Table of Contents

Connection Statistics
Circuit Line Statistics
Narrowband Statistics
IPX-ATM Statistics
BPX-ATM Statistics
MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 Narrowband Statistics
MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 ATM Statistics
Frame Relay Port Statistics
ASI Port Statistics
FastPAD Port Statistics
MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 Frame Relay Connection Statistics
MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 Frame Relay Port Statistics
MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 ATM Connection Statistics
MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 ATM Port Statistics
MGX 8850 Release 2 AXSM Statistics
MGX 8850 Release 2 AXSM Per Line Statistics
MGX 8850 Release 2 AXSM Port Statistics

Statistics Summary

This appendix defines each type of statistic listed in Chapter 3, Database Tables. The statistics collected from BPX® 8600, IGX 8400, MGX 8220, and MGX 8850 networks are categorized under a major grouping known by an object type name, an object type number, and a minor grouping known as a sub-type. Within the sub-type, the statistic contains a statistic type number.

Connection Statistics

Table A-1: Connection Statistics

Connection Statistics (applicable to each endpoint)	Description	Valid Applications
Voice Statistics
Packets Received (04)	Counts the number of packets received from the Muxbus by the local port card.	CDP
Receive Packets Discarded (05)	Counts the number of packets received from the Muxbus by the local port card and discarded before the queue is transmitted out the port.	CDP
Packets Transmitted (06)	Counts the number of packets transmitted onto the Muxbus from the local port card.	CDP
Projected Packets Transmitted (07)	Projects the number of packets that would be transmitted onto the Muxbus when DSI is enabled.	CDP, internode voice
Supervisory Pkts Transmitted (08)	Counts the number of Supervisory Packets transmitted from the local port card to the Muxbus. Contains the voice signaling bit.	Internode "a", "c", and "v" voice, CIP and CDP terminated "p" and "t" voice, CIP and CDP terminated intranode, "v" voice.
Seconds V.25 Modem On (13)	Counts the number of seconds a V.25 modem is detected and the connection is upgraded to PCM.	Internode "a", "c", and "v" voice connections.
Seconds DSI Enabled (14)	Counts the number of seconds the connection is in DSI.	Internode "c" and "v" voice connections.
Seconds Off-Hook (15)	Counts the number of seconds the connection is off hook.	All "a", "c", and "v" voice connections, and for CIP and CDP terminated "p" and "t" voice connections.
Seconds In-Service (16)	Counts the number of seconds the connection is in service (not in alarm, the required cards are present, and the connection is routed).	All connection types.
Supervisory Pkts Received (19)	Counts the number of Supervisory Packets received from the Muxbus. Contains the voice signaling bit.	Internode "a", "c", and "v" voice, CIP and CDP terminated "p" and "t" voice, CIP and CDP terminated intranode, "v" voice.
Data Statistics
Packets Transmitted (06)	Counts the number of packets transmitted onto the Muxbus from the local port card.	FRP, all data, and internode voice.
Projected Packets Transmitted (07)	Projects the number of packets that would be transmitted onto the Muxbus when DFM is enabled.	CDP
Supervisory Pkts Transmitted (08)	Counts the number of Supervisory Packets transmitted from the local port card to the Muxbus. Contains the data channel EIA lead transitions.	All data connections.
Seconds In Service (16)	Counts the number of seconds in service (not in alarm, the required cards are present, and connection is routed).	All connection types.
Supervisory Packets Received (19)	Counts the number of Supervisory Packets transmitted from the local port card to the Muxbus. Contains the data channel EIA lead transitions.	All data connections.
Frame Relay Statistics
Frames Received (0)	Counts the number of frames received by the local FRP port.	FRP
Receive Frames Discarded (1)	Counts the number of frames discarded by the local FRP before the queue is transmitted onto the Muxbus.	FRP
Frames Transmitted (2)	Counts the number of frames transmitted out of the local FRP port.	FRP
Transmit Frames Discarded (3)	Counts the number of frames discarded by the local FRP before the queue is transmitted out the port.	FRP
Packet Received (4)	Counts the number of packets received from the Muxbus by the local port card.	FRP
Receive Pkts Discarded (5)	Counts the number of packets received from the Muxbus by the local port card and discarded before the queue is transmitted out the port.	FRP
Pkts Transmitted (6)	Counts the number of packets transmitted onto the Muxbus from the local port card.	FRP
Bytes Received (9)	Counts the number of frame bytes received by the local FRP port.	FRP
Receive Bytes Discarded (10)	Counts the number of frame bytes received and discarded by the local FRP port.	FRP
Bytes Transmitted (11)	Counts the number of frame bytes received from the Muxbus and transmitted out the FRP port.	FRP
Transmit Bytes Discarded (12)	Counts the number of frame bytes received from the Muxbus that are discarded before transmittal out the FRP port due to the age of the frame in the IPX, CRC errors, or lack of buffer space.	FRP
Seconds in Service (16)	Counts the number of seconds in service (not in alarm, the required cards are present, and the connection is routed).	FRP
Frames Transmitted with FECN (17)	Counts the number of frames transmitted with the FECN bit set.	FRP
Frames Transmitted with BECN (18)	Counts the number of frames transmitted with the BECN bit set.	FRP
Minutes Congested (20)	Counts the number of minutes where 50% or more of the frames are tagged FECN by FRP.	FRP
DE Frames Received (21)	Counts the number of frames received by the local FRP port with the discard eligibility bit set.	FRP (Model D), earlier report 0.
DE Frames Transmitted (22)	Counts the number of frames transmitted by the local FRP port with the discard eligibility bit set.	FRP (Model D), earlier report 0.
DE Frames Dropped (23)	Counts the number of frames received with the discard eligibility bit set that are discarded rather than being transmitted onto the Muxbus.	FRP (Model D), earlier report 0.
DE Bytes Received (24)	Counts the number of bytes received with the discard eligibility bit set.	FRP
Frames Received in Excess of CIR (25)	Counts the number of frames received in excess of the committed information rate.	FRP
Bytes Received in Excess of CIR (26)	Counts the number of bytes received in excess of the committed information rate.	FRP
Frames Transmitted in Excess of CIR (27)	Counts the number of frames transmitted in excess of the committed information rate.	FRP
Bytes Transmitted in Excess of CIR (28)	Counts the number of bytes transmitted in excess of the committed information rate.	FRP
IWF Frames Rx and Aborted (29)	Counts the number of IWF frames received and aborted	FRP
IWF Frames Rx with EFCI Bit Set in EOF FP (30)	Counts the number of IWF frames received that have the EFCI bit set.	FRP
FR Connection Ingress Statistics
Rx Frames Discarded-Deroute/Down (31)	Counts the number of frames discarded due to administratively downed connections.	FRP
Rx Bytes Discarded-Deroute/Down (32)	Counts the number of bytes discarded due to administratively downed connections.	FRP
Rx Frames Discarded VC Q Overflow (33)	Counts the number of frames discarded due to VC queue overflow.	FRP
Rx Bytes Discarded VC Q Overflow (34)	Counts the number of bytes discarded due to VC queue overflow.	FRP
FR Connection Egress Statistics
Tx Frames Discarded VC Q Overflow (35)	Counts the number of frames discarded due to transmit queue overflow.	FRP
Tx Bytes Discarded VC Q Overflow (36)	Counts the number of bytes discarded due to transmit queue overflow.	FRP
Tx Frames Discarded Ingress CRC (37)	Counts the number of frames discarded due to Ingress CRC or length errors.	FRP
Tx Bytes Discarded Ingress CRC (38)	Counts the number of bytes discarded due to Ingress CRC or length errors.	FRP
Tx Frames Discarded Trunk Discard (39)	Counts the number of frames discarded due to trunk CRC or length errors.	FRP
Tx Bytes Discarded Trunk Discard(40)	Counts the number of bytes discarded due to trunk CRC or length errors.	FRP
Tx Frames during Egress LMI Fail (41)	Counts the number of frames transmitted during an LMI failure at Egress.	FRP
Tx Bytes during Egress LMI Fail (42)	Counts the number of bytes transmitted during an LMI failure at Egress.	FRP
FastPAD Voice Statistics
Frames Received (0)	Counts the number of frames received by the local FastPAD port.	FastPAD
Receive Frames Discarded (1)	Counts the number of frames discarded by the local FastPAD before the queue is transmitted onto the Muxbus.	FastPAD
Frames Transmitted (2)	Counts the number of frames transmitted out of the local FastPAD port.	FastPAD
Transmit Frames Discarded (3)	Counts the number of frames discarded by the local FastPAD before the queue is transmitted out the port.	FastPAD
Packet Received (4)	Counts the number of packets received from the Muxbus by the local port card.	FastPAD
Receive Pkts Discarded (5)	Counts the number of packets received from the Muxbus by the local port card and discarded before the queue is transmitted out the port.	FastPAD
Pkts Transmitted (6)	Counts the number of packets transmitted onto the Muxbus from the local port card.	FastPAD
Bytes Received (9)	Counts the number of frame bytes received by the local FastPAD port.	FastPAD
Receive Bytes Discarded (10)	Counts the number of frame bytes received and discarded by the local FastPAD port.	FastPAD
Bytes Transmitted (11)	Counts the number of frame bytes received from the Muxbus and transmitted out the FastPAD port.	FastPAD
Transmit Bytes Discarded (12)	Counts the number of frame bytes received from the Muxbus that are discarded before transmittal out the FastPAD port due to the age of the frame in the IPX, CRC errors, or lack of buffer space.	FastPAD
Seconds in Service (16)	Counts the number of seconds in service (not in alarm, the required cards are present, and the connection is routed).	FastPAD
Frames Transmitted with FECN (17)	Counts the number of frames transmitted with the FECN bit set.	FastPAD
Frames Transmitted with BECN (18)	Counts the number of frames transmitted with the BECN bit set.	FastPAD
Minutes Congested (20)	Counts the number of minutes where 50% or more of the frames are tagged FECN by FastPAD.	FastPAD
DE Frames Received (21)	Counts the number of frames received by the local FastPAD port with the discard eligibility bit set.	FastPAD
DE Frames Transmitted (22)	Counts the number of frames transmitted by the local FastPAD port with the discard eligibility bit set.	FastPAD
DE Frames Dropped (23)	Counts the number of frames received with the discard eligibility bit set that are discarded rather than being transmitted onto the Muxbus.	FastPAD
DE Bytes Received (24)	Counts the number of bytes received with the discard eligibility bit set.	FastPAD
Frames Received in Excess of CIR (25)	Counts the number of frames received in excess of the committed information rate.	FastPAD
Bytes Received in Excess of CIR (26)	Counts the number of bytes received in excess of the committed information rate.	FastPAD
Frames Transmitted in Excess of CIR (27)	Counts the number of frames transmitted in excess of the committed information rate.	FastPAD
Bytes Transmitted in Excess of CIR (28)	Counts the number of bytes transmitted in excess of the committed information rate.	FastPAD
IWF Frames Rx and Aborted (29)	Counts the number of IWF frames received and aborted	FastPAD
IWF Frames Rx with EFCI Bit Set in EOF FP (30)	Counts the number of IWF frames received that have the EFCI bit set.	FastPAD
FastPAD Voice Connection Ingress Statistics
Rx Frames Discarded-Deroute/Down (31)	Counts the number of frames discarded due to administratively downed connections.	FastPAD
Rx Bytes Discarded-Deroute/Down (32)	Counts the number of bytes discarded due to administratively downed connections.	FastPAD
Rx Frames Discarded VC Q Overflow (33)	Counts the number of frames discarded due to VC queue overflow.	FastPAD
Rx Bytes Discarded VC Q Overflow (34)	Counts the number of bytes discarded due to VC queue overflow.	FastPAD
FastPAD Voice Connection Egress Statistics
Tx Frames Discarded VC Q Overflow (35)	Counts the number of frames discarded due to transmit queue overflow.	FastPAD
Tx Bytes Discarded VC Q Overflow (36)	Counts the number of bytes discarded due to transmit queue overflow.	FastPAD
Tx Frames Discarded Ingress CRC (37)	Counts the number of frames discarded due to Ingress CRC or length errors.	FastPAD
Tx Bytes Discarded Ingress CRC (38)	Counts the number of bytes discarded due to Ingress CRC or length errors.	FastPAD
Tx Frames Discarded Trunk Discard (39)	Counts the number of frames discarded due to trunk CRC or length errors.	FastPAD
Tx Bytes Discarded Trunk Discard(40)	Counts the number of bytes discarded due to trunk CRC or length errors.	FastPAD
Tx Frames during Egress LMI Fail (41)	Counts the number of frames transmitted during an LMI failure at Egress.	FastPAD
Tx Bytes during Egress LMI Fail (42)	Counts the number of bytes transmitted during an LMI failure at Egress.	FastPAD
FastPAD Switched Voice Statistics
Frames Received (0)	Counts the number of frames received by the local FastPAD port.	FastPAD
Receive Frames Discarded (1)	Counts the number of frames discarded by the local FastPAD before the queue is transmitted onto the Muxbus.	FastPAD
Frames Transmitted (2)	Counts the number of frames transmitted out of the local FastPAD port.	FastPAD
Transmit Frames Discarded (3)	Counts the number of frames discarded by the local FastPAD before the queue is transmitted out the port.	FastPAD
Packet Received (4)	Counts the number of packets received from the Muxbus by the local port card.	FastPAD
Receive Pkts Discarded (5)	Counts the number of packets received from the Muxbus by the local port card and discarded before the queue is transmitted out the port.	FastPAD
Pkts Transmitted (6)	Counts the number of packets transmitted onto the Muxbus from the local port card.	FastPAD
Bytes Received (9)	Counts the number of frame bytes received by the local FastPAD port.	FastPAD
Receive Bytes Discarded (10)	Counts the number of frame bytes received and discarded by the local FastPAD port.	FastPAD
Bytes Transmitted (11)	Counts the number of frame bytes received from the Muxbus and transmitted out the FastPAD port.	FastPAD
Transmit Bytes Discarded (12)	Counts the number of frame bytes received from the Muxbus that are discarded before transmittal out the FastPAD port due to the age of the frame in the IPX, CRC errors, or lack of buffer space.	FastPAD
Seconds in Service (16)	Counts the number of seconds in service (not in alarm, the required cards are present, and the connection is routed).	FastPAD
Frames Transmitted with FECN (17)	Counts the number of frames transmitted with the FECN bit set.	FastPAD
Frames Transmitted with BECN (18)	Counts the number of frames transmitted with the BECN bit set.	FastPAD
Minutes Congested (20)	Counts the number of minutes where 50% or more of the frames are tagged FECN by FastPAD.	FastPAD
DE Frames Received (21)	Counts the number of frames received by the local FastPAD port with the discard eligibility bit set.	FastPAD
DE Frames Transmitted (22)	Counts the number of frames transmitted by the local FastPAD port with the discard eligibility bit set.	FastPAD
DE Frames Dropped (23)	Counts the number of frames received with the discard eligibility bit set that are discarded rather than being transmitted onto the Muxbus.	FastPAD
DE Bytes Received (24)	Counts the number of bytes received with the discard eligibility bit set.	FastPAD
Frames Received in Excess of CIR (25)	Counts the number of frames received in excess of the committed information rate.	FastPAD
Bytes Received in Excess of CIR (26)	Counts the number of bytes received in excess of the committed information rate.	FastPAD
Frames Transmitted in Excess of CIR (27)	Counts the number of frames transmitted in excess of the committed information rate.	FastPAD
Bytes Transmitted in Excess of CIR (28)	Counts the number of bytes transmitted in excess of the committed information rate.	FastPAD
IWF Frames Rx and Aborted (29)	Counts the number of IWF frames received and aborted	FastPAD
IWF Frames Rx with EFCI Bit Set in EOF FP (30)	Counts the number of IWF frames received that have the EFCI bit set.	FastPAD
FastPAD Switched Voice Connection Ingress Statistics
Rx Frames Discarded-Deroute/Down (31)	Counts the number of frames discarded due to administratively downed connections.	FastPAD
Rx Bytes Discarded-Deroute/Down (32)	Counts the number of bytes discarded due to administratively downed connections.	FastPAD
