RSRAN068_-_RNC_Capacity
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Period start time PLMN name RNC name RNC_981B RNC_980BM802C0 04.30.2010 PLMN RNC_BANDUN 361.23 1.32 340 04.30.2010 PLMN RNC_DAGO2 211.59 1.28 200 04.30.2010 PLMN RNC_DAGO4 42.49 1.32 38 04.30.2010 PLMN RNC_TUGURA 202.63 1.32 186 04.30.2010 PLMN RNC_WATUWE 138.55 1.25 131 05.01.2010 PLMN RNC_BANDUN 345.82 1.31 323 05.01.2010 PLMN RNC_DAGO2 190.67 1.28 181 05.01.2010 PLMN RNC_DAGO4 41.77 1.31 36 05.01.2010 PLMN RNC_TUGURA 195.93 1.32 180 05.01.2010 PLMN RNC_WATUWE 134.89 1.25 123 05.02.2010 PLMN RNC_BANDUN 296.87 1.31 279 05.02.2010 PLMN RNC_DAGO2 155.87 1.27 147 05.02.2010 PLMN RNC_DAGO4 33.91 1.30 31 05.02.2010 PLMN RNC_TUGURA 162.74 1.31 152 05.02.2010 PLMN RNC_WATUWE 113.19 1.24 107 AMR Usage SHO OH Avg Calls
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Transcript of RSRAN068_-_RNC_Capacity
AMR capacityPeriod start time PLMN name RNC name
RNC_981B RNC_980M802C0 M802C104.30.2010 PLMN RNC_BAND 361.23 1.32 340 66004.30.2010 PLMN RNC_DAGO 211.59 1.28 200 42504.30.2010 PLMN RNC_DAGO 42.49 1.32 38 9604.30.2010 PLMN RNC_TUGU 202.63 1.32 186 40604.30.2010 PLMN RNC_WATU 138.55 1.25 131 27805.01.2010 PLMN RNC_BAND 345.82 1.31 323 63505.01.2010 PLMN RNC_DAGO 190.67 1.28 181 36505.01.2010 PLMN RNC_DAGO 41.77 1.31 36 8805.01.2010 PLMN RNC_TUGU 195.93 1.32 180 36205.01.2010 PLMN RNC_WATU 134.89 1.25 123 27005.02.2010 PLMN RNC_BAND 296.87 1.31 279 54205.02.2010 PLMN RNC_DAGO 155.87 1.27 147 29905.02.2010 PLMN RNC_DAGO 33.91 1.30 31 8205.02.2010 PLMN RNC_TUGU 162.74 1.31 152 31605.02.2010 PLMN RNC_WATU 113.19 1.24 107 220
AMR Usage SHO OH Avg Calls Max Calls
AMR capacity
M802C7 M802C5 RNC_1773A M802C60 0 0
10,100 0 0.00 00 0 00 0 00 0 00 0 0
10,100 0 0.00 00 0 00 0 00 0 00 0 0
10,100 0 0.00 00 0 00 0 00 0 0
Licensed Capacity LicCap 80-90% LicCap 80-90% Ratio LicCap >90%
AMR capacity Iu-PS (R99+HSPA) traffic
RNC_1774A RNC_985RNC_986RNC_936B RNC_941B RNC_162RNC_1621A41.23 46.67 3.87 20.05 0.00 0.00
0.00 13.28 45.92 33.03 14.675.97 6.24 0.53 2.66 0.00 0.00
11.91 12.87 0.85 4.28 0.00 0.0011.43 11.95 1.02 5.26 0.00 0.0057.10 64.55 5.41 32.27 0.00 0.00
0.00 15.26 45.41 41.18 23.138.22 8.71 0.68 4.12 0.00 0.00
15.73 17.03 1.16 7.42 0.00 0.0014.70 15.34 1.22 7.76 0.00 0.0058.74 66.17 5.71 34.35 0.00 0.00
0.00 14.79 100.29 39.43 22.537.32 7.74 0.68 3.83 0.00 0.00
15.42 16.62 1.26 7.38 0.00 0.0013.65 14.34 1.15 7.46 0.00 0.00
LicCap > 90% Ratio UL DL GTP-U UL Avg GTP-U DL Avg DL Max EIPU DL Avg
