Huawei ERAN KPI Reference Summary v1r15c00
Huawei ERAN KPI Reference Summary v1r15c00
Huawei ERAN KPI Reference Summary v1r15c00
0
KPI Reference
Introduction: This is page one of the KPI Reference. It summarizes the KPI to let readers perform actions on the
Category
Name
NB-IoT Service
Uplink Residual Bit Error Rate (NB-IoT)
Integrity KPIs
NB-IoT Service
Downlink Packet Loss Rate (NB-IoT)
Integrity KPIs
NB-IoT Service
Uplink DRB Packet Loss Rate (NB-IoT)
Integrity KPIs
RRCS_SRservice=
(RRCConnectionSuccessservice/RRCConnec
tionAttemptservice) × 100%
RRCS_SRsignaling=
(RRCConnectionSuccesssignaling/RRCConne
ctionAttemptsignaling) × 100%
S1SIGS_SR =
(S1SIGConnectionEstablishSuccess/S1SI
GConnectionEstablishAttempt) × 100%
VoIPERABS_SR =
(VoIPERABSetupSucces/VoIPERABSetup
Attempt) × 100%
ERABS_SR =
(ERABSetupSuccess/ERABSetupAttempt)
× 100%
CSSR =
(RRCConnectionSuccessservice/RRCConnec
tionAttemptservice) ×
(S1SIGConnectionEstablishSuccess/S1SI
GConnectionEstablishAttempt) ×
(ERABSetupSuccess/ERABSetupAttempt)
× 100%
RRCS_SReMTC =
(RRCConnectionSuccess/RRCConnection
Attempt) × 100%
VoIP_CDR =
(VoIPERABAbnormalRelease/VoIPERABR
elease) × 100%
Service_CDR =
(ERABAbnormalRelease/ERABRelease) ×
100%
MPD =
TimeOfTranmission/ERABAbnormalReleas
e
MPD (VoIP)=
TimeOfTranmission/ERABAbnormalReleas
e
Service_CDR =
(UECNTXAbnormalRelease/UECNTXRele
ase) × 100%
IntraFreqHOOut_SR =
(IntraFreqHOOutSuccess/IntraFreqHOOut
Attempt) × 100%
IntraFreqHOOut_SR(VoIP) =
(IntraFreqHOOutSuccess_VoIP/IntraFreqH
OOutAttempt_VoIP) × 100%
InterFreqHOOut_SR =
(InterFreqHOOutSuccess/InterFreqHOOut
Attempt) × 100%
InterFreqHOOut_SR(VoIP) =
(InterFreqHOOutSuccess_VoIP/InterFreqH
OOutAttempt_VoIP) × 100%
InterFddTddHOOut_SR =
(InterFddTddHOOutSuccess/InterFddTddH
OOutAttempt) × 100%
InterFddTddHOOut_SR(VoIP) =
(InterFddTddHOOutSuccess_VoIP/InterFd
dTddHOOutAttempt_VoIP) × 100%
Intra-RATHOIn_SR = (Intra-
RATHOInSuccess/Intra-RATHOInAttempt)
× 100%
IRATHO_L2C_SR =
(IRATHO_L2C_Success/IRATHO_L2C_Att
empt) × 100%
IRATHO_L2W_SR =
(IRATHO_L2W_Success/IRATHO_L2W_At
tempt) × 100%
IRATHO_L2G_SR =
(IRATHO_L2G_Success/IRATHO_L2G_Att
empt) × 100%
IRATHO_L2T_SR =
(IRATHO_L2T_Success/IRATHO_L2T_Att
empt) × 100%
CSFB_Preparation_SR =
(CSFB_Preparation_Success/CSFB_Prep
aration_Attempt) × 100%
CSFB_L2W_BasedHO_SR =
(CSFB_L2W_BasedHO_Success/CSFB_L
2W_BasedHO_Attempt) × 100%
CSFB_L2G_BasedHO_SR =
(CSFB_L2G_BasedHO_Success/CSFB_L
2G_BasedHO_Attempt) × 100%
CSFB_L2T_BasedHO_SR =
(CSFB_L2T_BasedHO_Success/CSFB_L2
T_BasedHO_Attempt) × 100%
IntraFreqHOOut_SR =
(IntraFreqHOOutSuccess/IntraFreqHOOut
Attempt) × 100%
InterFreqHOOut_SR =
(InterFreqHOOutSuccess/InterFreqHOOut
