, and Cisco MGX 8830 switches.
The following table lists the attributes that are common to the PNNI nodal statistics.
Table E-44 Attributes Common to All PNNI Nodal Statistics
Object
|
Attribute
|
Front cards
|
PXM45, PXM1E-16T1E1
|
Back cards
|
16 Port T1E1 RJ48, 16 Port E1 MCC
|
Object type
|
7
|
Subobject type
|
0
|
Collection interval
|
15 minutes
|
Default peak interval
|
Not supported
|
The PNNI nodal statistics are used for gathering information about SPVCs and SPVPs.
Note To collect PNNI SPVC and SPVP statistics in CTM, first enable the statistics on the switch by executing the command-line interface (CLI) command cnfpnstat.
The following table includes the description of each statistic and the point during the data flow at which the statistic gathers the appropriate information. Each measurement point refers to the corresponding point in Figure E-1.
Table E-45 PNNI Nodal Statistics—Descriptions
Stat ID
|
PNNI Nodal Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
0
|
Con success at orig node
|
—
|
—
|
Provides a count of the successful connections at the originating node.
|
1
|
Con failed at orig node
|
—
|
—
|
Provides a count of the failed connections at the originating node.
|
E.7.2 PNNI Port Statistics
This section provides information about statistics contained in the PNNI_Port_Level group. The PNNI port statistics are applicable to the Cisco MGX 8950, Cisco MGX 8850 PXM45-based,
Cisco MGX 8850 PXM1E-based, and Cisco MGX 8830 switches.
The following table lists the attributes that are common to the PNNI port statistics.
Table E-46 Attributes Common to All PNNI Port Statistics
Object
|
Attribute
|
Front cards
|
PXM45, PXM1E-16T1E1
|
Back cards
|
16 Port T1E1 RJ48, 16 Port E1 MCC
|
Object type
|
7
|
Subobject type
|
1
|
Collection interval
|
15 minutes
|
Default peak interval
|
Not supported
|
The PNNI port statistics are used for gathering information about SPVCs and SPVPs.
Note To collect PNNI SPVC and SPVP statistics in CTM, first enable the statistics on the switch by executing the CLI command cnfpnstat.
The following table includes the description of each statistic and the point during the data flow at which the statistic gathers the appropriate information. Each measurement point refers to the corresponding point in Figure E-1.
Table E-47 PNNI Port Statistics—Descriptions
Stat ID
|
PNNI Port Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
0
|
Con success at orig node
|
—
|
—
|
Provides a count of the successful connections at the originating node.
|
1
|
Con failed at orig node
|
—
|
—
|
Provides a count of the failed connections at the originating node.
|
2
|
Received crankback at orig node
|
—
|
—
|
Provides a count of the crankbacks at the originating node.
|
3
|
Initiate crankback
|
—
|
—
|
Provides a count of the crankbacks that are initiated.
|
4
|
Con success at border node
|
—
|
—
|
Provides a count of the successful connections at the border node.
|
5
|
Con failed at border node
|
—
|
—
|
Provides a count of the failed connections at the border node.
|
6
|
Received crankback at border node
|
—
|
—
|
Provides a count of the crankbacks at the border node.
|
E.8 Protocol Statistics
The following protocol statistics are supported:
•VXSM H.248 Statistics
•VXSM H.248 Physical Termination Protocol Statistics
•VXSM H.248 Ephemeral Termination Protocol Statistics
•VXSM SCTP Gateway Statistics
•VXSM SCTP Association Statistics
•VXSM LAPD Protocol Statistics
•VXSM RUDP Protocol Statistics
•VXSM TGCP Protocol Statistics
•VXSM Megaco Physical Gateway Protocol Statistics
•VXSM Megaco Ephemeral Termination Information Protocol Statistics
•VXSM Megaco Overload Resource Protocol Statistics
•VXSM DPNSS Protocol Statistics
•VXSM DPNSS DLC Protocol Statistics
•VXSM MTP LINKSCL Protocol Statistics
•VXSM L3UA ASP Protocol Statistics
•VXSM SCCP Protocol Statistics
E.8.1 VXSM H.248 Statistics
This section provides information about the statistics contained in the VXSM_PROTO_H248_GATEWAY group. The VXSM H.248 statistics are applicable to the VXSM cards on the Cisco MGX 8880 PXM45-based nodes and the Cisco MGX 8850 PXM45-based nodes.
Note H.248 is the international standard for media gateway control.
The following table lists the attributes that are common to all of the VXSM card statistics.
Table E-48 Attributes Common to All VXSM Card Statistics
Object
|
Attribute
|
Front card
|
VXSM
|
Back card
|
VXSM-BC-4-155
|
Object type
|
8
|
Subobject type
|
0
|
Default peak interval
|
300 seconds
|
The following table includes the VXSM H.248 statistics.
Table E-49 VXSM H.248 Path Statistics—Descriptions
Stat ID
|
VXSM H.248 Statistics
|
Description
|
0
|
Total messages received
|
Provides a count of the total ingress cells.
The range is from 0 to (264-1).
|
1
|
Total messages transmitted
|
Provides a count of the ingress cells with CLP equal to 0 that are received prior to policing.
The range is from 0 to (264-1).
|
2
|
Signaling-level errors
|
Provides a count of the ingress cells with CLP equal to 1 that are received prior to policing.
