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Transcript of XCAP-LTE Parameter Description_08th
XCAP Analyzer
LTE Parameter Description
Doc Rev: 08
Version: 5.08.xx
2014. 05
Ⓒ 2014 Accuver Co., Ltd., All rights reserved.
This documentation shall not be changed, distributed to the public, and opened to the third
person without written permission. Accuver is not responsible for any direct or indirect damages
arisen or related to use of this manual. All information included herein may be changed without
prior notice.
Innowireless Co., Ltd.,
Address: #1-301, Complex2, Pangyo7 Techno Valley, #633, Sampyung-Dong, Bundang-Gu,
Seongnam-Si, Kyungki-Do
Web site: www.innowireless.co.kr
Phone #: +82-31-788-1700
Fax #: +82-31-705-1246
If you have any questions during use of this manual, please contact to Innowireless Co., Ltd.,
Phone: +82-31-788-1918
E-mail: [email protected]
XCAP-LTE Parameter Description Introduction
© Innowireless Co., Ltd. Page 3
Introduction
Introduction of Appendix
This Analyzer Parameter Description manual specifies asynchronous parameters in Parameter
Trees in Analyzer graph/map/table/CDF/PDF.
History Edition Date Description
00 2009.10 Draft version (LGE)
01 2010.10 2nd version (LGE)
02 2010.10 3rd version (Samsung)
03 2011.01
4th version
1) Qualcomm
2) Samsung – LPHY N Cell Information Structure Enhancement)
04 2011.01 5th version (GCT)
05 2011.12 6th version
1)Qualcomm Update
06 2012.07 7th version
1)Qualcomm Update
07 2013.12
8h version
1)Qualcomm Update (For Qualcomm Lte/LteAdv)
2)LTE KPI (Newly Added)
08 2014.05 9th Version
1) Qualcomm Update(Sampling Method)
XCAP-LTE Parameter Description Contents
© Innowireless Co., Ltd. Page 4
Contents
Introduction..................................................................................................... 3
Introduction of Appendix ......................................................................................... 3
History ..................................................................................................................... 3
Contents .......................................................................................................... 4
1. Qualcomm Lte/LteAdv .......................................................................... 10
1.1 Configuration Info ........................................................................................ 10
1.2 Power Info .................................................................................................... 20
1.3 Power Control Info ....................................................................................... 22
1.4 ML1 PUCCH Power Control (Per TTI) ............................................................ 23
1.5 ML1 PUSCH Power Control (Per TTI) ............................................................ 24
1.6 PDCCH DCI Format ....................................................................................... 24
1.7 Cell Search .................................................................................................... 25
1.8 Ant Correlation Result .................................................................................. 26
1.9 Intrafreq Measurement Info ......................................................................... 26
1.10 Interfreq Measurement Info ......................................................................... 30
1.11 Intrafreq Cell Reselection ............................................................................. 31
1.12 Timing Advance Info ..................................................................................... 32
1.13 Channel Quality Info ..................................................................................... 33
1.14 ML1 Downlink Info ....................................................................................... 34
1.15 ML1 Downlink(Uni) ....................................................................................... 36
1.16 ML1 Downlink(Uni+eMBMS) ......................................................................... 38
1.17 ML1 Uplink Info ............................................................................................ 40
1.18 PCell-SCell Gap(abs) ..................................................................................... 41
1.19 MAC SCell Act/Deact Info ............................................................................. 41
1.20 ML1 UL/DL Info Summary (In-Traffic) ......................................................... 41
XCAP-LTE Parameter Description Contents
© Innowireless Co., Ltd. Page 5
1.21 DL Scheduling Assignment ........................................................................... 42
1.22 Random Access Procedure ............................................................................ 43
1.23 MAC RACH Info ............................................................................................. 46
1.24 MAC Config Info ............................................................................................ 49
1.25 RLC Config Info ............................................................................................. 50
1.26 PDCP Config Info .......................................................................................... 51
1.27 Radio Link Monitoring Info ........................................................................... 53
1.28 PDSCH BLER Info .......................................................................................... 54
1.29 PUSCH BLER Info .......................................................................................... 55
1.30 PBCH BLER Info ............................................................................................ 55
1.31 PMCH BLER Info ............................................................................................ 55
1.32 PHICH AckNack Info ..................................................................................... 56
1.33 PDSCH HARQ Retx. Info ................................................................................ 57
1.34 PUSCH HARQ Retx. Info ................................................................................ 57
1.35 RLC Retx. Info .............................................................................................. 58
1.36 RLC DL AM ALL PDU(Per TTI)........................................................................ 58
1.37 RLC UL AM ALL PDU(Per TTI) ........................................................................ 59
1.38 RLC DL UM Data PDU(Per TTI) ...................................................................... 60
1.39 RLC UL UM Data PDU(Per TTI) ...................................................................... 60
1.40 PDCP DL Data PDU(Per TTI) ......................................................................... 61
1.41 PDCP UL Data PDU(Per TTI) ......................................................................... 61
1.42 NAS ESM Bearer Context Info ....................................................................... 61
1.43 NAS ESM Procedure State ............................................................................. 62
1.44 NAS EMM State ............................................................................................. 63
1.45 RRC Serving Cell Info .................................................................................... 63
1.46 RRC PLMN Search Info .................................................................................. 65
1.47 ML1 Serving Cell Info(Acquisition) ............................................................... 65
1.48 ML1 Paging DRX Info .................................................................................... 66
1.49 ML1 Sleep Info .............................................................................................. 67
1.50 ML1 CDRX Events Info(Per TTI) .................................................................... 67
1.51 ML1 UE Mobility State ................................................................................... 68
1.52 LL1 PDSCH Demod Config Info ...................................................................... 68
1.53 Physical Throughput ..................................................................................... 69
1.54 MAC Throughput ........................................................................................... 70
XCAP-LTE Parameter Description Contents
© Innowireless Co., Ltd. Page 6
1.55 RLC Throughput ............................................................................................ 70
1.56 PDCP Throughput ......................................................................................... 71
1.57 PMCH Throughput ......................................................................................... 72
1.58 LL1 PDSCH Demapper Config(PerTTI) .......................................................... 72
1.59 LL1 PUCCH Tx Report(PerTTI) ...................................................................... 74
1.60 LL1 PUSCH Tx Report(PerTTI) ...................................................................... 74
1.61 ML1 DCI Information Report(PerTTI) ........................................................... 76
1.62 LL1 PDCCH Decoding Result(Per TTI) ........................................................... 78
1.63 LL1 PDSCH Decoding Result(Per TTI) ........................................................... 81
1.64 LL1 PCFICH Decoding Results(Per TTI) ........................................................ 83
1.65 ML1 PMCH Decode Result(Per TTI) ............................................................... 83
1.66 ML1 ALL DL Channels Decode Result(Per TTI) .............................................. 84
1.67 ML1 PMCH Results Statistics ......................................................................... 85
1.68 ML1 Uplink PKT Build Indication (PerTTI) .................................................... 85
1.69 ML1 PDSCH Stat Indication(PerTTI) ............................................................. 86
1.70 ML1 PDCCH PHICH Ind Report(PerTTI) ........................................................ 87
1.71 ML1 GM Tx Report(Per TTI) .......................................................................... 88
1.72 MAC DL TB(Per TTI) ...................................................................................... 90
1.73 MAC UL TB(PerTTI) ....................................................................................... 92
1.74 ML1 TDD AckNack Report ............................................................................. 93
1.75 TDD KPI(Old) ................................................................................................ 94
1.76 TDD KPI(New) .............................................................................................. 95
1.77 HRPD Neighbor Measurements ..................................................................... 96
1.78 eMBMS Channel Whitened Matrices .............................................................. 96
2. LGE ....................................................................................................... 97
2.1 L1 Status Info ............................................................................................... 97
2.2 Serving Cell Signal Quality Info .................................................................... 98
2.3 Tx Power Info ............................................................................................... 98
2.4 RACH Info ..................................................................................................... 98
2.5 Timing Adjustment Info ................................................................................ 99
2.6 Cell Info ........................................................................................................ 99
2.7 Search Result.............................................................................................. 102
2.8 Channel Info ............................................................................................... 103
2.9 CQI Info ...................................................................................................... 103
XCAP-LTE Parameter Description Contents
© Innowireless Co., Ltd. Page 7
2.10 Multi-paths Profile ...................................................................................... 104
2.11 PBCH BLER .................................................................................................. 104
2.12 PDSCH BLER ............................................................................................... 104
2.13 PDCCH Detection Rate ................................................................................ 105
2.14 DL Grant & UL Ack/Nack Status Info (Improved) ....................................... 105
2.15 DL Grant & UL Ack/Nack Status Info (Improved)[Detail per TTI] .............. 106
2.16 UL Grant & DL Ack/Nack Status Info .......................................................... 107
2.17 UL Grant & DL Ack/Nack Status info [Detail per TTI] ................................. 108
2.18 PDSCH PHY Throughput .............................................................................. 109
2.19 UL PRB MAP Data Info ................................................................................ 109
2.20 PUSCH PHY Throughput .............................................................................. 109
2.21 L2 DL Throughput ....................................................................................... 110
2.22 L2 UL Throughput ....................................................................................... 110
2.23 PDSCH MAC BLER ........................................................................................ 111
2.24 RLC States Info ........................................................................................... 111
2.25 MAC State Info............................................................................................ 111
2.26 MAC UL Transmission Info .......................................................................... 112
2.27 RACH REQ Info ........................................................................................... 113
2.28 RACH RSP General Info ............................................................................... 113
2.29 RNTI Info.................................................................................................... 113
2.30 Serving Cell & Neighbor Cell Lists ............................................................... 114
2.31 NAS System Info ......................................................................................... 116
2.32 RRC BCH Status Info ................................................................................... 116
2.33 NAS State Info ............................................................................................ 116
2.34 NAS State Info(R4) ..................................................................................... 117
2.35 Radio & NAS Signaling Failure Info ............................................................. 117
2.36 RRC Freq Scan Info ..................................................................................... 117
2.37 Cell Reselection Info ................................................................................... 117
2.38 Handover History ........................................................................................ 118
2.39 Data Path Packet Loss ................................................................................ 118
2.40 ESM Instance Info ...................................................................................... 119
3. Samsung ............................................................................................. 120
3.1 Common Basic Info ..................................................................................... 120
3.2 Common Data Info ...................................................................................... 120
XCAP-LTE Parameter Description Contents
© Innowireless Co., Ltd. Page 8
3.3 LPHY N Cell Information ............................................................................. 121
3.4 LPHY Cell Search Info ................................................................................. 122
3.5 LPHY System Info ....................................................................................... 123
3.6 LPHY Channel Quality Info .......................................................................... 124
3.7 LPHY Parameter Info .................................................................................. 124
3.8 LPHY PHICH Info ........................................................................................ 125
3.9 LL1 RF & Sync Info ..................................................................................... 125
3.10 LL1 Downlink Info ...................................................................................... 125
3.11 LL1 Uplink Info ........................................................................................... 126
3.12 LL1 Measurement Config Info ..................................................................... 126
3.13 LL2 SCH Configuration Info ........................................................................ 126
3.14 Timer & Preamble Info ............................................................................... 126
3.15 Power Ramping & RA Supervision Info ....................................................... 127
3.16 Max HARQ Msg3Tx & RACH Info ................................................................. 127
3.17 LL2 RNTI Info ............................................................................................. 127
3.18 LL2 RLC Info ............................................................................................... 128
3.19 LL2 PDCP Info ............................................................................................. 128
3.20 LRRC Serving Cell Info ................................................................................ 129
3.21 LRRC State Variables Info ........................................................................... 129
3.22 LRRC Timer Info ......................................................................................... 130
3.23 LNAS State Variables Info ........................................................................... 131
3.24 LNAS MM(SIM/PLMN/Security) Info .......................................................... 131
3.25 LNAS PDP/IP Info ...................................................................................... 132
3.26 LDATA Throughput Info .............................................................................. 132
3.27 LDATA Timing Info ...................................................................................... 132
4. GCT ..................................................................................................... 133
4.1 L1 Status Info ............................................................................................. 133
4.2 Serving Cell Signal Quality Info .................................................................. 134
4.3 Tx Power Info ............................................................................................. 134
4.4 RACH Info ................................................................................................... 134
4.5 Timing Adjustment Info .............................................................................. 135
4.6 Cell Info ...................................................................................................... 135
4.7 Search Result.............................................................................................. 138
4.8 Channel Info ............................................................................................... 139
XCAP-LTE Parameter Description Contents
© Innowireless Co., Ltd. Page 9
4.9 CQI Info ...................................................................................................... 139
4.10 Multi-paths Profile ...................................................................................... 140
4.11 PBCH BLER .................................................................................................. 140
4.12 PDSCH BLER ............................................................................................... 140
4.13 PDCCH Detection Rate ................................................................................ 141
4.14 DL Grant & UL Ack/Nack Status Info (Improved) ....................................... 141
4.15 DL Grant & UL Ack/Nack Status Info (Improved)[Detail per TTI] .............. 143
4.16 UL Grant & DL Ack/Nack Status Info .......................................................... 144
4.17 UL Grant & DL Ack/Nack Status info [Detail per TTI] ................................. 145
4.18 PDSCH PHY Throughput .............................................................................. 145
4.19 UL PRB MAP Data Info ................................................................................ 146
4.20 PUSCH PHY Throughput .............................................................................. 146
4.21 L2 DL Throughput ....................................................................................... 147
4.22 L2 UL Throughput ....................................................................................... 147
4.23 PDSCH MAC BLER ........................................................................................ 148
4.24 RLC States Info ........................................................................................... 148
4.25 MAC State Info............................................................................................ 148
4.26 MAC UL Transmission Info .......................................................................... 149
4.27 RACH REQ Info ........................................................................................... 150
4.28 RACH RSP General Info ............................................................................... 150
4.29 RNTI Info.................................................................................................... 150
4.30 Serving Cell & Neighbor Cell Lists ............................................................... 151
4.31 NAS System Info ......................................................................................... 153
4.32 RRC BCH Status Info ................................................................................... 153
4.33 NAS State Info ............................................................................................ 153
4.34 NAS State Info(R4) ..................................................................................... 154
4.35 Radio & NAS Signaling Failure Info ............................................................. 154
4.36 RRC Freq Scan Info ..................................................................................... 154
4.37 Cell Reselection Info ................................................................................... 154
4.38 Handover History ........................................................................................ 155
4.39 Data Path Packet Loss ................................................................................ 155
4.40 ESM Instance Info ...................................................................................... 156
5. LTE KPI ............................................................................................... 157
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
1. Qualcomm Lte/LteAdv
1.1 Configuration Info Parameter Description Sampling Method
DL Common>
TDD Common
Config Subframe
Assignment
0 – SUBFRAME_ASSIGN_0
1 – SUBFRAME_ASSIGN_1
2 – SUBFRAME_ASSIGN_2
3 – SUBFRAME_ASSIGN_3
4 – SUBFRAME_ASSIGN_4
5 – SUBFRAME_ASSIGN_5
6 – SUBFRAME_ASSIGN_6
X
Special Subframe
Patterns
0 – SPECIAL_SUBFRAME_PATTERN_0
1 – SPECIAL_SUBFRAME_PATTERN _1
2 – SPECIAL_SUBFRAME_PATTERN _2
3 – SPECIAL_SUBFRAME_PATTERN _3
4 – SPECIAL_SUBFRAME_PATTERN _4
5 – SPECIAL_SUBFRAME_PATTERN _5
6 – SPECIAL_SUBFRAME_PATTERN _6
7 – SPECIAL_SUBFRAME_PATTERN_7
8 – SPECIAL_SUBFRAME_PATTERN_8
X
DL Common>
UL CP Config UL CP
0 – NORMAL_CP
1 – EXTENDED_CP
X
DL Common>
UL Config
UL EARFCN UL Cell earfcn (18000 <= Range <= 39649) X
UL Bandwidth
Uplink bandwidth
6 (RBs) – 1.4 MHz
15 (RBs) – 3 MHz
25 (RBs) – 5 MHz
50 (RBs) – 10 MHz
75 (RBs) – 15 MHz
100 (RBs) – 20 MHz
X
Additional
Spectrum
Emission
Additional Spectrum Emission (Range is 1 to
32)
X
DL Common>
MIB info
Num ENB Ant
Ports Valid values – 1, 2, 4
X
PHICH Duration
PHICH-Duration
0 – PHICH_NORMAL
1 – PHICH_EXTENDED
X
PHICH Resource
Ng (HICH group multiplier)
0 – 1/6
1 – 1/2
2 – 1
3 – 2
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 11
Parameter Description Sampling Method
DL Common>
PDSCH Config
Reference Signal
Power
Downlink Reference-signal transmit power
(Range is -60 to 50 dBm)
X
P-b
P_B indicates the ratio of PDSCH-to-RS EPRE
in symbols with and without reference
symbols for 1, 2 or 4 cell specific antenna
ports
0 – PB0 = (1, 1), (2, 5/4), (4, 5/4)
1 – PB1 = (1, 4/5), (2, 1), (4, 1)
2 – PB2 = (1, 3/5), (2, 3/4), (4, 3/4)
3 – PB3 = (1, 2/5), (2, 1/2), (4, 1/2)
4 – PB_FW_HYPOTHESIS
X
DL Common>
MBSFN
Config>
Config[x]
Allocation Offset allocation offset (Range is 0 to 7) X
Allocation Period
allocation period
0 – 1 radio frame
1 – 2 radio frames
2 – 4 radio frames
3 – 8 radio frames
4 – 16 radio frames
5 – 32 radio frames
X
Sub-Fn Allocation
Type
subfn allocation type
Type 0 – MBSFN allocation one frame
Type 1 – MBSFN allocation four frames
X
Sub-Fn Allocation
Mask
subfn allocation mask based on subfn
allocation type
- First 6 bits (least significant bits) for Type 0
- All 24 bits for Type 1
- Total 24 bits mask
X
DL
Dedicated>
PDCCH TPC
Config for
PUCCH
TPC-RNTI
RNTI for PUCCH power control using DCI
format 3/3A
(Range is 0001-003C, 003D-FFF3)
X
DCI Format
DCI format 3 or 3A used for TPC Index
0 – DCI Format3
1 – DCI Format3A
X
TPC Index
Index of N or M
(Range is [1-15] for DCI format 3 and [1-31]
for format 3A)
X
DL
Dedicated>
PDCCH TPC
Config for
PUSCH
TPC-RNTI
RNTI for PUSCH power control using DCI
format 3/3A
(Range is 0001-003C, 003D-FFF3)
X
DCI Format
DCI format 3 or 3A used for TPC Index
0 – DCI Format3
1 – DCI Format3A
X
TPC Index
Index of N or M
(Range is [1-15] for DCI format 3 and [1-31]
for format 3A)
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 12
Parameter Description Sampling Method
Antenna
Config
Codebook Subset
Restriction
A bitmask of the codebook restriction. The
number of bits used in the restriction varies
with the transmission mode
n2TxAntenna-tm3 : 2
n4TxAntenna-tm3 : 4
n2TxAntenna-tm4 : 6
n4TxAntenna-tm4 : 64
n2TxAntenna-tm5 : 4
n4TxAntenna-tm5 : 16
n2TxAntenna-tm6 : 4
n4TxAntenna-tm6 : 16
X
Transmission
Mode
Transmission mode
1 – Tx mode 1
2 – Tx mode 2
3 – Tx mode 3
4 – Tx mode 4
5 – Tx mode 5
6 – Tx mode 6
7 – Tx mode 7
X
Tx Ant Selection
Control
0 – Closed loop
1 – Open loop
X
DL
Dedicated>
PDSCH Config
P-a
P-a
0 – - 6 dB
1 – - 4.77 dB
2 – - 3 dB
3 – - 1.77 dB
4 – 0 dB
5 – 1 dB
6 – 2 dB
7 – 3 dB
8 – PA_FW_HYPOTHESIS
X
DL
Dedicated>
UE-related
Config
C-RNTI C- RNTI value
(Range is 0001-003C, 003D-FFF3)
X
UL Common>
PUSCH Config n_sb
n_sb
0x0 - 1 to 0x3 – 4
X
Hopping Mode
Hopping-mode
0x0 - Inter subframe
0x1 - Intra and inter subframe
X
Hopping Offset Hopping offset
(Range is 0 to 98)
X
Enable 64 QAM 1 indicates that 64 QAM is enabled while 0
indicates that no 64 QAM is allowed
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 13
Parameter Description Sampling Method
Group Hopping
Enabled
Group-hopping-enabled
1 indicates that Group Hopping is enabled
while 0 Indicates that Group Hopping is
disabled
X
Group
Assignment
PUSCH
Group Assignment PUSCH (Range is 0 to 29)
X
Sequence
Hopping Enabled
Sequence-hopping-enabled
1 indicates that Sequence Hopping is enabled
while 0 Indicates that Sequence Hopping is
disabled
X
Cyclic Shift Cyclic Shift (Range is 0 to 7) X
UL Common>
PUCCH Config
Delta Shift Delta Shift (Range is 1 to 3) X
n_rb_cqi n_rb_cqi (Range is 0 to 98) X
n_cs_an n_cs_an (Range is 0 to 7) X
n1_pucch_an n1_pucch_an (Range is 0 to 2047) X
UL Common>
SRS Config SRS Enabled
0x0 – Disable
0x1 – Enable
X
SRS Bandwidth
Config
SRS Bandwidth Configuration (Range is 0 to
7)
X
SRS Subframe
Config
SRS subframe Configuration (Range is 0 to
15)
X
Simultaneous
ACK/NAK SRS
Simultaneous-AN-and-SRS
1 indicates that Simultaneous transmission of
ACK/NAK and SRS is enabled while 0
Indicates that it is disabled
X
SRS Max UpPts
SRS Max Uplink Pilot Time Slot
1 indicates reconfiguration is enabled for
UpPts while 0 indicates that reconfiguration is
disabled.
X
UL
Dedicated>
SRS Config
SRS Enabled 0x0 – Disable
0x1 – Enable
X
SRS Bandwidth SRS Bandwidth (Range is 0 to 3) X
SRS Hopping
Bandwidth SRS hopping bandwidth (Range is 0 to 3)
X
Freq Domain
Position Frequency Domain Position (Range is 0 to 23)
X
Duration 0 corresponds to single and value 1 to
indefinite (Range is 0 to 1)
X
SRS Config Index SRS Config Index (Range is 0 to 1023) X
Tx Combination Tx Combination (Range is 0 to 1) X
Cyclic Shift Cyclic Shift (Range is 0 to 7) X
UL
Dedicated> CQI Enabled
0x0 – Disable
0x1 – Enable
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 14
Parameter Description Sampling Method
CQI Config
CQI Reporting
Mode Aperiodic
CQI Reporting Mode Aperiodic
0x0 – Mode12
0x1 – Mode20
0x2 – Mode22
0x3 – Mode30
0x4 – Mode31
X
CQI Reporting
Periodic Present
0x0 – Not Present
0x1 - Present
X
CQI Format
Indicator
PUCCH CQI Feedback Type
0x0 – Wideband CQI
0x1 – Subband CQI
X
Nominal PDSCH
RS EPRE Offset
Nominal PDSCH RS EPRE Offset
(Range is -1 to 6)
X
CQI PUCCH
Resource Index
CQI PUCCH Resource Index
(Range is 0 to 1185)
X
RI Config Index RI Config Index
(Range is 1 to 1023)
X
K K (Range is 1 to 4) X
Simultaneous
AckNack and CQI
Simultaneous-AN-and-CQI
1 indicates that simultaneous transmission of
ACK/NACK and CQI is allowed and 0 indicates
that it is not.
X
CQI-PMI Config
Index
CQI/PMI Periodicity and offset Configuration
Index (Range is 0 to 1023)
X
UL
Dedicated>
Antenna
Config Transmission
Mode
Transmission mode
1 – Tx mode 1
2 – Tx mode 2
3 – Tx mode 3
4 – Tx mode 4
5 – Tx mode 5
6 – Tx mode 6
7 – Tx mode 7
X
Tx Ant Selection
Enabled
0 indicates that UE transmit antenna
selection is disabled. If 1, then the field
indicates whether UE transmit antenna
selection control is closed-loop or open-loop
X
Tx Ant Selection
Control
0 indicates closed loop and 1 indicates open
loop
X
Codebook Subset
Restriction Codebook Subset Restriction
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 15
Parameter Description Sampling Method
GM Common>
UL Frequency
Config
Cell Frequency
ul-EARFCN
For FDD – Default value determined from
default
Tx-RX frequency separation defined in
[36.101]
For TDD – This parameter is absent and it is
equal to the downlink frequency.