Attempt) × 100%
UserDLAveThp =
UserDLRmvLastTTITrafficVolume/UserDL
RmvLastTTITransferTime
FDD: UserULAveThp =
UserULRmvLastTTITrafficVolume/UserUL
RmvLastTTITransferTime
TDD: UserULAveThp =
UserULRmvLastTTISmallPktTrafficVolume/
UserULRmvLastTTISmallPktTransferTime
DLAverageThroughput_QCI_1
DLAverageThroughput_QCI_2
DLAverageThroughput_QCI_3
DLAverageThroughput_QCI_4
DLAverageThroughput_QCI_5
DLAverageThroughput_QCI_6
DLAverageThroughput_QCI_7
DLAverageThroughput_QCI_8
DLAverageThroughput_QCI_9
ULAverageThroughput_QCI_1
ULAverageThroughput_QCI_2
ULAverageThroughput_QCI_3
ULAverageThroughput_QCI_4
ULAverageThroughput_QCI_5
ULAverageThroughput_QCI_6
ULAverageThroughput_QCI_7
ULAverageThroughput_QCI_8
ULAverageThroughput_QCI_9
CellDLAveThp = CellDLTrafficVolume/
(1000(ms) × CellDLTransferTime)
CellULAveThp = CellULTrafficVolume/
(1000(ms) × CellULTransferTime)
DLPacketLossRate =
NumOfDlLostPackets/NumberOfDlTransmi
ttedPacket
DLPacketLossRate (VoIP)=
NumOfDlLostPackets/NumberOfDlTransmi
ttedPacket
ULPacketLossRate =
NumOfUlLostPackets/NumberOfUlTransmi
ttedPacket
ULPacketLossRate (VoIP) =
NumOfUlLostPackets/NumberOfUlTransmi
ttedPacket
Downlink Residual Block Error Rate
(eMTC) =
NumOfDlschErrTB/NumberOfDlschTransm
ittedTB
RB_URDL =
(RB_UsedDL/RB_AvailableDL) × 100%
RB_URUL =
(RB_UsedUL/RB_AvailableUL) × 100%
PrescheduleRB_URUL =
RB_PrescheduleUsedUL/RB_AvailableUL
MeanCPUUtility
RAN_Unavail_Rate = [ΣCellUnavailTime/
(TheTotalNumberOfCellsInCluster × {SP} ×
60)] × 100%
RadioBearers
RadioBearers_QCI_1
RadioBearers_QCI_2
RadioBearers_QCI_3
RadioBearers_QCI_4
RadioBearers_QCI_5
RadioBearers_QCI_6
RadioBearers_QCI_7
RadioBearers_QCI_8
RadioBearers_QCI_9
DLTrafficVolume
DLTrafficVolume_QCI_1
DLTrafficVolume_QCI_2
DLTrafficVolume_QCI_3
DLTrafficVolume_QCI_4
DLTrafficVolume_QCI_5
DLTrafficVolume_QCI_6
DLTrafficVolume_QCI_7
DLTrafficVolume_QCI_8
DLTrafficVolume_QCI_9
ULTraffic Volume
ULTraffic Volume_QCI_1
ULTraffic Volume_QCI_2
ULTraffic Volume_QCI_3
ULTraffic Volume_QCI_4
ULTraffic Volume_QCI_5
ULTraffic Volume_QCI_6
ULTraffic Volume_QCI_7
ULTraffic Volume_QCI_8
ULTraffic Volume_QCI_9
AvgUserNumber
MaxUserNumber
RRCS_SR =
(RRCConnectionSuccess/RRCConnection
Attempt) × 100%
RRCR_SRservice =
(RRCConnectionResumeComplete/RRCC
onnectionResumeRequest) × 100%
Service_DR = (AbnormalRelease /
(NormalRelease+AbnormalRelease)) ×
100%
DLPacketLossRate(SRB)
=NumOfDlLostPackets/NumberOfDlTrans
mittedPacket
Downlink Residual Bit Error Rate (NB-IoT)
=
NumOfDlschErrTB/NumberOfDlschTransm
ittedTB
Uplink Residual Bit Error Rate (NB-IoT) =
NumOfUlschErrTB/NumberOfUlschTransm
ittedTB
DLPacketLossRate (NB-IoT) =