The range is from 0 to (264-1).
|
3
|
Timer recovery events
|
Provides a count of the CLP0 cells with the EFCI equal to 1. These cells are received from the port.
The range is from 0 to (264-1).
|
4
|
Total failed ADD commands
|
Provides a count of the total number of ADD commands that failed.
The range is from 0 to (264-1).
|
5
|
Total successful ADD commands
|
Provides a count of the total number of ADD commands that succeeded.
The range is from 0 to (264-1).
|
6
|
Total failed SUBTRACT commands
|
Provides a count of the total number of SUBTRACT commands that failed.
The range is from 0 to (264-1).
|
7
|
Total successful SUBTRACT commands
|
Provides a count of the total number of SUBTRACT commands that succeeded.
The range is from 0 to (264-1).
|
8
|
Total failed MOVE commands
|
Provides a count of the total number of MOVE commands that failed.
The range is from 0 to (264-1).
|
9
|
Total successful MOVE commands
|
Provides a count of the total number of MOVE commands that succeeded.
The range is from 0 to (264-1).
|
10
|
Total failed MODIFY commands
|
Provides a count of the total number of MODIFY commands that failed.
The range is from 0 to (264-1).
|
11
|
Total successful MODIFY commands
|
Provides a count of the total number of MODIFY commands that succeeded.
The range is from 0 to (264-1).
|
12
|
Total failed AUDIT VALUE commands
|
Provides a count of the total number of AUDIT VALUE commands that failed.
The range is from 0 to (264-1).
|
13
|
Total successful AUDIT VALUE commands
|
Provides a count of the total number of AUDIT VALUE commands that succeeded.
The range is from 0 to (264-1).
|
14
|
Total failed AUDIT CAPABILITY commands
|
Provides a count of the total number of AUDIT CAPABILITY commands that failed.
The range is from 0 to (264-1).
|
15
|
Total successful AUDIT CAPABILITY commands
|
Provides a count of the total number of AUDIT CAPABILITY commands that succeeded.
The range is from 0 to (264-1).
|
16
|
Total failed NOTIFY commands
|
Provides a count of the total number of NOTIFY commands that failed.
The range is from 0 to (264-1).
|
17
|
Total successful NOTIFY commands
|
Provides a count of the total number of NOTIFY commands that succeeded.
The range is from 0 to (264-1).
|
18
|
Total failed service change commands from the MGC
|
Provides a count of the total number of service change commands from the media gateway controller (MGC) that failed.
The range is from 0 to (264-1).
|
19
|
Total successful service change commands from the MGC
|
Provides a count of the total number of service change commands from the MGC that succeeded.
The range is from 0 to (264-1).
|
20
|
Total failed service change commands from the MGC to the MG
|
Provides a count of the total number of service change commands from the MGC to the media gateway (MG) that failed in the MGC.
The range is from 0 to (264-1).
|
21
|
Total successful service change commands from the MGC to the MG
|
Provides a count of the total number of service change commands from the MGC to the MG that succeeded in the MGC.
The range is from 0 to (264-1).
|
22
|
Total commands failed in the media gateway link
|
Provides a count of the total number of failed commands in the media gateway link.
The range is from 0 to (264-1).
|
23
|
Total commands succeeded in the media gateway link
|
Provides a count of the total number of successful commands in the media gateway link.
The range is from 0 to (264-1).
|
24
|
Total failed and successful commands in the media gateway link
|
Provides a count of the total number of successful and failed commands in the media gateway link.
The range is from 0 to (264-1).
|
25
|
Total allocated contexts
|
Provides a count of the total number of contexts allocated.
The range is from 0 to (264-1).
|
26
|
Total freed contexts
|
Provides a count of the total number of contexts that were freed.
The range is from 0 to (264-1).
|
27
|
Number of active contexts in the media gateway link
|
Provides a count of the number of active contexts in the media gateway link.
The range is from 0 to (264-1).
|
28
|
Peak number of active contexts in the media gateway link
|
Provides a count of the peak number of active contexts in the media gateway link.
The range is from 0 to (264-1).
|
29
|
Shortest life span for the contexts in the media gateway link
|
Provides the shortest life span for the contexts in the media gateway link.
The range is from 0 to (264-1).
|
30
|
Average life span for the contexts in the media gateway link
|
Provides the average life span for the contexts in the media gateway link.
The range is from 0 to (264-1).
|
31
|
Longest life span for the contexts in the media gateway link
|
Provides the longest life span for the contexts in the media gateway link.
The range is from 0 to (264-1).
|
E.8.2 VXSM H.248 Physical Termination Protocol Statistics
This section provides information about the statistics contained in the VXSM_PROTO_H248_PHY_TERM group. The VXSM H.248 Physical Termination protocol statistics are applicable to the VXSM cards on the Cisco MGX 8880 PXM45-based nodes and the Cisco MGX 8850 PXM45-based nodes.
The following table lists the attributes that are common to all of the VXSM protocol statistics.
Table E-50 Attributes Common to All VXSM Protocol Statistics
Object
|
Attribute
|
Front card
|
VXSM
|
Back card
|
VXSM-BC-4-155
|
Object type
|
8
|
Subobject type
|
1
|
Default peak interval
|
300 seconds
|
The following table includes the VXSM H.248 Physical Termination protocol statistics.