Iu-PS (R99+HSPA) traffic Iub PS Capacity
RNC_1873A RNC_1770A M802C15 M802C1320.05 0.00 0.00 014.67 0.00 2,850,000.00 0
2.66 0.00 0.00 04.28 0.00 0.00 05.26 0.00 0.00 0
32.27 0.00 0.00 023.13 0.00 2,850,000.00 0
4.12 0.00 0.00 07.42 0.00 0.00 07.76 0.00 0.00 0
34.35 0.00 0.00 022.53 0.00 2,850,000.00 0
3.83 0.00 0.00 07.38 0.00 0.00 07.46 0.00 0.00 0
Total Avg DL IuPS thp over Lic Cap Lic Iub PS data thp cap LicCap 80-90%
Iub PS Capacity Users in RNC
RNC_1771A M802C14 RNC_1772A RNC_159RNC_159RNC_1598A0 3,873 5,511 52.14
0.00 0 0.00 2,399 3,463 49.730 381 651 55.850 1,014 1,654 55.550 806 1,309 54.000 4,206 5,650 51.65
0.00 0 0.00 2,591 3,463 49.760 405 619 56.120 1,062 1,704 54.360 846 1,336 52.850 4,249 5,838 50.71
0.00 0 0.00 2,500 3,561 49.390 387 589 56.120 1,018 1,667 53.520 804 1,258 51.34
LicCap 80-90% Ratio LicCap >90% LicCap > 90% Ratio Avg Max CellDCH State
Users in RNC Calls in RNC
RNC_1599A RNC_1600A RNC_1601A RNC_5017A RNC_5018A14.74 33.05 0.03 1,346 012.64 37.59 0.00 926 216.40 27.44 0.01 196 016.64 27.70 0.00 305 0
7.59 38.30 0.00 295 014.71 33.58 0.03 1,352 012.99 37.21 0.00 989 316.44 27.12 0.01 180 016.74 28.80 0.00 317 0
7.56 39.47 0.00 319 014.85 34.38 0.02 1,516 013.18 37.40 0.00 1,038 116.49 27.09 0.00 179 017.34 29.05 0.00 323 0
7.76 40.78 0.00 291 0
CellFACH State CellPCH State URAPCH State HSDPA Users, Max HSUPA Users, Max
Calls in RNC Iub data traffic
RNC_1777A RNC_1778A RNC_983A RNC_106RNC_982B1,454 687 47.93 1.27 20.48
773 440 46.56 0.64 15.20207 99 6.43 0.18 2.65598 418 13.41 0.54 3.81345 289 12.38 0.43 4.95
1,450 662 66.05 1.50 33.98778 375 46.10 0.69 23.74201 92 8.92 0.21 4.17592 373 17.59 0.56 6.77308 281 15.86 0.53 7.37
1,685 566 67.92 1.75 35.86896 311 100.92 0.63 23.41189 87 7.99 0.25 3.79719 327 17.33 0.71 6.55367 229 14.86 0.52 7.12
PS Rel99 Users, Max AMR Users, Max Iub data throughput CS thp HSDPA thp
Iub data traffic Internal RNC resources
RNC_952C RNC_1870A RNC_1870M RNC_1871A RNC_1871M0.00 1.16 25.00 0.03 10.000.00 1.88 14.00 0.05 6.000.00 0.21 9.00 0.01 1.000.00 0.51 13.00 0.01 3.000.00 0.29 10.00 0.01 3.000.00 1.24 26.00 0.04 10.000.01 2.05 14.00 0.06 6.000.00 0.22 8.00 0.01 1.000.00 0.53 13.00 0.02 3.000.00 0.30 10.00 0.01 3.000.00 1.22 27.00 0.04 11.000.00 1.92 13.00 0.06 6.000.00 0.21 8.00 0.00 1.000.00 0.51 13.00 0.01 3.000.00 0.28 9.00 0.01 3.00
HSUPA thp Avg ICSU CPU load Max ICSU CPU load Avg RSMU CPU load Max RSMU CPU load
Internal RNC resources Traffic Profile