Rx Frames Discarded VC Q Overflow (33)	Counts the number of frames discarded due to VC queue overflow.	FastPAD
Rx Bytes Discarded VC Q Overflow (34)	Counts the number of bytes discarded due to VC queue overflow.	FastPAD
FastPAD Switched Voice Connection Egress Statistics
Tx Frames Discarded VC Q Overflow (35)	Counts the number of frames discarded due to transmit queue overflow.	FastPAD
Tx Bytes Discarded VC Q Overflow (36)	Counts the number of bytes discarded due to transmit queue overflow.	FastPAD
Tx Frames Discarded Ingress CRC (37)	Counts the number of frames discarded due to Ingress CRC or length errors.	FastPAD
Tx Bytes Discarded Ingress CRC (38)	Counts the number of bytes discarded due to Ingress CRC or length errors.	FastPAD
Tx Frames Discarded Trunk Discard (39)	Counts the number of frames discarded due to trunk CRC or length errors.	FastPAD
Tx Bytes Discarded Trunk Discard(40)	Counts the number of bytes discarded due to trunk CRC or length errors.	FastPAD
Tx Frames during Egress LMI Fail (41)	Counts the number of frames transmitted during an LMI failure at Egress.	FastPAD
Tx Bytes during Egress LMI Fail (42)	Counts the number of bytes transmitted during an LMI failure at Egress.	FastPAD
FastPAD Data Statistics
Frames Received (0)	Counts the number of frames received by the local FastPAD port.	FastPAD
Receive Frames Discarded (1)	Counts the number of frames discarded by the local FastPAD before the queue is transmitted onto the Muxbus.	FastPAD
Frames Transmitted (2)	Counts the number of frames transmitted out of the local FastPAD port.	FastPAD
Transmit Frames Discarded (3)	Counts the number of frames discarded by the local FastPAD before the queue is transmitted out the port.	FastPAD
Packet Received (4)	Counts the number of packets received from the Muxbus by the local port card.	FastPAD
Receive Pkts Discarded (5)	Counts the number of packets received from the Muxbus by the local port card and discarded before the queue is transmitted out the port.	FastPAD
Pkts Transmitted (6)	Counts the number of packets transmitted onto the Muxbus from the local port card.	FastPAD
Bytes Received (9)	Counts the number of frame bytes received by the local FastPAD port.	FastPAD
Receive Bytes Discarded (10)	Counts the number of frame bytes received and discarded by the local FastPAD port.	FastPAD
Bytes Transmitted (11)	Counts the number of frame bytes received from the Muxbus and transmitted out the FastPAD port.	FastPAD
Transmit Bytes Discarded (12)	Counts the number of frame bytes received from the Muxbus that are discarded before transmittal out the FastPAD port due to the age of the frame in the IPX, CRC errors, or lack of buffer space.	FastPAD
Seconds in Service (16)	Counts the number of seconds in service (not in alarm, the required cards are present, and the connection is routed).	FastPAD
Frames Transmitted with FECN (17)	Counts the number of frames transmitted with the FECN bit set.	FastPAD
Frames Transmitted with BECN (18)	Counts the number of frames transmitted with the BECN bit set.	FastPAD
Minutes Congested (20)	Counts the number of minutes where 50% or more of the frames are tagged FECN by FastPAD.	FastPAD
DE Frames Received (21)	Counts the number of frames received by the local FastPAD port with the discard eligibility bit set.	FastPAD
DE Frames Transmitted (22)	Counts the number of frames transmitted by the local FastPAD port with the discard eligibility bit set.	FastPAD
DE Frames Dropped (23)	Counts the number of frames received with the discard eligibility bit set that are discarded rather than being transmitted onto the Muxbus.	FastPAD
DE Bytes Received (24)	Counts the number of bytes received with the discard eligibility bit set.	FastPAD
Frames Received in Excess of CIR (25)	Counts the number of frames received in excess of the committed information rate.	FastPAD
Bytes Received in Excess of CIR (26)	Counts the number of bytes received in excess of the committed information rate.	FastPAD
Frames Transmitted in Excess of CIR (27)	Counts the number of frames transmitted in excess of the committed information rate.	FastPAD
Bytes Transmitted in Excess of CIR (28)	Counts the number of bytes transmitted in excess of the committed information rate.	FastPAD
IWF Frames Rx and Aborted (29)	Counts the number of IWF frames received and aborted	FastPAD
IWF Frames Rx with EFCI Bit Set in EOF FP (30)	Counts the number of IWF frames received that have the EFCI bit set.	FastPAD
FastPAD Data Connection Ingress Statistics
Rx Frames Discarded-Deroute/Down (31)	Counts the number of frames discarded due to administratively downed connections.	FastPAD
Rx Bytes Discarded-Deroute/Down (32)	Counts the number of bytes discarded due to administratively downed connections.	FastPAD
Rx Frames Discarded VC Q Overflow (33)	Counts the number of frames discarded due to VC queue overflow.	FastPAD
Rx Bytes Discarded VC Q Overflow (34)	Counts the number of bytes discarded due to VC queue overflow.	FastPAD
FastPAD Data Connection Egress Statistics
Tx Frames Discarded VC Q Overflow (35)	Counts the number of frames discarded due to transmit queue overflow.	FastPAD
Tx Bytes Discarded VC Q Overflow (36)	Counts the number of bytes discarded due to transmit queue overflow.	FastPAD
Tx Frames Discarded Ingress CRC (37)	Counts the number of frames discarded due to Ingress CRC or length errors.	FastPAD
Tx Bytes Discarded Ingress CRC (38)	Counts the number of bytes discarded due to Ingress CRC or length errors.	FastPAD
Tx Frames Discarded Trunk Discard (39)	Counts the number of frames discarded due to trunk CRC or length errors.	FastPAD
Tx Bytes Discarded Trunk Discard(40)	Counts the number of bytes discarded due to trunk CRC or length errors.	FastPAD
Tx Frames during Egress LMI Fail (41)	Counts the number of frames transmitted during an LMI failure at Egress.	FastPAD
Tx Bytes during Egress LMI Fail (42)	Counts the number of bytes transmitted during an LMI failure at Egress.	FastPAD
FastPAD Frame Relay Statistics
Frames Received (0)	Counts the number of frames received by the local FastPAD port.	FastPAD
Receive Frames Discarded (1)	Counts the number of frames discarded by the local FastPAD before the queue is transmitted onto the Muxbus.	FastPAD
Frames Transmitted (2)	Counts the number of frames transmitted out of the local FastPAD port.	FastPAD
Transmit Frames Discarded (3)	Counts the number of frames discarded by the local FastPAD before the queue is transmitted out the port.	FastPAD
Packet Received (4)	Counts the number of packets received from the Muxbus by the local port card.	FastPAD
Receive Pkts Discarded (5)	Counts the number of packets received from the Muxbus by the local port card and discarded before the queue is transmitted out the port.	FastPAD
Pkts Transmitted (6)	Counts the number of packets transmitted onto the Muxbus from the local port card.	FastPAD
Bytes Received (9)	Counts the number of frame bytes received by the local FastPAD port.	FastPAD
Receive Bytes Discarded (10)	Counts the number of frame bytes received and discarded by the local FastPAD port.	FastPAD
Bytes Transmitted (11)	Counts the number of frame bytes received from the Muxbus and transmitted out the FastPAD port.	FastPAD
Transmit Bytes Discarded (12)	Counts the number of frame bytes received from the Muxbus that are discarded before transmittal out the FastPAD port due to the age of the frame in the IPX, CRC errors, or lack of buffer space.	FastPAD
Seconds in Service (16)	Counts the number of seconds in service (not in alarm, the required cards are present, and the connection is routed).	FastPAD
Frames Transmitted with FECN (17)	Counts the number of frames transmitted with the FECN bit set.	FastPAD
Frames Transmitted with BECN (18)	Counts the number of frames transmitted with the BECN bit set.	FastPAD
Minutes Congested (20)	Counts the number of minutes where 50% or more of the frames are tagged FECN by FastPAD.	FastPAD
DE Frames Received (21)	Counts the number of frames received by the local FastPAD port with the discard eligibility bit set.	FastPAD
DE Frames Transmitted (22)	Counts the number of frames transmitted by the local FastPAD port with the discard eligibility bit set.	FastPAD
DE Frames Dropped (23)	Counts the number of frames received with the discard eligibility bit set that are discarded rather than being transmitted onto the Muxbus.	FastPAD
DE Bytes Received (24)	Counts the number of bytes received with the discard eligibility bit set.	FastPAD
Frames Received in Excess of CIR (25)	Counts the number of frames received in excess of the committed information rate.	FastPAD
Bytes Received in Excess of CIR (26)	Counts the number of bytes received in excess of the committed information rate.	FastPAD
Frames Transmitted in Excess of CIR (27)	Counts the number of frames transmitted in excess of the committed information rate.	FastPAD
Bytes Transmitted in Excess of CIR (28)	Counts the number of bytes transmitted in excess of the committed information rate.	FastPAD
IWF Frames Rx and Aborted (29)	Counts the number of IWF frames received and aborted	FastPAD
IWF Frames Rx with EFCI Bit Set in EOF FP (30)	Counts the number of IWF frames received that have the EFCI bit set.	FastPAD
FastPAD Frame Relay Connection Ingress Statistics
Rx Frames Discarded-Deroute/Down (31)	Counts the number of frames discarded due to administratively downed connections.	FastPAD
Rx Bytes Discarded-Deroute/Down (32)	Counts the number of bytes discarded due to administratively downed connections.	FastPAD
Rx Frames Discarded VC Q Overflow (33)	Counts the number of frames discarded due to VC queue overflow.	FastPAD
Rx Bytes Discarded VC Q Overflow (34)	Counts the number of bytes discarded due to VC queue overflow.	FastPAD
FastPAD Frame Relay Connection Egress Statistics
Tx Frames Discarded VC Q Overflow (35)	Counts the number of frames discarded due to transmit queue overflow.	FastPAD
Tx Bytes Discarded VC Q Overflow (36)	Counts the number of bytes discarded due to transmit queue overflow.	FastPAD
Tx Frames Discarded Ingress CRC (37)	Counts the number of frames discarded due to Ingress CRC or length errors.	FastPAD
Tx Bytes Discarded Ingress CRC (38)	Counts the number of bytes discarded due to Ingress CRC or length errors.	FastPAD
Tx Frames Discarded Trunk Discard (39)	Counts the number of frames discarded due to trunk CRC or length errors.	FastPAD
Tx Bytes Discarded Trunk Discard(40)	Counts the number of bytes discarded due to trunk CRC or length errors.	FastPAD
Tx Frames during Egress LMI Fail (41)	Counts the number of frames transmitted during an LMI failure at Egress.	FastPAD
Tx Bytes during Egress LMI Fail (42)	Counts the number of bytes transmitted during an LMI failure at Egress.	FastPAD
ASI Statistics
Receive Frames Discarded (1)	Counts the number of frames discarded by the local ASI before the queue is transmitted onto the Muxbus.	ASI
Pkts Transmitted (6)	Counts the number of packets transmitted onto the Muxbus from the local port card.	ASI
Transmit Bytes Discarded (12)	Counts the number of frame bytes received from the Muxbus that are discarded before transmittal out the ASI port due to the age of the frame in the IPX, CRC errors, or lack of buffer space.	ASI
Seconds in Service (16)	Counts the number of seconds in service (not in alarm, the required cards are present, and the connection is routed).	ASI
DE Frames Received (21)	Counts the number of frames received by the local ASI port with the discard eligibility bit set.	ASI
Bytes Transmitted in Excess of CIR (28)	Counts the number of bytes transmitted in excess of the committed information rate.	ASI
Cells Rx port (29)	Counts the number of cells received at the port.	ASI
Frames Rx port (30)	Counts the number of frames received at the port.	ASI
Cells Tx network (31)	Counts the number of cells transmitted to the network.	ASI
CLP Rx port (32)	Counts the number of CLP cells received at the port.	ASI
Non-comp CLP Rx port (33)	Counts the number of non-compliant CLP cells received at the port.	ASI
Discard CLPth Rx port (34)	Counts the number of CLP cells received at the port and then discarded.	ASI
Discard Qfull Rx port (35)	Counts the number of cells discarded due to transmit queue overflow.	ASI
EFCI Rx port (36)	Counts the number of cells received at the port with the EFCI bit set.	ASI
AAL5 Rx port (37)	Counts the number of AAL5 cells received at the port.	ASI
Non-comp Rx port (38)	Counts the number of non-compliant cells received at the port.	ASI
Discard failed Rx port (39)	Counts the number of failed cells received at the port and then discarded.	ASI
AAL5 Discard Qfull Rx port (40)	Counts the number of AAL5 cells discarded due to transmit queue overflow.	ASI
Average Cell Q Depth (41)	Displays the average transmit queue depth in cells.	ASI
Discard rsrc overflow Rx port (42)	Counts the number of cells discarded due to resource overflow.	ASI
Discard Sbin full Rx port (43)	Counts the number of cells discarded due to the Sbin being full.	ASI
EFCI Tx port (44)	Counts the number of cells transmitted from the port with the EFCI bit set.	ASI
Cells Tx port (45)	Counts the number of cells transmitted from the port.	ASI
Cells Rx network (46)	Counts the number of cells received from the network.	ASI
Discard Qbin full (47)	Counts the number of cells discarded because the queue bin was full.	ASI
Discard Qbin CLPth port(48)	Counts the number of CLP cells discarded because the queue bin was full.	ASI
CLP Tx port (49)	Counts the number of cells transmitted from the port with the CLP bit set.	ASI
BCM Rx port (50)	Counts the number of BCM cells received at the port.	ASI
BCM Tx network (51)	Counts the number of BCM cells transmitted to the network.	ASI
OAM Tx network (52)	Counts the number of OAM cells transmitted to the network.	ASI
AIS Rx port (53)	Counts the number of AIS cells received at the port.	ASI
FERF Rx port (54)	Counts the number of FERF cells received at the port.	ASI
MGX 8220 Frame Relay Statistics
Frames Received (0)	Counts the number of frames received by the local FRP port.	FRP
Receive Frames Discarded (1)	Counts the number of frames discarded by the local FRP before the queue is transmitted onto the Muxbus.	FRP
Frames Transmitted (2)	Counts the number of frames transmitted out of the local FRP port.	FRP
Transmit Frames Discarded (3)	Counts the number of frames discarded by the local FRP before the queue is transmitted out the port.	FRP
Bytes Received (9)	Counts the number of frame bytes received by the local FRP port.	FRP
Receive Bytes Discarded (10)	Counts the number of frame bytes received and discarded by the local FRP port.	FRP
Bytes Transmitted (11)	Counts the number of frame bytes received from the Muxbus and transmitted out the FRP port.	FRP
Transmit Bytes Discarded (12)	Counts the number of frame bytes received from the Muxbus that are discarded before transmittal out the FRP port due to the age of the frame in the IPX, CRC errors, or lack of buffer space.	FRP
Frames Transmitted with FECN (17)	Counts the number of frames transmitted with the FECN bit set.	FRP
Frames Transmitted with BECN (18)	Counts the number of frames transmitted with the BECN bit set.	FRP
Minutes Congested (20)	Counts the number of minutes where 50% or more of the frames are tagged FECN by FRP.	FRP
DE Frames Received (21)	Counts the number of frames received by the local FRP port with the discard eligibility bit set.	FRP
DE Frames Transmitted (22)	Counts the number of frames transmitted by the local FRP port with the discard eligibility bit set.	FRP
DE Frames Dropped (23)	Counts the number of frames received with the discard eligibility bit set that are discarded rather than being transmitted onto the Muxbus.	FRP
DE Bytes Received (24)	Counts the number of bytes received with the discard eligibility bit set.	FRP
MGX 8220 FR Connection Ingress Statistics
Rx Frames Discarded VC Q Overflow (33)	Counts the number of frames discarded due to VC queue overflow.	FRP
Rx Bytes Discarded VC Q Overflow (34)	Counts the number of bytes discarded due to VC queue overflow.	FRP
MGX 8220 FR Connection Egress Statistics
Tx Frames Discarded VC Q Overflow (35)	Counts the number of frames discarded due to transmit queue overflow.	FRP
Tx Bytes Discarded VC Q Overflow (36)	Counts the number of bytes discarded due to transmit queue overflow.	FRP
Tx Frames Discarded Ingress CRC (37)	Counts the number of frames discarded due to Ingress CRC or length errors.	FRP
Tx Frames Discarded Trunk Discard (39)	Counts the number of frames discarded due to trunk CRC or length errors.	FRP
Tx Frames during Egress LMI Fail (41)	Counts the number of frames transmitted during an LMI failure at Egress.	FRP
Tx Bytes during Egress LMI Fail (42)	Counts the number of bytes transmitted during an LMI failure at Egress.	FRP