X
Bandwidth Uplink bandwidth X
Additional
Spectrum
Emission
Additional Spectrum Emission (Range is 0 to
31)
X
GM Common>
PUCCH Config
PUCCH Delta
Shift PUCCH Delta Shift (Range is 1 to 3)
X
n_rb_cqi n_rb_cqi (Range is 0 to 98) X
n_cs_an n_cs_an (Range is 0 to 7) X
n1_pucch_an n1_pucch_an (Range is 0 to 2047) X
GM Common>
UL Power
Control Config
P0 Nominal
PUSCH P0 Nominal PUSCH (Range is -126 to 24)
X
Alpha
Alpha
0x0 – 0
0x1 – 0.4
0x2 – 0.5
0x3 – 0.6
0x4 – 0.7
0x5 – 0.8
0x6 – 0.9
0x7 – 1.0
X
P0 Nominal
PUCCH
P0 Nominal PUCCH (Range is -127 to -96)
actual value = IE value * 2 [dB]
X
Delta Preamble
MSG3 Delta Preamble MSG3
X
Delta TF List
PUCCH Format 1 Delta TF List PUCCH Format 1
X
Delta TF List
PUCCH Format 1b Delta TF List PUCCH Format 1b
X
Delta TF List
PUCCH Format 2 Delta TF List PUCCH Format 2
X
Delta TF List
PUCCH Format 2a Delta TF List PUCCH Format 2a
X
Delta TF List
PUCCH Format 2b Delta TF List PUCCH Format 2b
X
GM Common>
SRS Config SRS Enabled
0x0 – Disable
0x1 – Enable
X
SRS Bandwidth
Config
SRS bandwidth configuration (Range is 0 to
7)
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 16
Parameter Description Sampling Method
SRS Subframe
Config
SRS subframe configuration (Range is 0 to
15)
X
Simultaneous
ACK/NAK SRS
Simultaneous-AN-and-SRS
1 indicates that Simultaneous transmission of
ACK/NAK and SRS is enabled while 0
Indicates that it is disabled
X
SRS Max UpPts
SRS Max Uplink Pilot Time Slot
1 indicates reconfiguration is enabled for
UpPts while 0 indicates that reconfiguration is
disabled
X
GM Common>
UL Cyclic
Prefix Config
UL Cyclic Prefix
Length
Uplink cyclic prefix length
0 corresponds to normal cyclic prefix and 1
corresponds to extended cyclic prefix
X
GM Common>
PUSCH Config Enable 64 QAM
0x0 – Disable
0x1 – Enable
X
GM
Dedicated>
SR Config
SR Enabled 0x0 – Disable
0x1 – Enable
X
SR PUCCH
Resource Index
SR PUCCH Resource Index (Range is 0 to
2047)
X
SR Config Index SR Config Index (Range is 0 to 155) X
SR Max
Transmissions
SR Max Transmissions(DSR_TRANS_MAX)
(Range is 4 to 64)
X
GM
Dedicated>
CQI Config
CQI Enabled 0x0 – Disable
0x1 – Enable
X
CQI Reporting
Mode Aperiodic
CQI Reporting Mode Aperiodic
0x0 – Mode12
0x1 – Mode20
0x2 – Mode22
0x3 – Mode30
0x4 – Mode31
X
Nominal PDSCH
RS EPRE Offset
Nominal PDSCH RS EPRE Offset
(Range is -1 to 6)
X
CQI Reporting
Periodic Present
0x0 – Not Present
0x1 - Present
X
CQI Reporting
Periodic Enabled
0x0 – Disable
0x1 – Enable
X
CQI Format
Indicator
PUCCH CQI Feedback Type
0x0 – Wideband CQI
0x1 – Subband CQI
X
Simultaneous
AckNack and CQI
Simultaneous-AN-and-CQI
1 indicates that simultaneous transmission of
ACK/NACK and CQI is allowed and 0 indicates
that it is not
X
CQI PUCCH
Resource Index
CQI PUCCH Resource Index
(Range is 0 to 1185)
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 17
Parameter Description Sampling Method
RI Config Index RI Config Index
(Range is 1 to 1023)
X
K K (Range is 1 to 4) X
CQI-PMI Config
Index
CQI/PMI Periodicity and offset Configuration
Index
(Range is 0 to 1023)
X
GM
Dedicated>
SRS Config
SRS Enabled 0x0 – Disable
0x1 – Enable
X
SRS Bandwidth SRS Bandwidth (Range is 0 to 3) X
SRS Hopping
Bandwidth SRS hopping bandwidth (Range is 0 to 3)
X
Freq Domain
Position Frequency Domain Position (Range is 0 to 23)
X
Duration 0 corresponds to single and value 1 to
indefinite (Range is 0 to 1)
X
Tx Combination Tx Combination (Range is 0 to 1) X
Cyclic Shift Cyclic Shift (Range is 0 to 7) X
SRS Config Index SRS Config Index (Range is 0 to 1023) X
GM
Dedicated>
PHR Config
PHR Enabled 0x0 – Disable
0x1 – Enable
X
Periodic PHR
Timer
PERIODIC_PHR_TIMER Value in number of
subframes (Range is 0 to 1000).
X
Prohibit PHR
Timer
PROHIBIT PHR TIMER Value in number of
subframes (Range is 0 to 1000).
X
DL Pathloss
Change Threshold
DL Pathloss Change Value in dB
(Range is 0 to 6)
X
GM
Dedicated>
PUSCH TPC
Config
PUSCH TPC
Enabled
0x0 – Disable
0x1 – Enable
X
PUSCH TPC DCI
Format
0x0 - Format 3
0x1 – Format 3a
X
PUSCH TPC Index
Index of N or M
N or M is dependent on the used DCI format
(Range is 1 to 31)
X
PUSCH TPC-RNTI RNTI for PUSCH power control using DCI
format 3/3A
X
GM
Dedicated>
PUCCH TPC
Config
PUCCH TPC
Enabled
0x0 – Disable
0x1 – Enable
X
PUCCH TPC DCI
Format
0x0 - Format 3
0x1 – Format 3a
X
PUCCH TPC Index
Index of N or M
N or M is dependent on the used DCI format
(Range is 1 to 31)
X
PUCCH TPC-RNTI RNTI for PUCCH power control using DCI
format 3/3A
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 18
Parameter Description Sampling Method
GM
Dedicated> UL
SCH Config
MAX HARQ
Transmissions max-HARQ-Tx (Range is 1 to 28)
X
TTI Bundling
Enabled
Configures TTI bundling on and OFF; can be
configured for FDD and for TDD only for
configurations 0, 1 and 6
X
GM
Dedicated> UL
Power Control
Config
Accumulation
Enabled
Accumulation-enabled
1 corresponds to enabled, whereas 0
corresponds to disabled
X
P0 UE PUSCH P0 UE PUSCH (Range is -8 to 7) X
P0 UE PUCCH P0 UE PUCCH (Range is -8 to 7) X
Delta MCS
Enabled
Delta MCS Enabled
0 corresponds to value 0 corresponding to
state disabled; 1 corresponds to value 1.25
corresponding to enabled
X
P_SRS Offset
P_SRS Offset
For Ks=1.25, the actual parameter value is
pSRS-offset value – 3. For Ks=0, the actual
parameter value is -10.5 + 1.5*pSRS-offset
value.
X
GM
Dedicated>
PUSCH Config
Delta Offset ACK
Index Delta Offset ACK Index (Range is 0 to 15)
X
Delta Offset CQI
Index Delta Offset CQI Index (Range is 0 to 15)
X
Delta Offset
Index Delta Offset Index (Range is 0 to 15)
X
GM
Dedicated>
PUCCH Config
PUCCH Cfg
Enabled
0x0 – Disable
0x1 – Enable
X
ACK/NAK
Feedback Mode
ACK/NAK Feedback Mode
Parameter indicates one of the two TDD
ACK/NACK feedback modes used.
0 corresponds to use of ACK/NACK bundling,
whereas 1 corresponds to ACK/NACK
multiplexing The same value applies to both
ACK/NACK feedback modes on PUCCH as well
as on PUSCH.
X
ACK/NAK
Repetition Factor
ACK/NAK Repetition Factor
Parameter indicates whether ACK/NACK
repetition is enable or disabled (Range is 2 to
6).
X
n1_PUCCH_ANRe
p
PUCCH Resource for ACK/NAK Repetition
(Range is 0 to 2047)
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 19
Parameter Description Sampling Method
GM
Dedicated>
Antenna
Config Transmission
Mode
Transmission mode
1 – Tx mode 1
2 – Tx mode 2
3 – Tx mode 3
4 – Tx mode 4
5 – Tx mode 5
6 – Tx mode 6
7 – Tx mode 7
X
Tx Ant Selection
Enabled
0 indicates that UE transmit antenna
selection is disabled. If 1, then the field
indicates whether UE transmit antenna
selection control is closed-loop or open-loop.
X
Tx Ant Selection
Control
0 indicates closed loop and 1 indicates open
loop
X
Codebook Subset
Restriction Codebook Subset Restriction
X
GM
Dedicated>
CDRX Config
CDRX Enable 0x0 – Disable
0x1 – Enable
X
On Duration
Timer
On Duration Timer
pdcch subframes (Maximum value 200)
X
Inactivity Timer Inactivity Timer
pdcch subframes (Maximum value 2560)
X
DL DRX Retx
Timer
DL DRX Retx Timer
pdcch subframes (Maximum value 33)
X
Long Cycle Len Long Cycle Len
pdcch subframes (Maximum value 2560)
X
Cycle Start Offset Cycle Start Offset
pdcch subframes (Maximum value 2559)
X
Short DRX Cycle
Enable
0x0 – Disable
0x1 – Enable
X
Short DRX Cycle
Len
Short DRX Cycle Len
pdcch subframes (Maximum value 640)
X
Short DRX Timer Short DRX Timer
pdcch subframes (Maximum value 16)
X
PRACH
Logical Root Seq
Index
Logical Root ZadOFF-Chu Sequence number
for various preamble formats
Range is 0 to 837 for Preamble Format 0-3
Range is 0 to 137 for Preamble Format 4
X
RA Preamble
Timing
Random Access Preamble timing for a range
of Preamble Formats (Range is 0 to 15)
X
High Speed Flag
Controls grouping of preamble sequences in
two sets, to differentiate a high speed UE
from normal
X
PRACH Frequency
Offset
Frequency Resource offset (Range is 0 to
104)
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 20
Parameter Description Sampling Method
Max
Transmissions
MSG3
Maximum number of HARQ re-transmissions
from UE for RACH message3 (Range is 1 to
8)
X
Cyclic Shift Zone
Length
Cyclic Shifts for various Preamble Formats
Range is 0 to15 for Preamble Formats 0-3
Range is 0 to 6 for Pramble Format 4
X
RA Response
Window Size
Window size for reception of RACH message2
(Range is 2 to 10)
X
TDD
Subframe
Assignment
0 – SUBFRAME_ASSIGN_0
1 – SUBFRAME_ASSIGN_1
2 – SUBFRAME_ASSIGN_2
3 – SUBFRAME_ASSIGN_3
4 – SUBFRAME_ASSIGN_4
5 – SUBFRAME_ASSIGN_5
6 – SUBFRAME_ASSIGN_6
X
Special Subframe
Patterns
0 – SPECIAL_SUBFRAME_PATTERN_0
1 – SPECIAL_SUBFRAME_PATTERN _1
2 – SPECIAL_SUBFRAME_PATTERN _2
3 – SPECIAL_SUBFRAME_PATTERN _3
4 – SPECIAL_SUBFRAME_PATTERN _4
5 – SPECIAL_SUBFRAME_PATTERN _5
6 – SPECIAL_SUBFRAME_PATTERN _6
7 – SPECIAL_SUBFRAME_PATTERN_7
8 – SPECIAL_SUBFRAME_PATTERN_8
X
1.2 Power Info Parameter Description Sampling Method
Pri. Component Carrier: Primary Component Carrier(PCell)
RSSI(In-band) Ant0
RSSI(In-band) for Ant0 (Range: -120
dBm to -10 dBm)
Arithmetic average
Tools>Options: Sampling Method
Ant1 RSSI(In-band) for Ant1 (Range: -120
dBm to -10 dBm)
Arithmetic average
Tools>Options: Sampling Method
Comb [RSSI(In-band)>Ant0 + RSSI(In-
band)>Ant1]/2
Arithmetic average
Tools>Options: Sampling Method
RSSI(Total
Band) Ant0
RSSI(Total Band) for Ant0 (Range: -
120 dBm to -10 dBm)
Arithmetic average
Tools>Options: Sampling Method
Ant1 RSSI(Total Band) for Ant1 (Range: -
120 dBm to -10 dBm)
Arithmetic average
Tools>Options: Sampling Method
Comb [RSSI(Total Band)>Ant0 + RSSI(Total
Band)>Ant1]/2
Arithmetic average
Tools>Options: Sampling Method
RSSI(Broadban
d) Ant0
RSSI(Broadband) for Ant0 (Range: -
120 dBm to -10 dBm)
Arithmetic average
Tools>Options: Sampling Method
Ant1 RSSI(Broadband) for Ant1 (Range: -
120 dBm to -10 dBm)
Arithmetic average
Tools>Options: Sampling Method
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 21
Parameter Description Sampling Method
Comb [RSSI(Broadband)>Ant0 +
RSSI(Broadband)>Ant1]/2
Arithmetic average
Tools>Options: Sampling Method
Tx Power PUSCH
PUSCH Tx Power (Range: -112 dBm to
23 dBm)
Arithmetic average
Tools>Options: Sampling Method
PUCCH PUCCH Tx Power (Range: -112 dBm to
23 dBm)
Arithmetic average
Tools>Options: Sampling Method
PRACH PRACH Tx Power (Range: -112 dBm to
23 dBm)
MAX
SRS SRS Tx Power (Range: -112 dBm to 23
dBm)
Arithmetic average
Tools>Options: Sampling Method
AGC
Total AGC Total Tx Power (Range:
-70 dBm to 32.3 dBm)
Arithmetic average
Tools>Options: Sampling Method
PUSCH UL physical channel type:
PUSCH Tx output power
Arithmetic average
Tools>Options: Sampling Method
PUCCH UL physical channel type:
PUCCH Tx output power
Arithmetic average
Tools>Options: Sampling Method
PRACH UL physical channel type:
PRACH Tx output power
Arithmetic average
Tools>Options: Sampling Method
SRS UL physical channel type:
SRS Tx output power
Arithmetic average
Tools>Options: Sampling Method
SRS
UpPTS
UL physical channel type:
SRS UpPTS Tx output power
Arithmetic average
Tools>Options: Sampling Method
min(PMAX,TxPo
wer) PUSCH
PUSCH Tx Power (Range: -112 dBm to
PMAX dBm)
Arithmetic average
Tools>Options: Sampling Method
PUCCH PUCCH Tx Power (Range: -112 dBm to
PMAX dBm)
Arithmetic average
Tools>Options: Sampling Method
PRACH PRACH Tx Power (Range: -112 dBm to
PMAX dBm)
Arithmetic average
Tools>Options: Sampling Method
SRS SRS Tx Power (Range: -112 dBm to 23
dBm)
Arithmetic average
Tools>Options: Sampling Method
AGC
Total AGC Total Tx Power (Range:
-70 dBm to PMAX dBm)
Arithmetic average
Tools>Options: Sampling Method
PUSCH UL physical channel type:
PUSCH Tx output power
Arithmetic average
Tools>Options: Sampling Method
PUCCH UL physical channel type:
PUCCH Tx output power
Arithmetic average
Tools>Options: Sampling Method
PRACH UL physical channel type:
PRACH Tx output power
Arithmetic average
Tools>Options: Sampling Method
SRS UL physical channel type:
SRS Tx output power
Arithmetic average
Tools>Options: Sampling Method
SRS
UpPTS
UL physical channel type:
SRS UpPTS Tx output power
Arithmetic average
Tools>Options: Sampling Method
DL Pathloss Downlink path loss computed in the UE
Arithmetic average
Tools>Options: Sampling Method
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 22
Parameter Description Sampling Method
Power
Headroom
Uplink power headroom value
Range: -23 dB to 40 dB
Arithmetic average
Tools>Options: Sampling Method
Sec. Component Carrier: Secondary Component Carrier(SCell)
Sec.
Component
Carrier>RSSI(In
-band)
Ant0
RSSI(In-band) for Sec. Component
Carrier Ant0
(Range: -120 dBm to -10 dBm)
Arithmetic average
Tools>Options: Sampling Method
Ant1
RSSI(In-band) for Sec. Component
Carrier Ant1
(Range: -120 dBm to -10 dBm)
Arithmetic average
Tools>Options: Sampling Method
Comb [RSSI(In-band)>Ant0 + RSSI(In-
band)>Ant1]/2
Arithmetic average
Tools>Options: Sampling Method
Sec.
Component
Carrier>
RSSI(Total
Band)
Ant0
RSSI(Total Band) for Sec. Component
Carrier Ant0
(Range: -120 dBm to -10 dBm)
Arithmetic average
Tools>Options: Sampling Method
Ant1
RSSI(Total Band) for Sec. Component
Carrier Ant1
(Range: -120 dBm to -10 dBm)
Arithmetic average
Tools>Options: Sampling Method
Comb [RSSI(Total Band)>Ant0 + RSSI(Total
Band)>Ant1]/2
Arithmetic average
Tools>Options: Sampling Method
Sec.
Component
Carrier>
RSSI(Broadban
d)
Ant0
RSSI(Broadband) for Sec. Component
Carrier Ant0
(Range: -120 dBm to -10 dBm)
Arithmetic average
Tools>Options: Sampling Method
Ant1
RSSI(Broadband) for Sec. Component
Carrier Ant1
(Range: -120 dBm to -10 dBm)
Arithmetic average
Tools>Options: Sampling Method
Comb [RSSI(Broadband)>Ant0 +
RSSI(Broadband)>Ant1]/2
Arithmetic average
Tools>Options: Sampling Method
1.3 Power Control Info Parameter Description Sampling Method
PUSCH>TPC
Command
TPC to be applied on current subframe 0x0F stands for TPC
not present
Range is -6 to 8
Mode
PUSCH>DL Path
Loss PUSCH Downlink path loss computed
Arithmetic average
PUSCH>Tx
Type
PUSCH Tx type
– Semi-persistent
– Dynamic
– RACH MSG3
Mode
PUSCH>f(i) Power control accumulation factor
Range is -141 to +141
Last
PUSCH>DCI Count DCI Format 0/1/1A/1B/1C/2/2A/3/3A Sum
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 23
Parameter Description Sampling Method
Format
Percentage DCI Format 0/1/1A/1B/1C/2/2A/3/3A
(Number of DCI Format
0)/ Total DCI Format
Count * 100(%)
PUCCH>TPC
Command
TPC to be applied on current subframe 0x1F stands for TPC
not present. Range is -9 to 27
Mode
PUCCH>DL Path
Loss PUCCH Downlink path loss computed
Arithmetic average
PUCCH g(i) PUCCH power accumulation factor
Range is -141 to +141
Last
PUCCH>DCI
Format
Count DCI Format 0/1/1A/1B/1C/2/2A/3/3A Sum
Percentage DCI Format 0/1/1A/1B/1C/2/2A/3/3A
(Number of DCI Format
0)/ Total DCI Format
Count * 100(%)
PUCCH>PUCCH
Format(UCI)
Count Format 1/1A/1B/2/2A/2B Sum
Percentage Format 1/1A/1B/2/2A/2B
(Number of Format 1)/
Total PUCCH Format
Count * 100(%)
1.4 ML1 PUCCH Power Control (Per TTI) Parameter Description Sampling Method
Tx SFN Tx System Frame Number X
Tx Sub-fn Tx Subframe Number X
DCI Format 0x0 – DCI Format 0
0x1 – DCI Format 1
0x2 – DCI Format 1a
0x3 – DCI Format 1b
0x4 – DCI Format 1c
0x5 – DCI Format 1d
0x6 – DCI Format 2
0x7 – DCI Format 2a
0x8 – DCI Format 3
0x9 – DCI Format 3a
X
PUCCH Format(UCI) 0x0 - Format 1
0x1 - Format 1a
0x2 - Format 1b
0x3 – Format 2
0x4 –Format 2a
0x5 - Format 2b
0x6 – N/A
X
Number of HARQ bits Number of HARQ information X
Number of CQI bits Number of Channel Quality Indicator bits X
DL Pathloss DL Pathloss X
g(i) Sum of current TPC and previous TCP X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 24
Parameter Description Sampling Method
TPC Transmit Power Control X
PUCCH Tx Power Calculated Tx Power X
PUCCH Tx
Power(Actual) Actual Tx Power
X
1.5 ML1 PUSCH Power Control (Per TTI) Parameter Description Sampling Method
Tx SFN Tx System Frame Number X
Tx Sub-fn Tx Subframe Number X
DCI Format 0x0 – DCI Format 0
0x1 – DCI Format 1
0x2 – DCI Format 1a
0x3 – DCI Format 1b
0x4 – DCI Format 1c
0x5 – DCI Format 1d
0x6 – DCI Format 2
0x7 – DCI Format 2a
0x8 – DCI Format 3
0x9 – DCI Format 3a
X
Tx Type 0x0 – Semi-persistent
0x1 – Dynamic
0x2 – RACH MSG3
X
Transport Block
Size Transport Block Size
X
DL Pathloss DL Pathloss X
f(i) Sum of current TPC and previous TCP X
TPC Transmit Power Control X
PUSCH Tx Power Calculated Tx Power X
PUSCH Tx
Power(Actual) Actual Tx Power
X
1.6 PDCCH DCI Format Parameter Description Sampling Method
Count DCI Format 0/1/1A/1B/1C/2/2A/3/3A Count
In PUCCH+PUSCH Power Control, DCI format of the
decoded PDCCH
Sum
Percentage
DCI Format 0/1/1A/1B/1C/2/2A/3/3A Percentage
(Number of DCI Format
0)/ Total DCI Format
Count * 100(%)
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 25
1.7 Cell Search Parameter Description Sampling Method
PSS> Dominant
PSS Peak Value
Dominant PSS Peak value
10log10(x/128) in units of dB
Max
PSS> Dominant
PSS Peak Position Sample position with 5 ms resolution (Range is 0 to
(9600-1))
Peak Position value of
Dominant PSS Peak
Value
PSS> Dominant
PSS Indices PSS Index (Range is 0 to 2)
PSS Indices value of
Dominant PSS Peak
Value
SSS> Dominant
PCI Dominant Cell ID(PCI)
Cell ID value of
Dominant SSS Peak
Value
SSS> Dominant
EARFCN Dominant EARFCN
EARFCN value of
Dominant SSS Peak
Valu
SSS> Dominant
SSS Peak Value
Dominant SSS Peak Value
10log10(x/256) in units of dB
Max
SSS> Dominant
SSS Position Start of SSS sequence in search sample server.
Range is 0 to (search sample server length -1)
Peak Position value of
Dominant SSS Peak
Value
SSS> Dominant
Frame Boundary 64 bit frame boundary RTC counter of Dominant PCI
D Frame Boundary
value of ominant SSS
Peak Value
SSS> Dominant CP Cyclic prefix used of Dominant PCI
0 – normal CP
1 – extended CP
CP value of Dominant
SSS Peak Value
SSS> Detected
Cell Info> EARFCN
#> PCI#
SSS Peak Value SSS Peak value per PCI per EARFCN Max
SSS Position SSS Position per PCI SSS Position value of
SSS Peak Value
Frame
Boundary
64 bit frame boundary RTC counter
per PCI per EARFCN
Frame Boundary value
of SSS Peak Value
CP
Cyclic prefix used per PCI per
EARFCN
0 – normal CP
1 – extended CP
CP value of SSS Peak
Valu
Half Frame
Hypothesis
Half Frame Hypothesis per PCI per
EARFCN
0 – Preamble
1 – MIDamble
Half Frame Hypothesis
value of SSS Peak
Value
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 26
1.8 Ant Correlation Result Parameter Description Sampling Method
Serving PCI Serving Cell PCI Last
RSSI Ant0 RSSI per Rx antenna0 Linear average
RSSI Ant1 RSSI per Rx antenna1 Linear average
RSSI Comb Combined RSSI Linear average
Antenna Correlation>
Correlation Real> Tx Ant[x]
Real part of Rx0 and Rx1 correlation
Where, x is Tx Antenna (Range: 0 ~ 3).
Arithmetic average
Antenna Correlation>
Correlation Imaginary> Tx
Ant[x]
Imaginary part of Rx0 and Rx1 correlation
Where, x is Tx Antenna (Range: 0 ~ 3).
Arithmetic average
1.9 Intrafreq Measurement Info Parameter Description Sampling Method
PCell: Primary Cell
SCell[x]: Secondary Cell[x = 1 ~ 7] where, in R10 SCell[1] exists only.
EARFCN(DL) Downlink frequency as E-ARFCN Last
EARFCN(UL) Uplink frequency as E-ARFCN Last
Frequency(DL) Downlink frequency of the serving cell (Unit: MHz) Last
Frequency(UL) Uplink frequency of the serving cell (Unit: MHz) Last
Serving Cell>
Serving PCI Serving Cell PCI (Range: 0 ~ 503)
Last
Serving Cell>
Serving RSRP RSRP
Serving Cell RSRP
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
RSRP0 Serving Cell RSRP0
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
RSRP1 Serving Cell RSRP1
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
Serving Cell>
Serving RSRQ RSRQ
Serving Cell RSRQ
(Range: -30dB to 0 dB)
Arithmetic average
Tools>Options: Sampling Method
RSRQ0 Serving Cell RSRQ0
(Range: -30dB to 0 dB)
Arithmetic average
Tools>Options: Sampling Method
RSRQ1 Serving Cell RSRQ1
(Range: -30dB to 0 dB)
Arithmetic average
Tools>Options: Sampling Method
Serving Cell>
Serving RSSI RSSI
Serving Cell RSSI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
RSSI0 Serving Cell RSSI0
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
RSSI1 Serving Cell RSSI1
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
Serving Cell>
Serving SINR SINR
Serving Cell SINR
(Range: -20dB to +30dB)
Arithmetic average
Tools>Options: Sampling Method
SINR0 Serving Cell SINR0
(Range: -20dB to +30dB)
Arithmetic average
Tools>Options: Sampling Method
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 27
Parameter Description Sampling Method
SINR1 Serving Cell SINR1
(Range: -20dB to +30dB)
Arithmetic average
Tools>Options: Sampling Method
Serving Cell>
Serving Cell
Timing
Cell Timing0 Serving Cell Timing0
(Range: 0 Ts to 307200 Ts)
Last
Cell Timing1 Serving Cell Timing1
(Range: 0 Ts to 307200 Ts)
Last
Serving Cell>
All Cell Info>
Serving RSRP
RSRP>PCI# Serving Cell RSRP per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
RSRP0>PCI# Serving Cell RSRP0 per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
RSRP1>PCI# Serving Cell RSRP1 per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
Serving Cell>
All Cell Info>
Serving RSRQ
RSRQ>PCI# Serving Cell RSRQ per PCI
(Range: -30dB to 0 dB)
Arithmetic average
Tools>Options: Sampling Method
RSRQ0>PCI# Serving Cell RSRQ0 per PCI
(Range: -30dB to 0 dB)
Arithmetic average
Tools>Options: Sampling Method
RSRQ1>PCI# Serving Cell RSRQ1 per PCI
(Range: -30dB to 0 dB)
Arithmetic average
Tools>Options: Sampling Method
Serving Cell>
All Cell Info>
Serving RSSI
RSSI>PCI# Serving Cell RSSI per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
RSSI0>PCI# Serving Cell RSSI0 per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
RSSI1>PCI# Serving Cell RSSI1 per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
Serving Cell>
All Cell Info>
Serving SINR
SINR>PCI# Serving Cell SINR per PCI
(Range: -20dB to +30dB)
Arithmetic average
Tools>Options: Sampling Method
SINR0>PCI# Serving Cell SINR0 per PCI
(Range: -20dB to +30dB)
Arithmetic average
Tools>Options: Sampling Method
SINR1>PCI# Serving Cell SINR1 per PCI
(Range: -20dB to +30dB)
Arithmetic average
Tools>Options: Sampling Method
Serving Cell>
All Cell Info>
Serving Cell
Timing
Cell Timing0>
PCI#
Serving Cell Timing0 per PCI
(Range: 0 Ts to 307200 Ts)
Last
Cell Timing1>
PCI#
Serving Cell Timing1 per PCI
(Range: 0 Ts to 307200 Ts)
Last
Neighbor Cell>
Neighbor
Neighbor Cell>
Cell Count
Number of Neighbor PCI
Regard all logged PCI
Neighbor Cell>
Neighbor Cell
List
Neighbor PCI List
Display all
Neighbor Cell>
Summary
Neighbor Cell
List
Neighbor PCI List with (RSRP,RSRQ)
Display all
(Arithmetic average
Tools>Options: Sampling
Method)
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 28
Parameter Description Sampling Method
Neighbor Cell>
Neighbor RSRP RSRP>PCI#
Neighbor Cell RSRP per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
RSRP0>PCI# Neighbor Cell RSRP0 per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
RSRP1>PCI# Neighbor Cell RSRP1 per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
Neighbor Cell>
Neighbor RSRQ RSRQ>PCI#
Neighbor Cell RSRQ per PCI
(Range: -30dB to 0 dB)
Arithmetic average
Tools>Options: Sampling Method
RSRQ0>PCI# Neighbor Cell RSRQ0 per PCI
(Range: -30dB to 0 dB)
Arithmetic average
Tools>Options: Sampling Method
RSRQ1>PCI# Neighbor Cell RSRQ1 per PCI
(Range: -30dB to 0 dB)
Arithmetic average
Tools>Options: Sampling Method
Neighbor Cell>
Neighbor RSSI RSSI>PCI#
Neighbor Cell RSSI per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
RSSI0>PCI# Neighbor Cell RSSI0 per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
RSSI1>PCI# Neighbor Cell RSSI1 per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling Method
Neighbor Cell>
Serving Cell
Timing
Cell Timing0 Neighbor Cell Timing0 (Range: 0
Ts to 307200 Ts)
Last
Cell Timing1 Neighbor Cell Timing1 (Range: 0
Ts to 307200 Ts)
Last
Neighbor Cell>
Top Set> Top# PCI
PCI with RSRP or RSRQ strength
from top 1 to 20 from Neighbor
Cell
PCI which RSCP is Dominant
means Top 1.