Table E-51 VXSM H.248 Physical Termination Protocol Statistics—Descriptions
Stat ID
|
VXSM H.248 Physical Termination Protocol Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
0
|
Total physical termination ADD commands
|
—
|
—
|
Provides a count of the total number of ADD commands that were initiated.
The range is from 0 to (264-1).
|
1
|
Total failed physical termination ADD commands
|
—
|
—
|
Provides a count of the total number of ADD commands that failed.
The range is from 0 to (264-1).
|
2
|
Out of service from MGC
|
—
|
Ingress-1
|
Provides a count of the total number of out-of-service messages received from the MGC.
The range is from 0 to (264-1).
|
3
|
Out of service from OAM
|
—
|
Ingress
|
Provides a count of the total number of out-of-service messages triggered by the OAM process.
The range is from 0 to (264-1).
|
E.8.3 VXSM H.248 Ephemeral Termination Protocol Statistics
This section provides information about the statistics contained in the VXSM_PROTO_H248_EPHE_TERM group. The VXSM H.248 ephemeral termination protocol statistics are applicable to the VXSM cards on the Cisco MGX 8880 PXM45-based nodes and the Cisco MGX 8850 PXM45-based nodes.
The following table lists the attributes that are common to all of the VXSM card statistics.
Table E-52 Attributes Common to All VXSM Card Statistics
Object
|
Attribute
|
Front card
|
VXSM
|
Back card
|
VXSM-BC-4-155
|
Object type
|
8
|
Subobject type
|
2
|
Default peak interval
|
300 seconds
|
The following table includes the VXSM H.248 ephemeral termination protocol statistics.
Table E-53 VXSM H.248 Ephemeral Termination Protocol Statistics—Descriptions
Stat ID
|
VXSM H.248 Ephemeral Termination Protocol Statistics
|
Subset of Other Statistics
|
Ingress/Egress Measurement Point
|
Description
|
0
|
Total ephemeral termination ADD commands
|
—
|
—
|
Provides a count of the total number of ADD commands that were initiated.
The range is from 0 to (264-1).
|
1
|
Total failed ephemeral termination ADD commands
|
—
|
—
|
Provides a count of the total number of ADD commands that failed.
The range is from 0 to (264-1).
|
E.8.4 VXSM SCTP Gateway Statistics
The following table lists the attributes that are common to all of the VXSM card statistics.
Table E-54 Attributes Common to All VXSM Card Statistics
Object
|
Attribute
|
Front card
|
VXSM_155, VXSM_T1E1, VXSM_T3
|
Back card
|
—
|
Object type
|
8
|
Subobject type
|
3
|
Default peak interval
|
300 seconds
|
The following table includes the VXSM SCTP Gateway statistics.
Table E-55 VXSM SCTP Gateway Statistics—Descriptions
Stat ID
|
VXSM SCTP Gateway Statistics
|
0
|
Number of SCTP associations
|
1
|
Number of times that SCTP associations have made a direct transition to the ESTABLISHED state from the COOKIE-ECHOED state
|
2
|
Number of times that SCTP associations have made a direct transition to the ESTABLISHED state from the CLOSED state
|
3
|
Number of times that SCTP associations have made a direct transition to the CLOSED state from any state
|
4
|
Number of times that SCTP associations have made a direct transition to the CLOSED state from either the SHUTDOWN-SENT state or the SHUTDOWN-ACK-SENT state
|
5
|
Number of SCTP packets received from the peers with an invalid checksum.
|
6
|
Number of SCTP control chunks sent to the peers
|
7
|
Number of SCTP ordered data chunks sent to the peers
|
8
|
Number of SCTP unordered chunks sent to peers
|
9
|
Number of SCTP control chunks received from the peers
|
10
|
Number of SCTP ordered data chunks received from the peers
|
11
|
Number of SCTP unordered chunks received from peers
|
12
|
Number of SCTP packets sent to the peers
|
13
|
Number of SCTP packets received from the peers
|
14
|
Number of SCTP chunks retransmitted due to the T3 timers expiring before the packet is acknowledged
|
15
|
Number of SCTP chunks retransmitted using the fast-recovery retransmission mechanism
|
16
|
Number of times a destination IP address was marked unavailable
|
E.8.5 VXSM SCTP Association Statistics
The following table lists the attributes that are common to all of the VXSM card statistics.
Table E-56 Attributes Common to All VXSM Card Statistics
Object
|
Attribute
|
Front card
|
VXSM_155, VXSM_T1E1, VXSM_T3
|
Back card
|
—
|
Object type
|
8
|
Subobject type
|
4
|
Default peak interval
|
300 seconds
|
The following table includes the VXSM SCTP Association statistics.
Table E-57 VXSM SCTP Association Statistics—Descriptions
Stat ID
|
VXSM SCTP Association Statistics
|
0
|
Number of times that T1 timer expired (timer for sending either INIT or COOKIE-ECHO chunks and receiving an acknowledgment)
|
1
|
Number of times that T2-shutdown timer expired
|
2
|
Number of data chunks retransmitted to the peer in current association
|
3
|
The value of SysUpTime at the time that this row was created
|
4
|
Number of control chunks received by this association
|
5
|
Number of ordered chunks received by this association
|
6
|
Number of unordered chunks received by this association
|
7
|
Number of control chunks sent by this association
|
8
|
Number of ordered chunks sent by this association
|
9
|
Number of unordered chunks sent by this association
|
10
|
Number of IP datagrams received by this association
|
11
|
Number of IP datagrams sent by this association
|
E.8.6 VXSM LAPD Protocol Statistics
This section provides information about the statistics contained in the VXSM_PROTO_SCTP_GW group. The VXSM LAPD protocol statistics are applicable to the VXSM cards on the
Cisco MGX 8880 PXM45-based nodes and the Cisco MGX 8850 PXM45-based nodes.