Circuit Line Statistics

Table A-2: Circuit Line Statistics

Circuit Line Statistics (applicable to each endpoint)	Description	Valid Applications
Bipolar Violations (00)	Counts the number of bipolar violations on the circuit line.	T1/E1/J1 CDP, FRP
Frame Slips (01)	Counts the number of frame slips on the receive side.	T1/E1/J1 CDP, FRP
Out of Frames (02)	Counts 0 to 1 transitions of the out of frame condition.	T1/E1/J1 CDP, FRP
Losses of Signal (03)	Counts 0 to 1 transitions of the loss of signal condition.	T1/E1/J1, CDP, FRP
Frame Bit Errors (04)	Counts frame alignment signal errors.	T1/E1/J1, CDP, FRP
CRC Errors (05)	Counts detected CRC errors.	CDP, and FRP E1, CDP, and FRP T1-ESF
Out of Multi-frames (06)	Counts 0 to 1 transitions which determine out of multi-frames.	CDP E1/J1
All Ones in Timeslot 16 (07)	Counts 0 to 1 transitions of AIS-16.	CDP E1/J1
ATM Connections Statistics
B3ZS Line Code Violations (28)	Counts the number of violations of the T3 B3ZS code.	ASI-1
Line Errored Seconds (29)	Counts the number of errored seconds based on code violations.	ASI-1
Line Severely Errored Seconds (30)	Counts the number of Severely Errored seconds based on code violations.	ASI-1
P-bit Line Parity Errors (31)	Counts the number of parity errors in the PLCP-frame P bit.	ASI-1
Errored Seconds - Parity (32)	Counts the number of Errored seconds based on parity.	ASI-1
Severely Errored Seconds - Parity (33)	Counts the number of Severely Errored seconds based on parity.	ASI-1
Unavailable Seconds (39)	Counts the number of unavailable seconds based on parity.	ASI-1
PLCP BIP-8 Errors (40)	Counts the number of internal BPX errors.	ASI-1
BIP-8 Errored Seconds (41)	Counts the number of internal BPX errored seconds.	ASI-1
BIP-8 Severely Errored Seconds (42)	Counts the number of internal BPX severely errored seconds.	ASI-1
PLCP Severely Errored Framing Seconds (43)	Counts the number of Severely Errored seconds based on PLCP framing errors.	ASI-1
PLCP Unavailable Seconds (44)	Counts the number of internal BPX unavailable seconds.	ASI-1
HCS Errors (45)	Counts the number of header check sum errors.	ASI-1
HCS Errored Seconds (147)	Counts the number of header check sum errored seconds.	ASI-1
HCS Severely Errored Seconds (148)	Counts the number of header check sum severely errored seconds.	ASI-1
IWF Frames Rx and Aborted (29)	Counts the number of IWF frames received and aborted	ASI-1
IWF Frames Rx with EFCI Bit Set in EOF FP (30)	Counts the number of IWF frames received that have the EFCI bit set.	ASI-1
Cells Rx Port (31)	Counts the number of cells received from the port.	ASI-1
Frames Rx Port (32)	Counts the number of frames received from the port.	ASI-1
Cells Tx Network (33)	Counts the number of cells transmitted to the network.	ASI-1
CLP Rx Port (34)	Counts the number of cells received from the port that had their CLP bit set.	ASI-1
Non-comp CLP Rx Port (35)	Counts the number of cells received from the port that had their CLP bit set due to UPC violations.	ASI-1
Discard CLP Th Rx Port (36)	Counts the number of CLP=1 cells received from the port that were discarded because the VC queue exceeded the CLP threshold.	ASI-1
Discard Qfull Rx Port (37)	Counts the number of cells received from the port that were discarded because the VC queue was full.	ASI-1
EFCI Rx Port (38)	Counts the number of EFCI cells received from the port.	ASI-1
AAL5 Rx Port (39)	Counts the number of AAL5 cells received from the port.	ASI-1
Non-comp Rx Port (40)	Counts the number of non-compliant cells received from the port.	ASI-1
Discard Failed Rx Port (41)	Counts the number of cells received from the port that were discarded because the connection had failed.	ASI-1
AAL5 Disc. Qfull Rx Port (42)	Counts the number of AAL5 cells received from the port that were discarded because the VC queue was full.	ASI-1
Disc. Rsrc Oflow Rx Port (43)	Counts the number of cells received from the port that were discarded because of a resource overflow.	ASI-1
Disc. Sbin Full Rx Port (44)	Counts the number of cells received from the port that were discarded because the Sbin was full.	ASI-1
BCM Rx Port (45)	Counts the number of BCM cells received from the port.	ASI-1
BCM Tx Network (46)	Counts the number of BCM cells transmitted to the network.	ASI-1
OAM Tx Network (46)	Counts the number of OAM cells transmitted to the network.	ASI-1
Qbin Discard Tx Port (47)	Counts the number of cells transmitted to the port that were discarded because the Qbin was full.	ASI-1
Qbin CLP Disc. Tx Port (49)	Counts the number of cells that had their CLP bit set transmitted to the port that were discarded because the Egress Qbin exceeded the CLP threshold.	ASI-1
Cells Rx Network (50)	Counts the number of cells received from the network.	ASI-1
CLP Tx Port (51)	Counts the number of cells transmitted to the port that had their CLP bit set.	ASI-1
EFCI Tx Port (52)	Counts the number of cells transmitted to the port that had their EFCI bit set.	ASI-1
Cells Tx Port (53)	Counts the total number of cells transmitted to the port.	ASI-1
AIS Rx Port (54)	Counts the number of AIS cells received from the port.	ASI-1
FERF Rx Port (55)	Counts the number of FERF cells received from the port.	ASI-1