RNC_1872A RNC_1872M RNC_1874B RNC_9840.05 5.00 81.00 37.690.00 0.00 52.00 26.680.00 1.00 11.00 5.680.01 1.00 32.00 17.060.00 1.00 10.00 12.370.07 6.00 38.00 52.850.00 0.00 53.00 37.560.00 1.00 12.00 7.980.02 2.00 27.00 21.510.01 2.00 10.00 16.090.08 7.00 40.00 55.380.00 0.00 54.00 36.480.00 1.00 12.00 7.440.02 1.00 28.00 21.470.01 1.00 10.00 15.46
Avg GTPU CPU load Max GTPU CPU load DMCU fill factor (user plane) Total
Traffic Profile
RNC_1065C RNC_1066C RNC_1067C RNC_1068C5.22 0.83 1.65 9.522.92 0.52 1.09 6.950.82 0.12 0.23 1.853.49 0.56 1.29 7.902.05 0.30 0.68 4.385.64 0.95 1.83 10.453.20 0.70 1.50 8.420.94 0.15 0.32 2.393.72 0.58 1.46 8.982.29 0.38 0.81 5.245.77 0.97 1.97 10.812.97 0.65 1.51 7.930.88 0.17 0.30 2.303.69 0.54 1.42 9.262.13 0.33 0.82 5.06
NRT DCH DL 64 NRT DCH DL 128 NRT DCH DL 256 NRT DCH DL 384
Report Title RSRAN068 - RNC CapacityReport ID rsran_ru10/reports/RSRAN068.xmlReport Description RNC CapacityStart Time 04.30.2010 00:00:00End Time 05.03.2010 00:00:00Objects Level: WS_RNC; RNC_WESTJAVA ('RNC_WESTJAVA')Object Aggregation Level PLMN/RNCTime Aggregation Level dayThreshold noneSorting noneData Source pmwPool
KPI ID KPI AliasAMR UsageSHO OHAvg CallsMax CallsLicensed CapacityLicCap 80-90%LicCap 80-90% RatioLicCap >90%LicCap > 90% RatioULDLGTP-U UL AvgGTP-U DL AvgDL MaxEIPU DL AvgTotal Avg DLIuPS thp over Lic CapLic Iub PS data thp capLicCap 80-90%LicCap 80-90% RatioLicCap >90%LicCap > 90% RatioAvgMaxCellDCH StateCellFACH StateCellPCH StateURAPCH StateHSDPA Users, MaxHSUPA Users, MaxPS Rel99 Users, MaxAMR Users, MaxIub data throughputCS thpHSDPA thpHSUPA thpAvg ICSU CPU loadMax ICSU CPU loadAvg RSMU CPU load
RNC_981bRNC_980bM802C0M802C1M802C7M802C5RNC_1773aM802C6RNC_1774aRNC_985aRNC_986aRNC_936bRNC_941bRNC_1620aRNC_1621aRNC_1873aRNC_1770aM802C15M802C13RNC_1771aM802C14RNC_1772aRNC_1596aRNC_1597aRNC_1598aRNC_1599aRNC_1600aRNC_1601aRNC_5017aRNC_5018aRNC_1777aRNC_1778aRNC_983aRNC_1064aRNC_982bRNC_952cRNC_1870aRNC_1870mRNC_1871a
B1
<br> RNC Capacity report focuses on the total Iub throughput capacity. The RNC configurations are dynamically optimised for high speech or data capacity. <br>The NSN RNC is designed especially for simultaneous dynamic allocation and handling of speech, circuit-switched data, and packet switched data. <br> <br>Use case specific instructions: <br>In summary, the Iub throughput capability is divided into two separate calculations: <br>Combined Actual Traffic Load Factor: AMR (Erl) and PS&CS data (Mbps), <br>DMCU Reservation Load Factor for PS Data and Total Actual PS Data Throughput.