The following table lists the attributes that are common to all of the VXSM card statistics.
Table E-58 Attributes Common to All VXSM Card Statistics
Object
|
Attribute
|
Front card
|
VXSM
|
Back card
|
VXSM-BC-4-155
|
Object type
|
8
|
Subobject type
|
5, 6, 7, 8, 11, 12, 13, 14, 15
|
Default peak interval
|
300 seconds
|
The following table includes the VXSM LAPD protocol statistics.
Table E-59 VXSM LAPD Protocol Statistics—Descriptions
Stat ID
|
VXSM LAPD Protocol Statistics
|
Description
|
0
|
Total information frames received
|
Provides a count of the total number of information frames received.
The range is from 0 to (264-1).
|
1
|
Total information frames transmitted
|
Provides a count of the total number of information frames transmitted.
The range is from 0 to (264-1).
|
2
|
Total receiver ready frames received
|
Provides a count of the total number of receiver ready frames received.
The range is from 0 to (264-1).
|
3
|
Total receiver ready frames transmitted
|
Provides a count of the total number of receiver ready frames transmitted.
The range is from 0 to (264-1).
|
4
|
Total receiver not ready frames received
|
Provides a count of the total number of receiver not ready frames received.
The range is from 0 to (264-1).
|
5
|
Total receiver not ready frames transmitted
|
Provides a count of the total number of receiver not ready frames transmitted.
The range is from 0 to (264-1).
|
6
|
Total Set Asynchronous Balanced mode frames received
|
Provides a count of the total number of Set Asynchronous Balanced mode frames received.
The range is from 0 to (264-1).
|
7
|
Total Set Asynchronous Balanced mode frames transmitted
|
Provides a count of the total number of Set Asynchronous Balanced mode frames transmitted.
The range is from 0 to (264-1).
|
8
|
Total disconnect frames received
|
Provides a count of the total number of disconnect frames received.
The range is from 0 to (264-1).
|
9
|
Total disconnect frames transmitted
|
Provides a count of the total number of disconnect frames transmitted.
The range is from 0 to (264-1).
|
10
|
Total unnumbered acknowledge frames received
|
Provides a count of the total number of unnumbered acknowledge frames received.
The range is from 0 to (264-1).
|
11
|
Total unnumbered acknowledge frames transmitted
|
Provides a count of the total number of unnumbered acknowledge frames transmitted.
The range is from 0 to (264-1).
|
12
|
Total disconnect mode frames received
|
Provides a count of the total number of disconnect mode frames received.
The range is from 0 to (264-1).
|
13
|
Total disconnect mode frames transmitted
|
Provides a count of the total number of disconnect mode frames transmitted.
The range is from 0 to (264-1).
|
14
|
Total frame reject frames received
|
Provides a count of the total number of frame reject frames received.
The range is from 0 to (264-1).
|
15
|
Total frame reject frames transmitted
|
Provides a count of the total number of frame reject frames transmitted.
The range is from 0 to (264-1).
|
16
|
Total exchange ID frames received
|
Provides a count of the total number of exchange ID frames received.
The range is from 0 to (264-1).
|
17
|
Total exchange ID frames transmitted
|
Provides a count of the total number of exchange ID frames transmitted.
The range is from 0 to (264-1).
|
18
|
Total unnumbered information frames received
|
Provides a count of the total number of unnumbered information frames received.
The range is from 0 to (264-1).
|
19
|
Total unnumbered information frames transmitted
|
Provides a count of the total number of unnumbered information frames transmitted.
The range is from 0 to (264-1).
|
20
|
Total reject frames received
|
Provides a count of the total number of reject frames received.
The range is from 0 to (264-1).
|
21
|
Total reject frames transmitted
|
Provides a count of the total number of reject frames transmitted.
The range is from 0 to (264-1).
|
22
|
Total invalid frames received
|
Provides a count of the total number of invalid frames received
The range is from 0 to (264-1).
|
E.8.7 VXSM RUDP Protocol Statistics
The following table lists the attributes that are common to all of the VXSM card statistics.
Table E-60 Attributes Common to All VXSM Card Statistics
Object
|
Attribute
|
Front card
|
VXSM_155, VXSM_T3, VXSM_T1E1
|
Back card
|
—
|
Object type
|
8
|
Subobject type
|
9
|
Default peak interval
|
300 seconds
|
The following table includes the VXSM RUDP protocol statistics.
Table E-61 VXSM RUDP Protocol Statistics—Descriptions
Stat ID
|
VXSM RUDP Protocol Statistics
|
0
|
Accumulated number of soft resets for the session initiated by the XGCP Gateway (GW).
|
1
|
Accumulated number of auto resets initiated by Media Gateway Controller (MGC) and received by GW.
|
2
|
Accumulated number of packets received in sequence for the session.
|
3
|
Accumulated number of packets received out of sequence.
|
4
|
Number of packets sent by GW, including the SYN message.
|
5
|
Accumulated number of packets received by GW, including active message.
|
6
|
Number of bytes sent to MGC.
|
7
|
Number of bytes received from MGC.
|
8
|
Number of data packets sent to MGC.
|
9
|
Number of data packets received from MGC.
|
10
|
Number of packets discarded by GW.
|
11
|
Number of packets retransmitted by GW.
|
E.8.8 VXSM TGCP Protocol Statistics
The following table lists the attributes that are common to all of the VXSM card statistics.