Narrowband Statistics

Table A-3: Narrowband Statistics

Narrowband Statistics (applicable to each endpoint)	Description	Valid Applications
Bipolar Violations (0)	Counts the number of bipolar violations on a narrowband line.	T1 and E1
Frame Slips (1)	Counts the number of frame slips on the receive side.	T1 and E1
Out of Frames (2)	Counts 0 to 1 transitions of the out of frame condition.	T1 and E1
Losses of Signal (3)	Counts 0 to 1 transitions of the loss of signal condition.	NTC trunks
Frame Bit Errors (4)	Counts frame alignment signal errors.	NTC-E1 and NTC T1-D4
CRC Errors Statistics (5)	Counts the number of packets with detected CRC errors.	NTC-E1, and NTC-T1-ESF
Packet Out of Frames (8)	Counts the number of packets with out of frame errors.	NTC trunks
Packet CRC Errors (9)	Counts the number of packets with detected CRC errors in packet headers.	All trunks
Bad Clock Errors (10)	Count 0 to 1 transitions of clock loss.	NTC subrate
Transmit Voice Pkts Dropped (11)	Counts the number of voice packets dropped before the queue is transmitted on a line.	All trunks
Transmit Time Stamped Pkts Dropped (12)	Counts the number of time stamped packets dropped before the queue is transmitted on line.	All trunks
Transmit Non-Time Stamped Pkts Dropped (13)	Counts the number of non-time stamped packets dropped before the queue is transmitted on line.	All trunks
Transmit High Priority Pkts Dropped (14)	Counts the number of high priority packets (PCC) dropped before the queue is transmitted on line.	All trunks
Transmit Bursty Data A Pkts Dropped (15)	Counts the number of bursty data A queue packets dropped before the queue is transmitted on line	All trunks
Transmit Bursty Data B Pkts Dropped (16)	Counts the number of bursty data B queue packets dropped before the queue is transmitted onto the line.	All trunks
Voice Pkts Transmitted to Line (17)	Counts the number of voice packets transmitted onto the line.	All trunks
Time Stamped Pkts Transmitted to Line (18)	Counts the number of time stamped packets transmitted onto the line.	All trunks
Non-Time Stamped Pkts Transmitted to Line (19)	Counts the number of non-time stamped packets transmitted onto the line.	All trunks
High Priority Pkts Transmitted to Line (20)	Counts the number of high priority packets transmitted onto the line.	All trunks
Bursty Data A Pkts Transmitted to Line (21)	Counts the number of bursty data A queue packets transmitted onto the line.	All trunks
Bursty Data B Pkts Transmitted to Line (22)	Counts the number of bursty data B queue packets transmitted onto the line.	All trunks
Packets Transmitted to Line (23)	Counts the total number of packets of any type transmitted onto the line.	All trunks
Transmit Bursty Data A CLP Packets Dropped (24)	Counts the number of packets with the CLP bit set that are dropped from the bursty data A queue before the queue is transmitted onto the line.	All trunks
Transmit Bursty Data B CLP Packets Dropped (25)	Counts the number of packets with the CLP bit set that are dropped from the bursty data B queue before the queue is transmitted onto the line.	All trunks
Bursty Data A EFCN Packets Transmitted (26)	Counts the number of packets with the EFCN bit set that have been transmitted onto the line from the bursty data A queue.	All trunks
Bursty Data B EFCN Packets Transmitted (27)	Counts the number of packets with the EFCN bit set that have been transmitted onto the line from the bursty data B queue.	All trunks
BData A CLP Packets Transmitted (148)	Counts the number of packets with the CLP bit set that are transmitted onto the line from the bursty data A queue.	All trunks
BData B CLP Packets Transmitted (149)	Counts the number of packets with the CLP bit set that are transmitted onto the line from the bursty data B queue.	All trunks

IPX-ATM Statistics

Table A-4: IPX-ATM Statistics

IPX-ATM Statistics (applicable to each endpoint)	Description
Out of Frames (2)	Counts the number of 0 to 1 transitions of the out-of-frame condition (T3, E3).
Losses of Signal (3)	Counts the number of 0 to 1 transitions of the loss-of-signal condition (T3, E3).
Packet CRC Errors (9)	Counts the number of packet cyclical redundancy check errors.
Voice Packets Dropped (11)	Counts the number of voice packets dropped before transmitting onto the line.
TS Packets Dropped (12)	Counts the number of time stamped packets dropped before transmitting onto the line.
Non-TS Packets Dropped (13)	Counts the number of non-time stamped packets dropped before transmitting onto the line.
High Priority Packets Dropped (14)	Counts the number of high-priority packets dropped before transmitting onto the line.
BData A Packets Dropped (15)	Counts the number of bursty data A packets dropped before transmitting onto the line.
BData B Packets Dropped (16)	Counts the number of bursty data B packets dropped before transmitting onto the line.
Voice Packets Transmitted to Line (17)	Counts the number of voice packets transmitted onto the line.
TS Packets Transmitted (18)	Counts the number of time stamped packets transmitted onto the line.
Non-TS Packets Transmitted (19)	Counts the number of non-time stamped packets transmitted onto the line.
High Priority Packets Transmitted (20)	Counts the number of high-priority packets transmitted onto the line.
BData A Packets Transmitted (21)	Counts the number of bursty data A packets transmitted onto the line.
BData B Packets Transmitted (22)	Counts the number of bursty data B packets transmitted onto the line.
Total Packets Transmitted (23)	Counts the total number of packets of any type transmitted onto the line. This statistic can also be derived by adding up the number of individual packets transmitted for each of the individual types of queues.
BData A CLP Packets Dropped (24)	Counts the number of packets with their CLP bit set that have been dropped from Bursty Data Queue A.
BData B CLP Packets Dropped (25)	Counts the number of packets with their CLP bit set that have been dropped from Bursty Data Queue B.
BData A EFCN Packets Transmitted (26)	Counts the number of packets transmitted from Bursty Data Queue A with the EFCN bit set.
BData B EFCN Packets Transmitted (27)	Counts the number of packets transmitted from Bursty Data Queue B with the EFCN bit set.
Line Code Violations (28)	Counts the number of received bipolar violations (bpv) or excessive zeros (exz) which have occurred. Each detected bpv increments this statistic by one. Each exz increments this statistic by one, regardless of the length of the zero string. (T3, E3)
Line Errored Seconds (29)	Counts the number of seconds with at least one line code violation (lcv). This statistic is also incremented during detection of the raw loss of signal state (T3, E3).
Line Severely Errored Seconds (30)	Counts the number of seconds with line code violations (lcv) occurring at a rate greater than 10 -6. This corresponds to 45 or more lcvs a second at the DS3 rate. This statistic is also incremented during detection of the raw loss of signal state (T3, E3).
P-bit Parity Code Violations (31)	Counts the number of received P-bit parity codes which do not match the locally calculated parity code.
Errored Seconds - Line (32)	Counts the number of seconds with at least one p-bit parity code violation (pcv-l). This statistic is also incremented during detection of the raw out of frame or alarm indication signal states (T3, E3).
Severely Errored Seconds - Line (33)	Counts the number of seconds with p-bit parity code violations (pcv-l) occurring at a rate of greater than 10 -6; this corresponds to 44 or more pcv-ls within a second at the DS3 rate. This statistic is also incremented during detection of the raw out of frame or alarm indication signal states (T3, E3).
C-bit Parity Code Violations (34)	Counts the number of received C-bit parity codes which do not match the locally calculated parity code.
Errored Seconds - Path (35)	Counts the number of seconds with at least one C-bit parity code violation (pcv-p). This statistic is also incremented during detection of the raw out of frame or alarm indication signal states (T3, E3).
Severely Errored Seconds - Path (36)	Counts the number of seconds with c-bit parity code violations (pcv-p) occurring at a rate greater than 10 -6; this corresponds to 44 or more pcv-cs a second at the DS3 rate. This statistic is also incremented during detection of the raw out of frame or alarm indication signal states (T3, E3).
Severely Errored Framing Seconds (37)	Counts the number of seconds where 3 or more errors in 16 or fewer consecutive F-bits occur within a DS3 M-frame (T3, E3).
Alarm Indication Signal Seconds (38)	Counts the number of seconds during which the raw alarm indication signal state was detected (T3, E3).
Unavailable Seconds (39)	Counts the number of seconds for which the DS3 layer service is unavailable. Service becomes unavailable at the declaration of an integrated DS3 line alarm, i.e., los, oof, ais, yel (T3, E3).
ATM Cell Header HEC Errors (45)	Counts the number of header error checksum mismatches which have been detected.
Tx Voice Cells Dropped (47)	Counts the number of voice cells dropped before the queue is transmitted onto the line.
Tx TS Cells Dropped (48)	Counts the number of time stamped cells dropped before the queue is transmitted onto the line.
Tx Non-TS Cells Dropped (49)	Counts the number of non-time stamped cells dropped before the queue is transmitted onto the line.
Tx High Priority Cells Dropped (50)	Counts the number of high priority cells dropped before the queue is transmitted onto the line.
Tx BData A Cells Dropped (51)	Counts the number of bursty data A cells dropped before the queue is transmitted onto the line.
Tx BData B Cells Dropped (52)	Counts the number of bursty data B cells dropped before the queue is transmitted onto the line.
Voice Cells Tx to Line (53)	Counts the number of cells transmitted from the voice queue onto the line.
TS Cells Tx to Line (54)	Counts the number of cells transmitted from the time stamped queue onto the line.
Non-TS Cells Tx to Line (55)	Counts the number of cells transmitted from the non-time stamped queue onto the line.
High Priority Cells Tx to Line (56)	Counts the number of cells transmitted from the high priority queue onto the line.
BData A Cells Tx to Line (57)	Counts the number of cells transmitted from the bursty data A queue onto the line.
BData B Cells Tx to Line (58)	Counts the number of cells transmitted from the bursty data B queue onto the line.
Half Full Cells Tx to Line (59)	Counts the number of cells containing one packet which were transmitted onto the line.
Full Cells Tx to Line (60)	Counts the number of cells containing two packets which were transmitted onto the line.
Total Cells Tx to Line (61)	Counts the total number of cells transmitted onto the line.
Tx BData A CLP Cells Dropped (62)	Counts the number of cells with their CLP bit set that have been dropped from the bursty data A queue.
Tx BData B CLP Cells Dropped (63)	Counts the number of cells with their CLP bit set that have been dropped from the bursty data B queue.
BData A EFCN Cells Tx to Line (64)	Counts the number of cells transmitted from the bursty data A queue with the EFCN bit set.
BData B EFCN Cells Tx to Line (65)	Counts the number of cells transmitted from the bursty data B queue with the EFCN bit set.
Half Full Cells Rx from Line (66)	Counts the number of cells containing one packet which were received from the line.
Full Cells Rx from Line (67)	Counts the number of cells containing two packets which were received from the line.
Total Cells Rx from Line (68)	Counts the total number of cells received from the line.
Total Packets Rx from Line (69)	Counts the number of packets received from the line.
Rx Voice Packets Dropped (70)	Counts the number of voice packets dropped before the queue is transmitted onto the Muxbus.
Rx TS Packets Dropped (71)	Counts the number of time stamped packets dropped before the queue is transmitted onto the Muxbus.
Rx Non-TS Packets Dropped (72)	Counts the number of non-time stamped packets dropped before the queue is transmitted onto the Muxbus.
Rx High Priority Packets Dropped (73)	Counts the number of high priority packets dropped before the queue is transmitted onto the Muxbus.
Rx BData A Packets Dropped (74)	Counts the number of bursty data A packets dropped before the queue is transmitted onto the Muxbus.
Rx BData B Packets Dropped (75)	Counts the number of bursty data B packets dropped before the queue is transmitted onto the Muxbus.
Rx BData A CLP Packets Dropped (82)	Counts the number of packets with their CLP bit set that have been dropped from the bursty data A queue.
Rx BData B CLP Packets Dropped (83)	Counts the number of packets with their CLP bit set that have been dropped from the bursty data B queue.
Rx Voice Cells Dropped (87)	Counts the number of voice cells dropped before the queue is transmitted onto the Muxbus.
Rx TS Cells Dropped (88)	Counts the number of time stamped cells dropped before the queue is transmitted onto the Muxbus.
Rx Non-TS Cells Dropped (89)	Counts the number of non-time stamped cells dropped before the queue is transmitted onto the Muxbus.
Rx High Priority Cells Dropped (90)	Counts the number of high priority cells dropped before the queue is transmitted onto the Muxbus.
Rx BData A Cells Dropped (91)	Counts the number of bursty data A cells dropped before the queue is transmitted onto the Muxbus.
Rx BData B Cells Dropped (92)	Counts the number of bursty data B cells dropped before the queue is transmitted onto the Muxbus.
Rx BData A CLP Cells Dropped (93)	Counts the number of cells with their CLP bit set that have been dropped from the bursty data A queue.
Rx BData B CLP Cells Dropped (94)	Counts the number of cells with their CLP bit set that have been dropped from the bursty data B queue.
FEBE Counts (140)	Counts the number of (F)ar (E)nd (B)it (E)rrors embedded in the DS3 Framing received from the line.
FERR Counts (M-bit or F-bit) (141)	Counts the number of (F)raming (ERR)ors embedded in the DS3 framing received from the line.
PLCP FEBE Errored Seconds (142)	Counts the number of seconds that PLCP FEBE errors are received.
PLCP FEBE Severely Errored Seconds (143)	Counts the number of seconds that PLCP FEBE severe errors are received from the line (errors greater than 10-6).
PLCP FEBE Counts (144)	Counts the number of FEBEs embedded in the PLCP framing received from the line.
PLCP FE Counts (145)	Counts the number of (F)raming (ERR)ors embedded in the PLCP framing received from the line.
ATM HEC Errored Seconds (146)	Counts the number of seconds that ATM (H)eader (E)rrored (C)hecksum errors are received from the line.
ATM HEC Severely Errored Seconds (147)	Counts the number of seconds that ATM (H)eader (E)rrored (C)hecksum severe errors are received from the line (errors greater than 10-6).
BDataA CLP Packets Transmitted (148)	Counts the number of packets with the CLP bit set in the bursty data A queue that are transmitted.
BDataB CLP Packets Transmitted (149)	Counts the number of packets with the CLP bit set in the bursty data B queue that are transmitted.
CGW Packets Rx From IPX Net (160)	Counts the number of Complex Gateway packets received from the IPX network.
CGW Cells Tx To Line (161)	Counts the number of Complex Gateway cells that are transmitted.
CGW Frames Relayed To Line (162)	Counts the number of Complex Gateway frames that are transmitted to the line.
CGW Aborted Frames Tx To Line (163)	Counts the number of aborted Complex Gateway frames that are transmitted to the line.
CGW Packets Tx To IPX Net (166)	Counts the number of Complex Gateway packets transmitted to the IPX network.
CGW Cells Rx From Line (167)	Counts the number of Complex Gateway cells that are received from the line.
CGW Bad CRC-32 Frames Rx From Line (171)	Counts the number of Complex Gateway frames with bad 32-bit CRCs that are received from the line.
CGW Bad CRC-16 Frames Rx From IPX (173)	Counts the number of Complex Gateway frames with bad 16-bit CRCs that are received from the IPX.
OAM Loopback Cells Tx (177)	Counts the number of Operation & Maintenance Cells transmitted with loopback code.
OAM AIS Cells Tx (178)	Counts the number of Operation & Maintenance Cells transmitted with Alarm Info. Signal code.
OAM FERF Cells Tx (179)	Counts the number of Operation & Maintenance Cells transmitted with far-end receiver frame loss code.
OAM RTD Cells Tx (180)	Counts the number of Operation & Maintenance Cells transmitted to measure round-trip delay.
OAM RA Cells Tx (181)	Counts the number of Operation & Maintenance Cells transmitted with remote alarm code.
OAM CC Cells Tx (183)	Counts the number of Operation & Maintenance Cells transmitted for internode controller communications.
OAM Loopback Cells Rx (185)	Counts the number of Operation & Maintenance Cells received with loopback code.
OAM AIS Cells Rx (186)	Counts the number of Operation & Maintenance Cells received with Alarm Info. Signal code.
OAM FERF Cells Rx (187)	Counts the number of Operation & Maintenance Cells received with far-end receiver frame loss code.
OAM RTD Cells Rx (188)	Counts the number of Operation & Maintenance Cells received to measure round-trip delay.
OAM RA Cells Rx (189)	Counts the number of Operation & Maintenance Cells received with remote alarm code.
OAM CC Cells Rx (191)	Counts the number of Operation & Maintenance Cells received for internode controller communications.