RSRP Top 1 to 20 RSRP from Neighbor
Cell
Arithmetic average
Tools>Options: Sampling Method
RSRP0 Top 1 to 20 RSRP0 from
Neighbor Cell
Arithmetic average
Tools>Options: Sampling Method
RSRP1 Top 1 to 20 RSRP1 from
Neighbor Cell
Arithmetic average
Tools>Options: Sampling Method
RSRQ Top 1 to 20 RSRQ from Neighbor
Cell
Arithmetic average
Tools>Options: Sampling Method
RSRQ0 Top 1 to 20 RSRQ0 from
Neighbor Cell
Arithmetic average
Tools>Options: Sampling Method
RSRQ1 Top 1 to 20 RSRQ1 from
Neighbor Cell
Arithmetic average
Tools>Options: Sampling Method
RSSI Top 1 to 20 RSSI from Neighbor
Cell
Arithmetic average
Tools>Options: Sampling Method
RSSI0 Top 1 to 20 RSSI0 from Neighbor
Cell
Arithmetic average
Tools>Options: Sampling Method
RSSI1 Top 1 to 20 RSSI1 from Neighbor
Cell
Arithmetic average
Tools>Options: Sampling Method
Cell Timing0 Top 1 to 20 Cell Timing0 from
Neighbor Cell
Arithmetic average
Tools>Options: Sampling Method
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 29
Parameter Description Sampling Method
Cell Timing1 Top 1 to 20 Cell Timing1 from
Neighbor Cell
Arithmetic average
Tools>Options: Sampling Method
All Set> All
RSRP RSRP>PCI# RSRP per PCI
Arithmetic average
Tools>Options: Sampling Method
RSRP0>PCI# RSRP0 per PCI Arithmetic average
Tools>Options: Sampling Method
RSRP1>PCI# RSRP1 per PCI Arithmetic average
Tools>Options: Sampling Method
All Set> All
RSRQ RSRQ>PCI# RSRQ per PCI
Arithmetic average
Tools>Options: Sampling Method
RSRQ0>PCI# RSRQ0 per PCI Arithmetic average
Tools>Options: Sampling Method
RSRQ1>PCI# RSRQ1 per PCI Arithmetic average
Tools>Options: Sampling Method
All Set> All
RSSI RSSI>PCI# RSSI per PCI
Arithmetic average
Tools>Options: Sampling Method
RSSI0>PCI# RSSI0 per PCI Arithmetic average
Tools>Options: Sampling Method
RSSI1>PCI# RSSI1 per PCI Arithmetic average
Tools>Options: Sampling Method
All Set> All Cell
Timing
Cell Timing0>
PCI# Cell Timing0 per PCI
Arithmetic average
Cell Timing1>
PCI# Cell Timing1 per PCI
Arithmetic average
All Set> Cell
State
Cell State per PCI
- Serving
- Neighbor
If PCI is included to Serving,
Neighbor both, it is displayed as
Serving, Neighbor.
Top Set> Top# PCI
PCI with RSRP or RSRQ strength
from top 1 to 20 from All Set
PCI which RSCP is Dominant
means Top 1.
RSRP Top 1 to 20 RSRP from All Set Arithmetic average
Tools>Options: Sampling Method
RSRP0 Top 1 to 20 RSRP0 from All Set Arithmetic average
Tools>Options: Sampling Method
RSRP1 Top 1 to 20 RSRP1 from All Set Arithmetic average
Tools>Options: Sampling Method
RSRQ Top 1 to 20 RSRQ from All Set Arithmetic average
Tools>Options: Sampling Method
RSRQ0 Top 1 to 20 RSRQ0 from All Set Arithmetic average
Tools>Options: Sampling Method
RSRQ1 Top 1 to 20 RSRQ1 from All Set Arithmetic average
Tools>Options: Sampling Method
RSSI Top 1 to 20 RSSI from All Set Arithmetic average
Tools>Options: Sampling Method
RSSI0 Top 1 to 20 RSSI0 from All Set Arithmetic average
Tools>Options: Sampling Method
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 30
Parameter Description Sampling Method
RSSI1 Top 1 to 20 RSSI1 from All Set Arithmetic average
Tools>Options: Sampling Method
Cell Timing0 Top 1 to 20 Cell Timing0 from All
Set
Last
Cell Timing1 Top 1 to 20 Cell Timing1 from All
Set
Last
Cell State
Top 1 to 20 Cell State from All
Set
- Serving
- Neighbor
If PCI is included to Serving,
Neighbor both, it is displayed as
Serving, Neighbor.
Interference-
Factor F-Factor Interference Factor
Depending on RSRP Sampling
period
G(ServingCell) Linear value of Serving Cell RSRP
[Unit: pW]
Depending on RSRP Sampling
period
Sum of G
(NonServCell)
Sum of Linear value of Non
Serving Cell RSRP [Unit: pW]
Depending on RSRP Sampling
period
1.10 Interfreq Measurement Info Parameter Description Sampling Method
PCell>DL EARFCN(#): Primary Cell Downlink EARFCN for Inter frequency
SCell[x]>DL EARFCN(#):Secondary Cell[x = 1 ~ 7] Downlink EARFCN for Inter frequency
where, in R10 SCell[1] exists only.
Neighbor Cell> Neighbor
Neighbor Cell> Cell
Count
Number of Neighbor PCI
Regard all logged PCI
Neighbor Cell> Neighbor
Cell List Neighbor PCI List
Display all
Neighbor Cell> Summary
Neighbor Cell List Neighbor PCI List with (RSRP,RSRQ)
Display all
(Arithmetic average
Tools>Options: Sampling
Method)
Neighbor Cell> Neighbor
RSRP RSRP>PCI# Neighbor Cell RSRP per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling
Method
RSRP0>PCI# Neighbor Cell RSRP0 per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling
Method
RSRP1>PCI# Neighbor Cell RSRP1 per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling
Method
Neighbor Cell> Neighbor
RSRQ RSRQ>PCI# Neighbor Cell RSRQ per PCI
(Range: -30dB to 0 dB)
Arithmetic average
Tools>Options: Sampling
Method
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 31
Parameter Description Sampling Method
RSRQ0>PCI# Neighbor Cell RSRQ0 per PCI
(Range: -30dB to 0 dB)
Arithmetic average
Tools>Options: Sampling
Method
RSRQ1>PCI# Neighbor Cell RSRQ1 per PCI
(Range: -30dB to 0 dB)
Arithmetic average
Tools>Options: Sampling
Method
Neighbor Cell> Neighbor
RSSI RSSI>PCI# Neighbor Cell RSSI per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling
Method
RSSI0>PCI# Neighbor Cell RSSI0 per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling
Method
RSSI1>PCI# Neighbor Cell RSSI1 per PCI
(Range: -140dBm to -44dBm)
Arithmetic average
Tools>Options: Sampling
Method
Neighbor Cell> Serving
Cell Timing Cell Timing0
Neighbor Cell Timing0
(Range: 0 Ts to 307200 Ts)
Arithmetic average
Cell Timing1 Neighbor Cell Timing1
(Range: 0 Ts to 307200 Ts)
Arithmetic average
1.11 Intrafreq Cell Reselection Parameter Description Sampling Method
Serving EARFCN Serving cell EARFCN Last
Serving PCI Serving cell physical cell ID Last
Current UE mobility
State
0x1 – Normal mobility
0x2 – Medium mobility
0x4 – High mobility
Last
Priority Categories
Evaluated
Bitmask of which priority categories have been
evaluated
– Invalid
– High priority cells
– Equal priority cells
– Low priority cells
Last
Serving Cell Priority Serving cell priority (Range is 0 to 7) Last
S_non_intra_search Range is 0 to 62 in steps of 2, 0x20 indicates not
present
Last
Thresh_serving_low Range is 0 to 62 in steps of 2, range 0 to 31 Last
S_non_intra_search_Q (Release 9 only) Range is 0 to 31 in steps of 1,
0x20 indicates not present
Last
Thresh_serving_low_Q (Release 9 only) Range is 0 to 31 in steps of 1,
0x20 indicates not present
Last
Treselection Treselection (Range is 0 to 7) Last
Qoffset_frequency Qoffset frequency (Range is -24 to +24) Last
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 32
Parameter Description Sampling Method
Measurement
Info>Cell[x]
PCI Neighbor cell physical cell ID Last
Srxlev Neighbor cell Srxlev (range -30 to 50
dB)
Last
Rank RSRP Neighbor cell Rank RSRP (Range is -
164 to -20)
Last
RSRP(Avg) RSRP Average (range -140 to -44
dBm)
Last
RSRP(Instant) RSRP Instantaneous (range -140 to -44
dBm)
Last
RSRQ(Avg) RSRQ Average (range -30 to 0 dB) Last
RSRQ(Instant) RSRQ Instantaneous (range -30 to 0
dB)
Last
RSSI(Instant) RSSI Instantaneous (range -140 to -44
dBm)
Last
Qoffset Neighbor cell Qoffset (Range is -24 to
+24)
Last
Treselection Neighbor cell Treselection (range is 0
to 63)
Last
1.12 Timing Advance Info Parameter Description Sampling Method
Timing
Advance(us) Timing Advance(Ts)/307200*10*1000
Last
Timing
Advance(Ts)
Starting UL timing advance*16+Avg(∑"timing adjustment>
timing_advance(Ts)"*16)
Last
Timing
Advance(16Ts)
Starting UL timing advance+Avg(∑"timing adjustment>
timing_advance(Ts)") Range: 0 ~ 1282
Last
DL Frame
Timing(ms) DL Frame Timing(Ts)/307200*10
Last
DL Frame
Timing(Ts) Starting DL frame timing offset+ Avg(∑"DL_frame_timing(Ts)")
Last
UL Frame
Timing(ms) UL Frame Timing(Ts)/307200*10
Last
UL Frame
Timing(Ts) Starting UL frame timing offset+ Avg(∑"UL_frame_timing(Ts)")
Last
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 33
1.13 Channel Quality Info Parameter Description Sampling Method
Pri. Component Carrier: Primary Component Carrier(PCell)
Sec. Component Carrier: Secondary Component Carrier(SCell)
Tx Mode Transmission Mode
0 – TM_INVALID
1 – TM_SINGLE_ANT_PORT0
2 – TM_TD_RANK1
3 – TM_OL_SM
4 – TM_CL_SM
5 – TM_MU_MIMO
6 – TM_CL_RANK1_PC
7 – TM_SINGLE_ANT_PORT5
Last
PUCCH
Reporting Mode
PUCCH Reporting Mode
0 – MODE_1_0
1 – MODE_1_1
2 – MODE 2_0
3 – MODE 2_1
Last
PUSCH
Reporting Mode
PUSCH Reporting Mode
0 – MODE_APERIODIC_RM12
1 – MODE_APERIODIC_RM20
2 – MODE_APERIODIC_RM22
3 – MODE_APERIODIC_RM30
4 – MODE_APERIODIC_RM31
Last
Rank Index Rank Index
0 – Rank 1
1 – Rank 2
Mode
RI1 Rate (Rank 1 Count)/(Rank 1 Count+Rank 2 Count)*100
Refer to the left
formula
RI2 Rate (Rank 2 Count)/(Rank 1 Count+Rank 2 Count)*100
Refer to the left
formula
WideBand CQI
CW0 Wideband CQI for CW0 (Range: 0 ~ 15)
Arithmetic average
WideBand CQI
CW1 Wideband CQI for CW1 (Range: 0 ~ 15)
Arithmetic average
WideBand PMI WideBand PMI
Range: 0…15 for 4 Tx, Rank 1 and 2
Range: 0…1 for 2 Tx, Rank 2
Range: 0…3 for 1 or 2 Tx, Rank 1
Mode
WideBand PMI 0 WideBand PMI (Codeword0) Mode
WideBand PMI 1 WideBand PMI (Codeword1) Mode
SubBand CQI
CW0 Subband x
SubBand_ CQI_CW0_sb0 to 13
Valid only is the following condition.
MODE_APERIODIC_RM30
MODE_APERIODIC_RM31
Arithmetic average
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 34
Parameter Description Sampling Method
SubBand CQI
CW1 Subband x
SubBand_ CQI_CW1_sb0 to 13
Valid only is the following condition.
MODE_APERIODIC_RM30
MODE_APERIODIC_RM31
Arithmetic average
1.14 ML1 Downlink Info Parameter Description Sampling Method
PCell: Primary Cell
SCell[x]: Secondary Cell[x = 1 ~ 7] where, in R10 SCell[1] exists only.
RB Num(Mode) Number of DL Resource Blocks (Sampling Method: Mode) Mode
RB Num(Avg) Number of DL Resource Blocks (Sampling Method: Average) Arithmetic average
RB Num(Included
in 0)
As an user perceived RB Num, it is considered when the user
could not be allocated RB
Refer to the
calculation formula
MCS Idx0(Avg) DL MCS Index0 (Sampling Method: Average) Arithmetic average
MCS Idx1(Avg) DL MCS Index1 (Sampling Method: Average) Arithmetic average
MCS Idx0(Mode)
DL MCS Index0 (Sampling Method: Mode)
Mode (If same
frequent, display the
higher value)
MCS Idx1(Mode)
DL MCS Index1 (Sampling Method: Mode)
Mode (If same
frequent, display the
higher value)
Code Rate
Idx0(Avg) Effective channel code rate for tb index 0
Arithmetic average
Code Rate
Idx1(Avg) Effective channel code rate for tb index 1
Arithmetic average
Modulation Idx0
Rate QPSK
QPSK Num/(QPSK Num+16QAM Num+64QAM
Num)*100 in TB[0]
Refer to the
calculation formula
16QAM 16QAM Num/(QPSK Num+16QAM
Num+64QAM Num)*100 in TB[0]
Refer to the
calculation formula
64QAM 64QAM Num/(QPSK Num+16QAM
Num+64QAM Num)*100 in TB[0]
Refer to the
calculation formula
Modulation Idx1
Rate QPSK
QPSK Num/(QPSK Num+16QAM Num+64QAM
Num)*100 in TB[1]
Refer to the
calculation formula
16QAM 16QAM Num/(QPSK Num+16QAM
Num+64QAM Num)*100 in TB[1]
Refer to the
calculation formula
64QAM 64QAM Num/(QPSK Num+16QAM
Num+64QAM Num)*100 in TB[1]
Refer to the
calculation formula
Modulation
Rate(Total) QPSK
QPSK Num/(QPSK Num+16QAM Num+64QAM
Num)*100 in TB[0],[1]
Refer to the
calculation formula
16QAM 16QAM Num/(QPSK Num+16QAM
Num+64QAM Num)*100 in TB[0],[1]
Refer to the
calculation formula
64QAM 64QAM Num/(QPSK Num+16QAM
Num+64QAM Num)*100 in in TB[0],[1]
Refer to the
calculation formula
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 35
Parameter Description Sampling Method
NDI Idx0 Rate New Trans.
Rate
New Trans. Count/(New Trans. Count+Retrans.
Count)*100(%) in TB[0]
Refer to the
calculation formula
Re Trans.
Rate
Retrans. Count/(New Trans. Count+Retrans.
Count)*100(%) in TB[0]
Refer to the
calculation formula
New Trans.
Cnt New Trans. Count in TB[0]
Sum
Re Trans.
Cnt Retrans. Count in TB[0]
Sum
NDI Idx1 Rate New Trans.
Rate
New Trans. Count/(New Trans. Count+Retrans.
Count)*100(%) in TB[1]
Refer to the
calculation formula
Re Trans.
Rate
Retrans. Count/(New Trans. Count+Retrans.
Count)*100(%) in TB[1]
Refer to the
calculation formula
New Trans.
Cnt New Trans. Count in TB[1]
Sum
Re Trans.
Cnt Retrans. Count in TB[1]
Sum
NDI Rate(Total) New Trans.
Rate
New Trans. Count/(New Trans. Count+Retrans.
Count)*100(%) in TB[0],[1]
Refer to the
calculation formula
Re Trans.
Rate
Retrans. Count/(New Trans. Count+Retrans.
Count)*100(%) in TB[0],[1]
Refer to the
calculation formula
New Trans.
Cnt New Trans. Count in TB[0],[1]
Sum
Re Trans.
Cnt Retrans. Count in TB[0],[1]
Sum
Discarded ReTx
Rate Idx0
(Discarded reTx present=Present #)/Retrans.
Count*100(%) in TB[0]
Refer to the
calculation formula
Idx1 Discarded reTx present=Present #)/Retrans.
Count*100(%) in TB[1]
Refer to the
calculation formula
Total Discarded reTx present=Present #)/Retrans.
Count*100(%) in TB[0],[1]
Refer to the
calculation formula
DL DTX Rate TTI ratio that the user could not be allocated RB
(In Tools>Options General: LTE tab, when you select ‘ Not
Consider missing log code’ in LTE QC PHY Throughput, this
parameter will be activated only.)
Refer to calculation
formula
DL RB Share TTI ratio that the user could be allocated RB
(In Tools>Options General: LTE tab, when you select ‘ Not
Consider missing log code’ in LTE QC PHY Throughput, this
parameter will be activated only.)
Refer to the
calculation formula
Total Info: PCell + SCell
Total RB Num
(Including 0) Summation of PCell and SCell[Idx #] RB Num(Including 0)
Refer to the
calculation formula
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 36
1.15 ML1 Downlink(Uni) Parameter Description Sampling Method
PCell: Primary Cell
SCell[Idx #]: Secondary Cell[# = 1 ~ 7]
RB Num(Mode) Number of DL Resource Blocks (Sampling Method: Mode) Mode
RB Num(Avg) RB Num(Avg) = RB Num(Sum)/Number of Allocated TTIs Arithmetic average
RB
Num(Including 0) RB Num(Including 0) = RB Num(Sum)/Number of Total TTIs
Refer to the
calculation formula
RB Num
TB0(Including 0) Consider only if tb idx equals zero.
Refer to the
calculation formula
RB Num
TB1(Including 0) Consider only if tb idx equals one.
Refer to the
calculation formula
RB Num(Sum) Number of assigned RB
Refer to the
calculation formula
Number of
Allocated TTIs Number of Allocated TTIs
Refer to the
calculation formula
Number of Total
TTIs Number of Total TTIs
Refer to the
calculation formula
MCS Idx0(Mode)
DL MCS Index0(Sampling Method: Mode)
Mode (If same
frequent, display the
higher value)
MCS Idx1(Mode)
DL MCS Index1(Sampling Method: Mode)
Mode (If same
frequent, display the
higher value)
MCS Idx0(Avg) DL MCS Index0(Sampling Method: Average) Arithmetic average
MCS Idx1(Avg) DL MCS Index1(Sampling Method: Average) Arithmetic average
Code Rate
Idx0(Avg) Effective channel code rate for tb index 0
Arithmetic average
Code Rate
Idx1(Avg) Effective channel code rate for tb index 1
Arithmetic average
Modulation Idx0
Rate QPSK
QPSK Num/(QPSK Num+16QAM
Num+64QAM Num)*100
Refer to the
calculation formula
16QAM 16QAM Num/(QPSK Num+16QAM
Num+64QAM Num)*100
Refer to the
calculation formula
64QAM 64QAM Num/(QPSK Num+16QAM
Num+64QAM Num)*100
Refer to the
calculation formula
Modulation Idx1
Rate QPSK
QPSK Num/(QPSK Num+16QAM
Num+64QAM Num)*100
Refer to the
calculation formula
16QAM 16QAM Num/(QPSK Num+16QAM
Num+64QAM Num)*100
Refer to the
calculation formula
64QAM 64QAM Num/(QPSK Num+16QAM
Num+64QAM Num)*100
Refer to the
calculation formula
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 37
Parameter Description Sampling Method
Modulation
Rate(Total)
QPSK
(TB[0]'s QPSK Num+TB[1]'s QPSK
Num)/(TB[0]'s QPSK Num+TB[0]'s 16QAM
Num+TB[0]'s 64QAM Num+TB[1]'s QPSK
Num+TB[1]'s 16QAM Num+TB[1]'s
64QAM Num)*100
Refer to the
calculation formula
16QAM
(TB[0]'s 16QAM Num+TB[1]'s 16QAM
Num)/(TB[0]'s QPSK Num+TB[0]'s 16QAM
Num+TB[0]'s 64QAM Num+TB[1]'s QPSK
Num+TB[1]'s 16QAM Num+TB[1]'s
64QAM Num)*100
Refer to the
calculation formula
64QAM
(TB[0]'s 64QAM Num+TB[1]'s 64QAM
Num)/(TB[0]'s QPSK Num+TB[0]'s 16QAM
Num+TB[0]'s 64QAM Num+TB[1]'s QPSK
Num+TB[1]'s 16QAM Num+TB[1]'s
64QAM Num)*100
Refer to the
calculation formula
NDI Idx0 Rate New Trans.
Rate
New Trans. Count/(New Trans.
Count+Retrans. Count)*100(%)
Refer to the
calculation formula
Retrans. Rate Retrans. Count/(New Trans.
Count+Retrans. Count)*100(%)
Refer to the
calculation formula
New Trans. Cnt New Trans. Count Sum
Retrans. Cnt Retrans. Count Sum
NDI Idx1 Rate New Trans.
Rate
New Trans. Count/(New Trans.
Count+Retrans. Count)*100(%)
Refer to the
calculation formula
Retrans. Rate Retrans. Count/(New Trans.
Count+Retrans. Count)*100(%)
Refer to the
calculation formula
New Trans. Cnt New Trans. Count Sum
Retrans. Cnt Retrans. Count Sum
NDI Rate(Total) New Trans.
Rate
New Trans. Count/(New Trans.
Count+Retrans. Count)*100(%)
Refer to the
calculation formula
Retrans. Rate Retrans. Count/(New Trans.
Count+Retrans. Count)*100(%)
Refer to the
calculation formula
New Trans. Cnt New Trans. Count Sum
Retrans. Cnt Retrans. Count Sum
Discarded ReTx
Rate Idx0
(Discarded reTx present=Present
#)/Retrans. Count*100(%)
Refer to the
calculation formula
Idx1 (Discarded reTx present=Present
#)/Retrans. Count*100(%)
Refer to the
calculation formula
Total (Discarded reTx present=Present
#)/Retrans. Count*100(%)
Refer to the
calculation formula
DL DTX Rate DL DTX Rate = (1- Number of Allocated TTIs / Number of
Total TTIs)*100(%)
Refer to the
calculation formula
DL RB Share Number of Allocated TTIs / Number of Total TTIs *100(%)
Refer to the
calculation formula
Total Info
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 38
Parameter Description Sampling Method
Total RB
Num(Including 0) Summation of PCell and SCell[Idx #] RB Num(Including 0)
Refer to the
calculation formula
1.16 ML1 Downlink(Uni+eMBMS) Parameter Description Sampling Method
PCell: Primary Cell
SCell[Idx #]: Secondary Cell[# = 1 ~ 7]
RB Num(Mode) Number of DL Resource Blocks (Sampling Method: Mode) Mode
RB Num(Avg) RB Num(Avg) = RB Num(Sum)/Number of Allocated TTIs Arithmetic average
RB
Num(Including 0) RB Num(Including 0) = RB Num(Sum)/Number of Total TTIs
Refer to the
calculation formula
RB Num(Sum) Number of assigned RB
Refer to the
calculation formula
Number of
Allocated TTIs Number of Allocated TTIs
Refer to the
calculation formula
Number of Total
TTIs Number of Total TTIs
Refer to the
calculation formula
MCS Idx0(Mode)
DL MCS Index0 (Sampling Method: Mode)
Mode (If same
frequent, display the
higher value)
MCS Idx1(Mode)
DL MCS Index1 (Sampling Method: Mode)
Mode (If same
frequent, display the
higher value)
MCS Idx0(Avg) DL MCS Index0 (Sampling Method: Average) Arithmetic average
MCS Idx1(Avg) DL MCS Index1 (Sampling Method: Average) Arithmetic average
Code Rate
Idx0(Avg) Effective channel code rate for tb index 0
Arithmetic average
Code Rate
Idx1(Avg) Effective channel code rate for tb index 1
Arithmetic average
Modulation Idx0
Rate QPSK
QPSK Num/(QPSK Num+16QAM
Num+64QAM Num)*100
Refer to the
calculation formula
16QAM 16QAM Num/(QPSK Num+16QAM
Num+64QAM Num)*100
Refer to the
calculation formula
64QAM 64QAM Num/(QPSK Num+16QAM
Num+64QAM Num)*100
Refer to the
calculation formula
Modulation Idx1
Rate QPSK
QPSK Num/(QPSK Num+16QAM
Num+64QAM Num)*100
Refer to the
calculation formula
16QAM 16QAM Num/(QPSK Num+16QAM
Num+64QAM Num)*100
Refer to the
calculation formula
64QAM 64QAM Num/(QPSK Num+16QAM
Num+64QAM Num)*100
Refer to the
calculation formula
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 39
Parameter Description Sampling Method
Modulation
Rate(Total)
QPSK
(TB[0]'s QPSK Num+TB[1]'s QPSK
Num)/(TB[0]'s QPSK Num+TB[0]'s 16QAM
Num+TB[0]'s 64QAM Num+TB[1]'s QPSK
Num+TB[1]'s 16QAM Num+TB[1]'s
64QAM Num)*100
Refer to the
calculation formula
16QAM
(TB[0]'s 16QAM Num+TB[1]'s 16QAM
Num)/(TB[0]'s QPSK Num+TB[0]'s 16QAM
Num+TB[0]'s 64QAM Num+TB[1]'s QPSK
Num+TB[1]'s 16QAM Num+TB[1]'s
64QAM Num)*100
Refer to the
calculation formula
64QAM
(TB[0]'s 64QAM Num+TB[1]'s 64QAM
Num)/(TB[0]'s QPSK Num+TB[0]'s 16QAM
Num+TB[0]'s 64QAM Num+TB[1]'s QPSK
Num+TB[1]'s 16QAM Num+TB[1]'s
64QAM Num)*100
Refer to the
calculation formula
NDI Idx0 Rate New Trans.