Table E-62 Attributes Common to All VXSM Card Statistics
Object
|
Attribute
|
Front card
|
VXSM_155, VXSM_T3, VXSM_T1E1
|
Back card
|
—
|
Object type
|
8
|
Subobject type
|
10
|
Default peak interval
|
300 seconds
|
The following table includes the VXSM TGCP protocol statistics:
Table E-63 VXSM TGCP Protocol Statistics—Descriptions
Stat ID
|
VXSM TGCP Protocol Statistics
|
0
|
The number of successful messages communicated with the MGC for both transmit and receive.
|
1
|
The number of failed messages communicated with the MGC for both transmit and receive.
|
2
|
The number of incomplete messages transmitted to the MGC, which timed out while waiting for ACK.
|
E.8.9 VXSM Megaco Physical Gateway Protocol Statistics
The following table lists the attributes that are common to all of the VXSM card statistics.
Table E-64 Attributes Common to All VXSM Card Statistics
Object
|
Attribute
|
Front card
|
VXSM_155, VXSM_T3, VXSM_T1E1
|
Back card
|
—
|
Object type
|
8
|
Subobject type
|
16
|
Default peak interval
|
300 seconds
|
The following table includes the VXSM Megaco Physical Gateway protocol statistics:
Table E-65 VXSM Megaco Physical Gateway Protocol Statistics—Descriptions
Stat ID
|
VXSM Megaco Physical Gateway Protocol Statistics
|
0
|
The minimum add command response time (in milliseconds) for physical termination in media gateway.
|
1
|
The maximum add command response time (in milliseconds) for physical termination in media gateway.
|
2
|
The average add command response time (in milliseconds) for physical termination in media gateway.
|
3
|
The number of add commands for physical terminations, which have been released during the statistics interval in media gateway.
|
4
|
The minimum modify command response time (in milliseconds) for physical termination in media gateway.
|
5
|
The maximum modify command response time (in milliseconds) for physical termination in media gateway.
|
6
|
The average modify command response time (in milliseconds) for physical termination in media gateway.
|
7
|
The number of modify commands for physical terminations, which have been released during the statistics interval in media gateway.
|
8
|
The minimum subtract command response time (in milliseconds) for physical termination in media gateway.
|
9
|
The maximum subtract command response time (in milliseconds) for physical termination in media gateway.
|
10
|
The average subtract command response time (in milliseconds) for physical termination in media gateway.
|
11
|
The number of subtract commands for physical terminations, which have been released during the statistics interval in media gateway.
|
12
|
The minimum add command response time (in milliseconds) for ephemeral termination in media gateway.
|
13
|
The maximum add command response time (in milliseconds) for ephemeral termination in media gateway.
|
14
|
The average add command response time (in milliseconds) for ephemeral termination in media gateway.
|
15
|
The number of add commands for ephemeral terminations, which have been released during the statistics interval in media gateway.
|
16
|
The minimum modify command response time (in milliseconds) for ephemeral termination in media gateway.
|
17
|
The maximum modify command response time (in milliseconds) for ephemeral termination in media gateway.
|
18
|
The average modify command response time (in milliseconds) for ephemeral termination in media gateway.
|
19
|
The number of modify commands for ephemeral terminations, which have been released during the statistics interval in media gateway.
|
20
|
The minimum subtract command response time (in milliseconds) for ephemeral termination in media gateway.
|
21
|
The maximum subtract command response time (in milliseconds) for ephemeral termination in media gateway.
|
22
|
The average subtract command response (in milliseconds) for ephemeral termination in media gateway.
|
23
|
The number of subtract commands for ephemeral terminations, which have been released during the statistics interval in media gateway.
|
24
|
The number of in-progress commands in media gateway.
|
25
|
The maximum number of in-progress commands in-progress in media gateway.
|
26
|
The number of times the gateway enters the overload condition because the internal delay has exceeded the high threshold specified by the value of cemdxOverloadHighThreshold.
|
27
|
The number of times that the gateway exits the overload condition when its internal delay has fallen below the low threshold specified by the value of cemdxOverloadLowThreshold.
|
28
|
The average delay in processing ADD commands received in 1-second intervals by the gateway.
|
E.8.10 VXSM Megaco Ephemeral Termination Information Protocol Statistics
The following table lists the attributes that are common to all of the VXSM card statistics.
Table E-66 Attributes Common to All VXSM Card Statistics
Object
|
Attribute
|
Front card
|
VXSM_155, VXSM_T3, VXSM_T1E1
|
Back card
|
—
|
Object type
|
8
|
Subobject type
|
17, 18, 19
|
Default peak interval
|
300 seconds
|
The following table includes the VXSM Megaco Ephemeral Termination Information protocol statistics:
Table E-67 VXSM Megaco Ephemeral Termination Information Protocol Statistics—Descriptions
Stat ID
|
VXSM Megaco Physical Gateway Protocol Statistics
|
0
|
The accumulated number of ephemeral terminations.
|
1
|
The number of ephemeral terminations currently in use.
|
2
|
The high-watermark of the number of ephemeral termination in use.
|
3
|
The minimum duration of an ephemeral termination.
|
4
|
The maximum duration of an ephemeral termination.
|
5
|
The average duration of an ephemeral termination.
|
6
|
The number of ephemeral terminations freed.
|
E.8.11 VXSM Megaco Overload Resource Protocol Statistics
The following table lists the attributes that are common to all of the VXSM card statistics.
