8-36
Cisco ONS 15454 Installation and Operations Guide
November 2001
Chapter8 Performance Monitoring
Performance Monitoring for Optical Cards
Table8-32 Near-End SONET Path H-byte PMs for the OC-3 Card
Parameter Definition
PPJC-Pdet Positive Pointer Justification Count, STS Path Detected (PPJC-Pdet) is a
count of the positive pointer justifications detected on a particular path on
an incoming SONET signal.
NPJC-Pdet Negative Pointer Justification Count, STS Path Detected (NPJC-Pdet) is a
count of the negative pointer justifications detected on a particular path on
an incoming SONET signal.
PPJC-Pgen Positive Pointer Justification Count, STS Path Generated (PPJC-Pgen) is
a count of the positive pointer justifications generated for a particular path
to reconcile the frequency of the SPE with the local clock.
NPJC-Pgen Negative Pointer Justification Count, STS Path Generated (NPJC-Pgen) is
a count of the negative pointer justifications generated for a particular
path to reconcile the frequency of the synchronous payload envelope
(SPE) with the local clock.
Table8-33 Near-End SONET Path PMs for the OC-3 Card
Parameter Definition
Note SONET path PMs will not count unless IPPM is enabled. For additional information, see the
“Enable Intermediate-Path Performance Monitoring” procedure on page7-25. The far-end
IPPM feature is not supported in Software R3.1. However, SONET path PMs can be monitored
by logging into the far-end node directly.
STS CV-P Near-End STS Path Coding Violations (CV-P) is a count of BIP errors
detected at the STS path layer (i.e., using the B3 byte). Up to eight BIP
errors can be detected per frame; each error increments the current CV-P
second register.
STS ES-P Near-End STS Path Errored Seconds (ES-P) is a count of the seconds
when one or more STS path BIP errors were detected. An AIS-P defect
(or a lower-layer, traffic-related, ne ar -en d de fect) or an LOP-P d efect can
also cause an STS ES-P.
STS FC-P Near-End STS Path Failure Counts (FC-P) is a count of the number of
near-end STS path failure events. A failure event begins with an AIS-P
failure, an LOP-P failure, a UNEQ-P failure, or a TIM-P failure is
declared, or if the STS PTE that is monitoring the path supports ERDI-P
for that path. The failure event ends when these failures are cleared.
STS SES-P Near-End STS Path Severely Errored Seconds (SES-P) is a count of the
seconds when K (2400) or more STS path BIP errors were detected . An
AIS-P defect (or a lower-layer, traffic-related, near-end defect) or an
LOP-P defect can also cause an STS SES-P.
STS UAS-P Near-End STS Path Unavailable Seconds (UAS-P) is a count of the
seconds when the STS path was unavailable. An STS path becomes
unavailable when ten consecutive seconds occur that qualify as SE S-Ps,
and it continues to be unavailable until ten consecutive seconds occur that
do not qualify as SES-Ps.