Rate
New Trans. Count/(New Trans.
Count+Retrans. Count)*100(%)
Refer to the
calculation formula
Retrans. Rate Retrans. Count/(New Trans.
Count+Retrans. Count)*100(%)
Refer to the
calculation formula
New Trans. Cnt New Trans. Count Sum
Retrans. Cnt Retrans. Count Sum
NDI Idx1 Rate New Trans.
Rate
New Trans. Count/(New Trans.
Count+Retrans. Count)*100(%)
Refer to the
calculation formula
Retrans. Rate Retrans. Count/(New Trans.
Count+Retrans. Count)*100(%)
Refer to the
calculation formula
New Trans. Cnt New Trans. Count Sum
Retrans. Cnt Retrans. Count Sum
NDI Rate(Total) New Trans.
Rate
New Trans. Count/(New Trans.
Count+Retrans. Count)*100(%)
Refer to the
calculation formula
Retrans. Rate Retrans. Count/(New Trans.
Count+Retrans. Count)*100(%)
Refer to the
calculation formula
New Trans. Cnt New Trans. Count Sum
Retrans. Cnt Retrans. Count Sum
Discarded ReTx
Rate Idx0
(Discarded reTx present=Present
#)/Retrans. Count*100(%)
Refer to the
calculation formula
Idx1 (Discarded reTx present=Present
#)/Retrans. Count*100(%)
Refer to the
calculation formula
Total (Discarded reTx present=Present
#)/Retrans. Count*100(%)
Refer to the
calculation formula
DL DTX Rate DL DTX Rate = (1- Number of Allocated TTIs / Number of
Total TTIs)*100(%)
Refer to the
calculation formula
DL RB Share Number of Allocated TTIs / Number of Total TTIs *100(%)
Refer to the
calculation formula
Total Info
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 40
Parameter Description Sampling Method
Total RB
Num(Including 0) Summation of PCell and SCell[Idx #] RB Num(Including 0)
Refer to the
calculation formula
1.17 ML1 Uplink Info Parameter Description Sampling Method
RB Num(Mode) Number of UL Resource Blocks (Sampling Method: Mode) Mode
RB Num(Avg) Number of UL Resource Blocks (Sampling Method:
Average)
Arithmetic average
RB Num(Included
in 0)
As an user perceived RB Num, it is considered when the
user could not be allocated RB
MCS Idx(Avg) UL MCS Index (Sampling Method: Average) Arithmetic average
MCS Idx(Mode)
UL MCS Index (Sampling Method: Mode)
Mode (If same
frequent, display the
higher value)
Modulation Idx
Rate QPSK
QPSK Num/(QPSK Num+16QAM
Num+64QAM Num)*100
Refer to the
calculation formula
16QAM 16QAM Num/(QPSK Num+16QAM
Num+64QAM Num)*100
Refer to the
calculation formula
64QAM
64QAM Num/(QPSK Num+16QAM
Num+64QAM Num)*100
From Ue Category 5, 64QAM will be
logged.
Refer to the
calculation formula
NDI Rate
New Trans.
Rate
New Trans. Count/(New Trans.
Count+Retrans. Count)*100(%)
Refer to the
calculation formula.
Process it same with
ML1 Downlink Ino NDI
Re Trans. Rate Retrans. Count/(New Trans.
Count+Retrans. Count)*100(%)
Refer to the
calculation formula.
Process it same with
ML1 Downlink Ino NDI
New Trans. Cnt New Transmitted Count Sum
Re Trans. Cnt Retransmitted Count Sum
UL DTX Rate TTI ratio that the user could not be allocated RB
(In Tools>Options General: LTE tab, when you select ‘ Not
Consider missing log code’ in LTE QC PHY Throughput, this
parameter will be activated only.)
Refer to the
calculation formula
UL RB Share TTI ratio that the user could be allocated RB
(In Tools>Options General: LTE tab, when you select ‘ Not
Consider missing log code’ in LTE QC PHY Throughput, this
parameter will be activated only.)
Refer to the
calculation formula
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 41
1.18 PCell-SCell Gap(abs) Parameter Description Sampling Method
CQI Gap(WB CW0) Absolute value of ‘PCell WideBand CQI CW0 – SCell
WideBand CQI CW0’
Refer to the left
formula.
RSRP Gap Absolute value of ‘PCell Serving RSRP – SCell Serving
RSRP’
Refer to the left
formula.
SINR Gap Absolute value of ‘PCell Serving SINR – SCell Serving
SINR’
Refer to the left
formula.
1.19 MAC SCell Act/Deact Info Parameter Description Sampling Method
SCell Activation MAC SCell Activation X
SCell Deactivation MAC SCell Deactivation X
MAC SCell State MAC SCell State
SCell Activation or SCell Deactivation
X
Reference Data Reference data to make an SCell Act/Deact decision
MAC SCell ActDeact
SCell CQI
SCell Deconfig
X
1.20 ML1 UL/DL Info Summary (In-Traffic)
Re-Processing Sub Tree (Traffic State: Traffic Start ~ Call Result in DM Autocall Event)
Parameter Description Sampling Method
DL RB
Num(Including 0)
Total: DL RB Num(Including 0) of PCell+SCell during
traffic state
PCell: DL RB Num(Including 0) of PCell during traffic state
SCell[Idx #] : DL RB Num(Including 0) of SCell during
traffic state
Refer to the
calculation formula
UL RB
Num(Including 0) UL RB Num (Including 0) during traffic state
Refer to the
calculation formula
DL MCS Idx0(Avg) Total: DL MCS Idx0(Avg) of PCell+SCell during traffic
state
PCell: DL MCS Idx0(Avg) of PCell during traffic state
SCell[Idx #] : DL MCS Idx0(Avg) of SCell during traffic
state
Arithmetic average
DL MCS Idx1(Avg) Total: DL MCS Idx1(Avg) of PCell+SCell during traffic
state
PCell: DL MCS Idx1(Avg) of PCell during traffic state
SCell[Idx #] : DL MCS Idx1(Avg) of SCell during traffic
state
Arithmetic average
UL MCS Idx(Avg) UL MCS Idx(Avg) during traffic state Arithmetic average
PDSCH Total BLER PDSCH Total BLER during traffic state
Refer to the
calculation formula
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 42
Parameter Description Sampling Method
PUSCH Total BLER PUSCH Total BLER during traffic state
Refer to the
calculation formula
PDSCH Throughput Total: PDSCH Throughput of PCell+SCell during traffic
state
PCell: PDSCH Throughput of PCell during traffic state
SCell[Idx #] : PDSCH Throughput of SCell during traffic
state
Refer to the
calculation formula
PUSCH Throughput PUSCH Throughput during traffic state
Refer to the
calculation formula
MAC DL
Throughput
Total: PDSCH Throughput of PCell+SCell during traffic
state
PCell: PDSCH Throughput of PCell during traffic state
SCell[Idx #] : PDSCH Throughput of SCell during traffic
state
Refer to the
calculation formula
MAC UL
Throughput MAC UL Throughput during traffic state
Refer to the
calculation formula
RLC DL Throughput RLC DL Throughput during traffic state
Refer to the
calculation formula
RLC UL Throughput RLC UL Throughput during traffic state
Refer to the
calculation formula
PDCP DL
Throughput PDCP DL Throughput during traffic state
Refer to the
calculation formula
PDCP UL
Throughput PDCP UL Throughput during traffic state
Refer to the
calculation formula
1.21 DL Scheduling Assignment Parameter Description Sampling Method
PCell: Primary Cell
SCell[x]: Secondary Cell[x = 1 ~ 7] where, in R10 SCell[1] exists only.
Count DCI Format 0/1/1A/1B/1C/1D/2/2A Count
PDCCH format type of DL grant
Sum
Percentage
DCI Format 0/1/1A/1B/1C/1D/2/2A
Percentage
DCI Format>Count>DCI Format
0/1/1A/1B/1C/1D/2/2A ratio (Number of
DCI Format 0/1/1A/1B/1C/1D/2/2A)/
Total DCI Format Count * 100(%)
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 43
1.22 Random Access Procedure Parameter Description Sampling Method
Random Access Request(MSG1)>
Preamble Sequence Preamble Sequence Index.
X
Random Access Request(MSG1)>
Physical Root Index
Physical Root Sequence Index corresponding
to
Preamble Sequence
X
Random Access Request(MSG1)>
Cyclic Shift Cyclic Shift
X
Random Access Request(MSG1)>
PRACH Tx Power
PRACH Transmit Power (Range is -112 dBm
to 23 dBm)
X
Random Access Request(MSG1)>
Beta PRACH Beta PRACH (Range is 0 to 2047)
X
Random Access Request(MSG1)>
Frequency Resource Offset N_ra_prb (Range is 0 to 104)
X
Random Access Request(MSG1)>
Preamble Format
Preamble format (based on PRACH
configuration parameter signaled).
X
Random Access Request(MSG1)>
Duplex Mode
System Duplex Mode
0: FDD
1: TDD
X
Random Access Request(MSG1)>
RA Request Timing SFN
Random Access Request Timing - System
frame number
X
Random Access Request(MSG1)>
RA Request Timing Sub-Fn
Random Access Request Timing - Subframe
number
X
Random Access Request(MSG1)>
RA Response Window Start SFN
Random Access Response Window Start -
System frame number
X
Random Access Request(MSG1)>
RA Response Window Start Sub-Fn
Random Access Response Window Start -
Subframe number
X
Random Access Request(MSG1)>
RA Response Window End SFN
Random Access Response Window End -
System frame number
X
Random Access Request(MSG1)>
RA Response Window End Sub-Fn
Random Access Response Window End -
Subframe number
X
Random Access Request(MSG1)>
RA-RNTI RA RNTI based on MSG1 timing
X
Random Access Request(MSG1)>
Random Access Resource for TDD
f_ra Frequency resource index X
t_0_ra
0x0: Resource reoccurring in all
radio frames,
0x1: Resource reoccurring in all
even radio frames,
0x2: Resource reoccurring in all odd
radio frames
X
t_1_ra
0x0: Random access resource
located in first half frame
0x1: random access resource is
located in second half frame
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 44
Parameter Description Sampling Method
t_2_ra
UL subframe number where
preamble starts
0x0: 0
0x1: 1
0x2: 2
0x3: * for preamble format 4
X
d_ra
Density per 10 ms
0x0: 0.5
0x1: 1
0x2: 2
0x3: 3
0x4: 4
0x5: 5
0x6: 6
X
Random Access Response(MSG2)>
SFN
Random Access Response Timing - System
frame number
X
Random Access Response(MSG2)>
Sub-Fn
Random Access Response Timing - Subframe
number
X
Random Access Response(MSG2)>
Timing Advance Timing Advance Value
X
Random Access Response(MSG2)>
RACH Procedure Type
0x0 – Contention free
0x1 – Contention based
X
Random Access Response(MSG2)>
RACH Procedure Mode
0x0 – Initial access
0x1 – Connected mode RACH procedure
X
Random Access Response(MSG2)>
RNTI Type
0x0 – C_RNTI
0x1 – SPS_RNTI
0x2 – P_RNTI
0x3 – RA_RNTI
0x4 – TEMP_C_RNTI
0x5 – SI_RNTI
0x6 – TPC_PUSCH_RNTI
0x7 – TPC_PUCCH_RNTI
0x8 – MBMS RNTI
X
Random Access Response(MSG2)>
RNTI Value RNTI value
X
UE Identification(MSG3)> TPC TPC command to be applied to MSG3
transmission
X
UE Identification(MSG3)> MSC Modulation and Coding Scheme X
UE Identification(MSG3)> RIV Resource Indicator Value X
UE Identification(MSG3)> CQI
Enable
0x0 – Disabled
0x1 – Enabled
X
UE Identification(MSG3)> UL
Delay
0x0 – Do not delay
0x1 – Delay UL transmission
X
UE Identification(MSG3)> Hopping
Flag
0x0 – Hopping is OFF
0x1 – Hopping is ON
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 45
Parameter Description Sampling Method
UE Identification(MSG3)> SFN System frame number of MSG3 X
UE Identification(MSG3)> Sub-Fn Subframe number of MSG3 X
UE Identification(MSG3)> Starting
RB Num
Starting resource block number of the
received grant
X
UE Identification(MSG3)> RB Num Total number of resource blocks allocated in
the grant
X
UE Identification(MSG3)> TB Size
Index
Transport block size can be determined based
on the Transport Block Size Index and
Number of Resource Blocks by the log code
parser
X
UE Identification(MSG3)>
Modulation Type
0x0 – BPSK
0x1 – QPSK
0x2 – 16QAM
0x3 – 64QAM
X
UE Identification(MSG3)>
Redundancy Version index Redundancy Version Index
X
UE Identification(MSG3)> HARQ
ID
ID of the HARQ process on which MSG3
transmission was scheduled
X
UE Identification(MSG3)>
MR(Last) to MSG3 Duration
RRC Signaling Message(UL-DCCH)
Measurement Report(Last) to MSG3 Duration
X
Contention Resolution(MSG4)>
SFN System frame number of MSG4
X
Contention Resolution(MSG4)>
Sub-Fn Subframe number of MSG4
X
Contention Resolution(MSG4)>
Contention Result
0x0 – Contention failed
0x1 – Contention passed
X
Contention Resolution(MSG4)> UL
ACK Timing SFN System frame number of MSG4 ACK
X
Contention Resolution(MSG4)> UL
ACK Timing Sub-Fn Subframe number of MSG4 ACK
X
Latency KPI> Call Setup
Latency(System-Based)
Random Access Request(MSG1) to
rrcConnectionReconfigurationComplete
(rrcConnectionSetupComplete Piggybaced
NAS is Attach Request.)
Using system frame number and subframe
number
X
Latency KPI> Idle to Active
Latency(System-Based)
Random Access Request(MSG1) to
rrcConnectionReconfigurationComplete
(rrcConnectionSetupComplete Piggybaced
NAS is Service Request.)
Using system frame number and subframe
number
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 46
Parameter Description Sampling Method
Latency KPI> Handover
Latency(System-Based)
rrcConnectionReconfiguration(with MCI) to
Random Access Response
Using system frame number and subframe
number
X
Latency KPI> Call Setup
Latency(Chipset-Based)
Random Access Request(MSG1) to
rrcConnectionReconfigurationComplete
(rrcConnectionSetupComplete Piggybaced
NAS is Attach Request.)
X
Latency KPI> Idle to Active
Latency(Chipset-Based)
Random Access Request(MSG1) to
rrcConnectionReconfigurationComplete
(rrcConnectionSetupComplete Piggybaced
NAS is Service Request.)
X
Latency KPI> Handover
Latency(Chipset-Based)
rrcConnectionReconfiguration(with MCI) to
Random Access Response
X
1.23 MAC RACH Info Parameter Description Sampling Method
RACH Trigger> Preamble
Init Power Preamble Initial Power
X
RACH Trigger> Power
Ramping Setup Power Ramping Setup (range is 0 to 255 dB)
X
RACH Trigger> RA Idx1 ra_index1 = sizeOfRA-PreamblesGroupA. GroupA is
from 1 to ra_index1
Range is 1 to 64.
X
RACH Trigger> RA Idx2 ra_index2 = numberOfRA-Preambles. GroupB
=(ra_index1 + 1) to ra_index2.
Note that in case there is not GroupB, then
ra_index1 = ra_index2
Range is 1 to 64.
X
RACH Trigger> MAX
Preamble Attempts MAX preamble attempts
X
RACH Trigger> Contention
Timer Contention timer in ms
X
RACH Trigger> MSG Size
Group A Threshold message size to select which RA group
X
RACH Trigger> Group B
Power Offset
Group B power offset.
Unsigned integer in units of dB. Currently, spec
only defines one value –infinity.
The value 0 means –infinity.
X
RACH Trigger> PMAX This indicates the Pmax to be used in the target
cell. If absent the UE applies the maximum power
according to the UE capability
X
RACH Trigger> Delta
Preamble MSG3 Delta preamble Power for message 3.
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 47
Parameter Description Sampling Method
RACH Trigger> Random
Access Preamble Timing
Random Access Preamble timing for preamble
format
Range is 0 to 15.
prach-ConfigurationIndex, see TS 36.211 [21,
5.7.1].
X
RACH Trigger> Cyclic Shift
Zone Length Cyclic Shifts for various preamble formats
X
RACH Trigger> Logical Root
ZC Seq Idx
Logical Root ZadOFF-Chu Sequence number for
various preamble formats
X
RACH Trigger> PRACH Freq
Offset PRACH Frequency offset for MSG1
X
RACH Trigger> High Speed
Flag
Controls grouping of preamble sequences in two
sets, to differentiatea high speed UE from normal
X
RACH Trigger> MAX Retx
MSG3
Maximum number of HARQ re-transmissions from
UE for RACH message3
X
RACH Trigger> RA RSP
Window Size Window size for reception of RACH message2 (ms)
X
RACH Trigger> RACH
Reason
Connection Request
Radio Link Failure
UL Data Arrival
DL Data Arrival
Handover
X
RACH Trigger> RACH
Matching ID
The UE_ID that will be matched for contention
resolution in case of CONTENTION_BASED RACH
Procedure.
X
RACH Trigger> RACH
Contention
0x0 – Contention-free RACH procedure
0x1 – Contention-based RACH procedure
X
RACH Trigger> Preamble Preamble chosen in case of contention based. And
this will refer to the dedicated preamble configured
to MAC in case of contention free RACH.
X
RACH Trigger> Preamble RA
Idx Mask Preamble RA index mask. It ranges from 0-15.
X
RACH Trigger> MSG3 Size Size of MSG3 based on which the group would be
chosen.
X
RACH Trigger> Group
Chosen
0 – Group A
1 – Group B
X
RACH Trigger> Radio
Condition(Pathloss)
Gives the value of the pathloss as a result of call to
the L1 API.
(Range: 0-255 dB)
X
RACH Trigger> C-RNTI If the UE is in connected mode then this indicates
the CRNTI of the UE.
X
RACH Attempt> RACH
Attempt No.
The below fields represent the values corresponding
to the RACH attempt number
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 48
Parameter Description Sampling Method
RACH Attempt> RACH
Result
0) Success,
1) Failure at MSG2
2) Failure at MSG4 due to CT timer expired
3) Failure at MSG4 due to CT resolution is not
passed
4) Aborted
X
RACH Attempt> Contention
Procedure
0x0 – Contention Free RACH procedure
0x1 – Contention Based RACH procedure
X
RACH Attempt> Preamble
Idx(MSG1) Index is in the range 0 to 63
X
RACH Attempt> Preamble
Idx Mask(MSG1) Range is 0-15. 0xFF means invalid.
X
RACH Attempt> Preamble
Power Offset(MSG1)
OFFset of the message 1 preamble power,
given as: Init OFFset + (Stepsize * Preamble
number)
X
RACH Attempt> Backoff
Value(MSG2)
BackOFF value in ms. Default backOFF value is 0
ms
X
RACH Attempt>
Result(MSG2)
TRUE indicates that the RAPID received in the DL
matched with the one the UE sent. FALSE
otherwise.
In case of FALSE then no further entries in this
whole big structure are valid. If it is a CF RACH then
if MSG2 is successful then the RACH procedure
terminates there.
X
RACH Attempt> Temp C-
RNTI(MSG2)
Temp CRNTI received in MSG2 if the MSG2 was
successfully received (meaning RAPID passed).
X
RACH Attempt> Timing
Adjustment Value(MSG2) Timing Adjustment value received.
X
RACH Attempt> Grant
Raw(MSG3) Raw grant value sent in message 3
X
RACH Attempt>
Grant(MSG3) Grant in bytes
X
RACH Attempt> HARQ
ID(MSG3) Harq ID where the data would be transmitted from
X
RACH Attempt> MAC
PDU(MSG3)
Maximum of up to 10 bytes of MCE and MAC sub-
headers would be logged.
X
RACH Statistics RACH Attempt Count
RACH Success Count
RACH Failure Count
RACH Success Rate
n/a
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 49
1.24 MAC Config Info Parameter Description Sampling Method
Configuration
Reason
Configuration reasons:
X
TA Timer TA timer value X
SR Resource
Present indicated if SR recourse is available or not
X
SR Periodicity Periodicity(ms) of triggering SR X
BSR Periodicity
Timer BSR periodicity timer(ms)
X
SPS NUM Tx
Release Number of sending padding PDU to release SPS
X
RETXED BSR Timer Robustness BSR timer (ms) X
Preamble Init
Power Preamble Initial Power
X
Power Ramping
Setup Power Ramping Setup (range is 0 to 255 dB)
X
RA Idx1 ra_index1 = sizeOfRA-PreamblesGroupA. GroupA is from 1 to
ra_index1
Range is 1 to 64.
X
RA Idx2 ra_index2 = numberOfRA-Preambles. GroupB =(ra_index1 +
1) to ra_index2.
Note that in case there is not GroupB, then ra_index1 =
ra_index2
Range is 1 to 64.
X
MAX Preamble
Attempts MAX preamble attempts
X
Contention Timer Contention timer in ms X
MSG Size Group A Threshold message size to select which RA group X
Group B Power
Offset
Group B power offset.
Unsigned integer in units of dB. Currently, spec only defines
one value –infinity.
The value 0 means –infinity.
X
PMAX This indicates the Pmax to be used in the target cell. If
absent the UE applies the maximum power according to the
UE capability.
X
Delta Preamble
MSG3 Delta preamble Power for message 3.
X
Random Access
Preamble Timing
Random Access Preamble timing for preamble format
Range is 0 to 15.
prach-ConfigurationIndex, see TS 36.211 [21, 5.7.1].
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 50
Parameter Description Sampling Method
Cyclic Shift Zone
Length Cyclic Shifts for various preamble formats
X
Logical Root ZC
Seq Idx
Logical Root ZadOFF-Chu Sequence number for various
preamble formats
X
PRACH Freq Offset PRACH Frequency offset for MSG1 X
High Speed Flag Controls grouping of preamble sequences in two sets, to
differentiatea high speed UE from normal
X
MAX Retx MSG3 Maximum number of HARQ re-transmissions from UE for
RACH message3
X
RA RSP Window
Size Window size for reception of RACH message2 (ms)
X
1.25 RLC Config Info Parameter Description Sampling Method
DL Configuration>
Configuration Reason
– Configuration
– Handover
– RB release
– Radio Link Failure
– EMBMS configuration
X
DL Configuration >
Released RB Cfg Idx
List
Number of released radio bearers
X
DL Configuration
>Added/Modified RB
Cfg Idx
RB Cfg Idx[#]>Action
– Add RB
– Modify RB
– Release RB
X
DL Configuration
>Active RB Cfg Idx
RB Cfg Idx[#]>RB Mode 1:AM 2:UM X
RB Cfg Idx[#]>Logical
Channel ID Logical channel ID
X
RB Cfg Idx[#]>RB ID Radio bearer ID X
RB Cfg Idx[#]>RB Type – SRB
– DRB
X
RB Cfg
Idx[#]>T_REORDERING
T_reordering timer in
milliseconds
X
RB Cfg
Idx[#]>T_STATUS_PROHIBIT
T_status_prohibit timer
in milliseconds
X
RB Cfg
Idx[#]>SN_FIELD_LENGTH
– 5 bits SN
– 10 bits SN
X
UL Configuration >
Configuration Reason
– Configuration
– Handover
– RB release
– Radio Link Failure
X
UL Configuration >
Released RB Cfg Idx
List
Number of released radio bearers
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 51
Parameter Description Sampling Method
UL Configuration
>Added/Modified RB
Cfg Idx
RB Cfg Idx[#]>Action
– Add RB
– Modify RB
– Release RB
X
UL Configuration
>Active RB Cfg Idx
RB Cfg Idx[#]>RB Mode 1:AM 2:UM X
RB Cfg Idx[#]>Logical
Channel ID Logical channel ID
X
RB Cfg Idx[#]>RB ID Radio bearer ID X
RB Cfg Idx[#]>RB Type – SRB
– DRB
X
RB Cfg Idx[#]>POLL_BYTE poll_byte constant X
RB Cfg Idx[#]>POLL_PDU poll_pdu constant X
RB Cfg
Idx[#]>T_POLL_RETRANSMIT
T_poll_retransmit timer
in milliseconds
X
RB Cfg
Idx[#]>MAX_RETX_THRESHO
LD
Maximum number of
transmission
X
RB Cfg
Idx[#]>SN_FIELD_LENGTH
– 5 bits SN
– 10 bits SN
X
1.26 PDCP Config Info Parameter Description Sampling Method
DL Configuration>
Configuration Reason
– Configuration
– Handover
– RB release
– Radio Link Failure
X
DL Configuration>
SRB Cipher Algorithm
– None
– Snow3G
– AES
X
DL Configuration>
SRB Cipher Key Idx SRB Cipher Key Index
X
DL Configuration>
SRB Integrity
Algorithm
– None
– Snow3G
– AES
X
DL Configuration>
SRB Integrity Key Idx SRB Integrity Key Index
X
DL Configuration>
DRB Cipher Algorithm
– None
– Snow3G
– AES
X
DL Configuration>
DRB Cipher Key Idx DRB Cipher Key Index
X
DL Configuration >
Released RB Cfg Idx
List
Number of released radio bearers
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 52
Parameter Description Sampling Method
DL Configuration
>Added/Modified RB
Cfg Idx RB Cfg Idx[#]>Action
– Add
– Modify
– Modify-Suspend
– Modify-Resume
– Release
– Full Configuration
X
DL Configuration
>Active RB Cfg Idx
RB Cfg Idx[#]>RB Mode 1:AM 2:UM X
RB Cfg Idx[#]>EPS ID EPS ID X
RB Cfg Idx[#]>RB ID Radio bearer ID X
RB Cfg Idx[#]>RB Type – SRB
– DRB
X
RB Cfg
Idx[#]>SN_FIELD_LENG
TH
– 5-bit SN
– 7-bit SN
– 12-bit SN
X
RB Cfg
Idx[#]>Status_Report
Flag to indicate whether
status report is enabled or not
X
RB Cfg
Idx[#]>ROHC_MAX_CID ROHC MAX CID
X
RB Cfg
Idx[#]>ROHC_MASK
ROHC MASK for enabled
ROHC profile
X
UL Configuration>
Configuration Reason
– Configuration
– Handover
– RB release
– Radio Link Failure
X
UL Configuration>
SRB Cipher Algorithm
– None
– Snow3G
– AES
X
UL Configuration>
SRB Cipher Key Idx SRB Cipher Key Index
X
UL Configuration>
SRB Integrity
Algorithm
– None
– Snow3G
– AES
X
UL Configuration>
SRB Integrity Key Idx SRB Integrity Key Index
X
UL Configuration>
DRB Cipher Algorithm
– None
– Snow3G
– AES
X
UL Configuration>
DRB Cipher Key Idx DRB Cipher Key Index
X
UL Configuration >
Released RB Cfg Idx
List
Number of released radio bearers
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 53
Parameter Description Sampling Method
UL Configuration
>Added/Modified RB
Cfg Idx RB Cfg Idx[#]>Action
– Add
– Modify
– Modify-Suspend
– Modify-Resume
– Release
– Full Configuration
X
UL Configuration
>Active RB Cfg Idx
RB Cfg Idx[#]>RB Mode 1:AM 2:UM X
RB Cfg Idx[#]>EPS ID EPS ID X
RB Cfg Idx[#]>RB ID Radio bearer ID X
RB Cfg Idx[#]>RB Type – SRB
– DRB
X
RB Cfg
Idx[#]>SN_FIELD_LENG
TH
– 5-bit SN
– 7-bit SN
– 12-bit SN
X
RB Cfg Idx[#]>Discard
Timer
Discard Timer in milliseconds,
0 means n/a.