NumOfDlLostPackets/NumberOfDlTransmi
ttedPacket
ULPacketLossRate (SRB) =
NumOfUlLostPackets/NumberOfUlTransmi
ttedPacket
RAN_Unavail_Rate = [ΣCellUnavailTime/
(TheTotalNumberOfCellsInCluster × {SP} ×
60)] × 100%
BSC6810
V200R011C00S
PC300
orm actions on the data, such as filtering, sorting, or other Excel functions. For more informationPerformance
about the KPIs, please see
Associated Counters ObjectCounter
Cell orReference
radio
RRC Setup Success Rate = L.RRC.ConnReq.Succ / L.RRC.ConnReq.Att × Summary
network
100%
BSC6810
V200R011C00S
RRC Setup Success Rate (Service) =(( PC300
L.RRC.ConnReq.Succ.Emc+
L.RRC.ConnReq.Succ.HighPri+
L.RRC.ConnReq.Succ.Mt+
L.RRC.ConnReq.Succ.MoData+ Cell or radio
L.RRC.ConnReq.Succ.DelayTol+ L.RRC.ConnReq.Succ.MoVoiceCall) / ( network
L.RRC.ConnReq.Att.Emc+
L.RRC.ConnReq.Att.HighPri+
L.RRC.ConnReq.Att.Mt+
L.RRC.ConnReq.Att.MoData+
L.RRC.ConnReq.Att.DelayTol+ L.RRC.ConnReq.Att.MoVoiceCall)) × 100%
Cell or radio
RRC Setup Success Rate (Signaling) =
network
(L.RRC.ConnReq.Succ.MoSig/L.RRC.ConnReq.Att.MoSig) × 100%
Cell or radio
S1SIG Connection Setup Success Rate =
network
(L.S1Sig.ConnEst.Succ/L.S1Sig.ConnEst.Att) × 100%
Cell or radio
E-RAB Setup Success Rate (VoIP) = [L.E-RAB.SuccEst.QCI.1/(L.E-
network
RAB.AttEst.QCI.1 – L.E-RAB.FailEst.X2AP.VoIP)] × 100%
Cell or radio
E-RAB Setup Success Rate = [L.E-RAB.SuccEst/(L.E-RAB.AttEst – L.E-
network
RAB.FailEst.X2AP)] × 100%
Cell or radio
MPD = (L.E-RAB.SessionTime.HighPrecision/L.E-RAB.AbnormRel) ×
network
100/1000/60
Cell or radio
MPD (VoIP) = (L.E-RAB.SessionTime.HighPrecision.QCI1/L.E-
network
RAB.AbnormRel.QCI.1)×100/1000/60
Cell or radio
Service Drop Rate (eMTC) = [L.UECNTX.eMTC.AbnormRel/
network
(L.UECNTX.eMTC.NormRel + L.UECNTX.eMTC.AbnormRel)] × 100%
Intra-Frequency Handover Out Success Rate =
[(L.HHO.IntraeNB.IntraFreq.ExecSuccOut + Cell or radio
L.HHO.IntereNB.IntraFreq.ExecSuccOut)/ network
(L.HHO.IntraeNB.IntraFreq.ExecAttOut +
L.HHO.IntereNB.IntraFreq.ExecAttOut)] × 100%
Intra-Frequency Handover Out Success Rate (VoIP) =
[(L.HHO.IntraeNB.IntraFreq.ExecSuccOut.VoIP + Cell or radio
L.HHO.IntereNB.IntraFreq.ExecSuccOut.VoIP)/ network
(L.HHO.IntraeNB.IntraFreq.ExecAttOut.VoIP +
L.HHO.IntereNB.IntraFreq.ExecAttOut.VoIP)] × 100%
Inter-Frequency Handover Out Success Rate =
[(L.HHO.IntraeNB.InterFreq.ExecSuccOut + Cell or radio
L.HHO.IntereNB.InterFreq.ExecSuccOut)/ network
(L.HHO.IntraeNB.InterFreq.ExecAttOut +
L.HHO.IntereNB.InterFreq.ExecAttOut)] × 100%
Inter-Frequency Handover Out Success Rate(VoIP) =
[(L.HHO.IntraeNB.InterFreq.ExecSuccOut.VoIP + Cell or radio
L.HHO.IntereNB.InterFreq.ExecSuccOut.VoIP)/ network