Table E-68 Attributes Common to All VXSM Card Statistics
Object
|
Attribute
|
Front card
|
VXSM_155, VXSM_T3, VXSM_T1E1
|
Back card
|
—
|
Object type
|
8
|
Subobject type
|
20
|
Default peak interval
|
300 seconds
|
The following table includes the VXSM Megaco Overload Resource protocol statistics:
Table E-69 VXSM Megaco Overload Resource Protocol Statistics—Descriptions
Stat ID
|
VXSM Megaco Overload Resource Protocol Statistics
|
0
|
The accumulated number of times that the utilization of the resource is above the high threshold specified by ccacSysRpHighThreshold when the gateway enters the overload condition.
|
1
|
The accumulated number of times that the utilization of the resource is above the medium threshold specified by ccacSysRpMedThreshold when the gateway enters the overload condition.
|
2
|
The accumulated number of times that the utilization of the resource is above the low threshold specified by ccacSysRpLowThreshold when the gateway enters the overload condition.
|
3
|
The accumulated number of times the connection admission control (CAC) monitoring resource caused the gateway to enter the overload condition since the last counter reset.
|
E.8.12 VXSM DPNSS Protocol Statistics
The following tables list the attributes that are common to VXSM_T1E1 and VXSM_155 card statistics.
Table E-70 Attributes Common to VXSM_T1E1Card Statistics
Object
|
Attribute
|
Front card
|
VXSM_T1E1
|
Back card
|
—
|
Object type
|
8
|
Subobject type
|
21
|
Default peak interval
|
300 seconds
|
The following tables lists the attributes that are common to all of the VXSM card statistics.
Table E-71 Attributes Common to VXSM_155 Card Statistics
Object
|
Attribute
|
Front card
|
VXSM_155
|
Back card
|
—
|
Object type
|
8
|
Subobject type
|
22, 23, 24
|
Default peak interval
|
300 seconds
|
The following table includes the VXSM DPNSS protocol statistics:
Table E-72 VXSM DPNSS Protocol Statistics—Descriptions
Stat ID
|
VXSM DPNSS Protocol Statistics
|
0
|
The number of Unnumbered Information Command frames received.
|
1
|
The number of Unnumbered Information Command frames transmitted.
|
2
|
The number of Set Asynchronous Balanced Mode Restricted frames received.
|
3
|
The number of Set Asynchronous Balanced Mode Restricted frames transmitted.
|
4
|
The number of Unnumbered Acknowledge frames received.
|
5
|
The number of Unnumbered Acknowledge frames transmitted.
|
6
|
The number of Unnumbered Information Response frames received.
|
7
|
The number of Unnumbered Information Response frames transmitted.
|
8
|
The number of invalid frames received.
|
9
|
The number of real DLCs that are up.
|
10
|
The number of virtual DLCs that are up.
|
11
|
The maximum time between sending UIC/SABMR frame and receiving UIR/UA frame.
|
12
|
The minimum time between sending UIC/SABMR frame and receiving UIR/UA frame.
|
13
|
The average time between sending UIC/SABMR frame and receiving UIR/UA frame.
|
E.8.13 VXSM DPNSS DLC Protocol Statistics
The following tables list the attributes that are common toVXSM_T1E1 and VXSM_155 card statistics.
Table E-73 Attributes Common to VXSM_T1E1 Card Statistics
Object
|
Attribute
|
Front card
|
VXSM_T1E1
|
Back card
|
—
|
Object type
|
8
|
Subobject type
|
25
|
Default peak interval
|
300 seconds
|
Table E-74 Attributes Common to VXSM_155 Card Statistics
Object
|
Attribute
|
Front card
|
VXSM_155
|
Back card
|
—
|
Object type
|
8
|
Subobject type
|
26, 27, 28
|
Default peak interval
|
300 seconds
|
The following table includes the VXSM DPNSS DLC protocol statistics:
Table E-75 VXSM DPNSS DLC Protocol Statistics—Descriptions
Stat ID
|
VXSM DPNSS DLC Protocol Statistics
|
0
|
The number of Unnumbered Information Command frames received.
|
1
|
The number of Unnumbered Information Command frames transmitted.
|
2
|
The number of Set Asynchronous Balanced Mode Restricted frames received.
|
3
|
The number of Set Asynchronous Balanced Mode Restricted frames transmitted.
|
4
|
The number of Unnumbered Acknowledge frames received.
|
5
|
The number of Unnumbered Acknowledge frames transmitted.
|
6
|
The number of Unnumbered Information Response frames received.
|
7
|
The number of Unnumbered Information Response frames transmitted.
|
8
|
The number of invalid frames received.
|
9
|
The maximum time between sending UIC/SABMR frame and receiving UIR/UA frame.
|
10
|
The minimum time between sending UIC/SABMR frame and receiving UIR/UA frame.
|
11
|
The average time between sending UIC/SABMR frame and receiving UIR/UA frame.
|
E.8.14 VXSM MTP LINKSCL Protocol Statistics
The following table lists the attributes that are common to all of the VXSM card statistics.