BPX-ATM Statistics

Table A-5: BPX-ATM Statistics

BPX-ATM Statistics (applicable to each endpoint)	Description
Out of Frames (2)	Counts the number of 0 to 1 transitions of the out-of-frame condition (T3, E3).
Losses of Signal (3)	Counts the number of 0 to 1 transitions of the loss-of-signal condition (T3, E3).
B3ZS Line Code Violations (28)	Counts the number of received B3ZS violations or excessive zeros which have occurred. Each exz increments this statistic by one, regardless of the length of the zero string. (T3, E3)
Line Errored Seconds (29)	Counts the number of seconds with at least one line code violation (lcv). This statistic is also incremented during detection of the raw loss of signal state (T3, E3).
Line Severely Errored Seconds (30)	Counts the number of seconds with line code violations (lcv) occurring at a rate greater than 10 -6. This corresponds to 45 or more lcvs a second at the DS3 rate. This statistic is also incremented during detection of the raw loss of signal state (T3, E3).
P-bit Parity Code Violations (31)	Counts the number of received P-bit parity codes which do not match the locally calculated parity code.
Errored Seconds - Line (32)	Counts the number of seconds with at least one p-bit parity code violation (pcv-l). This statistic is also incremented during detection of the raw out of frame or alarm indication signal states (T3, E3).
Severely Errored Seconds - Line (33)	Counts the number of seconds with p-bit parity code violations (pcv-l) occurring at a rate of greater than 10 -6; this corresponds to 44 or more pcv-ls within a second at the DS3 rate. This statistic is also incremented during detection of the raw out of frame or alarm indication signal states (T3, E3).
C-bit Parity Code Violations (34)	Counts the number of received C-bit parity codes which do not match the locally calculated parity code.
Errored Seconds - Path (35)	Counts the number of seconds with at least one C-bit parity code violation (pcv-p). This statistic is also incremented during detection of the raw out of frame or alarm indication signal states (T3, E3).
Severely Errored Seconds - Path (36)	Counts the number of seconds with c-bit parity code violations (pcv-p) occurring at a rate greater than 10 -6; this corresponds to 44 or more pcv-cs a second at the DS3 rate. This statistic is also incremented during detection of the raw out of frame or alarm indication signal states (T3, E3).
Severely Errored Framing Seconds (37)	Counts the number of seconds where 3 or more errors in 16 or fewer consecutive F-bits occur within a DS3 M-frame (T3, E3).
Alarm Indication Signal Seconds (38)	Counts the number of seconds during which the raw alarm indication signal state was detected (T3, E3).
Unavailable Seconds (39)	Counts the number of seconds for which the DS3 layer service is unavailable. Service becomes unavailable at the declaration of an integrated DS3 line alarm, i.e., los, oof, ais, yel (T3, E3).
ATM Cell Header HEC Errors (45)	Counts the number of header error checksum mismatches which have been detected.
Tx Voice Cells Dropped (47)	Counts the number of voice cells dropped before the queue is transmitted onto the line.
Tx TS Cells Dropped (48)	Counts the number of time stamped cells dropped before the queue is transmitted onto the line.
Tx Non-TS Cells Dropped (49)	Counts the number of non-time stamped cells dropped before the queue is transmitted onto the line.
Tx High Priority Cells Dropped (50)	Counts the number of high priority cells dropped before the queue is transmitted onto the line.
Tx BData A Cells Dropped (51)	Counts the number of bursty data A cells dropped before the queue is transmitted onto the line.
Tx BData B Cells Dropped (52)	Counts the number of bursty data B cells dropped before the queue is transmitted onto the line.
Voice Cells Tx to Line (53)	Counts the number of cells transmitted from the voice queue onto the line.
TS Cells Tx to Line (54)	Counts the number of cells transmitted from the time stamped queue onto the line.
Non-TS Cells Tx to Line (55)	Counts the number of cells transmitted from the non-time stamped queue onto the line.
High Priority Cells Tx to Line (56)	Counts the number of cells transmitted from the high priority queue onto the line.
BData A Cells Tx to Line (57)	Counts the number of cells transmitted from the bursty data A queue onto the line.
BData B Cells Tx to Line (58)	Counts the number of cells transmitted from the bursty data B queue onto the line.
Total Cells Tx to Line (61)	Counts the total number of cells transmitted onto the line.
Tx BData A CLP Cells Dropped (62)	Counts the number of cells with their CLP bit set that have been dropped from bursty data A queue.
Tx BData B CLP Cells Dropped (63)	Counts the number of cells with their CLP bit set that have been dropped from bursty data B queue.
BData A EFCN Cells Tx to Line (64)	Counts the number of cells transmitted from bursty data A queue with the EFCN bit set.
BData B EFCN Cells Tx to Line (65)	Counts the number of cells transmitted from bursty data B queue with the EFCN bit set.
Total Cells Rx from Line (68)	Counts the total number of cells received from the line.
Total Packets Rx from Line (69)	Counts the total number of packets received from the line.
Rx Voice Cells Dropped (87)	Counts the number of voice cells dropped before the queue is transmitted onto the Muxbus.
Rx TS Cells Dropped (88)	Counts the number of time stamped cells dropped before the queue is transmitted onto the Muxbus.
Rx Non-TS Cells Dropped (89)	Counts the number of non-time stamped packets dropped before the queue is transmitted onto the Muxbus.
Rx High Priority Cells Dropped (90)	Counts the number of high priority cells dropped before the queue is transmitted onto the Muxbus.
Rx BData A Cells Dropped (91)	Counts the number of bursty data A cells dropped before the queue is transmitted onto the Muxbus.
Rx BData B Cells Dropped (92)	Counts the number of bursty data B cells dropped before the queue is transmitted onto the Muxbus.
Rx BData A CLP Cells Dropped (93)	Counts the number of cells with their CLP bit set that have been dropped from the bursty data A queue.
Rx BData B CLP Cells Dropped (94)	Counts the number of cells with their CLP bit set that have been dropped from the bursty data B queue.
FEBE Counts (140)	Counts the number of (F)ar (E)nd (B)it (E)rrors embedded in the DS3 framing received from the line.
FERR Counts (M-bit or F-bit) (141)	Counts the number of (F)raming (ERR)ors embedded in the DS3 framing received from the line.
PLCP FEBE Errored Seconds (142)	Counts the number of seconds that PLCP FEBE errors are received.
PLCP FEBE Severely Errored Seconds (143)	Counts the number of seconds that PLCP FEBE severe errors are received from the line (errors greater than 10-6).
PLCP FEBE Counts (144)	Counts the number of FEBEs embedded in the PLCP framing received from the line.
PLCP FE Errored Seconds (145)	Counts the number of seconds that PLCP FE errors are received.
ATM HEC Errored Seconds (146)	Counts the number of seconds that ATM (H)eader (E)rrored (C)hecksum errors are received from the line.
ATM HEC Severely Errored Seconds (147)	Counts the number of seconds that ATM (H)eader (E)rrored (C)hecksum severe errors are received from the line (errors greater than 10-6).
DS3 Yellow Transition Counts (150)	Counts the number of transitions into DS3 YEL (0 to 1 transitions).
PLCP Yellow Transition Counts (151)	Counts the number of transitions into PLCP YEL (0 to 1 transitions).
AIS Transition Counts (152)	Counts the number of 0 to 1 transitions of AIS.
Tx Voice CLP Cells Dropped (155)	Counts the number of voice cells with the CLP bit set that are dropped before the queue is transmitted.
Tx TS CLP Cells Dropped (156)	Counts the number of time stamped cells with the CLP bit set that are dropped before the queue is transmitted.
Tx Non-TS CLP Cells Dropped (157)	Counts the number of non-time stamped cells with the CLP bit set that are dropped before the queue is transmitted.
Tx High Priority CLP Cells Dropped (158)	Counts the number of high priority cells with the CLP bit set that are dropped before the queue is transmitted.
Tx CBR Cells Served (160)	Counts the number of cells with the CBR bit set that are transmitted.
Tx VBR Cells Served (161)	Counts the number of cells with the VBR bit set that are transmitted.
Tx ABR Cells Served (162)	Counts the number of cells with the ABR bit set that are transmitted.
Tx CBR CLP Cells Dropped (163)	Counts the number of CBR cells with the CLP bit set that are dropped before the queue is transmitted.
Tx VBR CLP Cells Dropped (164)	Counts the number of VBR cells with the CLP bit set that are dropped before the queue is transmitted.
Tx ABR CLP Cells Dropped (165)	Counts the number of ABR cells with the CLP bit set that are dropped before the queue is transmitted.
Tx CBR Overflow Cells Dropped (166)	Counts the number of VBR cells that are dropped before the queue is transmitted due to overflow.
Tx VBR Overflow Cells Dropped (167)	Counts the number of CBR cells that are dropped before the queue is transmitted due to overflow.
Tx ABR Overflow Cells Dropped (168)	Counts the number of ABR cells that are dropped before the queue is transmitted due to overflow.
Loss of Cell Delineation (169)	Flags the Loss of Cell Delineation error.
Loss of Pointer (170)	Flags the Loss of Pointer error.
OC3 Path AIS Transition Counts (171)	Counts the number of 0 to 1 transitions of AIS on the OC3 path.
OC3 Path Yellow Transition Counts (172)	Counts the number of transitions into OC3 YEL (0 to 1 transitions).
Section BIP-8 (173)	Counts the number of BIP-8 errors received on the section.
Line BIP-24 (174)	Counts the number of BIP-24 errors received on the line.
Line FEBE (175)	Counts the number of FEBEs received from the line.
Path BIP-8 (176)	Counts the number of BIP-8 errors received on the path.
Path FEBE (177)	Counts the number of FEBEs received from the path.
Section BIP-8 Errored Seconds (178)	Counts the number of seconds that BIP-8 errors are received on the section.
Line BIP-24 Errored Seconds (179)	Counts the number of seconds that BIP-24 errors are received on the line.
Line FEBE Errored Seconds (180)	Counts the number of seconds that FEBEs are received on the line.
Path BIP-8 Errored Seconds (181)	Counts the number of seconds that BIP-8 errors are received on the path.
Path FEBE Errored Seconds (182)	Counts the number of seconds that FEBEs are received on the path.
Section Severely Errored Framing Seconds (184)	Counts the number of seconds that severe framing errors (errors greater than 10-6) are received from the section.
Line BIP-24 Severely Errored Seconds (185)	Counts the number of seconds that severe BIP-24 errors (errors greater than 10-6) are received on the line.
Line FEBE Severely Errored Seconds (186)	Counts the number of seconds that severe FEBEs (errors greater than 10-6) are received on the line.
Path BIP-8 Severely Errored Seconds (187)	Counts the number of seconds that severe BIP-8 errors (errors greater than 10-6) are received on the path.
Path FEBE Severely Errored Seconds (188)	Counts the number of seconds that severe FEBEs (errors greater than 10-6) are received on the path.
Line Unavailable Seconds (189)	Counts the number of seconds for which the line is unavailable.
Line Far End Unavailable Seconds (190)	Counts the number of seconds for which the far end of the line is unavailable.
Path Unavailable Seconds (191)	Counts the number of seconds for which the path is unavailable.
Path Far End Unavailable Seconds (192)	Counts the number of seconds for which the far end of the path is unavailable.
HCS Correctable Errors (193)	Counts the number of correctable header error checksum mismatches which have been detected.
HCS Correctable Error Errored Seconds (194)	Counts the number of seconds that correctable header error checksum mismatches are received.
HCS Correctable Error Severely Errored Seconds (195)	Counts the number of seconds that severe correctable header error checksum mismatches (greater than 10-6) are received.

MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 Narrowband Statistics

Table A-6: MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 Narrowband Statistics

MGX 8220 Narrowband Statistics (applicable to each endpoint)	Description
Out of Frames (2)	Counts 0 to 1 transitions of the out of frame condition.
Losses of Signal (3)	Counts 0 to 1 transitions of the loss of signal condition.
Frame Bit Errors (4)	Counts frame alignment signal errors.

MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 ATM Statistics

Table A-7: MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 ATM Statistics

MGX 8220 ATM Statistics (applicable to each endpoint)	Description
Out of Frames (2)	Counts 0 to 1 transitions of the out of frame condition.
Losses of Signal (3)	Counts 0 to 1 transitions of the loss of signal condition.
ATM Cell Header HEC Errors (45)	Counts the number of header error checksum mismatches which have been detected.
PLCP FEBE Errored Seconds (142)	Counts the number of seconds that PLCP FEBE errors are received.
PLCP FEBE Severely Errored Seconds (143)	Counts the number of seconds that PLCP FEBE severe errors are received from the line (errors greater than 10-6).
PLCP FEBE Counts (144)	Counts the number of FEBEs embedded in the PLCP framing received from the line.
PLCP FE Errored Seconds (145)	Counts the number of seconds that PLCP FE errors are received.
ATM HEC Errored Seconds (146)	Counts the number of seconds that ATM (H)eader (E)rrored (C)hecksum errors are received from the line.
ATM HEC Severely Errored Seconds (147)	Counts the number of seconds that ATM (H)eader (E)rrored (C)hecksum severe errors are received from the line (errors greater than 10-6).
DS3 Yellow Transition Counts (150)	Counts the number of transitions into DS3 YEL (0 to 1 transitions).

Frame Relay Port Statistics

Table A-8: Frame Relay Port Statistics

Frame Relay Port Statistics (applicable to each endpoint)	Description	Valid Applications
Frames Received (0)	Counts the number of frames received by the FRP port.	FRP
Frames Transmitted (1)	Counts the number of frames transmitted out the FRP port.	FRP
Bytes Received (2)	Counts the number of frame bytes received by the Frame Relay port.	FRP
Bytes Transmitted (3)	Counts the number of frame bytes transmitted out the Frame Relay port.	FRP
Frames Transmitted with FECN (4)	Counts the number of frames transmitted out the Frame Relay port with the FECN bit set.	FRP
Frames Transmitted with BECN (5)	Counts the number of frames transmitted out the Frame Relay port with the BECN bit set.	FRP
Receive Frame CRC Errors (6)	Counts the number of CRC errors on frames received by the Frame Relay port.	FRP
Invalid Format Receive Frames (7)	Counts the number of frames received by the Frame Relay port with incorrect EA bit settings (1 in first byte and/or a 0 in second byte).	FRP
Receive Frame Alignment Errors (8)	Counts the number of bit alignment errors on frames received by the Frame Relay port.	FRP
Illegal Length Receive Frames (9)	Counts the number of frames received by Frame Relay port which exceed the maximum allowed frame length.	FRP
Number of DMA Overruns (10)	Counts the number of DMA overruns on the Frame Relay port.	FRP
LMI Status Enquiries (11)	Counts the number of LMI status inquiries received by the FRP port from the user device.	FRP
LMI Status Transmit Count (12)	Counts the number of LMI status messages transmitted to the user device from the FRP port.	FRP
LMI Status Update Count (13)	Counts the number of LMI update messages transmitted to the user device from the FRP port.	FRP
LMI Invalid Status Enquiries (14)	Counts the number of invalid LMI status inquiries received by the FRP port from the user device.	FRP
LMI Link Time-out Errors (15)	Counts the number of LMI link time-out errors on the FRP port.	FRP
LMI Keep-alive Sequence Errors (16)	Counts the number of LMI keep-alive sequence errors on the FRP port.	FRP
Receive Frame Undefined DLCI Errors (17)	Counts the number of frames received by the FRP port with undefined DLCIs.	FRP
DE Frames Dropped (18)	Counts the number of frames with the DE bit set that have been dropped by the FRP before the queue is transmitted onto the Muxbus.	FRP (Model D), earlier versions report 0
Transmit Status Inquiries (19)	Counts the number of status inquiry messages sent to the remote network.	FRP-NNI. (Model F & H or later, earlier versions report 0)
Received Status Counter (20)	Counts the number of status inquiry messages received from the remote network.	FRP-NNI. (Model F & H or later, earlier versions report 0)
Asynchronous Status Counter (21)	Counts the number of asynchronous messages received from the remote network.	FRP-NNI. (Model F & H or later, earlier versions report 0)
Invalid Sequence Number Count (22)	Counts the number of status messages with the sequence number out of sequence.	FRP-NNI. (Model F & H or later, earlier versions report 0)
Transmit Protocol Timeout Count (23)	Counts the number of status inquiry messages sent to the remote network.	FRP-NNI. (Model F & H or later, earlier versions report 0)
CLLM Message Frames Transmitted (24)	Counts the number of Consolidated Link Layer Message frames transmitted over the NNI port.	FRP-NNI.
CLLM Message Bytes Transmitted (25)	Counts the number of Consolidated Link Layer Message bytes transmitted over the NNI port.	FRP-NNI.
CLLM Message Frames Received (26)	Counts the number of Consolidated Link Layer Message frames received from the NNI port.	FRP-NNI.
CLLM Message Bytes Received (27)	Counts the number of Consolidated Link Layer Message bytes received from the NNI port.	FRP-NNI.
CLLM Failures (28)	Counts the number of Consolidated Link Layer Message time-outs with no messages received.	FRP-NNI.
Port Egress Statistics
Tx Frames Discarded Queue Overflow (29)	Counts the number of frames discarded due to transmit queue overflow.	FRP
Tx Bytes Discarded Queue Overflow (30)	Counts the number of bytes discarded due to transmit queue overflow.	FRP
Tx Frames while Ingress LMI Fail (31)	Counts the number of frames transmitted during an LMI failure at the Ingress connection.	FRP
Tx Bytes while Ingress LMI Fail (32)	Counts the number of bytes transmitted during an LMI failure at the Ingress connection.	FRP

ASI Port Statistics

Table A-9: ASI Port Statistics

ASI Port Statistics (applicable to each endpoint)	Description	Valid Applications
Unknown VPI/VCI (0)	Counts unknown VPI/VCI errors.	ASI-1
Cell Buffer Overflow (1)	Counts the number of cell buffer overflow instances.	ASI-1
Non-zero GFC Count (2)	Counts the number of non-zero GFC errors.	ASI-1
Number of Cells Rx (7)	Counts the total number of cells received by the ASI port.	ASI-1
Number of Cells Rx w/CLP set (8)	Counts the number of cells with the CLP bit set received by the ASI port.	ASI-1
Number of Cells Rx w/EFCI set (9)	Counts the number of cells with the EFCI bit set received by the ASI port.	ASI-1
Number of Cells Tx (11)	Counts the total number of cells transmitted by the ASI port.	ASI-1
OAM Cells Rx Count (12)	Counts the number of Operations and Maintenance cells received by the ASI port.	ASI-1
Number of Cells Tx w/CLP set (14)	Counts the number of cells with the CLP bit set transmitted by the ASI port.	ASI-1
Number of Cells Tx w/EFCI set (15)	Counts the number of cells with the EFCI bit set transmitted by the ASI port.	ASI-1
Get Request Rx (17)	Counts the number of GetRequest PDUs received by the ASI port.	ASI-1
Get NextReq Rx (18)	Counts the number of GetNextRequest PDUs received by the ASI port.	ASI-1
Set Request Rx (19)	Counts the number of SetRequest PDUs received by the ASI port.	ASI-1
Trap Rx (20)	Counts the number of Trap PDUs received by the ASI port.	ASI-1
Get Resp Rx (21)	Counts the number of GetResponse PDUs received by the ASI port.	ASI-1
Get Request Tx (22)	Counts the number of GetRequest PDUs transmitted by the ASI port.	ASI-1
Get NextReq Tx (23)	Counts the number of GetNextRequest PDUs transmitted by the ASI port.	ASI-1
Get Resp Tx (24)	Counts the number of GetResponse PDUs transmitted by the ASI port.	ASI-1
Trap Tx (25)	Counts the number of Trap PDUs transmitted by the ASI port.	ASI-1
Status Tx (26)	Counts the number of Status messages transmitted by the ASI port.	ASI-1
UpdtStatus Tx (27)	Counts the number of Update Status messages transmitted by the ASI port.	ASI-1
Status Ack Tx (28)	Counts the number of Status Acknowledge messages transmitted by the ASI port.	ASI-1
Status Enq Tx (29)	Counts the number of Status Enquiry messages transmitted by the ASI port.	ASI-1
Status Rx (30)	Counts the number of Status messages received by the ASI port.	ASI-1
UpdtStatus Rx (31)	Counts the number of Update Status messages received by the ASI port.	ASI-1
Status Ack Rx (32)	Counts the number of Status Acknowledge messages received by the ASI port.	ASI-1
Status Enq Rx (33)	Counts the number of Status Enquiry messages received by the ASI port.	ASI-1
Invalid Rx (34)	Counts the number of Invalid messages received by the ASI port.	ASI-1
Unknown Rx (35)	Counts the number of Unknown messages received by the ASI port.	ASI-1
Invalid Transactions (36)	Counts the number of Invalid transactions on the ASI port.	ASI-1
Polling Timeouts (37)	Counts the number of Polling Timeouts on the ASI port.	ASI-1
Invalid LMI IE Rx (38)		ASI-1
Invalid Transaction IDs (39)	Counts the number of Invalid transaction IDs on the ASI port.	ASI-1