(L.HHO.IntraeNB.InterFreq.ExecAttOut.VoIP +
L.HHO.IntereNB.InterFreq.ExecAttOut.VoIP)] × 100%
Inter-FddTdd Handover Out Success Rate =
[(L.HHO.IntraeNB.InterFddTdd.ExecSuccOut + Cell or radio
L.HHO.IntereNB.InterFddTdd.ExecSuccOut)/ network
(L.HHO.IntraeNB.InterFddTdd.ExecAttOut +
L.HHO.IntereNB.InterFddTdd.ExecAttOut)] × 100%
Inter-FddTdd Handover Out Success Rate(VoIP) =
[(L.HHO.IntraeNB.InterFddTdd.ExecSuccOut.VoIP + Cell or radio
L.HHO.IntereNB.InterFddTdd.ExecSuccOut.VoIP)/ network
(L.HHO.IntraeNB.InterFddTdd.ExecAttOut.VoIP +
L.HHO.IntereNB.InterFddTdd.ExecAttOut.VoIP)] × 100%
Intra-RAT Handover In Success Rate = [(L.HHO.IntraeNB.ExecSuccIn + Cell or radio
L.HHO.IntereNB.ExecSuccIn)/(L.HHO.IntraeNB.ExecAttIn + network
L.HHO.IntereNB.ExecAttIn)] × 100%
Cell or radio
Inter-RAT Handover Out Success Rate (LTE to CDMA2000) =
network
(L.IRATHO.E2C.ExecSuccOut/L.IRATHO.E2C.ExecAttOut) × 100%
Cell or radio
Inter-RAT Handover Out Success Rate (LTE to WCDMA) =
network
(L.IRATHO.E2W.ExecSuccOut/L.IRATHO.E2W.ExecAttOut) × 100%
Cell or radio
Inter-RAT Handover Out Success Rate (LTE to GSM) =
network
(L.IRATHO.E2G.ExecSuccOut/L.IRATHO.E2G.ExecAttOut) × 100%
Cell or radio
Inter-RAT Handover Out Success Rate (LTE to TD-SCDMA) =
network
(L.IRATHO.E2T.ExecSuccOut/L.IRATHO.E2T.ExecAttOut) × 100%
Cell or radio
CSFB Preparation Success Rate = L.CSFB.PrepSucc/L.CSFB.PrepAtt) ×
network
100%
The following formulas are both applicable, and the second formula is more
close to the protocol.
Cell or radio
User Uplink Average Throughput = (L.Thrp.bits.UL –
network
L.Thrp.bits.UE.UL.LastTTI)/L.Thrp.Time.UE.UL.RmvLastTTI
User Uplink Average Throughput = (L.Thrp.bits.UL –
L.Thrp.bits.UE.UL.SmallPkt)/L.Thrp.Time.UE.UL.RmvSmallPkt
Service Downlink Average Throughput =
(L.Thrp.bits.DL.QCI.n- L.Thrp.bits.DL.LastTTI.QCI.n)/ Cell or radio
(L.Thrp.Time.DL.RmvLastTTI.QCI.n) network
n= 1~9
FDD:
Service Uplink Average Throughput
=L.Thrp.bits.UL.QCI.n/L.Thrp.Time.UL.QCI.n
Cell or radio
TDD:
network
Service Uplink Average Throughput
=L.Thrp.bits.UL.QCI.n/L.Thrp.Time.UL.QCI.n× (Number of uplink subframes
per radio frame/10)
n= 1~9
Cell Downlink Average Throughput =
L.Thrp.bits.DL/L.Thrp.Time.Cell.DL.HighPrecision Cell or radio
For LTE TDD, the uplink-downlink subframe configuration must be network
considered when operators compare this average value and the theoretical
peakUplink
Cell rate. Average Throughput =
L.Thrp.bits.UL/L.Thrp.Time.Cell.UL.HighPrecision Cell or radio
For LTE TDD, the uplink-downlink subframe configuration must be network
considered when operators compare this average value and the theoretical
peak rate.