X
RB Cfg
Idx[#]>ROHC_MAX_CID ROHC MAX CID
X
RB Cfg
Idx[#]>ROHC_MASK
ROHC MASK for enabled
ROHC profile
X
1.27 Radio Link Monitoring Info Parameter Description Sampling Method
Out of Sync
BLER(Avg)
Out of Sync BLER, calculated from the measured SNR.
The out_sync BLER corresponds to the BLER if the actual
transmission parameters equal to the parameters
specified in Spec for out_sync.
x / (1<<15) * 100(%)
Arithmetic average
In Sync BLER(Avg) In Sync BLER, calculated from the measured SNR. The
in_sync BLER corresponds to the BLER if the actual
transmission parameters equal to the parameters
specified in Spec for in_sync.
x / (1<<15) * 100(%)
Arithmetic average
Out of Sync
BLER(Max)
Out of Sync BLER, calculated from the measured SNR.
The out_sync BLER corresponds to the BLER if the actual
transmission parameters equal to the parameters
specified in Spec for out_sync.
x / (1<<15) * 100(%)
Max
In Sync BLER(Max) In Sync BLER, calculated from the measured SNR. The
in_sync BLER corresponds to the BLER if the actual
transmission parameters equal to the parameters
specified in Spec for in_sync.
x / (1<<15) * 100(%)
Max
T310 Timer Status T310 Timer Status Last
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 54
1.28 PDSCH BLER Info Parameter Description Sampling Method
Total Info: PCell + SCell
Total BLER ∑CRC fail Count/(∑CRC pass Count+∑CRC fail
Count)*100(%)
Where, if Discarded_reTx_present = Present, we do not
consider the above calculation
Refer to the left formula
BLER CW0
Codeword0 BLER
Regard only tb_index is 0,
but it is same with Total
BLER calculation method.
BLER CW1
Codeword1 BLER
Regard only tb_index is 0,
but it is same with Total
BLER calculation method.
PCell: Primary Cell
SCell[x]: Secondary Cell[x = 1 ~ 7] where, in R10 SCell[1] exists only.
Total BLER ∑CRC fail Count/(∑CRC pass Count+∑CRC fail Count)*100(%)
Where, if Discarded_reTx_present = Present, we do not
consider the above calculation.
Refer to the left formula
HARQ[#] CRC fail Count/(CRC pass Count+CRC fail Count)*100(%) [Per
HARQ]
Where, if Discarded_reTx_present = Present, we do not
consider the above calculation.
(up to 8 for FDD (0 -7), up to 15 for TDD (0-14))
Refer to the left formula
Idx0>
BLER CW0 Codeword0 BLER
Regard only tb_index is
0, but it is same with
Total BLER calculation
method.
Idx0>
HARQ[#]
CRC fail Count/(CRC pass Count+CRC fail Count)*100(%) [Per
HARQ in TB Idx=0]
Where, if Discarded_reTx_present = Present, we do not
consider the above calculation.
Regard only tb_index is
0, but it is same with
HARQ[#] calculation
method.
Idx1>
BLER CW1 Codeword1 BLER
Regard only tb_index is
0, but it is same with
Total BLER calculation
method.
Idx1>
HARQ[#]
CRC fail Count/(CRC pass Count+CRC fail Count)*100(%) [Per
HARQ in TB Idx=1]
Where, if Discarded_reTx_present = Present, we do not
consider the above calculation.
Regard only tb_index is
0, but it is same with
HARQ[#] calculation
method.
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 55
1.29 PUSCH BLER Info Parameter Description Sampling Method
Total BLER ∑(‘Retransmission Index=!0’ Count)/(∑’Retransmission
Index=0’Count+∑’Retransmission Index=
!0’ Count)*100(%)
Refer to the left
formula
HARQ[#] (‘Retransmission Index=!0’ Count)/(’Retransmission Index=0’
Count+’Retransmission Index=!0’ Count)*100(%) [Per HARQ]
Refer to the left
formula
1.30 PBCH BLER Info Parameter Description Sampling Method
BLER CRC Fail # / (CRC Pass # + CRC Fail #)*100(%)
Refer to the left
formula
CRC Pass Count CRC Pass(Success) Count Sum
CRC Fail Count CRC Fail Count Sum
1.31 PMCH BLER Info Parameter Description Sampling Method
Total Info: PCell + SCell
Total BLER ∑CRC fail Count/(∑CRC pass Count+∑CRC fail
Count)*100(%)
Where, if Discarded_reTx_present = Present, we do
not consider the above calculation
Refer to the left formula
BLER CW0
Codeword0 BLER
∑CRC fail Count/(∑CRC pass
Count+∑CRC fail Count)*
100(%)
(Regard only tb_index is 0.)
BLER CW1
Codeword1 BLER
∑CRC fail Count/(∑CRC pass
Count+∑CRC fail
Count)*100(%)
(Regard only tb_index is 0.)
PCell: Primary Cell
SCell[x]: Secondary Cell[x = 1 ~ 7] where, in R10 SCell[1] exists only.
Total BLER ∑CRC fail Count/(∑CRC pass Count+∑CRC fail
Count)*100(%)
Where, if Discarded_reTx_present = Present, we do
not consider the above calculation.
Refer to the left formula
HARQ[#] CRC fail Count/(CRC pass Count+CRC fail
Count)*100(%) [Per HARQ]
Where, if Discarded_reTx_present = Present, we do
not consider the above calculation.
(up to 8 for FDD (0 -7), up to 15 for TDD (0-14))
Refer to the left formula
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 56
Parameter Description Sampling Method
Idx0> BLER
CW0 Codeword0 BLER
Number of ∑CRC fail /(Number
of ∑CRC pass +Number of ∑
CRC fail)*100(%)
(Regard only tb_index is 0.)
Idx0> HARQ[#] CRC fail Count/(CRC pass Count+CRC fail
Count)*100(%) [Per HARQ in TB Idx=0]
Where, if Discarded_reTx_present = Present, we do
not consider the above calculation.
Refer to the left formula
Idx1> BLER
CW1 Codeword1 BLER
Number of ∑CRC fail /(Number
of ∑CRC pass +Number of ∑
CRC fail)*100(%)
(Regard only tb_index is 0.)
Idx1> HARQ[#] CRC fail Count/(CRC pass Count+CRC fail
Count)*100(%) [Per HARQ in TB Idx=1]
Where, if Discarded_reTx_present = Present, we do
not consider the above calculation.
Refer to the left formula
1.32 PHICH AckNack Info Parameter Description Sampling Method
PHICH Timing SFN PHICH Timing SFN First
PHICH Timing
Subframe Number
PHICH Timing Subframe Number First
ACK0 Rate ACK0 Count/(ACK0 Count+NACK0 Count)*100(%) Refer to the left formula
NACK0 Rate NACK0 Count/(ACK0 Count+NACK0 Count)*100(%) Refer to the left formula
ACK0 Count ‘PHICH0 Value = ACK0’ Count Sum
NACK0 Count ‘PHICH0 Value = NACK0’ Count Sum
ACK1 Rate ACK1 Count/(ACK1 Count+NACK1 Count)*100(%) Refer to the left formula
NACK1 Rate NACK1 Count/(ACK1 Count+NACK1 Count)*100(%) Refer to the left formula
ACK1 Count ‘PHICH1 Value = ACK1’ Count Sum
NACK1 Count ‘PHICH1 Value = NACK1’ Count Sum
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 57
1.33 PDSCH HARQ Retx. Info Parameter Description Sampling Method
Pri. Component Carrier: Primary Component Carrier(PCell)
Sec. Component Carrier: Secondary Component Carrier(SCell)
Stream[#]>HARQ
#> Count
Stream[#] is for
tb_idx #.
1st Trans, 1st Re-Trans, 2nd Re-Trans, 3rd Re-Trans, 4th
Re-Trans, 5th Re-Trans,
6th Re-Trans, 7th Re-Trans, After 7th Re-Trans, Total Re-
Trans
where, Total Re-Trans = 1st Re-Trans + … + After 7th Re-
Trans Count
Sum
Stream[#]>HARQ
#> Percentage
Stream[#] is for
tb_idx #.
1st Trans = 1st Trans/(Total Re-Trans+1st Trans Count)*100
1st Re-Trans = 1st Re-Trans/(Total Re-Trans+1st Trans
Count)*100
…
7th Re-Trans = 7th Re-Trans/(Total Re-Trans+1st Trans
Count)*100
Total Re-Trans = Total Re-Trans/(Total Re-Trans+1st Trans
Count)*100
Refer to the left
formula
1.34 PUSCH HARQ Retx. Info Parameter Description Sampling Method
HARQ #> Count 1st Trans, 1st Re-Trans, 2nd Re-Trans, 3rd Re-Trans, 4th
Re-Trans, 5th Re-Trans,
6th Re-Trans, 7th Re-Trans, After 7th Re-Trans, Total Re-
Trans
where, Total Re-Trans = 1st Re-Trans + … + After 7th Re-
Trans Count
Sum
HARQ #>
Percentage
1st Trans = 1st Trans/(Total Re-Trans+1st Trans Count)*100
1st Re-Trans = 1st Re-Trans/(Total Re-Trans+1st Trans
Count)*100
…
7th Re-Trans = 7th Re-Trans/(Total Re-Trans+1st Trans
Count)*100
Total Re-Trans = Total Re-Trans/(Total Re-Trans+1st Trans
Count)*100
Refer to the left
formula
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 58
1.35 RLC Retx. Info Parameter Description Sampling Method
DL Retx. Rate>
Total
'Sum per RB CFG IDX[#]' of ∆NUM_RETX_PDU/ 'Sum per RB
CFG IDX[#]' of ∆NUM_DATA_PDU * 100 [%]
Refer to the left
formula
DL Retx. Rate> RB
CFG IDX[x]
∆NUM_RETX_PDU/ ∆NUM_DATA_PDU * 100 [%] Refer to the left
formula
UL Retx. Rate>
Total
'Sum per RB CFG IDX[#]' of ∆NUM_RETX_PDUS/ 'Sum per
RB CFG IDX[#]' of
(∆NUM_NEW_DATA_PDU+∆NUM_RETX_PDUS) * 100 [%]
Refer to the left
formula
UL Retx. Rate> RB
CFG IDX[x]
∆ NUM_RETX_PDUS/
(∆NUM_NEW_DATA_PDU+∆NUM_RETX_PDUS) * 100 [%]
Refer to the left
formula
1.36 RLC DL AM ALL PDU(Per TTI) Parameter Description Sampling Method
RB Cfg Idx Radio Bearer Configuration Index X
SN_FIELD_LENGTH 5 – 5 bit SN
10 – 10 bit SN
X
VR_R Receive state variable X
VR_X t-Reordering state variable X
VR_MS Maximum STATUS transmit state variable X
VR_H Highest received state variable X
System Frame
Number System Frame Number
X
Subframe Number Subframe Number X
PDU Size Protocol Data Unit Size X
STATUS 0 - PDU_DATA
1 - PDU_CTRL
2 - PDU_INVALID
3 - PDU_OUT_RX_WIN
4 - PDU_DROPPED_FC
5 - UM_PDU_DISCARDED,
X
Data Re-segment Flag(RF) Decoding by 3GPP 36.322 Spec X
Polling(P) Decoding by 3GPP 36.322 Spec X
Framing Info(FI) Decoding by 3GPP 36.322 Spec X
Seq Number(SN) Decoding by 3GPP 36.322 Spec X
Segment Offset(SO) Decoding by 3GPP 36.322 Spec X
Control Control PDU Type(CPT) Decoding by 3GPP 36.322 Spec X
ACK SN Decoding by 3GPP 36.322 Spec X
NACK SN
Decoding by 3GPP 36.322 Spec
(Use the comma delimiter if there
are more than one value)
X
SO Start Decoding by 3GPP 36.322 Spec X
SO End Decoding by 3GPP 36.322 Spec X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 59
1.37 RLC UL AM ALL PDU(Per TTI) Parameter Description Sampling Method
RB Cfg Idx Radio Bearer Configuration Index X
SN_FIELD_LENGTH 5 – 5 bit SN
10 – 10 bit SN
X
VT_A Acknowledgement state variable X
VT_S Send state variable X
PDU_WITHOUT_PO
LL triggering STATUS report
X
BYTE_WITHOUT_P
OLL triggering STATUS report
X
POLL_SN Poll send state variable X
System Frame
Number System Frame Number
X
Subframe Number Subframe Number X
PDU Size Protocol Data Unit Size X
Data Re-segment Flag(RF) Decoding by 3GPP 36.322 Spec X
Polling(P) Decoding by 3GPP 36.322 Spec X
Framing Info(FI) Decoding by 3GPP 36.322 Spec X
Seq Number(SN) Decoding by 3GPP 36.322 Spec X
Segment Offset(SO) Decoding by 3GPP 36.322 Spec X
Control Control PDU Type(CPT) Decoding by 3GPP 36.322 Spec X
ACK SN Decoding by 3GPP 36.322 Spec X
NACK SN
Decoding by 3GPP 36.322 Spec
(Use the comma delimiter if there
are more than one value)
X
SO Start Decoding by 3GPP 36.322 Spec X
SO End Decoding by 3GPP 36.322 Spec X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 60
1.38 RLC DL UM Data PDU(Per TTI) Parameter Description Sampling Method
RB Cfg Idx Radio Bearer Configuration Index X
SN_FIELD_LENGTH 5 – 5 bit SN
10 – 10 bit SN
X
VR_R Receive state variable X
VR_X t-Reordering state variable X
VR_MS Maximum STATUS transmit state variable X
VR_H Highest received state variable X
System Frame
Number System Frame Number
X
Subframe Number Subframe Number X
PDU Size Protocol Data Unit Size X
STATUS 0 - PDU_DATA
1 - PDU_CTRL
2 - PDU_INVALID
3 - PDU_OUT_RX_WIN
4 - PDU_DROPPED_FC
5 - UM_PDU_DISCARDED
X
Framing Info(FI) Decoding by 3GPP 36.322 Spec X
Seq Number(SN) Decoding by 3GPP 36.322 Spec X
1.39 RLC UL UM Data PDU(Per TTI) Parameter Description Sampling Method
RB Cfg Idx Radio Bearer Configuration Index X
SN_FIELD_LENGTH 5 – 5 bit SN
10 – 10 bit SN
X
VT_A Acknowledgement state variable X
VT_S Send state variable X
PDU_WITHOUT_POLL triggering STATUS report X
BYTE_WITHOUT_POLL triggering STATUS report X
POLL_SN Poll send state variable X
System Frame
Number System Frame Number
X
Subframe Number Subframe Number X
PDU Size Protocol Data Unit Size X
Framing Info(FI) Decoding by 3GPP 36.322 Spec X
Seq Number(SN) Decoding by 3GPP 36.322 Spec X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 61
1.40 PDCP DL Data PDU(Per TTI) Parameter Description Sampling Method
RB Cfg Idx Radio Bearer Configuration Index X
Mode Radio Bearer Mode (1 for AM, 2 for UM) X
SN_LENGTH 5 – 5 bit SN
7 – 7 bit SN
12 – 12 bit SN
X
System Frame
Number System Frame Number
X
Subframe Number Subframe Number X
D/C 0:Control PDU , 1:Data PDU X
PDCP SN Sequence Number X
1.41 PDCP UL Data PDU(Per TTI) Parameter Description Sampling Method
RB Cfg Idx Radio Bearer Configuration Index X
Mode Radio Bearer Mode (1 for AM, 2 for UM) X
SN_LENGTH 5 – 5 bit SN
7 – 7 bit SN
12 – 12 bit SN
X
System Frame
Number System Frame Number
X
Subframe Number Subframe Number X
D/C 0:Control PDU , 1:Data PDU X
PDCP SN Sequence Number X
1.42 NAS ESM Bearer Context Info Parameter Description Sampling Method
Context Type 0 - Default
1 - Dedicated
X
Bearer ID ID of the bearer context X
Bearer State 0 – INACTIVE
1 – ACTIVE
2 – ACTIVE_PENDING
3 – MODIFY
X
Connection ID Connection ID associated with the bearer X
SDF ID Service Data Flow ID X
LBI Linked Bearer Identity X
RB ID Radio bearer ID that corresponds to the EPS Bearer ID of the
context
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 62
Parameter Description Sampling Method
EPS QoS
QCI
Quality of Service Class Identifier
0 0 0 0 0 0 0 0 Reserved
0 0 0 0 0 0 0 1 QCI 1
0 0 0 0 0 0 1 0 QCI 2
0 0 0 0 0 0 1 1 QCI 3
0 0 0 0 0 1 0 0 QCI 4
0 0 0 0 0 1 0 1 QCI 5
0 0 0 0 0 1 1 0 QCI 6
0 0 0 0 0 1 1 1 QCI 7
0 0 0 0 1 0 0 0 QCI 8
0 0 0 0 1 0 0 1 QCI 9
0 0 0 0 1 0 1 0 Reserved
to
0 1 1 1 1 1 1 1
1 0 0 0 0 0 0 0 Operator-specific QCIs
to
1 1 1 1 1 1 1 0
1 1 1 1 1 1 1 1 Reserved
X
MBR for UL Maximum bit rate for uplink
(refer section 9.9.4.3 of the spec TS 24.301)
X
MBR for DL Maximum bit rate for downlink
(refer section 9.9.4.3 of the spec TS 24.301)
X
GBR for UL Guaranteed bit rate for uplink
(refer section 9.9.4.3 of the spec TS 24.301)
X
GBR for DL Guaranteed bit rate for downlink
(refer section 9.9.4.3 of the spec TS 24.301)
X
MBR for UL
Ext
Maximum bit rate for uplink (extended)
(refer section 9.9.4.3 of the spec TS 24.301)
X
MBR for DL
Ext
Maximum bit rate for downlink (extended)
(refer section 9.9.4.3 of the spec TS 24.301)
X
GBR for UL
Ext
Guaranteed bit rate for uplink (extended)
(refer section 9.9.4.3 of the spec TS 24.301)
X
GBR for DL
Ext
Guaranteed bit rate for downlink (extended)
(refer section 9.9.4.3 of the spec TS 24.301)
X
1.43 NAS ESM Procedure State Parameter Description Sampling Method
Procedure ID ID of the procedure X
Procedure State Procedure state:
X
PTI Procedure transaction Identifier X
SDF ID Service Data Flow associated with this procedure X
Pending Message ID Pending message ID X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 63
1.44 NAS EMM State Parameter Description Sampling Method
EMM State Current EMM state
EMM_NULL – 0
EMM_DEREGISTERED – 1
EMM_REGISTERED_INITIATED – 2
EMM_REGISTERED –3
EMM_TRACKING_AREA_UPDATING_INITIATED – 4
EMM_SERVICE_REQUEST_INITIATED – 5
EMM_DEREGISTERED_INITIATED –6
EMM_INVALID_STATE – 7
X
EMM Substate Current EMM sub-state X
MCC MCC part of the PLMN X
MNC MNC part of the PLMN X
GUTI Info UE ID 1: IMSI_ID, 6: GUTI_ID X
MCC MCC part of the PLMN X
MNC MNC part of the PLMN X
MME Group
ID
MME_GROUP_ID interpret/display as an array
of bytes.
X
MME Code MME Code X
M-TMSI M_TMSI interpret/display as an array of
bytes.
X
1.45 RRC Serving Cell Info
Modehold supported by Tools>Options General LTE tab – LTE QC RRC Serving Info: Modehold
Parameter Description Sampling Method
PCI Physical cell ID Last
EARFCN(DL) Downlink frequency as E-ARFCN Last
EARFCN(UL) Uplink frequency as E-ARFCN Last
Frequency(DL) Downlink frequency of the serving cell (Unit: MHz) Last
Frequency(UL) Uplink frequency of the serving cell (Unit: MHz) Last
Bandwidth(DL) Downlink bandwidth
6 – 1.4 MHz
15 – 3 MHz
25 – 5 MHz
50 – 10 MHz
75 – 15 MHz
100 – 20 MHz
Last
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 64
Parameter Description Sampling Method
Bandwidth(UL) Uplink bandwidth
6 – 1.4 MHz
15 – 3 MHz
25 – 5 MHz
50 – 10 MHz
75 – 15 MHz
100 – 20 MHz
Last
Bandwidth(DL)
Rate Representative the highest ratio of the below list
Mode(But, if same
frequent, the higher
value will be
displayed.)
5MHz 5MHz Cnt/(5MHz Cnt+10MHz
Cnt+15MHz Cnt+20MHz Cnt)*100(%)
Refer to the left
calculation formula
10MHz 10MHz Cnt/(5MHz Cnt+10MHz
Cnt+15MHz Cnt+20MHz Cnt)*100(%)
Refer to the left
calculation formula
15MHz 15MHz Cnt/(5MHz Cnt+10MHz
Cnt+15MHz Cnt+20MHz Cnt)*100(%)
Refer to the left
calculation formula
15MHz 20MHz Cnt/(5MHz Cnt+10MHz
Cnt+15MHz Cnt+20MHz Cnt)*100(%)
Refer to the left
calculation formula
Bandwidth(UL)
Rate Representative the highest ratio of the below list
Mode(But, if same
frequent, the higher
value will be displayed.)
5MHz 5MHz Cnt/(5MHz Cnt+10MHz
Cnt+15MHz Cnt+20MHz Cnt)*100(%)
Refer to the left
calculation formula
10MHz 10MHz Cnt/(5MHz Cnt+10MHz
Cnt+15MHz Cnt+20MHz Cnt)*100(%)
Refer to the left
calculation formula
15MHz 15MHz Cnt/(5MHz Cnt+10MHz
Cnt+15MHz Cnt+20MHz Cnt)*100(%)
Refer to the left
calculation formula
15MHz 20MHz Cnt/(5MHz Cnt+10MHz
Cnt+15MHz Cnt+20MHz Cnt)*100(%)
Refer to the left
calculation formula
Global Cell ID Cell Identity received in SIB1 Last
eNB-ID eNB-ID(upper 20b its) of Global Cell ID(28bits) Last
C-ID C-ID(lower 8b its) of Global Cell ID(28bits) Last
TAC Tracking area code Last
Band Indicator Frequency band indicator Last
MCC MCC part of the PLMN Last
MNC MNC part of the PLMN Last
ECGI MCC(3semi-octet)+MNC(2 or 3semi-octet)+Global Cell
ID(7semi-octet)
Last
Allowed Access Allowed access on the cell based on network select mode
indicated by NAS
0 – Full
1 – Limited
Last
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 65
1.46 RRC PLMN Search Info Parameter Description Sampling Method
PLMN Search Request>
NETWORK_SELECT_MODE
Allowed access on the cell based on network select
mode indicated by NAS
1 - Automatic
2 - Manual
X
PLMN Search Request>
SEARCH_TYPE
Service Search type indicated by NAS
1 – None
2 – Background Automatic
3 - Background Manual
X
PLMN Search Request>
RAT_LIST> List[x]
1 – GSM
2 – WCDMA
3 – LTE
X
PLMN Search Request>
PLMN_LIST> List[x] MCC and MNC
X
PLMN Search Response>
Active RAT
Active RAT
1 – GSM
2 – WCDMA
3 – LTE
X
PLMN Search Response>
SEARCH_STATUS
1 – Completed
2 – Timed out
3 – Abort Confirmation
4 - Aborted
X
PLMN Search Response>
PLMN_LIST> List[x] MCC and MNC
X
1.47 ML1 Serving Cell Info(Acquisition) Parameter Description Sampling Method
DL Bandwidth Downlink bandwidth of the serving cell Last
SFN System frame number when PBCH was decoded Last
EARFCN EARFCN of the serving cell Last
Frequency Frequency of the serving cell (Unit: MHz) Last
Serving Cell PCI Cell ID of the serving cell Last
PBCH Decode
Result
0x1 – Success
0x0 – Failure
Last
PHICH Duration 0 – PHICH_NORMAL
1 – PHICH_EXTENDED
Last
PHICH Resource HICH group multiplier
0 – 1/6
1 – 1/2
2 – 1
3 – 2
Last
PSS Correlation PSS correlation value of serving cell Last
SSS Correlation SSS correlation value of serving cell Last
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 66
Parameter Description Sampling Method
PSS SNR PSS SNR Last
SSS SNR SSS SNR less than 0dB is considered as weak cell. Last
PBCH Reference
Timing PBCH reference timing
Last
MIB Payload Raw PBCH payload Last
Frequency Offset Frequency offset estimate based upon the PBCH decode. Last
No. of Ant 0x0 – 1 antenna
0x1 – 2 antennas
0x2 – 4 antennas
0x3 – Invalid
Last
1.48 ML1 Paging DRX Info Parameter Description Sampling Method
EARFCN Serving EARFCN Last
PCI Serving PCI Last
Paging Cycle Paging Cycle
0x0 – 320 ms
0x1 – 640 ms
0x2 – 1280 ms
0x3 – 2560 ms
Last
Nb 0x0 – fourT
0x1 – twoT
0x2 – oneT
0x3 – halfT
0x4 – quarterT
0x5 – oneEightT
0x6 – onSixteenthT
0x7 – oneThirtySecondT
Last
UE ID IMSI mod 1024; range is 0 to 1023 Last
Paging System
Frame Number
Offset
Paging SFN offset (Range is 0 to 1023)
Last
Paging Subframe
Number Offset Paging sub-FN offset (Range is 0 to 9)
Last
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 67
1.49 ML1 Sleep Info Parameter Description Sampling Method
Serving EARFCN Serving EARFCN X
Serving PCI Serving PCI X
Wakeup Type 0x0 – Online
0x1 – Offline
In online wakeup, we have the RF on all the time and
decode/channel estimation/TTL/FTL/AGC etc are done on live
samples.