FastPAD Port Statistics

Table A-10: FastPAD Port Statistics

FastPAD Port Statistics (applicable to each endpoint)	Description
Frames Received (0)	Counts the number of frames received by the FastPAD port.
Frames Transmitted (1)	Counts the number of frames transmitted out the FastPAD port.
Bytes Received (2)	Counts the number of frame bytes received by the Frame Relay port.
Bytes Transmitted (3)	Counts the number of frame bytes transmitted out the Frame Relay port.
Frames Transmitted with FECN (4)	Counts the number of frames transmitted out the Frame Relay port with the FECN bit set.
Frames Transmitted with BECN (5)	Counts the number of frames transmitted out the Frame Relay port with the BECN bit set.
Receive Frame CRC Errors (6)	Counts the number of CRC errors on frames received by the Frame Relay port.
Invalid Format Receive Frames (7)	Counts the number of frames received by the Frame Relay port with incorrect EA bit settings (1 in first byte and/or a 0 in second byte).
Receive Frame Alignment Errors (8)	Counts the number of bit alignment errors on frames received by the Frame Relay port.
Illegal Length Receive Frames (9)	Counts the number of frames received by Frame Relay port which exceed the maximum allowed frame length.
Number of DMA Overruns (10)	Counts the number of DMA overruns on the Frame Relay port.
LMI Status Enquiries (11)	Counts the number of LMI status inquiries received by the FastPAD port from the user device.
LMI Status Transmit Count (12)	Counts the number of LMI status messages transmitted to the user device from the FastPAD port.
LMI Status Update Count (13)	Counts the number of LMI update messages transmitted to the user device from the FastPAD port.
LMI Invalid Status Enquiries (14)	Counts the number of invalid LMI status inquiries received by the FastPAD port from the user device.
LMI Link Time-out Errors (15)	Counts the number of LMI link time-out errors on the FastPAD port.
LMI Keep-alive Sequence Errors (16)	Counts the number of LMI keep-alive sequence errors on the FastPAD port.
Receive Frame Undefined DLCI Errors (17)	Counts the number of frames received by the FastPAD port with undefined DLCIs.
DE Frames Dropped (18)	Counts the number of frames with the DE bit set that have been dropped by the FastPAD before the queue is transmitted onto the Muxbus.
Transmit Status Inquiries (19)	Counts the number of status inquiry messages sent to the remote network.
Received Status Counter (20)	Counts the number of status inquiry messages received from the remote network.
Asynchronous Status Counter (21)	Counts the number of asynchronous messages received from the remote network.
Invalid Sequence Number Count (22)	Counts the number of status messages with the sequence number out of sequence.
Transmit Protocol Timeout Count (23)	Counts the number of status inquiry messages sent to the remote network.
CLLM Message Frames Transmitted (24)	Counts the number of Consolidated Link Layer Message frames transmitted over the NNI port.
CLLM Message Bytes Transmitted (25)	Counts the number of Consolidated Link Layer Message bytes transmitted over the NNI port.
CLLM Message Frames Received (26)	Counts the number of Consolidated Link Layer Message frames received from the NNI port.
CLLM Message Bytes Received (27)	Counts the number of Consolidated Link Layer Message bytes received from the NNI port.
CLLM Failures (28)	Counts the number of Consolidated Link Layer Message time-outs with no messages received.
FastPAD Port Egress Statistics
Tx Frames Discarded Queue Overflow (29)	Counts the number of frames discarded due to transmit queue overflow.
Tx Bytes Discarded Queue Overflow (30)	Counts the number of bytes discarded due to transmit queue overflow.
Tx Frames while Ingress LMI Fail (31)	Counts the number of frames transmitted during an LMI failure at the Ingress connection.
Tx Bytes while Ingress LMI Fail (32)	Counts the number of bytes transmitted during an LMI failure at the Ingress connection.

MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 Frame Relay Connection Statistics

This section provides information about Frame Relay statistics for MGX 8220, MGX 8230, MGX 8250, and MGX 8850 Release 1 nodes. Table A-11 lists and describes the available statistics.

Front Cards	FRSM, FRSM-VHS
Back Cards	T1, E1, T3, E3
Object Type	0
Sub-Object Type	8
Default Peak Interval	300 seconds

Table A-11: MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 Frame Relay Connection Statistics

Statistics	Stat ID	Description
Bytes Received	9	This statistic provides a count of the number of octets in the frames counted in the Frames Received statistics. The octets counted include the frame relay header octets as well as the frame check sequence (FCS) octets. Range : 0 - 2^32
Bytes Transmitted	11	This statistic provides a count of the number of octets in the frames counted in the Frames Transmitted statistics. The octets counted include the frame relay header octets as well as the frame check sequence (FCS) octets. Range : 0 - 2^32
Frames Received	0	This statistic provides a count of the number of frames received from the attached equipment. This statistic is incremented even when the received frame is invalid or discarded for any reason. Range : 0 - 2^32
Frames Transmitted	2	This statistic provides a count of the number of frames transmitted to the attached equipment. This does not include frames discarded at the MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 nodes. Range : 0 - 2^32
Receive Bytes Discarded	10	This statistic provides a count of the number of octets in the frames counted in the Receive Frames Discarded statistic . The octets counted include the frame relay header octets as well as the frame check sequence (FCS) octets. Range : 0 - 2^32
Receive Frames Discarded	1	This statistic provides a count of the number of frames received from the attached equipment which were discarded before being sent into the network or aborted af ter some portion had been already sent into the network. Possible reasons for discard are: % Frame received with DE=1 and the PVC ingress queue is filled and at least to the DE threshold. Frames received with DE=0 , but has been DE tagged by MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 nodes because of policing if DE tagging is enabled, and the PVCus ingress queue is filled and at least to the DE threshold. Frames discarded for this reason are specifically counted in the PVC DE Frames Dropped statistic . % PVC ingress queue full. The queue may fill (and overflow) due to sustained transmission above the PVCus CIR. Frames discarded for this reason are specifically counted in the PVC Rx Frames Discarded - VC Q Overflow statistic. UPC Discard : Frames do not pass policing. Unknown Protocols : Protocols encoded in SIW frame is unknown. Shelf Alarm : Presence of shelf alarm on the MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 node. Shelf alarm could be due to physical conditions like the temperature, voltage etc. exceeding the threshold or BNM failure. Range : 0 - 2^32
Transmit Bytes Discarded	12	This statistic provides a count of the number of octets in the frames counted in the Transmit Frames Discarded statistic . The octets counted include the frame relay header octets as well as the frame check sequence (FCS) octets. Range : 0 - 2^32
Transmit Frames Discarded	3	This statistic provides a count of the number of frames which were not able to be transmitted to the attached equipment. Possible reasons for discard are: % PVC transmit queue overflow - i.e., the frame traversed the network success fully but encountered a full egress port queue. Frames discarded for this rea son are specifically counted in the PVC Tx Frames Discarded - Exceed Q depth statistics. % Incomplete frame at egress (i.e., no end-of-frame (EOF) cell received) for any reason The most common cause is a CRC error detected at ingress - i.e., the beginning of the frame traversed the network successfully but the end of the frame was never sent because a CRC error was detected at the end of the frame at ingress. This is counted in the Tx Frames Discard Reassembly fail. % Incorrect frame length, i.e., the expected frame length (recorded in the end- of-frame cell) is different than the length of payload of all the cells of that frame which arrive. Such a frame length error could be caused by: - one or more cells missing due to discard(s) on a trunk, or - a transmission bit error on the frame length field in the end-of-frame cell. This is counted in the Tx Frame Discarded length violation. % Invalid frame length, i.e., the frame is longer than 4510 octets long. This could occur if the end-of-frame cell from one frame is missing due to discards on a trunk, resulting in a concatenated frame. Frames discarded for this reason are counted in the PVC Tx Frames Discarded Oversized SDUs. % Frame CRC error - i.e., the CRC calculated at the MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 node does not match the original frameus CRC (contained within the EOF cell). This situation can occur as a result of transmission bit errors on payload bits on one or more cells of the frame or because of lost cells. % Phy Layer Fail - Alarm exist on the physical lines on the port side. % Port Inactive - Logical port on which the connection is mapped is not active. % Unknown Protocols - Protocols encoded in SIW frame is not defined. % CPI Error - CPI bit in the AAL5 pdu received from the network is set. Range : 0 - 2^32
DE Bytes Received	24	This statistic provides a count of the number of octets in the frames counted in the DE Frames Received statistic . The octets counted include the frame relay header octets as well as the frame check sequence (FCS) octets. This statistic is a subset of the PVC Bytes Received statistic. Range : 0 - 2^32
DE Frames Dropped	23	This statistic provides a count of the number of frames received from the attached device which were discarded because the frameus DE bit is set and the PVCs in gress buffer has reached the DE threshold. The DE threshold is configured as part of the PVC configuration. This statistic is a subset of the PVC Frames Received statistic, PVC Receive Frames Discarded statistics as well as PVC DE Frames Received statistic. Range : 0 - 2^32
DE Frames Received	21	This statistic provides a count of the number of frames received from the attached equipment with the Discard Eligible (DE) bit already set. This statistic is a subset of the PVC Frames Received statistic. Range : 0 - 2^32
DE Frames Transmitted	22	This statistic provides a count of the number of frames transmitted to the attached equipment with the Discard Eligible (DE) bit set, regardless of why or where the DE bit was set. If CLP-to-DE mapping is enabled on the PVC, this statistic also includes those frames which have their DE bit set by the CLP-to-DE mapping function. This statistic is a subset of the PVC Frames Transmitted statistic. Range : 0 - 2^32
Frames Transmitted with BECN	18	This statistic provides a count of the number of frames transmitted to the attached equipment with the Backward Explicit Congestion Notification (BECN) bit set, re gardless of where in the network the congestion was experienced. This statistic is a subset of the PVC Frames Transmitted statistic. Range : 0 - 2^32
Frames Transmitted with FECN	17	This statistic provides a count of the number of frames transmitted to the attached equipment with the Forward Explicit Congestion Notification (FECN) bit set, re gardless of where in the network the congestion was experienced. This statistic is a subset of the PVC Frames Transmitted statistics. Range : 0 - 2^32
Rx Bytes Discarded-VC-Q-Overflow	34	This statistic provides a count of the number of octets in the frames counted in the Rx Frames Discarded - VC Q Overflow statistic . The octets counted include the frame relay header octets as well as the frame check sequence (FCS) octets. This statistic is a subset of the PVC Bytes Received statistic. This statistic is also a subset of the PVC Receive Bytes Discarded statistics. Range : 0 - 2^32
Rx Frames Discarded UPC	43	This statistic provides a count of the number of frames received from the attached equipment which are discarded due to ingress policing for not conforming to the traffic contract. Range : 0 - 2^32
Rx Frames Discarded-VC-Q-Overflow	33	This statistic provides a count of the number of frames received from the attached equipment which are discarded because the PVC's ingress buffer (VC Q) is full. This statistic is a subset of the PVC Frames Received statistic. Range : 0 - 2^32
Rx Frames Unknown Protocols	50	This statistic provides a count of the number of frames received from the network in which the encapsulated porotocol is not defined. Range : 0 - 2^32
Seconds In Service	16	This statistic provides a count of the number of seconds during which the PVC was in service. The PVC is considered in service any time the PVC is not in alarm. Range : 0 - 2^32
Tx Bytes Discarded-Q-Overflow	36	This statistic provides a count of the number of octets in the frames counted in the Tx Frames Discarded - Q Overflow statistic . The octets counted include the frame relay header octets as well as the frame check sequence (FCS) octets. This statistic is a subset of the PVC Transmit Bytes Discarded statistic. Range : 0 - 2^32
Tx Bytes Tagged DE	44	This statistic provides a count of the number of octets in the frames counted in the Tx Frames Tagges DE statistics. This statistic is a subset of the Frames Transmitted statistics. Range : 0 - 2^32
Tx Bytes during Ingress LMI Fail	42	This statistic provides a count of the number of octets in the frames counted in the Tx Frames During Ingress LMI Failure statistic. The octets counted in clude the frame relay header octets as well as the frame check sequence (FCS) octets. Range : 0 - 2^32
Tx Frames Discarded CRC	37	This statistic provides a count of the number of frames which were not able to be transmitted to the attached equipment because CRC error was detected in the reassembled frame. CRC errors could be caused by a bit error introduced in the paylod by the trunks along the PVCs path or due to loss of one or more of the cells that comprise the frame. This statistic is a subset of the PVC Transmit Frames Discarded statistic. Range : 0 - 2^32
Tx Frames Discarded-Q-Overflow	35	This statistic provides a count of the number of frames which were not able to be transmitted to the attached equipment because the portus egress buffer is full. The portus egress buffer may fill (and overflow) due to oversubscription. This statistic is a subset of the PVC Transmit Frames Discarded statistic. Range : 0 - 2^32
Tx Frames Invalid CPIs	46	This statistic provides a count of the number of frames which were not able to be transmitted to the attached equipment as the CPI field in the reassembled AAL5 PDU was set to 1. Range : 0 - 2^32
Tx Frames Length Violations	47	This statistic provides a count of the number of frames which were not able to be transmitted to the attached equipment as the length of the frame encoded in the length field of the payload and the length calculated on reassembly didn't match. Range : 0 - 2^32
Tx Frames Oversize SDUs	48	This statistic provides a count of the number of frames which were not able to be transmitted to the attached equipment as the length of the reassembled payload was more than what could be supported by the PVC. Maximum frame length supported is 4510 octets. Range : 0 - 2^32
Tx Frames Tagged DE	45	This statistic provides a count of the number of frames with DE bit set transmitted to the attached equipment that were DE tagged by the SM. DE tagging occurs either due to CLP to DE mapping set to setDE1 or CLP to DE mapping set to mapDE and CLP bit in the cell is 1 . This is a subset of the DE Frames Transmitted statistics. Range : 0 - 2^32
Tx Frames Unknown Protocols	49	This statistic provides a count of the number of frames received from the attached equipment, in which the encapsulated porotocol is not defined.This is a subset of the Transmit Frames Discarded Statistics. Range : 0 - 2^32
Tx Frames during Ingress LMI Fail	41	This statistic provides a count of the number of frames that were transmitted to the attached equipment while the signaling protocol on the local port has failed . This statistic is a subset of the PVC Frames Transmitted statistics. Range : 0 - 2^32

MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 Frame Relay Port Statistics

Table A-12: MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 Frame Relay Port Statistics

MGX 8220 Frame Relay Port Statistics (applicable to each endpoint)	Description
Frames Received (0)	Counts the number of frames received by the MGX 8220 port.
Frames Transmitted (1)	Counts the number of frames transmitted out the MGX 8220 port.
Bytes Received (2)	Counts the number of frame bytes received by the MGX 8220 port.
Bytes Transmitted (3)	Counts the number of frame bytes transmitted out the MGX 8220 port.
Frames Transmitted with FECN (4)	Counts the number of frames transmitted out the MGX 8220 port with the FECN bit set.
Frames Transmitted with BECN (5)	Counts the number of frames transmitted out the MGX 8220 port with the BECN bit set.
Receive Frame CRC Errors (6)	Counts the number of CRC errors on frames received by the MGX 8220 port.
Invalid Format Receive Frames (7)	Counts the number of frames received by the MGX 8220 port with incorrect EA bit settings (1 in first byte and/or a 0 in second byte).
Receive Frame Alignment Errors (8)	Counts the number of bit alignment errors on frames received by the MGX 8220 port.
Illegal Length Receive Frames (9)	Counts the number of frames received by MGX 8220 port which exceed the maximum allowed frame length.
LMI Status Enquiries (11)	Counts the number of LMI status inquiries received by the MGX 8220 port from the user device.
LMI Status Update Count (13)	Counts the number of LMI update messages transmitted to the user device from the MGX 8220 port.
LMI Invalid Status Enquiries (14)	Counts the number of invalid LMI status inquiries received by the MGX 8220 port from the user device.
LMI Link Time-out Errors (15)	Counts the number of LMI link time-out errors on the MGX 8220 port.
Receive Frame Undefined DLCI Errors (17)	Counts the number of frames received by the MGX 8220 port with undefined DLCIs.
DE Frames Dropped (18)	Counts the number of frames with the DE bit set that have been dropped by the MGX 8220 before the queue is transmitted onto the Muxbus.
Transmit Status Inquiries (19)	Counts the number of status inquiry messages sent to the remote network.
Invalid Sequence Number Count (22)	Counts the number of status messages with the sequence number out of sequence.
MGX 8220 Frame Relay Port Egress Statistics
Tx Frames Discarded Queue Overflow (29)	Counts the number of frames discarded due to transmit queue overflow.
Tx Bytes Discarded Queue Overflow (30)	Counts the number of bytes discarded due to transmit queue overflow.
Tx Frames while Ingress LMI Fail (31)	Counts the number of frames transmitted during an LMI failure at the Ingress connection.
Tx Bytes while Ingress LMI Fail (32)	Counts the number of bytes transmitted during an LMI failure at the Ingress connection.

MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 ATM Connection Statistics

This section provides information about ATM statistics for MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 nodes. Table A-13 lists and describes the available statistics.

Front Card	AUSM
Back Cards	T1, E1, T3, E3
Object Type	0
Sub-Object Type	9
Default Peak Interval	300 seconds

Table A-13: MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 ATM Connection Statistics

Statistics	Stat ID	Description
Discard CLPth Rx Port	34	This statistic provides a count of the number cells (that have the CLP bit in ATM Header set to 1) discarded due to one of the following conditions: non-compliance with PCR (first bucket) non-compliance with SCR (second bucket) CLP hysteris (for example, the queue length for the CLP queue threshold) The cells are dropped before entering the network. This statistic is valid for Release 2 (AUSM-4), Release 4 (AUSM-8) Range : 0 - 2^32
Discard Qfull Rx Port	35	This statistic provides a count of the number of cells received from the ingress side (from equipment connected to the port) which are discarded because of ingress queue full. The ingress queue is considered to be full when the queue depth is greater than the maximum allowed queue depth. This statistic is collected after policing. The cells are dropped before entering the network. Range: 0 - 2^32 Release: Release 2 (AUSM-4), Release 4 (AUSM-8)
Discarded Cells for Shelf Alarm	59	This statistic provides a count of the number of cells received from the ingress side (from the equipment connected to the port) which are discarded because of shelf alarm. This statistic is collected before UPC. The cells are dropped before entering the network. Range: 0 - 2^32 Release: Release 2 (AUSM-4), Release 4 (AUSM-8)
Number Of Cells Rx w/EFCI Set	56	This statistic provides a count of the number of cells received from the ingress side (from equipment connected to the port) which have the EFCI bit set (the EFCI bit in the ATM Header is equal to 1). This statistic is collected after policing (UPC) and before ingress queueing. Range: 0 - 2^32 Release: Release 2 (AUSM-4), Release 4 (AUSM-8)
Number of Cells Rx w/CLP Set	55	This statistic provides a count of the number of cells received from the ingress side (from equipment connected to the port) which have the CLP bit set (the CLP bit in the ATM cell header is equal to 1). Range: 0 - 2^32 Release: Release 2 (AUSM-4), Release 4 (AUSM-8)
Number of Cells Rx w/UPC CLP Set	57	This statistic provides a count of the number of CLP=0 cells received from the ingress side (from equipment connected to the port), which were tagged with CLP = 1 by UPC. The cells are tagged with CLP=1 by UPC if it is found non-compliant to SCR (second bucket). Range: 0 - 2^32 Release: Release 2 (AUSM-4), Release 4 (AUSM-8)
Seconds In Service	16	This statistic provides a count of the total number of seconds the channel was in service. A channel considered to be in service, when it is in active state. This statistic is not incremented when the channel is in alarm. Range: 0 - 2^32 Release: Release 2 (AUSM-4), Release 4 (AUSM-8)
Total Cells Rx from Line	68	This statistic provides a count of the total number of data cells (CLP=0+1) received from the port. (from the equipment connected to the port). This statistic does not include the count of the management cells received from the port. Range: 0 - 2^32 Release: Release 2 (AUSM-4), Release 4 (AUSM-8)
Total Cells Tx from Line	61	This statistic provides a count of the total number of data cells transmitted to the network (cellbus) after UPC and after ingress queuing. This statistic does not include the count of the OAM cells transmitted. Range: 0 - 2^32 Release: Release 2 (AUSM-4), Release 4 (AUSM-8)
VC queue flushed by SAR	70

MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 ATM Port Statistics

Table A-14: MGX 8220, MGX 8230, MGX 8250, or MGX 8850 Release 1 ATM Port Statistics

MGX 8220 ATM Port Statistics (applicable to each endpoint)	Description
Unknown VPI/VCI (0)	Counts unknown VPI/VCI errors.
Non-zero GFC count (2)	Counts the number of non-zero GFC errors.
Rx AIS Cells (5)	Counts the total number of AIS cells received by the MGX 8220 ATM port.
Rx FERF Cells (6)	Counts the total number of FERF cells received by the MGX 8220 ATM port.
Number of Cells Tx w/CLP Set (14)	Counts the total number of cells with the CLP bit set transmitted by the MGX 8220 ATM port.
Number of Cells Tx w/EFCI Set (15)	Counts the total number of cells with the EFCI bit set transmitted by the MGX 8220 ATM port.
Get Request Rx (17)	Counts the number of GetRequest PDUs received by the MGX 8220 ATM port.
GetNext Request Rx (18)	Counts the number of GetNextRequest PDUs received by the MGX 8220 ATM port.
Trap Rx (21)	Counts the number of Trap PDUs received by the MGX 8220 ATM port.
Get Response Rx (22)	Counts the number of GetResponse PDUs received by the MGX 8220 ATM port.
Get Request Tx (23)	Counts the number of GetRequest PDUs transmitted by the MGX 8220 ATM port.
Get Response Tx (24)	Counts the number of GetResponse PDUs transmitted by the MGX 8220 ATM port.
Trap Tx (25)	Counts the number of Trap PDUs transmitted by the MGX 8220 ATM port.
Total Cells Rx from Line (40)	Counts the total number of cells received from the line.
Total Cells Tx to Line (41)	Counts the total number of cells transmitted to the line.
OAM Loopback Cells Rx (42)	Counts the number of OAM loopback cells received by the MGX 8220 ATM port.
OAM Loopback Cells Tx (43)	Counts the number of OAM loopback cells transmitted by the MGX 8220 ATM port.
OAM CRC Err Cells Rx (44)	Counts the number of OAM cells with CRC errors received by the MGX 8220 ATM port.
Tx AIS Cells (45)	Counts the number of AIS cells transmitted by the MGX 8220 ATM port.
Discard Cells Tx for Port Alarm (46)	Counts the number of discard cells transmitted by the MGX 8220 ATM port as a response to an alarm.
SNMP PDU Received (47)	Counts the number of SNMP PDUs received by the MGX 8220 ATM port.
Invalid PDU Received (48)	Counts the number of invalid PDUs received by the MGX 8220 ATM port.
ASN1 Parse Error (49)	Counts the number of ASN1 parsing errors
No Such Name Error (50)	Counts the number of ASN1 "No Such Name" errors
Too Big Error (51)	Counts the number of ASN1 "Too Big" errors

MGX 8850 Release 2 AXSM Statistics

Front Card	AXSM
Back Cards	OC3, OC12, OC48, T3, E3
Object Type	0
Sub-Object Type	9
Default Peak Interval	300 seconds

MGX 8850 Release 2 AXSM Per Line Statistics

Table A-15: MGX 8850 Release 2 AXSM Per Line (PHY) Statistics

AXSM Per Line Statistics	Stats ID	BXM	AXSM OC48	AXSM OC3/12	AXSM T3/E3
Ingress Per Line Statistics Before Policer
CLP0 Cells From Port	0	yes	no	yes	yes
CLP1 Cells From Port	1	yes	no	yes	yes
Total Valid OAM Cells	6	no	no	yes	yes
Total Valid RM Cells	7	no	no	yes	yes
Total Errored OAM/RM Cells	8	no	no	yes	yes
non-zero GFC Cells	9	no	no	yes	yes
Invalid VPI/VCI Cells	10	yes	no	yes	yes
Last Unknown VPI.VCI (invalid)	11	yes	no	yes	yes
HEC Errored Cells Discarded	12	yes	yes	yes	yes
HEC Errored Cells Corrected	13	yes	yes	yes	yes
Total HEC-Errored Cells	14	yes	yes	yes	yes
Ingress Per Line Policing Statistics
UPC CLP0 Discards	3	no	no	yes	yes
UPC CLP0+1 Discards	4	yes	no	yes	yes
Non—Compliant CLP0+1	5	no	no	yes	yes
Egress Per Line (PHY) Statistics to Port
CLP0 Cells to Port	15	yes	no	yes	yes
CLP1 Cells to Port	16	yes	no	yes	yes
CLP0+1 Cells to Port	17	yes	yes1	yes	yes
OAM Valid Cells	18	no	no	yes	yes
RM Valid Cells	19	no	no	yes	yes
OAM/RM Errored Cells	20	no	no	yes	yes
Invalid VPI/VCI Cells	21	no	no	yes	yes

1From phy non idle

MGX 8850 Release 2 AXSM Port Statistics

Table A-16: MGX 8850 Release 2 AXSM Port Statistics

AXSM Port Statistics	Stats ID	BXM	AXSM OC48	AXSM OC3/12	AXSM T3/E3
AXSM Ingress Port Statistics After Policer
CLP0 Cells From Policer	0	yes	yes	yes	yes
CLP1 Cells From Policer	1	yes	yes	yes	yes
CLP0 Cells Discarded (dropped)	2	yes	yes	yes	yes
CLP1 Cells Discarded (dropped)	3	yes	yes	yes	yes
CLP0 Cells to backplane	4	no	yes	yes	yes
CLP1 Cells to backplane	5	no	yes	yes	yes
Total OAM Cells	6	yes	no	no	no
AXSM Egress Interface Port Statistics
CLP0 Cells From backplane	6	yes	yes	yes	yes
CLP1 Cells From backplane	7	yes	yes	yes	yes
CLP0 Cells Discarded (dropped)	8	yes	yes	yes	yes
CLP1 Cells Discarded (dropped)	9	yes	yes	yes	yes
CLP0 Cells to port	10	no	yes	yes	yes
CLP1 Cells to port	11	no	yes	yes	yes
Total OAM Cells	12	yes	yes	yes	yes

Posted: Thu Sep 28 16:20:08 PDT 2000
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