B6
Level: WS_RNC RNC_WESTJAVA ('RNC_WESTJAVA')
A16
sum ( dur_for_amr_12_2_dl_in_srnc + dura_for_amr_12_2_dl_in_drnc ) ---------------------------------------------------------------- sum (100 * PERIOD_DURATION * 60) * RNC_980b
A17
(sum ( ONE_CELL_IN_ACT_SET_FOR_RT + TWO_CELLS_IN_ACT_SET_FOR_RT + THREE_CELLS_IN_ACT_SET_RT ) --------------------------------------------------------- sum ( ONE_CELL_IN_ACT_SET_FOR_RT + TWO_CELLS_IN_ACT_SET_FOR_RT / 2 + THREE_CELLS_IN_ACT_SET_RT / 3 )
A18
<br>SUM(A.AMR_AVERAGE)
A19
<br>SUM(A.AMR_MAX)
A20
<br>SUM(A.AMR_LIC_CAPACITY)
A21
<br>SUM(A.AMR_DISTR_CLASS_3)
A22
<br>100 * SUM(AMR_DISTR_CLASS_3) <br>---------------- <br>SUM(AMR_DISTR_CLASS_0 <br>+ AMR_DISTR_CLASS_1 <br>+ AMR_DISTR_CLASS_2 <br>+ AMR_DISTR_CLASS_3 <br>+ AMR_DISTR_CLASS_4)
A23
<br>SUM(A.AMR_DISTR_CLASS_4)
A24
<br>100 * SUM(AMR_DISTR_CLASS_4) <br>---------------- <br>SUM(AMR_DISTR_CLASS_0 <br>+ AMR_DISTR_CLASS_1 <br>+ AMR_DISTR_CLASS_2 <br>+ AMR_DISTR_CLASS_3 <br>+ AMR_DISTR_CLASS_4)
A25
( sum (IN_TOT_CELLS_VC) * 44 * 8 ----------------------------- sum(PERIOD_DURATION * 60 * 1000 *1000 ) - ( sum (dur_for_amr_12_2_ul_in_srnc + dura_for_amr_12_2_ul_in_drnc) --------------------- * 16.4 * 0.35 ) (100 *PERIOD_DURATION * 60 * 1000) - sum ( ALLO_DUR_CS_CONV_64_IN_SRNC * 66.1) ---------------- (100 * PERIOD_DURATION * 60 * 1000)
A26
sum (EG_TOT_CELLS_VC) * 44 * 8 ----------------------------------- sum (PERIOD_DURATION_SUM * 60 * 1000 * 1000) ( sum (dur_for_amr_12_2_dl_in_srnc + dura_for_amr_12_2_dl_in_drnc ) * 16.4 * 0.65 ) - ------------------------------------------------------------------------- (100 * PERIOD_DURATION * 60 * 1000) ( sum ( ALLO_DUR_CS_CONV_64_IN_SRNC * 66.1) - ------------------------------------------- (100 * PERIOD_DURATION * 60 * 1000)
A27
<br>sum ( OUTPUT_BYTES_TOTAL_UDP * 10 * 8 ) <br>----------------------------------------- <br>sum ( PERIOD_DURATION * 60 ) * 1000000
A28
<br>sum(INPUT_BYTES_TOTAL_UDP)*10*8 <br>/ <br>sum(PERIOD_DURATION)*1000000*60
A29
<br>SUM(IU_PS_THR_PEAK) <br>----------- <br>1000
A30
<br>SUM(IU_PS_THR_AVERAGE) <br>------------- <br>1000
A31
<br>RNC_1621a+RNC_941b
A32
<br>100 * SUM(IU_PS_THR_LIMIT_DURATION) <br>---------------- <br>SUM(PERIOD_DURATION * 60)
A33
<br>SUM(A.IUB_PS_THR_LIC_CAPACITY)
A34
<br>SUM(A.IUB_PS_THR_DISTR_CLASS_3)
A35