Cell or radio
Downlink Packet Loss Rate =
network
L.Traffic.DL.PktUuLoss.Loss/L.Traffic.DL.PktUuLoss.Tot×100%
Cell or radio
Downlink Packet Loss Rate (VoIP) =
network
L.Traffic.DL.PktUuLoss.Loss.QCI.1/L.Traffic.DL.PktUuLoss.Tot.QCI.1×100%
Cell or radio
Uplink Packet Loss Rate =
network
L.Traffic.UL.PktLoss.Loss/L.Traffic.UL.PktLoss.Tot×100%
Cell or radio
Uplink Packet Loss Rate (VoIP) =
network
L.Traffic.UL.PktLoss.Loss.QCI.1/L.Traffic.UL.PktLoss.Tot.QCI.1×100%
Downlink Residual BlockError Rate (eMTC) =
[(L.Traffic.DL.SCH.QPSK.eMTC.ErrTB.Rbler + Cell or radio
L.Traffic.DL.SCH.16QAM.eMTC.ErrTB.Rbler)/ network
(L.Traffic.DL.SCH.QPSK.eMTC.TB + L.Traffic.DL.SCH.16QAM.eMTC.TB)] ×
100%
Uplink Residual Block Error Rate (eMTC) =
[(L.Traffic.UL.SCH.QPSK.eMTC.ErrTB.Rbler + Cell or radio
L.Traffic.UL.SCH.16QAM.eMTC.ErrTB.Rbler)/ network
(L.Traffic.UL.SCH.QPSK.eMTC.TB + L.Traffic.UL.SCH.16QAM.eMTC.TB)] ×
100%
Cell or radio
Downlink Resource Block Utilizing Rate =
network
(L.ChMeas.PRB.DL.Used.Avg/L.ChMeas.PRB.DL.Avail) × 100%
Cell or radio
Uplink Resource Block Utilizing Rate =
network
(L.ChMeas.PRB.UL.Used.Avg/L.ChMeas.PRB.UL.Avail) × 100%
Cell or radio
Uplink Preschedule Resource Block Occupied Rate =
network
L.ChMeas.PRB.UL.PreSch.Used.Avg/L.ChMeas.PRB.UL.Avail
CPU
Average CPU Load = VS.BBUBoard.CPULoad.Mean
Cell or radio
Average User Number = L.Traffic.User.Avg network
Cell or radio
Maximum User Number = L.Traffic.User.Max network
NB-IoT cell
RRC Setup Success Rate (NB-IoT) = (L.NB.RRC.ConnReq.Succ/
radio
(L.NB.RRC.ConnReq.Att+L.NB.RRC.ResumeFail.RRCSetup)) × 100%
network
NB-IoT cell
RRC Resume Success Rate (NB-IoT)=
radio
(L.NB.RRC.ResumeReq.Succ/L.NB.RRC.ResumeReq.Att)× 100%
network
Service Drop Rate (NB-IoT) = (L.NB.UECNTX.AbnormRel-
L.NB.UECNTX.AbnormRel.Up+ L.NB.E-RAB.AbnormRel)/ NB-IoT cell
(L.NB.UECNTX.NormRel- L.NB.UECNTX.NormRel.Up + L.NB.E- radio
RAB.NormRel + L.NB.UECNTX.AbnormRel- L.NB.UECNTX.AbnormRel.Up+ network
L.NB.E-RAB.AbnormRel) × 100%
NB-IoT cell
Downlink SRB Packet Loss Rate (NB-IoT) =
radio
(L.NB.Thrp.Pkts.DL.SRB.Loss/L.NB.Thrp.Pkts.DL.SRB.Tot) × 100%
network
NB-IoT cell
Downlink Residual Bit Error Rate (NB-IoT) =
radio
(L.NB.Traffic.DL.SCH.ErrTB.Rbler/L.NB.Traffic.DL.SCH.TB) × 100%
network
NB-IoT cell
Uplink Residual Bit Error Rate (NB-IoT) =
radio
(L.NB.Traffic.UL.SCH.ErrTB.Rbler/L.NB.Traffic.UL.SCH.TB) × 100%
network
Downlink Packet Loss Rate (NB-IoT) = (L.NB.Thrp.Pkts.DL.SRB.Loss + NB-IoT cell
L.NB.Traffic.PktUuLoss.DL.DRB.Loss)/(L.NB.Thrp.Pkts.DL.SRB.Tot + radio
L.NB.Traffic.PktUuLoss.DL.DRB.Tot) × 100% network
Uplink DRB Packet Loss Rate (NB-IoT) = NB-IoT cell
(L.NB.Traffic.PktLoss.UL.DRB.Loss/L.NB.Traffic.PktLoss.UL.DRB.Tot) × radio
100% network
Radio Network Unavailability Rate (NB-IoT)= [(L.NB.Cell.Unavail.Dur.Sys +
L.NB.Cell.Unavail.Dur.Manual + L.NB.Cell.Unavail.Dur.EnergySaving)/
Radio
(Number of NB-IoT Cells × {SP} × 60)] × 100%
network
"SP" indicates the reporting period for counters in minutes.
BSC6810
V200R011C00S
PC300
ationPerformance
about the KPIs, please see the corresponding explanation page in the KPI Reference.
Counter
Unit/Range Note
Reference
Percentage None
Summary
(%)
BSC6810
V200R011C00S
PC300
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
None
min
None
min
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
kbit/s None
kbit/s None
kbit/s None
kbit/s None
kbit/s None
kbit/s None
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
N/A None
bit None
bit None
N/A None
N/A None
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)
Percentage None
(%)