Table E-76 Attributes Common to All VXSM Card Statistics
Object
|
Attribute
|
Front card
|
VXSM_155, VXSM_T3, VXSM_T1E1
|
Back card
|
—
|
Object type
|
8
|
Subobject type
|
29
|
Default peak interval
|
300 seconds
|
The following table includes the VXSM MTP LINKSCL protocol statistics:
Table E-77 VXSM MTP LINKSCL Protocol Statistics—Descriptions
Stat ID
|
VXSM MTP LINKSCL Protocol Statistics
|
0
|
The duration of link in the In-Service state Q752/1.1.
|
1
|
The count of 0 Link failures - All reasons Q752/1.2.
|
2
|
The count of 0 Link failures - Abnormal FIBR/BSNR Q752/1.4.
|
3
|
The count of 0 Link failures - Excessive error rate Q752/1.5.
|
4
|
The count of alignment or proving errors Q752/1.7.
|
5
|
The count of signal units received in error Q752/1.8.
|
6
|
The count of negative 0 received Q752/1.9.
|
7
|
The count of `local automatic changeover' events Q752/1.10.
|
8
|
The count of `local automatic change back' events Q752/1.11.
|
9
|
The duration of 0 Link unavailable (for any reason) Q752/2.1.
|
10
|
The duration of 0 Link unavailable due to local management actions Q752/2.5.
|
11
|
The duration of 0 Link unavailable due to remote management actions Q752/2.6.
|
12
|
The duration of 0 Link unavailable due to link failure Q752/2.7.
|
13
|
The duration of 0 Link unavailable due to remote processor outage Q752/2.9.
|
14
|
Q752/2.11. The standard only requires that events are issued.
|
15
|
The duration of local busy Q752/2.15.
|
16
|
The count of local inhibition Q752/2.16 and Q752/2.17. The standard only requires that events are issued.
|
17
|
The count of remote inhibition Q752/2.18 and Q752/2.19. The standard only requires that events are issued.
|
18
|
The number of message transfer part level 3 (MTP3) bytes sent.
|
19
|
The number of MTP3 bytes retransmitted on this link. This measurement is specified in Q752/3.2.
|
20
|
The number of MTP3 packets retransmitted on this link. This measurement is specified in Q752/3.2.
|
21
|
The number of MTP3 packets sent.
|
22
|
The number of MTP3 bytes received.
|
23
|
The number of MTP3 packets received.
|
24
|
The number times this 0 link was marked congested. This measurement is specified in Q752/3.6
|
25
|
The cumulative duration of 0 link congestion Q752/3.7.
|
26
|
The number of packets (MSUs) discarded due to 0 link level 1 congestion Q752/3.10.
|
27
|
The number of packets (MSUs) discard due to 0 link level 2 congestion Q752/3.10.
|
28
|
The number of packets (MSUs) discard due to 0 link level 3 congestion Q752/3.10.
|
29
|
The number times this 0 link entered congestion level 1 and packets were discarded. This measurement is specified in Q752/3.11.
|
30
|
The number times this 0 link entered congestion level 2 and packets were discarded. This measurement is specified in Q752/3.11.
|
31
|
The number times this 0 link entered congestion level 3 and packets were discarded. This measurement is specified in Q752/3.11.
|
E.8.15 VXSM L3UA ASP Protocol Statistics
The following table lists the attributes that are common to all of the VXSM card statistics.
Table E-78 Attributes Common to All VXSM Card Statistics
Object
|
Attribute
|
Front card
|
VXSM_155, VXSM_T3, VXSM_T1E1
|
Back card
|
—
|
Object type
|
8
|
Subobject type
|
30
|
Default peak interval
|
300 seconds
|
The following table includes the VXSM L3UA ASP protocol statistics:
Table E-79 VXSM L3UA ASP Protocol Statistics—Descriptions
Stat ID
|
VXSM L3UA ASP Protocol Statistics
|
0
|
The number of data packets received from this AppleTalk session protocol P).
|
1
|
The number of data packets sent to this ASP.
|
2
|
The number of data packets received from MTP3.
|
3
|
The number of data packets sent to MTP3.
|
4
|
The number of ASP Up messages received.
|
5
|
The number of ASP Up ACK messages sent.
|
6
|
The number of ASP Down messages received.
|
7
|
The number of ASP Down ACK messages sent.
|
8
|
The number of ASP Active messages received.
|
9
|
The number of ASP Active ACK messages sent.
|
10
|
The number of ASP Inactive messages received.
|
11
|
The number of ASP Inactive ACK messages sent.
|
12
|
The number of ASP Error messages received.
|
13
|
The number of ASP Error messages sent.
|
14
|
The number of ASP Notify messages sent.
|
15
|
The number of Destination Unavailable messages received.
|
16
|
The number of Destination Unavailable messages sent.
|
17
|
The number of Destination Available messages received.
|
18
|
The number of Destination Available messages sent.
|
19
|
The number of Destination User Part Unavailable messages received.
|
20
|
The number of Destination User Part Unavailable messages sent.
|
21
|
The number of Destination State Audit messages received.
|
22
|
The number of Destination State Audit messages sent.
|
23
|
The number of Signaling Congestion messages with congestion level 0 (or no congestion) received.
|
24
|
The number of Signaling Congestion messages with congestion level 1 received.
|
25
|
The number of Signaling Congestion messages with congestion level 2 received.
|
26
|
The number of Signaling Congestion messages with congestion level 3 received.
|
27
|
The number of Signaling Congestion messages with congestion level 0 (or no congestion) sent.
|
28
|
The number of Signaling Congestion messages with congestion level 1 sent.
|
29
|
The number of Signaling Congestion messages with congestion level 2 sent.
|
30
|
The number of Signaling Congestion messages with congestion level 3 sent.
|
E.8.16 VXSM SCCP Protocol Statistics
The following table lists the attributes that are common to all of the VXSM card statistics.