<br>100 * SUM(IUB_PS_THR_DISTR_CLASS_3) <br>---------------- <br>SUM(IUB_PS_THR_DISTR_CLASS_0 <br>+ IUB_PS_THR_DISTR_CLASS_1 <br>+ IUB_PS_THR_DISTR_CLASS_2 <br>+ IUB_PS_THR_DISTR_CLASS_3 <br>+ IUB_PS_THR_DISTR_CLASS_4)
A36
<br>SUM(A.IUB_PS_THR_DISTR_CLASS_4)
A37
<br>100 * SUM(IUB_PS_THR_DISTR_CLASS_4) <br>---------------- <br>SUM(IUB_PS_THR_DISTR_CLASS_0 <br>+ IUB_PS_THR_DISTR_CLASS_1 <br>+ IUB_PS_THR_DISTR_CLASS_2 <br>+ IUB_PS_THR_DISTR_CLASS_3 <br>+ IUB_PS_THR_DISTR_CLASS_4)
A38
<br>AVG(AVE_RRC_CONN_MODE_USERS)
A39
<br>MAX(MAX_RRC_CONN_MODE_USERS)
A40
<br>100 * SUM(AVE_USERS_CELL_DCH) <br>----------------------- <br>SUM(AVE_RRC_CONN_MODE_USERS)
A41
<br>100 * SUM(AVE_USERS_CELL_FACH) <br>----------------------- <br>SUM(AVE_RRC_CONN_MODE_USERS)
A42
<br>100 * SUM(AVE_USERS_CELL_PCH) <br>----------------------- <br>SUM(AVE_RRC_CONN_MODE_USERS)
A43
<br>100 * SUM(AVE_USERS_URA_PCH) <br>----------------------- <br>SUM(AVE_RRC_CONN_MODE_USERS)
A44
<br>max(DSP_SERVICE_PEAK_RES_ALLOC)
A45
<br>max(DSP_SERVICE_PEAK_RES_ALLOC)
A46
<br>RNC_1776a+RNC_1775a
A47
<br>SUM(DSP_SERVICE_PEAK_RES_ALLOC[k=0]+DSP_SERVICE_PEAK_RES_ALLOC[k=1]) <br> <br>where k relates to service type: <br> <br>k=0 -> ServType=AMR <br>k=1 -> ServType=IPIUAMR
A48
<br>sum (EG_TOT_CELLS_VC) * 44 * 8 * (100 * PERIOD_DURATION * 60 * 1000) - sum (dur_for_amr_12_2_ul_in_srnc + dura_for_amr_12_2_ul_in_drnc ) * 16.4 * 0.65 * sum(PERIOD_DURATION * 60 * 1000 * 1000 ) <br>----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- <br>sum(PERIOD_DURATION * 60 * 1000 * 1000 ) * (100 * PERIOD_DURATION * 60 * 1000)
A49
sum ( ALLO_DUR_CS_CONV_64_IN_SRNC * 66.1) ---------------- sum (100 * 1000 *PERIOD_DURATION * 60 )
A50
sum ( RECEIVED_HS_MACD_BITS ) --------------------------------------------------- sum ( 1000 * PERIOD_DURATION * 60 )
A51
<br>sum(NRT_EDCH_UL_DATA_VOL + RT_E_DCH_UL_STREA_DATA) * 8 <br>/ <br>sum(PERIOD_DURATION)*1000000*60
A52
<br>AVG(AVERAGE_LOAD)
A53
<br>AVG(AVERAGE_LOAD)
A54
<br>AVG(AVERAGE_LOAD)
Max RSMU CPU loadAvg GTPU CPU loadMax GTPU CPU loadDMCU fill factor (user plane)TotalNRT DCH DL 64NRT DCH DL 128NRT DCH DL 256NRT DCH DL 384
RNC_1871mRNC_1872aRNC_1872mRNC_1874bRNC_984cRNC_1065cRNC_1066cRNC_1067cRNC_1068c
A55
<br>AVG(AVERAGE_LOAD)
A56
<br>AVG(AVERAGE_LOAD)
A57
<br>AVG(AVERAGE_LOAD)
A58
<br>100-MIN(LOWEST_CAP_ON_NE)
A59
<br>sum (RNC_1065c <br>+ RNC_1066c <br>+ RNC_1067c <br>+ RNC_1068c <br>+ RNC_982b)
A60
<br>69.5 * SUM ( DUR_PS_BACKG_64_DL_IN_SRNC + DUR_PS_INTERA_64_DL_IN_SRNC ) <br>---------------------------------------- <br>1000 * SUM ( PERIOD_DURATION * 60 * 100 )