In offline wakeup, we record samples and immediately turn
off RF to save power. Decode/channel
estimation/TTL/FTL/AGC etc happen on the offline samples
X
Sleep Subframe Sleep Subframe X
Sleep SFN Sleep SFN(System Frame Number) X
Sleep Reference
Time Sleep Reference Time (in units of Ts: 30.72Mhz)
X
Wakeup SFN Wakeup SFN(System Frame Number) X
Wakeup Subframe Wakeup Subframe X
Wakeup Object
Subframe Wakeup Object Subframe
X
Wakeup Object
SFN Wakeup Object SFN(System Frame Number)
X
1.50 ML1 CDRX Events Info(Per TTI) Parameter Description Sampling Method
System Frame
Number System Frame Number
X
Subframe Number Subframe Number X
CDRX Event 0 – ON DURATION TIMER START
1 – ON DURATION TIMER END
2 – SHORT CYCLE START
3 – SHORT CYCLE END
4 – LONG CYCLE START
5 – LONG CYCLE END
6 – UL RETX TIMER START
7 – UL RETX TIMER END
8 – INACTIVITY TIMER START
9 – INACTIVITY TIMER END
10 – DL DRX RETX TIMER START
11 – DL DRX RETX TIMER END
12 – CDRX ON 2 OFF
13 – CDRX OFF 2 ON
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 68
1.51 ML1 UE Mobility State Parameter Description Sampling Method
Current UE Mobility
State
Current UE Mobility State
0x0 – Invalid
0x1 – Normal mobility
0x2 – Medium mobility
0x3 – High mobility
X
EARFCN Serving EARFCN X
PCI Serving PCI X
1.52 LL1 PDSCH Demod Config Info Parameter Description Sampling Method
Pri. Component Carrier: Primary Component Carrier(PCell)
Sec. Component Carrier: Secondary Component Carrier(SCell)
Transmission Mode
Transmission Mode
Mode
(If same frequent, display
all. The delimiter is /.)
Spatial Rank Rate
Spatial Rank Rate (Rank 1 ~ 4)
Rank x ratio
(Rank x #/(Rank 1#+Rank
2#+…+Rank 4#)*100
Frequency Selective PMI
Frequency Selective PMI
Mode
(If same frequent, display
all. The delimiter is /.)
PMI Index Rate
PMI Index Rate (Index 0 ~ 15)
Rank x ratio
(PMI Idx x #/(PMI Idx
0#+PMI Idx 1#+…+PMI
Idx 15#)*100
TB Size for Stream 0(Sum) Summation of TB Size for Stream 0 Sum
TB Size for Stream 1(Sum) Summation of TB Size for Stream 1 Sum
Modulation Rate for
Stream 0 QPSK / 16QAM / 64 QAM Rate for Stream 0
(QPSK /16QAM/ 64QAM
#)/(QPSK #+16QAM
#+64QAM)*100%
Modulation Rate for
Stream 1 QPSK / 16QAM / 64 QAM Rate for Stream 1
(QPSK /16QAM/ 64QAM
#)/(QPSK #+16QAM
#+64QAM)*100%
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 69
1.53 Physical Throughput Parameter Description Sampling Method
PDSCH Throughput>
PCell: Primary Cell
SCell[x]: Secondary Cell[x = 1 ~ 7] where, in R10 SCell[1] exists only.
Total Throughput ∑PDSCH Throughput>HARQ[x] (Unit: Mbps)
Refer to the calculation
formula
CW0 Throughput ∑PDSCH Throughput>HARQ[x] in TB[0](Unit: Mbps)
Refer to the calculation
formula
CW1 Throughput ∑PDSCH Throughput>HARQ[x] in TB[1] (Unit: Mbps)
Refer to the calculation
formula
Total Bytes Corresponding bytes in Total Throughput Sum
Time Duration Corresponding time duration in Total Throughput Sum
HARQ[#] (within 1 second ∑pdsch_tb_size)*8/(1sec)/(10^6)
(Unit: Mbps)
Refer to the calculation
formula
PDSCH Throughput>
Total Info: PCell + SCell
Total Throughput ∑PDSCH Throughput>HARQ[x] (Unit: Mbps) Sum for PCell and SCell
CW0 Throughput ∑PDSCH Throughput>HARQ[x] in TB[0](Unit: Mbps) Sum for PCell and SCell
CW1 Throughput ∑PDSCH Throughput>HARQ[x] in TB[1] (Unit: Mbps) Sum for PCell and SCell
Total Bytes Sum of PCell Total Bytes and SCell Total Bytes Sum
PDSCH Throughput(SCell Act)>
PCell: Primary Cell
SCell[x]: Secondary Cell[x = 1 ~ 7] where, in R10 SCell[1] exists only.
Consider MAC SCell Activation state only. Without MAC SCell Activation state, this sub tree will be not
active.
Total Throughput ∑PDSCH Throughput>HARQ[x] (Unit: Mbps)
Refer to the calculation
formula
CW0 Throughput ∑PDSCH Throughput>HARQ[x] in TB[0](Unit: Mbps)
Refer to the calculation
formula
CW1 Throughput ∑PDSCH Throughput>HARQ[x] in TB[1] (Unit: Mbps)
Refer to the calculation
formula
Total Bytes Corresponding bytes in Total Throughput Sum
Time Duration Corresponding time duration in Total Throughput Sum
HARQ[#] (within 1 second ∑pdsch_tb_size)*8/(1sec)/(10^6)
(Unit: Mbps)
Refer to the calculation
formula
PDSCH Throughput>
Total Info: PCell + SCell
Total Throughput ∑PDSCH Throughput>HARQ[x] (Unit: Mbps) Sum for PCell and SCell
CW0 Throughput ∑PDSCH Throughput>HARQ[x] in TB[0](Unit: Mbps) Sum for PCell and SCell
CW1 Throughput ∑PDSCH Throughput>HARQ[x] in TB[1] (Unit: Mbps) Sum for PCell and SCell
Total Bytes Sum of PCell Total Bytes and SCell Total Bytes Sum
PUSCH Throughput>
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 70
Parameter Description Sampling Method
Total Throughput ∑PUSCH Throughput>HARQ[x] (Unit: Mbps)
Refer to the calculation
formula
Total Bytes Corresponding bytes in Total Throughput Sum
Time Duration Corresponding time duration in Total Throughput
HARQ[#] (within 1 second ∑pusch_tb_size)*8/(1sec)/(10^6)
(Unit: Mbps)
Refer to the calculation
formula
1.54 MAC Throughput Parameter Description Sampling Method
DL MAC Throughput>
PCell: Primary Cell
SCell[x]: Secondary Cell[x = 1 ~ 7] where, in R10 SCell[1] exists only.
Total Throughput ∑DL MAC Throughput>HARQ[x] (Unit: Mbps)
Refer to the calculation
formula
Total Bytes Corresponding bytes in Total Throughput Sum
Time Duration Corresponding time duration in Total Throughput Sum
HARQ[#] (within 1sec ∑[DL TBS-NUM_PADDING_BYTES])*8/(1
sec)/(10^6) (Unit: Mbps)
Refer to the calculation
formula
DL MAC Throughput>
Total Info: PCell + SCell
Total Throughput ∑DL MAC Throughput>HARQ[x] (Unit: Mbps) Sum for PCell and SCell
Total Bytes Sum of PCell Total Bytes and SCell Total Bytes Sum
PUSCH Throughput>
Total Throughput ∑UL MAC Throughput>HARQ[x] (Unit: Mbps)
Refer to the calculation
formula
Total Bytes Corresponding bytes in Total Throughput Sum
Time Duration Corresponding time duration in Total Throughput Sum
HARQ[#] (within 1 second ∑[UL GRANT(BYTE)-
NUM_PADDING_BYTES])*8/(1 sec)/(10^6) (Unit:
Mbps)
Refer to the calculation
formula
1.55 RLC Throughput Parameter Description Sampling Method
DL RLC Throughput>
Total Throughput ∑DL RLC Throughput>RB CFG IDX[x] (Unit: Mbps)
Refer to the
calculation formula
DL RLC Throughput>
Total Bytes Corresponding bytes in Total Throughput
Sum
DL RLC Throughput>
Time Duration Corresponding time duration in Total Throughput
Sum
DL RLC Throughput>
RB CFG IDX[#]
(∆RLC Rx Byte)*8/(∆Timestamp)/(10^6) (Unit: Mbps)
Where, RLC Rx Byte = DATA_PDU_BYTES +
STATUS_RXED_BYTES + INVALID_PDU_BYTES
Refer to the
calculation formula
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 71
Parameter Description Sampling Method
UL RLC Throughput>
Total Throughput ∑UL RLC Throughput>RB CFG IDX[x] (Unit: Mbps)
Refer to the
calculation formula
UL RLC Throughput>
Total Bytes Corresponding bytes in Total Throughput
Sum
UL RLC Throughput>
Time Duration Corresponding time duration in Total Throughput
Sum
UL RLC Throughput>
RB CFG IDX[#]
(∆RLC Tx Byte)*8/(∆Timestamp)/(10^6) (Unit: Mbps)
Where, RLC Tx Byte = NUM_NEW_DATA_PDU_BYTES +
NUM_CTRL_PDU_BYTES_Tx + NUM_RETX_PDU_BYTES
Refer to the
calculation formula
1.56 PDCP Throughput Parameter Description Sampling Method
DL PDCP Throughput>
Total Throughput ∑DL PDCP Throughput>RB CFG IDX[x] (Unit: Mbps)
Refer to the
calculation formula
DL PDCP Throughput>
Total Bytes Corresponding bytes in Total Throughput
Sum
DL PDCP Throughput>
Time Duration Corresponding time duration in Total Throughput
Sum
DL PDCP Throughput>
RB CFG IDX[#]
(∆PDCP Rx Byte)*8/(∆Timestamp)/(10^6) (Unit: Mbps)
Where, PDCP Rx Byte = NUM_DATA_PDU_RX_BYTES +
NUM_CONTROL_PDU_RX_BYTES +
NUM_PDU_INVALID_BYTES
Refer to the
calculation formula
UL PDCP Throughput>
Total Throughput ∑UL PDCP Throughput>RB CFG IDX[x] (Unit: Mbps)
Refer to the
calculation formula
UL PDCP Throughput>
Total Bytes Corresponding bytes in Total Throughput
Sum
UL PDCP Throughput>
Time Duration Corresponding time duration in Total Throughput
Sum
UL PDCP Throughput>
RB CFG IDX[#]
(∆PDCP Tx Byte)*8/(∆Timestamp)/(10^6) (Unit: Mbps)
Where, PDCP Tx Byte = NUM_DATA_PDU_TX_BYTES +
NUM_CONTROL_PDU_TX_BYTES -
NUM_DISCARD_SDU_BYTES
Refer to the
calculation formula
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 72
1.57 PMCH Throughput Parameter Description Sampling Method
PMCH Throughput>
PCell: Primary Cell
SCell[x]: Secondary Cell[x = 1 ~ 7] where, in R10 SCell[1] exists only.
Total Throughput ∑ PMCH Throughput>HARQ[x] (Unit: Mbps) Arithmetic average
CW0 Throughput ∑ PMCH Throughput>HARQ[x] in TB[0](Unit: Mbps) Arithmetic average
CW1 Throughput ∑ PMCH Throughput>HARQ[x] in TB[1] (Unit: Mbps) Arithmetic average
TB Size(Sum) Summation of TB Size Sum
TB Size(Avg) Average of TB Size Arithmetic average
HARQ[#] (within 1 second ∑pdsch_tb_size)*8/(1sec)/(10^6)
(Unit: Mbps)
Refer to the calculation
formula
PMCH Throughput>
Total Info: PCell + SCell
Total Throughput ∑ PMCH Throughput>HARQ[x] (Unit: Mbps) Sum for PCell and SCell
CW0 Throughput ∑ PMCH Throughput>HARQ[x] in TB[0](Unit: Mbps) Sum for PCell and SCell
CW1 Throughput ∑ PMCH Throughput>HARQ[x] in TB[1] (Unit: Mbps) Sum for PCell and SCell
TB Size(Sum) Summation of TB Size Sum for PCell and SCell
TB Size(Avg) Average of TB Size Sum for PCell and SCell
1.58 LL1 PDSCH Demapper Config(PerTTI)
Re-Processing Sub Tree
Parameter Description Sampling Method
Serving PCI Serving Cell ID X
Subframe Number Subframe number; range is 0 to 9 X
System Frame
Number System frame number; range is 0 to 1023
X
PDSCH RNTI ID RNTI ID X
PDSCH RNTI Type
0 – C-RNTI
1 – SPS C-RNTI
2 – P-RNTI
3 – RA-RNTI
4 – Temporary C-R
5 – SI-RNTI
6 – Reserved
7 – Reserved
8 – MBMS-RNTI
X
Number of Tx
Antennas
0x0 – 1 antenna
0x1 – 2 antennas
0x2 – 4 antennas
X
Number of Rx
Antennas
0x0 – 1 antenna
0x1 – 2 antennas
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 73
Parameter Description Sampling Method
Transmission Mode
0 – Reserved
1 – Single-antenna port; port 0
2 – Transmit diversity
3 – Open-loop spatial multiplexing
4 – Closed-loop spatial multiplexing
5 – Multi-user MIMO
6 – Closed-loop Rank=1 precoding
7 – Single-antenna port; port 5
X
Spatial Rank
0 – rank 1
1 – rank 2
2 – rank 3 (reserved)
3 – rank 4 (reserved)
X
RB Allocation Slot 0 Bitmask that tells which RB is allocated in slot 0 X
RB Allocation Slot 1 Bitmask that tells which RB is allocated in slot 1 X
RB Num Slot 0 The Number of which RB is allocated in slot 0 X
RB Num Slot 1 The Number of which RB is allocated in slot 1 X
Frequency Selective
PMI
0 – Wideband
1 – Subband
X
PMI Index Range is 0 to 15 X
TB Size for Stream 0 number of bits; range is 0 to 75376 X
Modulation for
Stream 0
0x0 – QPSK
0x1 – 16QAM
0x2 – 64QAM
X
TB Size for Stream 1 In units of 1/256 from 0 to 15 X
Modulation for
Stream 1 number of bits; range is 0 to 75376
X
Traffic to Pilot Ratio
0x0 – QPSK
0x1 – 16QAM
0x2 – 64QAM
X
Pb
If number of TX antennas is equal to 1:
– PB = 0; RhoB/RhoA = 1
– PB = 1; RhoB/RhoA = 4/5
– PB = 2; RhoB/RhoA = 3/5
– PB = 1; RhoB/RhoA = 2/5
If number of TX antennas is equal to 2 or 4:
– PB = 0; RhoB/RhoA = 5/4
0x1 – PB = 1; RhoB/RhoA = 1
– PB = 2; RhoB/RhoA = 3/4
– PB = 1; RhoB/RhoA = 1/2
X
RhoB/RhoA X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 74
1.59 LL1 PUCCH Tx Report(PerTTI)
Re-Processing Sub Tree
Parameter Description Sampling Method
Serving PCI Serving Cell ID X
System Frame
Number System Frame Number
X
Subframe Number Subframe Number X
CQI Payload Raw CQI payload on PUCCH; max length is 13 bits X
Format
0x0 – Format 1
0x1 – Format 1a
0x2 – Format 1b
0x3 – Format 2
0x4 – Format 2a
0x5 – Format 2b
X
Start RB Slot0 Range is 0 to 110 X
Start RB Slot1 Range is 0 to 110 X
SRS Shorting for
2nd Slot
0 – normal slot
1 – shorten 2nd Slot
X
UE SRS ON 0 – OFF
1 – ON
X
DMRS Sequence
for Slot0 index 0 to 29
X
DMRS Sequence
for Slot1 index 0 to 29
X
ACK Payload ACK/NACK raw payload X
Cyclic Shift
Sequence Time domain cyclic shifts per symbol per slot
X
PUCCH Digital Gain Digital amplitude gain in dB X
PUCCH Tx Power Range is -50 dBm to 23 dBm, with 1 dB stepsize X
Tx Rotator Value Frequency correction at Tx rotator X
1.60 LL1 PUSCH Tx Report(PerTTI)
Re-Processing Sub Tree
Parameter Description Sampling Method
Serving PCI Serving Cell ID X
System Frame
Number System Frame Number
X
Subframe Number Subframe Number X
ACK 0x0 – No
0x1 – exists
X
CQI 0x0 – No
0x1 – exists
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 75
Parameter Description Sampling Method
RI 0x0 – No
0x1 – exists
X
Frequency Hopping
0 – Freq Hop disabled
1 – Inter SF freq hopping
2 – Intra+Inter SF freq hopping
3 – Undefined
X
Retransmission Idx 0 – First transmission
1 – Second transmission to 7 – Eighth transmission
X
Redundancy
Version Range is 0 ~ 3
X
Mirror Hopping
0x0 – Disabled for slot 0
0x1 – Enabled for slot 0
0x2 – Disabled for slot 1
0x3 – Enabled for slot 1
X
Cyclic Shift of
DMRS Slot0
Cyclic shift of DMRS symbols for slot 0. Unit is samples.
Range is 0 to 11
X
Cyclic Shift of
DMRS Slot1
Cyclic shift of DMRS symbols for slot 1. Unit is samples.
Range is 0 to 11
X
DMRS Root Slot0 Range is 1 to 1291 X
DMRS Root Slot1 Range is 1 to 1291 X
UE SRS ON 0 – OFF
1 – ON
X
Start RB for Slot0 Range is 0 to 110 X
Start RB for Slot1 Range is 0 to 110 X
Number of RB Range is 0 to 110 X
PUSCH TB Size Transport block size in bytes X
Num ACK Bits Length of ACK NACK raw payload X
ACK Payload ACK / NACK raw payload. X
Rate Matched ACK
Bits Rate Matched ACK Bits (504 bits)
X
Num RI Bits
0 – RI bits
1 – RI bit
2 – 2 RI bits
X
RI Payload RI raw payload X
Rate Matched RI
Bits Range: 0 – 63
X
PUSCH Mod Order
0 – BPSK
1 – QPSK
2 – 16QAM
3 – 64QAM
X
PUSCH Digital Gain Digital amplitude gain in dB X
SRS Occasion 0 – OFF
1 – ON
X
Num CQI Bits Range:0~66 X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 76
Parameter Description Sampling Method
Rate Matched CQI
Bits Range: 0~ 4959
X
PUSCH Tx Power Range is -50 dBm to 23 dBm, with 1 dB stepsize X
CQI Payload CQI raw payload on PUSCH; max length is 96 bits X
Tx Rotator Value Frequency correction at Tx rotator X
1.61 ML1 DCI Information Report(PerTTI)
Re-Processing Sub Tree
Parameter Description Sampling Method
PDCCH Timing SFN System frame number of PDCCH X
PDCCH Timing
Subframe Number Subframe number of PDCCH
X
UL Grant Valid 0x0 – Grant not valid
0x1 – Grant valid
X
RIV Width Bit width of RIV based on UL frequency configuration X
RIV Value Resource indicator value
Range is 32 to 8192
X
Hopping Flag 0x0 – Hopping disabled
0x1 – Hopping enabled
X
MCS Index MCS index
Range is 0 to 31
X
NDI New Data Indicator X
TPC TPC command X
Cyclic Shift DMRS Cyclic shift DMRS X
Duplex Mode 0: FDD
1: TDD
X
K of DCI 0 K value for DCI 0
Range: 4, 6, 7
X
UL Index/DAI UL index for TDD UL/DL 0 or UL Downlink Assignment
Index for TDD UL/DL 1-6.
X
CQI Request CQI request X
Start of Resource
Block Starting Resource Block for the received grant
X
Number of
Resource Blocks Total number of RBs allocated in the grant.
X
TBS Index
Transport Block Size Index. Transport Block Size can be
determined using TBS Index and Number of Resource
Blocks
X
Modulation Type
0x0 – BPSK
0x1 – QPSK
0x2 – 16 QAM
0x3 – 64 QAM
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 77
Parameter Description Sampling Method
Redundancy
Version Index Redundancy Version Index
X
HARQ ID HARQ ID (range: 0 to 7) X
PDCCH Order Valid 0x0 – Not valid
0x1 – Valid
X
DL Grant Valid 0x0 – Grant not valid
0x1 – Grant valid
X
DL Grant Format
type
PDCCH format type of DL grant
0x0 – DCI Format 0
0x1 – DCI Format 1
0x2 – DCI Format 1a
0x3 – DCI Format 1b
0x4 – DCI Format 1c
0x5 – DCI Format 1d
0x6 – DCI Format 2
0x7 – DCI Format 2a
X
Num ACK/NAK bits Number of ACK/NAK bits for DL grant
Range is 0 to 2
X
DL Grant TPC
Command TPC command in DL grant
X
TPC DCI Valid 0x0 – Not valid
0x1 – Valid
X
TPC DCI Format
Yype
0x0 –Format 3
0x1 – Format 3a
X
TPC DCI RNTI Type
0x0 – C_RNTI
0x1 – SPS_RNTI
0x2 – P_RNTI
0x3 – RA_RNTI
0x4 – TEMP_C_RNTI
0x5 – SI_RNTI
0x6 – TPC_PUSCH_RNTI
0x7 – TPC_PUCCH_RNTI
0x8 – MBMS RNTI
X
TPC DCI TPC
Command PC command in the TPC DCI
X
Downlink
Assignment Index
DL Downlink Assignment Index for TDD UL/DL 1-6
Range: 0…3.
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 78
1.62 LL1 PDCCH Decoding Result(Per TTI) Parameter Description Sampling Method
Pri. Component Carrier
Sec. Component Carrier
System Frame
Number System Frame Number
X
Subframe Number Subframe Number X
Demback Mode
Select
X
Number of
Hypothesis Number of Hypothesis
X
Hypothesis[x] Payload Follow the message viewer. X
Aggregation
Level
0 -> Agg1
1 -> Agg2
2 -> Agg4
3 -> Agg8
X
Candidate Searching for CCE location by using related
information.
X
Search
Space Type
0 -> Common
1 -> User
X
DCI Format
0 -> 0
1 -> 1
2 -> 1A
3 -> 1B
4 -> 1C
5 -> 1D
6 -> 2
7 -> 2A
8 -> 3
9 -> 3A
10 -> N/A
11 -> N/A
12 -> N/A
13 -> N/A
14 -> N/A
15 -> N/A
X
Decode
Status
0 -> C_RNTI
1 -> SPS_C_RNTI
2 -> P_RNTI
3 -> RA_RNTI
4 -> T_C_RNTI
5 -> SI_RNTI
6 -> TPC_PUSCH_RNTI
7 -> TPC_PUCCH_RNTI
8 -> MBMS_RNTI
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 79
Parameter Description Sampling Method
Start CCE The start point of CCE becomes reference
variance for PUCCH allocation.
X
Payload Size DCI data size X
Tail Match 0 -> Mismatch
1 -> Match
X
Prune Status
1 -> SUCCESS_DCI0
2 -> SUCCESS_DCI1
3 -> SUCCESS_DCI1A
4 -> SUCCESS_DCI1C
5 -> SUCCESS_DCI1B_1D
6 -> SUCCESS_DCI2_2A
7 -> SUCCESS_DCI3_3A
8 -> TAIL_MISMATCH
9 -> FAIL_SURVIVOR_SELECT
10 ->PADDING_ERROR
11 ->RB_ALLOC_IO_ERROR
12 ->RB_ALLOC_ZERO_RB_ERROR_TYPE0
13 ->RB_ALLOC_SET_NUM_ERROR_TYPE1
14 ->RB_ALLOC_ZERO_RB_ERROR_TYPE1
15 -> TBS_IO_ERROR
16 -> MOD_ORDER_IO_ERROR
17 -> DUPLICATE_HARQ_ID_ERROR
18 -> UNKNOWN_DCI
19 -> UNEXPECTED_PAYLOAD_SIZE
20 -> UNEXPECTED_DCI_FOR_TPC
21 -> TPC_PUSCH_PRUNE_DCI_3_3A
22 ->BAD_PARAM_PDCCH_INTERPRET
23 -> INTERPRET_ERROR
24 -> BAD_RIV_DCI0
25 -> RB_ALLOC_ERROR_DCI0
26 -> INVALID_RB_NUM_DCI0
27 -> MCS_ERROR_DCI0
28 -> NDI_ERROR_DCI0
29 -> CQI_ERROR_DCI0
30 -> INVALID_RNTI_DCI1
31 -> NUM_LAYERS_ERROR_DCI1
32 -> BAD_RIV_DCI1A
33 -> RB_ALLOC_ERROR_DCI1A
34 -> INVALID_RB_NUM_DCI1A
35 -> NUM_LAYERS_ERROR_DCI1A
36 ->RETURN_DL_DATA_ARRIVAL_DCI1A
37 -> INVALID_RNTI_DCI1B_1D
38 -> BAD_RIV_DCI1B_1D
39 -> RB_ALLOC_ERROR_DCI1B_1D
40 -> INVALID_RB_NUM_DCI1B_1D
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 80
Parameter Description Sampling Method
Prune Status
41 ->NUM_LAYERS_ERROR_DCI1B_1D
42 -> INVALID_RNTI_DCI1C
43 -> BAD_RIV_DCI1C
44 -> RB_ALLOC_ERROR_DCI1C
45 -> NUM_LAYERS_ERROR_DCI1C
46 -> INVALID_RNTI_DCI2_2A
47 -> TB_EN_ERROR_DCI2_2A
48 -> PMI_ERROR_DCI2_2A
49 -> SPS_CRNTI_ERROR_DCI2_2A
50 ->NUM_LAYERS_ERROR_DCI2_2A_TB1
51 ->NUM_LAYERS_ERROR_DCI2_2A_TB2
52 -> TBS_IO_ERROR_DCI2_2A_TB1
53 -> TBS_IO_ERROR_DCI2_2A_TB2
54 -> TBS_2LAYER_ERROR_DCI1
55 -> TBS_2LAYER_ERROR_DCI2
56 ->MOD_ORDER_ERROR_DCI2_2A_TB1
57 ->MOD_ORDER_ERROR_DCI2_2A_TB2
58 -> INVALID_RNTI_DCI0
59 ->INVALID_DL_GRANT_ON_MBSFN
60 -> INVALID_HARQ_ID
61 -> INVALID_DAI
62 -> SPS_C_RNTI_VALIDATION_FAIL
63 -> SPS_PRUNE_AFTER_STORING
64 -> FAIL_SER_ENGYMTRC_CHECK
X
Norm Energy
Metric Data
Normalized energy metric 32S16, the
field is signed and with a Q scale factor
of 16, to get the actual value, divide this
by 2^16
Formula:
."Norm Energy Metric Data" / pow(2, 16)
X
Symbol Error
Rate Data
symbol_error_rate 32U31, the field is
with a Q scale factor of 31, to get the
actual value, divide this by 2^31
Formula:
."Symbol Error Rate Data" / pow(2, 31)
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 81
1.63 LL1 PDSCH Decoding Result(Per TTI) Parameter Description Sampling Method
Pri. Component Carrier
Sec. Component Carrier
Serving PCI Serving PCI X
System Frame
Number
Starting System Frame Number + ("Starting Sub-frame
Number" + "Sub-frame Offset") % 10
X
Subframe
Number
("Starting Sub-frame Number" + "Sub-frame Offset") Mod
10
X
UE Category Information of UE Category X
No of DL HARQ Number of HARQ process X
TM Mode Transport Mode X
PDSCH Channel
ID RNTI information
X
HARQ ID Hybrid ARQ ID X
System Info Msg
Number System Information Massage Number
X
System Info
Mask System Information Mask
X
RNTI Type 0 -> C
1 -> SPS-C
2 -> P
3 -> RA
4 -> T-C
5 -> SI
6 -> TPC PUSCH
7 -> TPC PUCCH
8 -> MBMS
X
HARQ Log Status 0 -> Normal
1 -> Reset
2 -> Overwritten
X
Codeword Swap Indicates whether swap or not when CW and Layer are
mapped.