Table E-80 Attributes Common to All VXSM Card Statistics
Object
|
Attribute
|
Front card
|
VXSM_155, VXSM_T3, VXSM_T1E1
|
Back card
|
—
|
Object type
|
8
|
Subobject type
|
31
|
Default peak interval
|
300 seconds
|
The following table includes the VXSM SCCP protocol statistics:
Table E-81 VXSM SCCP Protocol Statistics—Descriptions
Stat ID
|
VXSM SCCP Protocol Statistics
|
0
|
This counter is incremented every time a message is handled from a local or remote subsystem (Q752/9.3).
|
1
|
This counter is incremented every time a message is handled from a local subsystem (Q752/9.4).
|
2
|
This counter is incremented every time a message requiring global title translation is handled (Q752/9.5).
|
3
|
This counter is incremented every time a unit data (UDT) message is sent (Q752/9 bis.1).
|
4
|
This counter is incremented every time a unit data service (UDTS) message is sent (Q752/9 bis.2).
|
5
|
This counter is incremented every time a UDTS message attempted, but may or may not be sent. The actual number of UDTS messages sent is reflected in the cvGsccpStatsUDTSMsgsSent object.
|
6
|
This counter is incremented every time UDT message is received (Q752/9 bis.3).
|
7
|
This counter is incremented every time a UDTS message is received (Q752/9 bis.4).
|
8
|
This counter is incremented every time an extended unit data (XUDT) message is sent (Q752/9 bis.13).
|
9
|
This counter is incremented every time an XUDTS message attempted, but may or may not be sent. The actual number of extended UDTS messages sent is reflected in the cvGsccpStatsXUDTMsgsSent object.
|
10
|
This counter is incremented every time an XUDTS message is sent (Q752/9 bis.14).
|
11
|
This counter is incremented every time an XUDT message is received (Q752/9 bis.15).
|
12
|
This counter is incremented every time an XUDT message is received (Q752/9 bis.16).
|
13
|
This counter is incremented every time a long unit data (LUDT) message is sent (Q752/9 bis.17).
|
14
|
This counter is incremented every time an LUDT service message is sent (Q752/9 bis.18).
|
15
|
This counter is incremented every time an LUDT message is received (Q752/9 bis.19).
|
16
|
This counter is incremented every time an LUDT service message is received (Q752/9 bis.20).
|
17
|
This counter is incremented every time a Connection Request (CR) message is sent to MTP. This count includes ISDN-UP with embedded CRs (Q752/9 bis.5).
|
18
|
This counter is incremented every time a Connection Refusal (CREF) message is sent to MTP (Q752/9 bis.6).
|
19
|
This counter is incremented every time a CR message is received from MTP. This count includes ISDN-UP with embedded CRs (Q752/9 bis.7).
|
20
|
This counter is incremented every time a CREF message is received from MTP (Q752/9 bis.8).
|
21
|
This counter is incremented every time a Reset Request (RSR) message is sent to MTP (Q752/9 bis.9).
|
22
|
This counter is incremented every time an RSR message is received from MTP (Q752/9 bis.10).
|
23
|
This counter is incremented every time a Error Message (ERR) message is sent to MTP (Q752/9 bis.11).
|
24
|
This counter is incremented every time an ERR message is received from MTP (Q752/9 bis.12).
|
25
|
This counter is incremented every time a translation is requested for a combination of translation type, numbering plan, and nature of address for which no translation exists in the signaling point. This occurs when no selector is available for the combination of parameters provided in the MSU.
|
26
|
This counter is incremented every time an invalid global title format is found while performing the global title translation. This counter provides information related to the Q752 table 7, entry 8 measurement, indicating syntax error detected in MSU.
|
27
|
This counter is incremented every time a hop count violation is found in the MSU.
|
28
|
This counter is incremented every time a global title translation is successful for a certain PC/SSN but is not found in the GTT Mated Application table.
|
29
|
This counter is incremented every time a global title translation cannot be performed due to an unequipped subsystem (SS).
|
30
|
This counter is incremented every time a global title translation is unsuccessful and the error type is not covered by other specific error types.
|
E.9 Physical Line Statistics
The following physical line statistics are supported:
•AXSM-E T1/E1 Physical Line
•AXSM-E T3/E3 Physical Line
•AXSM-E SONET Physical Line
•MPSM E3 Physical Line
•MPSM16-T1E1 T1 Line Statistics
•MPSM16-T1E1 E1 Line Statistics
•PXM1E T3 Physical Line
•PXM1E E3 Physical Line
•PXM1E SONET Physical Line
•PXM1E T1E1 Physical Line Statistics
•VISM Line Statistics
•VXSM SONET Physical Line
•VXSM T1/E1 Physical Line Statistics
E.9.1 AX