A61
<br>136.7 *sum ( DUR_PS_BACKG_128_DL_IN_SRNC + DUR_PS_INTERA_128_DL_IN_SRNC ) <br>---------------------------------------- <br>1000 * sum ( PERIOD_DURATION * 60 * 100 )
A62
<br>273.3 * sum ( DUR_PS_BACKG_256_DL_IN_SRNC + DUR_PS_INTERA_256_DL_IN_SRNC ) <br>---------------------------------------------- <br>1000 * sum ( PERIOD_DURATION * 60 * 100)
A63
<br>407.7 * sum ( DUR_PS_BACKG_384_DL_IN_SRNC + DUR_PS_INTERA_384_DL_IN_SRNC ) <br>---------------------------------------------- <br>1000 * sum ( PERIOD_DURATION * 60 * 100)
KPI TitleAMR UsageSoft Handover Overhead for RTAMR_AVERAGEAMR_MAXAMR_LIC_CAPACITYAMR_DISTR_CLASS_3AMR Licensed Capacity simultaneous call distribution ratio 80-9AMR_DISTR_CLASS_4AMR Licensed Capacity simultaneous call distribution ratio >90%PS Data in ULPS Data in DLIu-PS outgoing user data throughput in RNCIu-PS GTP average input traffic rate in RNCIu-PS peak throughput downlinkIu-PS average throughput downlink, NP8S1 or NP2GEIu-PS average throughput downlinkIu-PS throughput over Licensed CapacityIUB_PS_THR_LIC_CAPACITYIUB_PS_THR_DISTR_CLASS_3Iub-PS Licensed Capacity throughput distribution ratio - 80-90%IUB_PS_THR_DISTR_CLASS_4Iub-PS Licensed Capacity throughput distribution ratio - >90%Average number of Users in RNCMaximum number of Users in RNCRatio of RNC Users in Cell-DCH StateRatio RNC Users in Cell-FACH StateRatio RNC Users in Cell-PCH StateRatio RNC Users in URA-PCH StatePeak number of HSDPA users in RNCPeak number of HSUPA users in RNCPeak number of PS Rel99 users in RNCPeak number of AMR users in RNCPS and CS Data ThroughputCS DataHSDPA ThroughputHSUPA MAC-es average throughput at RNCICSU CPU loadICSU CPU loadRSMU CPU load
RSMU CPU loadGTPU CPU loadGTPU CPU loadDMCU fill factor (user plane)DMCU Allocation LoadNRT DCH DL load - 64kbpsNRT DCH DL load - 128kbpsNRT DCH DL load - 256kbpsNRT DCH DL load - 384kbps
KPI Formula Unitdecode( (100*traffic.period_duration*60*softho.rnc_980b),0,null, ((traffic.dur_for [Erl]decode( (softho.one_cell_in_act_set_for_rt + softho.two_cells_in_act_set_for_rt/2 +[#]capause.amr_average [#]capause.amr_max [#]capause.amr_lic_capacity [#]capause.amr_distr_class_3 [#]decode( (capause.amr_distr_class_0 + capause.amr_distr_class_1 + capause.amr_[%]capause.amr_distr_class_4 [#]decode( (capause.amr_distr_class_0 + capause.amr_distr_class_1 + capause.amr_[%]((atmvcc.IN_TOT_CELLS_VC) * 44 * 8)/(traffic.PERIOD_DURATION * 60 * 1000 * 1000 )[Mbit/s]((atmvcc.EG_TOT_CELLS_VC) * 44 * 8)/(traffic.PERIOD_DURATION * 60 * 1000 * 1000)[Mbit/s]decode( (iups.period_duration),0,null, ((iups.output_bytes_total_udp*10*8) / (iup [Mbit/s]decode( (iups.period_duration),0,null, ((iups.input_bytes_total_udp*10*8) / (iups. [Mbit/s]capause.iu_ps_thr_peak / 1000 [Mbit/s]capause.iu_ps_thr_average / 1000 [Mbit/s]nvl(capause.iu_ps_thr_average / 1000,0) + nvl(decode( (iups.period_duration),0,0,[Mbit/s]decode( (capause.period_duration),0,null, (100*(capause.iu_ps_thr_limit_duration)[%]capause.iub_ps_thr_lic_capacity [kbit/s]capause.iub_ps_thr_distr_class_3 [#]decode( (capause.iub_ps_thr_distr_class_0 + capause.iub_ps_thr_distr_class_1 + [%]capause.iub_ps_thr_distr_class_4 [#]decode( (capause.iub_ps_thr_distr_class_0 + capause.iub_ps_thr_distr_class_1 + [%]capause.ave_rrc_conn_mode_users [#]capause.max_rrc_conn_mode_users [#]decode( (capause.ave_rrc_conn_mode_users),0,null, (100*(capause.ave_users_c[%]decode( (capause.ave_rrc_conn_mode_users),0,null, (100*(capause.ave_users_ce[%]decode( (capause.ave_rrc_conn_mode_users),0,null, (100*(capause.ave_users_c[%]decode( (capause.ave_rrc_conn_mode_users),0,null, (100*(capause.ave_users_u[%]dspsrv.dsp_service_peak_res_alloc_4 [#]dspsrv.dsp_service_peak_res_alloc_5 [#]dspsrv.dsp_service_peak_res_alloc_2 [#]dspsrv.dsp_service_peak_res_alloc_3 [#]decode((traffic.period_duration),0,null, ((atmvcc.EG_TOT_CELLS_VC) * 44 * 8)/ (t [Mbit/s]decode((100*1000*traffic.period_duration*60),0,null,((traffic.allo_dur_cs_conv_64_[Mbit/s]decode(hsdpaw.period_duration,0,null, (hsdpaw.received_hs_macd_bits) / (1000* [Mbit/s]decode( (celltp.period_duration*1000000*60),0,null, ((celltp.nrt_edch_ul_data_vol [Mbit/s]uload.average_load_0 [%]uload.average_load_3 [%]uload.average_load_1 [%]
uload.average_load_4 [%]uload.average_load_2 [%]uload.average_load_5 [%]100 - dspresu.lowest_cap_on_ne [%]decode( (traffic.period_duration),0,0, (69.5*(traffic.dur_ps_backg_64_dl_in_srnc + [Mbit/s]decode( (1000*traffic.period_duration*60*100),0,null, (69.5*(traffic.dur_ps_backg_ [Mbit/s]decode( (1000*traffic.period_duration*60*100),0,null, (136.7*(traffic.dur_ps_backg [Mbit/s]decode( (traffic.period_duration),0,null, (273.3*(traffic.dur_ps_backg_256_dl_in_sr [Mbit/s]decode( (traffic.period_duration),0,null, (407.7*(traffic.dur_ps_backg_384_dl_in_sr [Mbit/s]