X
No of Streams Number of Streams X
Stream[x] Transport Block CRC
Status
0 -> Fail
1 -> Pass
X
NDI New data indicator X
Code Block Size Plus X
Num Code Block Plus X
Max TDEC Iteration X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 82
Parameter Description Sampling Method
Retransmission
Number
0 -> First
1 -> Second
2 -> Third
3 -> Fourth
4 -> Fifth
5 -> Sixth
6 -> Seventh
7 -> Eighth
X
RVID Redundancy version information X
Companding Stats
0 -> 3 bit LLR
1 -> 4 bit LLR
2 -> 6 bit LLR
X
HARQ Combining 0 -> Disabled
1 -> Enabled
X
Decob TB CRC Status X
No of RE Number of Resource Element X
Codeword Index Codeword Index X
Energy Metrics[y]>
Energy Metric
X
Energy Metrics[y]>
Turbo Code No of
iterations
X
Energy Metrics[y]>
Code Block CRC Pass
Status
0 -> Fail
1 -> Pass
X
Energy Metrics[y]>
Early Termination
Status
0 -> No
1 -> Yes
X
Energy Metrics[y]>
HARQ Combine Enable
0 -> Disabled
1 -> Enabled
X
Energy Metrics[y]>
Deint Decode Bypass
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 83
1.64 LL1 PCFICH Decoding Results(Per TTI)
Re-Processing Sub Tree
Parameter Description Sampling Method
System Frame
Number System frame number (range: 0 ~ 1023)
X
Subframe Number Subframe number (range: 0 ~ 9) X
CFI
Control Format Indicator (range: 0 ~ 3)
0 means 1 OFDM Symbol.
1 means 2 OFDM Symbols.
2 means 3 OFDM Symbols.
X
Subframe Offset Offset relative to the starting SFN X
1.65 ML1 PMCH Decode Result(Per TTI) Parameter Description Sampling Method
PCell: Primary Cell
SCell[Idx #]: Secondary Cell[# = 1 ~ 7]
Subframe Num Subframe Num X
System Frame
Number System Frame Number
X
RB Num Resource Block Number X
Layer Num Layer Number X
TB Num Transport Block Number X
PMCH ID Physical Multicast Channel ID X
AREA ID Area ID X
TB[i] HARQ ID Hybrid ARQ ID X
Redundancy Version Redundancy Version X
NDI New data indicator X
CRC Result 0 – CRC fail
1 – CRC pass
X
RNTI Type
0 – C RNTI
1 – SPS-C RNTI
2 – P RNTI
3 – RA RNTI
4 – Temp-C RNTI
5 – SI RNTI
6 – TPC-PUSCH RNTI
7 – TPC-PUCCH RNTI
8 – MBMS RNTI
X
TB Index Transport Block Index X
Discarded Retrans 1 – Present
0 – None
X
Recombining 1 - Yes
0 – No
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 84
Parameter Description Sampling Method
TB Size Transport Block Size X
MCS Modulation and Coding Scheme X
Code Rate TB Size*8/(RB Num*12*7*MCS) X
RB Num Resource Block Number X
1.66 ML1 ALL DL Channels Decode Result(Per TTI)
Parameter Description Sampling Method
PCell: Primary Cell
SCell[Idx #]: Secondary Cell[# = 1 ~ 7]
Subframe Num Subframe Number X
System Frame
Number System Frame Number
X
RB Num Resource Block Number X
Layer Num Layer Number X
TB Num Number of TB X
PMCH ID Physical Multicast Channel ID X
AREA ID Area ID X
TB[i] HARQ ID Hybrid ARQ ID X
Redundancy Version Redundancy Version X
NDI New data indicator X
CRC Result 0 – CRC fail
1 – CRC pass
X
RNTI Type
0 – C RNTI
1 – SPS-C RNTI
2 – P RNTI
3 – RA RNTI
4 – Temp-C RNTI
5 – SI RNTI
6 – TPC-PUSCH RNTI
7 – TPC-PUCCH RNTI
8 – MBMS RNTI
X
TB Index Transport Block Index (0 or 1) X
Discarded Retrans 1 – Present
0 – None
X
Recombining 1 - Yes
0 - No
X
TB Size Transport Block Size X
MCS Modulation and Coding Scheme X
Code Rate TB Size*8/(RB Num*12*7*MCS) X
RB Num Resource Block Number X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 85
1.67 ML1 PMCH Results Statistics Parameter Description Sampling Method
Area ID[x]
Total Info MCS Idx0(Avg) MCS average of MBSFN Subframe Arithmetic average
BLER CW0
{1-
(∆mcs[0].total_trblk_crc_pass/∆mcs[0].total_trblk_
received)} *100%
Refer to the
calculation formula
MCS Idx1(Avg) MCS average of MBSFN Subframe Arithmetic average
BLER CW1
{1-
(∆mcs[0].total_trblk_crc_pass/∆mcs[0].total_trblk_
received)} *100%
Refer to the
calculation formula
PMCH
ID[x]
MCS Idx0(Avg) MCS average of MBSFN Subframe Arithmetic average
BLER CW0
{1-
(∆mcs[0].total_trblk_crc_pass/∆mcs[0].total_trblk_
received)} *100%
Refer to the
calculation formula
MCS Idx1(Avg) MCS average of MBSFN Subframe Arithmetic average
BLER CW1
{1-
(∆mcs[1].total_trblk_crc_pass/∆mcs[1].total_trblk_
received)} *100%
Refer to the
calculation formula
1.68 ML1 Uplink PKT Build Indication (PerTTI)
Re-Processing Sub Tree
Parameter Description Sampling Method
PUSCH SFN PUSCH OTA system frame number X
PUSCH Subframe
Number PUSCH OTA subframe number
X
TB Size PUSCH transport block size X
RNTI Type
0x0 – C_RNTI
0x1 – SPS_RNTI
0x2 – P_RNTI
0x3 – RA_RNTI
0x4 – TEMP_C_RNTI
0x5 – SI_RNTI
0x6 – TPC_PUSCH_RNTI
0x7 – TPC_PUCCH_RNTI
0x8 – MBMS RNTI
X
EIB Address Encoder Input Buffer Address X
Power Headroom Uplink power headroom value
Range is 0x00: -23 dB to 0x3F :40 dB
X
HARQ ID HARQ index X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 86
1.69 ML1 PDSCH Stat Indication(PerTTI)
Re-Processing Sub Tree
Parameter Description Sampling Method
Subframe Num OTA Tx frame number X
System Frame
Number OTA Tx subframe number
X
RB Num Number of rbs allocated X
RB Num(Avg) (Sum of RB Num within 1 sec)/1000 1second sampling
(Arithmetic average)
Layer Num Number of layers (Range is 1<= num layers <= 4) X
TB Num num transport blocks present (1 <= range <= 4) X
TB[i]> HARQ ID (up to 8 for FDD (0 -7), up to 15 for TDD (0-14)) X
TB[i]> Redundancy
Version Redundancy version
X
TB[i]> NDI New data indicator X
TB[i]> CRC Result 0 – CRC fail
1 – CRC pass
X
TB[i]> RNTI Type
0 – C
1 – SPS-C
2 – P
3 – RA
4 – Temp-C
5 – SI
6 – TPC-PUSCH
7 – TPC-PUCCH
8 – MBMS
X
TB[i]> TB Index
The transport block index where two transport blocks are
received with the same rnti (for MIMO) Index [0 , 1] will be
present to represent TB with same RNTI otherwise 0 by
default
X
TB[i]> Discarded
Retrans
Discarded retransmission: Additional retransmission of
already received data due to
ack->nak misdetection:
– Present
– None
X
TB[i]>
Recombining
Recombined with previous data
- Yes
- No
X
TB[i]> TB Size Transport block size in bytes X
TB[i]> MCS MCS index
Range is 0 <= mcs <= 31
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 87
1.70 ML1 PDCCH PHICH Ind Report(PerTTI)
Re-Processing Sub Tree
Parameter Description Sampling Method
PDCCH Timing SFN System frame number of PDCCH X
PDCCH Timing
Subframe Number Subframe number of PDCCH
X
Number of PDCCH PDCCH number (Range is 0 to 6) X
PHICH Included 0x0 – PHICH information is not included
0x1 – PHICH information is included
X
PHICH Timing SFN System frame number of PHICH X
PHICH Timing
Subframe number Subframe number of PHICH
X
PHICH Value 0x0 – PHICH NAK
0x1 – PHICH ACK
X
PDCCH Num(>0)%
‘PDCCH Num = 0’ Cnt = a
‘PDCCH Num >0’ Cnt = b
PDCCH Num(>0)% = b/(a+b)*100(%)
PDCCH Result[x]>
CRC Status
– Fail
– Pass
X
PDCCH Result[x]>
RNTI Type
– C_RNTI
– SPS_RNTI
– P_RNTI
– RA_RNTI
– TEMP_C_RNTI
– SI_RNTI
– TPC_PUSCH_RNTI
– TPC_PUCCH_RNTI
– MBMS RNTI
X
PDCCH Result[x]>
PDCCH Payload
Size
PDCCH payload size
X
PDCCH Result[x]>
Aggregation Level
PDCCH payload size
0 -> Agg1
1 -> Agg2
2 -> Agg4
3 -> Agg8
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 88
1.71 ML1 GM Tx Report(Per TTI)
Re-Processing Sub Tree
Parameter Description Sampling Method
PUSCH_Tx_Report> Tx
SFN PUSCH OTA system frame number
X
PUSCH_Tx_Report> Tx
Sub-fn PUSCH OTA subframe number
X
PUSCH_Tx_Report>
Transport Block Size PUSCH transport block size in bytes
X
PUSCH_Tx_Report> CSF
Present Flag Whether CSF is being scheduled
X
PUSCH_Tx_Report> UL
ACK/NAK Present Flag
Whether UL ACK/NAK is present
X
PUSCH_Tx_Report>
ACK/NAK Reporting Mode
Ack/Nak reporting mode
X
PUSCH_Tx_Report>
Number of Bundled
Subframes
The total number of subframes in current bundling.
(Only TDD)
X
PUSCH_Tx_Report> End of
Bundling
The very last subframe number of current bundling.
(Only TDD)
X
PUSCH_Tx_Report> Total
Tx Power Range is -112 dBm to 23 dBm
X
PUSCH_Tx_Report> Beta
PUSCH Range is 0 to 2047
X
PUSCH_Tx_Report> Cyclic
Shift DMRS Cyclic Shift DMRS
X
PUSCH_Tx_Report>
Resource Block Start Starting resource block number
X
PUSCH_Tx_Report> Rv Redundancy Version X
PUSCH_Tx_Report>
Ack/Nak Len ACK/NAK length
X
PUSCH_Tx_Report>
Modulation Type
0x0 – BPSK
0x1 – QPSK
0x2 – 16 QAM
0x3 – 64 QAM
X
PUSCH_Tx_Report>
Number of Resource Blocks Number of contiguous resource blocks
X
PUSCH_Tx_Report>
Retransmission index Retransmission index
X
PUSCH_Tx_Report> Harq
ID Harq index
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 89
Parameter Description Sampling Method
PUSCH_Tx_Report> Freq
Hopping Flag
0x0 – Disabled
0x1 – Enabled
X
PUSCH_Tx_Report> Harq
ACK offset index I_harq_ack_offset
X
PUSCH_Tx_Report> CQI
offset index I_cqi_offset
X
PUSCH_Tx_Report> RI
offset index I_ri_offset
X
PUSCH_Tx_Report>
PUSCH Hopping Payload
Used to determine VRB to PRB mapping
Range is 0 to 3
X
PUSCH_Tx_Report> SRS
Present Flag Whether SRS is being scheduled
X
PUSCH_Tx_Report> SRS
UE/Cell specific Cell or UE specific SRS occasion
X
PUSCH_Tx_Report>
n_dmrs N_dmrs
X
PUSCH_Tx_Report> Num
Antenna Number of antenna
X
PUCCH_Tx_Report>Tx SFN PUCCH OTA system frame number X
PUCCH_Tx_Report>Tx
Sub-fn PUCCH OTA subframe number
X
PUCCH_Tx_Report>Total
Tx Power Range is -112 dBm to 23 dBm
X
PUCCH_Tx_Report>Beta
PUCCH Amplitude scaling factor , Range is 0 to 2047
X
PUCCH_Tx_Report>UL
ACK/NAK Present
0: ACK/NAK not present
1: ACK/NAK present
2: Forced NAK present
X
PUCCH_Tx_Report>ACK/N
AK Reporting Mode
Ack/Nak reporting mode
X
PUCCH_Tx_Report>Ack/Na
k Len ACK/NAK length
X
PUCCH_Tx_Report>n_1_p
ucch
PUCCH resource for format 1/1a/1b
Range is 0 to 2083
X
PUCCH_Tx_Report>Numbe
r of n_1_pucch
Number of n_1_pucch sent t in TDD multiplexing
mode.
X
PUCCH_Tx_Report>n_1_p
ucch_0
PUCCH Resource for TDD multiplexing mode.
Range: 0…2083
X
PUCCH_Tx_Report>n_1_p
ucch_1
X
PUCCH_Tx_Report>n_1_p
ucch_2
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 90
Parameter Description Sampling Method
PUCCH_Tx_Report>n_1_p
ucch_3
X
PUCCH_Tx_Report>n_2_p
ucch PUCCH resource for format 2/2a/2b
X
PUCCH_Tx_Report>Sched
uling Request Present
0x0 – Not present
0x1 – Present
X
PUCCH_Tx_Report>Temp
RNTI ACK Flag
0x0 – Not present
0x1 – Present
X
PUCCH_Tx_Report>SRS
Present Flag Whether SRS is being scheduled
X
PUCCH_Tx_Report>SRS
UE/Cell specific Cell or UE specific SRS occasion
X
PUCCH_Tx_Report>CSF
Present
0x0 – Not present
0x1 – Present
X
1.72 MAC DL TB(Per TTI) Parameter Description Sampling Method
PCell: Primary Cell
SCell[Idx #]: Secondary Cell[# = 1 ~ 7]
System Frame
Number System Frame Number
X
Subframe
Number Subframe Number
X
HARQ ID Hybrid ARQ ID X
RNTI Type 0x0 – RNTI to decode dedicated UE data in connected
0x1 – RNTI to activate SPS
0x2 – RNTI used to Identify paging info
0x3 – RNTI associated with PDCCH carrying RACH resp.
0x4 – T-RNTI to decode MSG 4 of the RACH procedure
0x5 – RNTI to Identify System Info
0x6 – RNTI used to notify the UE of UL pwr control info
0x7 – RNTI used to notify the UE of UL pwr control info for
control chan.
0x8 – RNTI for cell specific MBMS on PMCH in connected or
Idle
X
DL TBS DL Transport Block Size X
NUM RLC PDUS Number of MAC SDU X
NUM Padding Number of bytes of padding in MAC PDU X
MAC Header MAC RAR>TA_Val Timing Advance value X
MAC RAR>
Hop_Flag
Determine whether to use Frequency
Hoping or not when transmitting PUSCH.
X
MAC RAR>
RB_Assign RB assignment
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 91
Parameter Description Sampling Method
MAC RAR>
Coding_Schme MCS information
X
MAC RAR>
TBS_index TBS Index (36.213) corresponds to MCS
X
MAC RAR>
TPC_Command Transmit Power Control
X
MAC RAR>
UL_Delay Msg3 transmission and TTI delay status
X
MAC RAR>
CQI_Req CSI request history status
X
MAC RAR> Temp
C-RNTI
X
SCell Act/Deact>
LCID
If LCID is 11011 in binary form (27 in
numeric form), indicates the character
string below: Activation/Deactivation.
X
SCell Act/Deact>
Cell Idx[1]
0: Deactivation, 1: Activation
X
SCell Act/Deact>
Cell Idx[2]
X
SCell Act/Deact>
Cell Idx[3]
X
SCell Act/Deact>
Cell Idx[4]
X
SCell Act/Deact>
Cell Idx[5]
X
SCell Act/Deact>
Cell Idx[6]
X
SCell Act/Deact>
Cell Idx[7]
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 92
1.73 MAC UL TB(PerTTI)
Re-Processing Sub Tree
Parameter Description Sampling Method
System Frame
Number system frame number (0 ~ 1023)
X
Subframe Number subframe number (0 ~ 9) X
HARQ ID Identifies the HARQ on which the data was received X
RNTI Type
0x0 – RNTI to decode dedicated UE data in Connected
mode
0x1 – RNTI to activate SPS
0x2 – RNTI used to Identify Paging info
0x3 – RNTI associated with PDCCH carrying RACH response
0x4 – Temp RNTI to decode RACH MSG4
0x5 – RNTI to identify System info
0x6 – RNTI used to notify the UE of UL power control info
0x7 – For cell specific MBMS on PDSCH in either connected
or Idle state
X
UL Grant Uplink grant in bytes X
NUM RLC PDUS Number of RLC PDUs X
NUM Padding Number of bytes of padding X
BSR Event
0 – None
1 – Periodic
2 – High data arrival
3 – Robustness BSR
X
Type of BSR
Triggered
– No BSR
– Cancelled
– Long BSR
– Short BSR
– Padding long BSR
– Padding short BSR
– Padding truncated BSR
X
MAC Header>
Truncated BSR
If MAC_HEADER>LCID = Truncated BSR,
Refer to 3GPP 36.321.
X
MAC Header>
Short BSR
If MAC_HEADER>LCID = Short BSR,
Refer to 3GPP 36.321.
X
MAC Header> Long
BSR
If MAC_HEADER>LCID = Long BSR,
Refer to 3GPP 36.321.
X
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 93
1.74 ML1 TDD AckNack Report Parameter Description Sampling Method
Subframe
Assignment
0 = SUBFRAME_ASSIGN_0
1 = SUBFRAME_ASSIGN_1
2 = SUBFRAME_ASSIGN_2
3 = SUBFRAME_ASSIGN_3
4 = SUBFRAME_ASSIGN_4
5 = SUBFRAME_ASSIGN_5
6 = SUBFRAME_ASSIGN_6
Last
ACK Reporting Mode 0x0: Multiplexing
0x1: Bundling
Last
N_p Ratio N_p for n_1_pucch calculation.
Range: 0,1,3,5,8,11,13,22,16,22,27,41,44,55,66,88
N_p=Range ratio
N_p_plus_1 Ratio N_p_plus_1 for n_1_pucch calculation:
Range: 0,1,3,5,8,11,13,22,16,22,27,41,44,55,66,88
N_p=Range ratio
Position Ratio of
Minimum k
The position of minimum k to calculate n_1_pucch.
This field is valid only when ACK Reporting Mode is
Bundling.
Range: 0…9
m value of minimum
K=Range ratio
n_CCE(Bundling)
The number of the first CCE used for transmission of the
corresponding PDCCH
This field is displayed only when the ACK Reporting Mode
is Bundling.
Range: 0…96
Arithmetic average
n_CCE(Multiplexing)
The number of the first CCE used for transmission of the
corresponding PDCCH
This field is valid only when the ACK Reporting Mode is
Multiplexing.
Range: 0…96
Arithmetic average
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 94
1.75 TDD KPI(Old) Parameter Description Sampling Method
Subframe
Assignment
0 = SUBFRAME_ASSIGN_0
1 = SUBFRAME_ASSIGN_1
2 = SUBFRAME_ASSIGN_2
3 = SUBFRAME_ASSIGN_3
4 = SUBFRAME_ASSIGN_4
5 = SUBFRAME_ASSIGN_5
6 = SUBFRAME_ASSIGN_6
Follow the existing
way.
Special Subframe
Patterns
0 = SPECIAL_SUBFRAME_PATTERN_0
1 = SPECIAL_SUBFRAME_PATTERN 1
2 = SPECIAL_SUBFRAME_PATTERN 2
3 = SPECIAL_SUBFRAME_PATTERN 3
4 = SPECIAL_SUBFRAME_PATTERN 4
5 = SPECIAL_SUBFRAME_PATTERN 5
6 = SPECIAL_SUBFRAME_PATTERN 6
7 = SPECIAL_SUBFRAME_PATTERN_7
8 = SPECIAL_SUBFRAME_PATTERN_8
Follow the existing
way.
DL RB
Num(Including 0) Reference parameter*DL weight
Follow the existing
way.
DL DTX Rate Reference parameter*DL weight
Follow the existing
way.
DL RB Share Reference parameter*DL weight
Follow the existing
way.
UL RB
Num(Including 0) Reference parameter*UL weight
Follow the existing
way.
UL DTX Rate Reference parameter*UL weight
Follow the existing
way.
UL RB Share Reference parameter*UL weight
Follow the existing
way.
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 95
1.76 TDD KPI(New) Parameter Description Sampling Method
Subframe
Assignment
0 = SUBFRAME_ASSIGN_0
1 = SUBFRAME_ASSIGN_1
2 = SUBFRAME_ASSIGN_2
3 = SUBFRAME_ASSIGN_3
4 = SUBFRAME_ASSIGN_4
5 = SUBFRAME_ASSIGN_5
6 = SUBFRAME_ASSIGN_6
Follow the existing
way.
Special Subframe
Patterns
0 = SPECIAL_SUBFRAME_PATTERN_0
1 = SPECIAL_SUBFRAME_PATTERN 1
2 = SPECIAL_SUBFRAME_PATTERN 2
3 = SPECIAL_SUBFRAME_PATTERN 3
4 = SPECIAL_SUBFRAME_PATTERN 4
5 = SPECIAL_SUBFRAME_PATTERN 5
6 = SPECIAL_SUBFRAME_PATTERN 6
7 = SPECIAL_SUBFRAME_PATTERN_7
8 = SPECIAL_SUBFRAME_PATTERN_8
Follow the existing
way.
DL RB Num(Avg) PCell
Under the same System Frame Number, average
RB number is represented.
Indicates by each
SFN as priority.
SCell[x]
//x=1~7
Under the same System Frame Number, average
RB number is represented.
Indicates by each
SFN as priority.
UL RB Num(Avg) Under the same System Frame Number, average RB number
is represented.
Indicates by each
SFN as priority.
PDSCH
Throughput Total
Under the same System Frame Number, ∑TB
Size*8/(10^3)/10 is represented.
Indicates by each
SFN as priority.
PCell Under the same System Frame Number, ∑TB
Size*8/(10^3)/10 is represented.
Indicates by each
SFN as priority.
SCell[x]
//x=1~7
Under the same System Frame Number, ∑TB
Size*8/(10^3)/10 is represented.
Indicates by each
SFN as priority.
PUSCH
Throughput
Under the same System Frame Number, ∑TB
Size*8/(10^3)/10 is represented.
Indicates by each
SFN as priority.
MAC DL
Throughput Total
Under the same System Frame Number, ∑TB
Size*8/(10^3)/10 is represented. (Consider only
CRC pass.)
Indicates by each
SFN as priority.
PCell Under the same System Frame Number, ∑TB
Size*8/(10^3)/10 is represented. (Consider only
CRC pass.)
Indicates by each
SFN as priority.
SCell[x]
//x=1~7
Under the same System Frame Number, ∑TB
Size*8/(10^3)/10 is represented. (Consider only
CRC pass.)
Indicates by each
SFN as priority.
MAC UL
Throughput
Under the same System Frame Number, ∑TB
Size*8/(10^3)/10 is represented. (Consider only if
Retransmission index equals zero.)
Indicates by each
SFN as priority.
XCAP-LTE Parameter Description Chapter 1. Qualcomm Lte/LteAdv
© Innowireless Co., Ltd. Page 96
1.77 HRPD Neighbor Measurements Parameter Description Sampling Method
Dominant Cell
Info> Band Class HRPD Neighbor Dominant Cell Band Class
Band Class of PN which
has the strongest Ec/Io/
Dominant Cell
Info> ARFCN HRPD Neighbor Dominant Cell ARFCN
ARFCN of PN which has
the strongest Ec/Io/
Dominant Cell
Info> PN HRPD Neighbor Dominant Cell PN
PN which has the
strongest Ec/Io/
Dominant Cell
Info> Ec/Io
HRPD Neighbor Dominant Cell Ec/Io
Where, Ec/Io = pilotStrength*(-0.5)
Arithmetic average
Band Class #>
ARFCN #> Ec/Io
HRPD Neighbor Cell Ec/Io per PN
Where, Ec/Io = pilotStrength*(-0.5)
Ex)Band Class 1>ARFCN 25>Ec/Io>PN 453
Arithmetic average
1.78 eMBMS Channel Whitened Matrices Parameter Description Sampling Method
Pri. Component Carrier // Carrier Index = 0
Sec. Component Carrier // Carrier Index = 1
MBSFN Area ID MBSFN service area ID (area ID which consists of SFN) Last
Average SNR
SNR average of delay spread signals
Arithmetic average
Tools>Options:
Sampling Method
XCAP-LTE Parameter Description Chapter 2. LGE
2. LGE 2.1 L1 Status Info
L1 status information shows physical layer status such as channel setup status, serving cell
information, PCH DRX and measurement periodicity, etc.
Parameter Description
State Info> Main State Physical layer main state
0: DEACTIVATED
1: IDLE
2: CONNECTED
State Info> BCH BCH Channel State
0: RELEASE
1: SETUP
State Info> PCH PCH Channel State
0: RELEASE
1: SETUP
State Info> DL-SCH for
BCCH
DL-SCH for BCCH Channel State
0: RELEASE
1: SETUP
State Info> UL/DL-SCH
and RACH
UL/DL-SCH and RACH Channel State
0: RELEASE
1: SETUP
Serving Cell Info> PCI Cell identifier
Serving Cell Info> DL Freq Downlink frequency
Serving Cell Info> UL Freq Uplink frequency
Serving Cell Info> DL
Bandwidth Downlink bandwidth (Unit : RB)
Serving Cell Info> UL
Bandwidth Uplink bandwidth (Unit : RB)
Serving Cell Info> Antenna
Num Number of downlink transmit antenna
PCH DRX Period PCH DRX periodicity
0: 0.32sec
1: 0.64sec
2: 1.28sec
3: 2.56sec
255: OFF
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 98
2.2 Serving Cell Signal Quality Info
The serving cell quality information shows SNR of reference signal (RS SNR) and received power
of reference signal (RS RSSI).
Parameter Description
RS RSSI 0 received power 0 of reference signal
RS RSSI 1 received power 1 of reference signal
RS RSSI total received power of reference signal
(rs_rssi[0] + rs_rssi[1])/2
RS SNR Reference signal power and noise power for a resource element are
estimated.
10*log10{ (signal_pwr[0] + signal_pwr [1])/ (noise_pwr[0] + noise_pwr
[1])})
2.3 Tx Power Info
Time sync report log shows the time sync status of UE.
Parameter Description
PUCCH Tx Power PUSCH average UE output power in dBm
PUSCH Tx Power PUCCH average UE output power in dBm
PRACH Tx Power PRACH instantaneous UE output power in dBm
Total Tx Power 1 frame based average UE output power in dBm
2.4 RACH Info Parameter Description
Frame Num Start frame number
TTI Start subframe number
Preamble Format 0: Format 0, 1: Format 1, 2: Format2, 3: Format3
Speed Mode 0: normal speed, 1: high speed
Root Seq Root Sequence
Cyclic Shift Cyclic Shift per Use
Zero Correlation Zone Zero Correlation Zone (Ncs value 59)
Retrans Num Retransmit number
Tx Power RACH transmit power
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 99
2.5 Timing Adjustment Info
Tx Timing adjustment log shows the TA position.
Parameter Description
Rx SFN Received frame number
Rx TTI Received subframe number
NTA Timing advance command
In case of random access response : 11bit for NTA
In other case : 6bit for NTA (TA = 0, 1, 2,..., 63)
Accum TA Accumulate timing advance command
2.6 Cell Info
Cell Information display cell lists which are collected from Mp Searcher and Cell Searcher.
Parameter Description
INTRA>SYNC> RSRP Reference Signal Received Power of Intra cell which is known the sync
position.
INTRA>SYNC> RSRQ Reference Signal Received Quality of Intra cell which is known the sync
position
INTRA>SYNC> RSSI Received Power of Intra cell which is known the sync position
INTRA>SYNC> FrameBound Cell frame boundary in Intra Sync
INTRA>SYNC> CPLength CP length in Intra Sync
0: Unknown
1 : Normal CP
2 : Extended CP
INTRA>SYNC> DL Earfcn Earfcn number in Intra Sync
INTRA>SYNC> Top Set PCI
PCI with RSRP strength from top 1 to 20 from Intra Sync
Cell
RSRP Top 1 to 20 RSRP from Intra Sync Cell
RSRQ Top 1 to 20 RSRQ from Intra Sync Cell
RSSI Top 1 to 20 RSSI from Intra Sync Cell
FrameBound Top 1 to 20 FrameBound from Intra Sync Cell
CPLength Top 1 to 20 CPLength from Intra Sync Cell
DL Earfcn Top 1 to 20 DL Earfcn from Intra Sync Cell
INTRA>ASYNC> RSRP Reference Signal Received Power of Intra cell which is unknown the sync
position.
INTRA> ASYNC> RSRQ Reference Signal Received Quality of Intra cell which is unknown the sync
position
INTRA> ASYNC> RSSI Received Power of Intra cell which is unknown the sync position
INTRA> ASYNC>
FrameBound Cell frame boundary in Intra Async
INTRA> ASYNC> CPLength CP length in Intra Async
0: Unknown
1 : Normal CP
2 : Extended CP
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 100
Parameter Description
INTRA> ASYNC> DL Earfcn Earfcn number in Intra Async
INTRA> ASYNC > Top Set PCI
PCI with RSRP strength from top 1 to 20 from Intra Async
Cell
RSRP Top 1 to 20 RSRP from Intra Async Cell
RSRQ Top 1 to 20 RSRQ from Intra Async Cell
RSSI Top 1 to 20 RSSI from Intra Async Cell
FrameBound Top 1 to 20 FrameBound from Intra Async Cell
CPLength Top 1 to 20 CPLength from Intra Async Cell
DL Earfcn Top 1 to 20 DL Earfcn from Intra Async Cell
INTRA>DETECT> RSRP Reference Signal Received Power of Intra cell which is newly detected at
this search.
INTRA> DETECT> RSRQ Reference Signal Received Quality of Intra cell which is newly detected at
this search
INTRA> ASYNC> RSSI Received Power of Intra cell which is newly detected at this search
INTRA> DETECT>
FrameBound Cell frame boundary in Intra Detected
INTRA> DETECT> CPLength CP length in Intra Detected
0: Unknown
1 : Normal CP
2 : Extended CP
INTRA> DETECT> DL Earfcn Earfcn number in Intra Detected
INTRA> DETECT > Top Set PCI
PCI with RSRP strength from top 1 to 20 from Intra
Detect Cell
RSRP Top 1 to 20 RSRP from Intra Detect Cell
RSRQ Top 1 to 20 RSRQ from Intra Detect Cell
RSSI Top 1 to 20 RSSI from Intra Detect Cell
FrameBound Top 1 to 20 FrameBound from Intra Detect Cell
CPLength Top 1 to 20 CPLength from Intra Detect Cell
DL Earfcn Top 1 to 20 DL Earfcn from Intra Detect Cell
INTER>SYNC> RSRP Reference Signal Received Power of Inter cell which is known the sync
position.
INTER>SYNC> RSRQ Reference Signal Received Quality of Inter cell which is known the sync
position
INTER>SYNC> RSSI Received Power of Inter cell which is known the sync position
INTER>SYNC> FrameBound Cell frame boundary in Inter Sync
INTER>SYNC> CPLength CP length in Inter Sync
0: Unknown
1 : Normal CP
2 : Extended CP
INTER>SYNC> DL Earfcn Earfcn number in Inter Sync
INTER >SYNC> Top Set PCI
PCI with RSRP strength from top 1 to 20 from Inter Sync
Cell
RSRP Top 1 to 20 RSRP from Inter Sync Cell
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 101
Parameter Description
RSRQ Top 1 to 20 RSRQ from Inter Sync Cell
RSSI Top 1 to 20 RSSI from Inter Sync Cell
FrameBound Top 1 to 20 FrameBound from Inter Sync Cell
CPLength Top 1 to 20 CPLength from Inter Sync Cell
DL Earfcn Top 1 to 20 DL Earfcn from Inter Sync Cell
INTER>ASYNC> RSRP Reference Signal Received Power of Inter cell which is unknown the sync
position.
INTER> ASYNC> RSRQ Reference Signal Received Quality of Inter cell which is unknown the sync
position
INTER> ASYNC> RSSI Received Power of Inter cell which is unknown the sync position
INTER> ASYNC>
FrameBound Cell frame boundary in Inter Async
INTER> ASYNC> CPLength CP length in Inter Async
0: Unknown
1 : Normal CP
2 : Extended CP
INTER> ASYNC> DL Earfcn Earfcn number in Inter Async
INTER > ASYNC > Top Set PCI
PCI with RSRP strength from top 1 to 20 from Inter Async
Cell
RSRP Top 1 to 20 RSRP from Inter Async Cell
RSRQ Top 1 to 20 RSRQ from Inter Async Cell
RSSI Top 1 to 20 RSSI from Inter Async Cell
FrameBound Top 1 to 20 FrameBound from Inter Async Cell
CPLength Top 1 to 20 CPLength from Inter Async Cell
DL Earfcn Top 1 to 20 DL Earfcn from Inter Async Cell
INTER>DETECT> RSRP Reference Signal Received Power of Inter cell which is newly detected at
this search.
INTER> DETECT> RSRQ Reference Signal Received Quality of Inter cell which is newly detected at
this search
INTER> ASYNC> RSSI Received Power of Inter cell which is newly detected at this search
INTER> DETECT>
FrameBound Cell frame boundary in Inter Detected
INTER> DETECT> CPLength CP length in Inter Detected
0: Unknown
1 : Normal CP
2 : Extended CP
INTER> DETECT> DL Earfcn Earfcn number in Inter Detected
INTER > DETECT > Top Set PCI
PCI with RSRP strength from top 1 to 20 from Inter
Detect Cell
RSRP Top 1 to 20 RSRP from Inter Detect Cell
RSRQ Top 1 to 20 RSRQ from Inter Detect Cell
RSSI Top 1 to 20 RSSI from Inter Detect Cell
FrameBound Top 1 to 20 FrameBound from Inter Detect Cell
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 102
Parameter Description
CPLength Top 1 to 20 CPLength from Inter Detect Cell
DL Earfcn Top 1 to 20 DL Earfcn from Inter Detect Cell
All Set All Cell RSRP/RSRQ/RSSI/FrameBound /CPLength/DL Earfcn/Cell State
per PCI
Top Set PCI PCI with RSRP strength from top 1 to 20 from All Cell
RSRP Top 1 to 20 RSRP from All Cell
RSRQ Top 1 to 20 RSRQ from All Cell
RSSI Top 1 to 20 RSSI from All Cell
FrameBound Top 1 to 20 FrameBound from All Cell
CPLength Top 1 to 20 CPLength from All Cell
DL Earfcn Top 1 to 20 DL Earfcn from All Cell
Cell State
Top 1 to 20 Cell State from All Cell
- Intra Sync
- Intra Async
- Intra Detect
- Inter Sync
- Inter Async
- Inter Detect
2.7 Search Result
Search Result log shows Mp Search result and Cell Search result.
Parameter Description
MP Searcher Mp Searcher Dominant Energy and Mp Searcher position per PCIS
(PCIS: 0,1 or 2)
Cell Searcher> Dominant
PCI PCI with Dominant Cell Search Energy
Cell Searcher> Dominant
Cell Srch Energy Dominant Cell Search Energy
Cell Searcher> PCI# Cell Search Energy, PCIG, Half Frame Idx and CP Length per PCI
(PCIG: 0 ~ 167, PCI: 0 ~ 503)
Earfcn EARFCN number
Used Cell Searcher Num Num of Used Cell Searcher
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 103
2.8 Channel Info
The channel information shows no antenna in the 2x2 MIMO channel.
Parameter Description
Tx Correlation> Freq Total Band(Avg) Tx Correlation in Total Band(Sub Band 1 ~ 30)
Tx Correlation> Freq Sub Band x Tx Correlation per Sub Band
Rx Correlation> Freq Total Band(Avg) Rx Correlation in Total Band(Sub Band 1 ~ 30)
Rx Correlation> Freq Sub Band x Tx Correlation per Sub Band
H00 (Real)> Freq Sub Band x H00 (Real value) per Sub Band
H00 (Imaginary)> Freq Sub Band x H00 (Imaginary value) per Sub Band
H01 (Real)> Freq Sub Band x H00 (Real value) per Sub Band
H01 (Imaginary)> Freq Sub Band x H00 (Imaginary value) per Sub Band
H10 (Real)> Freq Sub Band x H00 (Real value) per Sub Band
H10 (Imaginary)> Freq Sub Band x H00 (Imaginary value) per Sub Band
H11 (Real)> Freq Sub Band x H00 (Real value) per Sub Band
H11 (Imaginary)> Freq Sub Band x H00 (Imaginary value) per Sub Band
2.9 CQI Info
The wideband CQI information shows measured CQI of wideband in the UE.
The sub-band CQI information shows the CQI (channel quality information) of sub-bands. The
sub-band is defined a unit for a group of resource elements used for reporting sub-band CQI.
Parameter Description
Rank Ratio> Instant Instant Rank Ratio (Range 0 ~ 1)
Rank Ratio> Cumulative Cumulative Rank Ratio (Range 0 ~ 1)
CQI(Wideband)> Rank1 CQI Rank1 wide band CQI
CQI(Wideband)> Rank2 CW0
CQI Rank2 wide band CQI for CW0
CQI(Wideband)> Rank2 CW1
CQI Rank2 wide band CQI for CW1
CQI(Wideband)> Rank1 PMI Rank1 wide band PMI
CQI(Wideband)> Rank2 PMI Rank2 wide band PMI
CQI(Subband)> Rank1 CQI Rank1 sub band CQI
CQI(Subband)> Rank2 CW0 CQI Rank2 sub band CQI for CW0
CQI(Subband)> Rank2 CW1 CQI Rank2 sub band CQI for CW1
CQI(Subband)> Rank1 PMI Rank1 sub band PMI
CQI(Subband)> Rank2 PMI Rank2 sub band PMI
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 104
2.10 Multi-paths Profile
This information shows the channel impulse response of reference signals in the time domain.
Parameter Description
Serving PCI Serving cell ID (0~503)
Ref EsNo The reference EsNo is the detected RS SNR in the reference position.
RS power metric of reference path. EsNo is calculated by computing
10*log10(RS power metric/noise power metric)
Ref Timing The reference timing gives the information of reference cell timing of
demodulation.
Reference timing of serving cell. The resolution is Ts in a frame
Path Info[x]> EsNo RS power metric of this path
Path Info[x]> Time Index Timing offset from reference timing (Ts resolution)
2.11 PBCH BLER
PBCH BLER displays how much transport blocks get CRC_NOK about total received transport
blocks.
Parameter Description
Instant Instant PBCH BLER
(bler_info.err_nums / bler_info.total_nums) * 100
Cumulative Cumulative PBCH BLER
2.12 PDSCH BLER
PDSCH BLER displays how much transport blocks get CRC_NOK about total received transport
blocks.
Parameter Description
Instant> All Instant PDSCH Total BLER
((bler_info[0].err_nums + bler_info[1].err_nums) /
(bler_info[0].total_nums + bler_info[1].total_nums)) * 100
Instant> Codeword #0 Instant PDSCH Codeword0 BLER
(bler_info[0].err_nums / bler_info[0].total_nums) * 100
Instant> Codeword #1 Instant PDSCH Codeword1 BLER
(bler_info[1].err_nums / bler_info[1].total_nums) * 100
Cumulative> All Cumulative PDSCH Total BLER
Cumulative> Codeword #0 Cumulative PDSCH Codeword0 BLER
Cumulative> Codeword #1 Cumulative PDSCH Codeword1 BLER
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 105
2.13 PDCCH Detection Rate
UE can’t calculate PDCCH BLER because UE doesn’t know when eNode-B sends its PDCCH. In
other words, UE detects PDCCH blindly. So, UE DM supports this item similar with PDCCH BLER.
Parameter Description
DCI 0 The number of detection for DCI#0
DCI 1 The number of detection for DCI 1
DCI 1a The number of detection for DCI 1a
DCI 1b The number of detection for DCI 1b
DCI 1c The number of detection for DCI 1c
DCI 2 The number of detection for DCI 2
DCI 2a The number of detection for DCI 2a
DCI 3 The number of detection for DCI 3
DCI 3a The number of detection for DCI 3a
2.14 DL Grant & UL Ack/Nack Status Info
(Improved)
DL Grant & UL ACK/NACK Status(Improved) displays DL grant regardless any DCI format in
every TTI. According to TS36.212, each DCI format has the specific fields, not all, and the
unnecessary fields are displayed to the blank. Additionally, UL_ACK/NACK, CFI, and DCI_3/3A
payload will be included in this item.
Parameter Description
SFN SFN value
TTI TTI value
DCI Format> Count DCI 1 Num/ DCI 1A Num/ DCI 1B Num/ DCI 1C Num/ DCI 2 Num/
DCI 2A Num/ DCI 3 Num/ DCI 3A Num/ N/A Num
DCI Format> Rate DCI 1 Rate/ DCI 1A Rate/ DCI 1B Rate/ DCI 1C Rate/ DCI 2 Rate/
DCI 2A Rate/ DCI 3 Rate/ DCI 3A Rate/ N/A Rate
TM Scheme transmission scheme
0:"SING-ANT(P0)",1:"SING-ANT(P5)",2:"TRANS-
DIV",3:"LARGE-CDD",4:"CLOSE-SM",5:"MU-MIMO"
TPC TPC
RB Num Resource Block Number
MCS> CW0> MCS(Idx) CW0 MCS
MCS> CW0> QPSK Rate CW0 QPSK Rate
MCS> CW0> 16 QAM Rate CW0 16 QAM Rate
MCS> CW0> 64 QAM Rate CW0 64 QAM Rate
MCS> CW1> MCS(Idx) CW1 MCS
MCS> CW1> QPSK Rate CW1 QPSK Rate
MCS> CW1> 16 QAM Rate CW1 16 QAM Rate
MCS> CW1> 64 QAM Rate CW1 64 QAM Rate
NDI> CW0> New Data Num CW0 NDI (NDI field = 1)
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 106
Parameter Description
NDI> CW0> Retrans Data Num CW0 NDI (NDI field = 0)
NDI> CW0> New Data Rate New Data Num/(Retrans Data Num+New Data Num)*100 in CW0
NDI> CW1> New Data Num CW1 NDI (NDI field = 1)
NDI> CW1> Retrans Data Num CW1 NDI (NDI field = 0)
NDI> CW1> New Data Rate New Data Num/(Retrans Data Num+New Data Num)*100 in CW1
UL ACK/NACK> CW0> ACK Count CW0 UL ACK result
UL ACK/NACK> CW0> NACK
Count CW0 UL NACK result
UL ACK/NACK> CW0> DTX Count CW0 UL DTX result
UL ACK/NACK> CW0> ACK Rate ACK Count/(ACK Count+NACK Count+DTX Count)*100 in CW0
UL ACK/NACK> CW0> NACK Rate NACK Count/(ACK Count+NACK Count+DTX Count)*100 in CW0
UL ACK/NACK> CW0> DTX Rate DTX Count/(ACK Count+NACK Count+DTX Count)*100 in CW0
UL ACK/NACK> CW1> ACK Count CW1 UL ACK result
UL ACK/NACK> CW1> NACK
Count CW1 UL NACK result
UL ACK/NACK> CW1> DTX Count CW1 UL DTX result
UL ACK/NACK> CW1> ACK Rate ACK Count/(ACK Count+NACK Count+DTX Count)*100 in CW1
UL ACK/NACK> CW1> NACK Rate NACK Count/(ACK Count+NACK Count+DTX Count)*100 in CW1
UL ACK/NACK> CW1> DTX Rate DTX Count/(ACK Count+NACK Count+DTX Count)*100 in CW1
DCI 3(Mode)> DCI 3/3A
Value(CW0) CW0 DCI3/3A value
DCI 3(Mode)> DCI 3/3A
Value(CW1) CW1 DCI3/3A value
2.15 DL Grant & UL Ack/Nack Status Info (Improved)[Detail per TTI]
DL Grant & UL Ack/Nack Status Info(Improved)[Detail per TTI] displays the related information
per TTI.
Parameter Description
SFN SFN value
TTI TTI value
CFI CFI value
DCI Format DCI format
0:"DCI_1",1:"DCI_1A,2:"DCI_1B",3:"DCI_1C",4:"DCI_2",
5:"DCI_2A",6:"DCI_3",7:"DCI_3A"
RNTI RNTI type
0:"C-RNTI",1:"RA-RNTI",2:"P-RNTI",3:"SI-RNTI",
4:"PUCCH",5:"PUSCH",6:"SPS-RNTI",7:”T-CRNTI”
TM Scheme transmission scheme
0:"SING-ANT(P0)",1:"SING-ANT(P5)",2:"TRANS- DIV",3:"LARGE-
CDD",4:"CLOSE-SM",5:"MU-MIMO"
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 107
Parameter Description
Distribution Flag distribution flag 0:"LOCAL", 1:"DIST"
Gap Value gap value
RA Header RA header
Precoding precoding information
RB Num Resource Block Number
PMI Confirmation PMI confirmation
TPC TPC
HARQ Number HARQ number
MCS(CW0) MCS in CW0
NDI(CW0) NDI in CW0
RV(CW0) redundancy version in CW0
MOD Type(CW0) modulation type in CW0
New/Retrans Type(CW0) new or retransmission type in CW0
TB Size(CW0) transport block size in CW0
CRC Result(CW0) CRC result in CW0
UL ACK/NACK Result(CW0) UL ACK/NACK result in CW0
DCI 3(CW0) DCI3/3A value in CW0
MCS(CW1) MCS in CW1
NDI(CW1) NDI in CW1
RV(CW1) redundancy version in CW1
MOD Type(CW1) modulation type in CW1
New/Retrans Type(CW1) new or retransmission type in CW1
TB Size(CW1) transport block size in CW1
CRC Result(CW1) CRC result in CW1
UL ACK/NACK Result(CW1) UL ACK/NACK result in CW1
DCI 3(CW1) DCI3/3A value in CW1
2.16 UL Grant & DL Ack/Nack Status Info
UL Grant Info Status log shows get UL Scheduling Grant information to PDCCH.
Parameter Description
SFN SFN value
TTI TTI value
FH> FH Num FH Number
FH> No FH Num No FH Number
FH> FH Rate FH Num/(No FH Num+FH Num)* 100
MCS> CQI REQ> MCS(Idx) No CQI Request Modulation and Coding Rate
MCS> No CQI REQ>
MCS(Idx) CQI Request Modulation and Coding Rate
MCS> No CQI REQ> QPSK
Rate QPSK Num/(QPSK Num+16QAM Num+64QAM Num)*100 in CQI Request
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 108
Parameter Description
MCS> No CQI REQ> 16
QAM Rate 16QAM Num/(QPSK Num+16QAM Num+64QAM Num)*100 in CQI Request
MCS> No CQI REQ> 64
QAM Rate 64QAM Num/(QPSK Num+16QAM Num+64QAM Num)*100 in CQI Request
New Data Num New data indicator (NDI field = 1)
Retrans Data Num New data indicator (NDI field = 0)
New Data Rate New Data Num/(Retrans Data Num+New Data Num)*100
TPC Power control of PUSCH
CS DMRS Cyclic shift for DMRS
DL ACK/NACK> ACK Count DL ACK result
DL ACK/NACK> NACK
Count DL NACK result
DL ACK/NACK> DTX Count DL DTX result
DL ACK/NACK> ACK Rate ACK Count/(ACK Count+NACK Count+DTX Count)*100
DL ACK/NACK> NACK Rate NACK Count/(ACK Count+NACK Count+DTX Count)*100
DL ACK/NACK> DTX Rate DTX Count/(ACK Count+NACK Count+DTX Count)*100
2.17 UL Grant & DL Ack/Nack Status info [Detail per TTI]
UL Grant & DL Ack/Nack Status info[Detail per TTI] displays the related information per TTI.
Parameter Description
SFN SFN value
TTI TTI value
TB Size Transport Block size
RB Assign Resurce block assingment
FH 0 :No FH
1 :FH
MCS Modulation and Coding Rate
NDI New data indicator
TPC Power control of PUSCH
CS DMRS Cyclic shift for DMRS
CQI Request Ind CQI Request Indication
0 : No CQI Request
1 : CQI Request
DL ACK/NACK Result 0 :NACK
1 :ACK
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 109
2.18 PDSCH PHY Throughput
PDSCH PHY Throughput has displays how much to get the downlink data in 1sec.
Parameter Description
All PDSCH PHY Total Throughput
(cw_0 + cw_1) / 1000
Codeword #0 PDSCH PHY Codeword0 Throughput
(cw_0) / 1000
Codeword #1 PDSCH PHY Codeword0 Throughput
(cw_1) / 1000
2.19 UL PRB MAP Data Info
This information shows the log of transmit physical resource mapping information.
Parameter Description
SFN Frame number
TTI TTI number
Bandwidth 0:1.4MHz, 1:3MHz, 2:5MHz, 3:10MHz, 4:15MHz, 5:20MHz
Channel Type> Count DTX/ PRACH/ PUCCH/ PUSCH/ SRS/ PUSCH+SRS/ PUCCH+SRS Count
Channel Type> Rate DTX/ PRACH/ PUCCH/ PUSCH/ SRS/ PUSCH+SRS/ PUCCH+SRS Rate
PRACH RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB
Offset in PRACH
PUCCH RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB
Offset in PUCCH
PUSCH RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB
Offset in PUSCH
SRS RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB
Offset in SRS
PUSCH+SRS RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB
Offset in PUSCH+SRS
PUCCH+SRS RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB
Offset in PUCCH+SRS
2.20 PUSCH PHY Throughput
UL Throughput log shows the Uplink data throughput at UE side.
Parameter Description
NEW Transmission A number of bits about new transmission per 1 sec
(new_bit_nums) / 1000
Total UL A number of bits about re-transmission per 1 sec
(new_bit_nums + retrans_bit_nums) / 1000
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 110
2.21 L2 DL Throughput Parameter Description
PDCP> Total Total Downlink PDCP Throughput
(∑rbId total Byte*8/1000)
PDCP> RB ID(x) Downlink PDCP Throughput per RB ID
(rbId total Byte*8/1000)
RLC> Total Total Downlink RLC Throughput
(∑rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM), 4 ~ 5 (UM)
RLC> AM> Total Total Downlink RLC AM Throughput
(∑rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM)
RLC> AM> RB ID(x) Downlink RLC AM Throughput per RB ID
(rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM)
RLC> UM> Total Total Downlink RLC UM Throughput
(∑rbId total Byte*8/1000)
Precondition: index 4 ~ 5 (AM)
RLC> UM> RB ID(x) Downlink RLC UM Throughput per RB ID
(rbId total Byte*8/1000)
Precondition: index 4 ~ 5 (AM)
MAC Downlink MAC Throughput
(MacDlTotalBytes*8/1000)
2.22 L2 UL Throughput Parameter Description
PDCP> Total Total Uplink PDCP Throughput
(∑rbId total Byte*8/1000)
PDCP> RB ID(x) Uplink PDCP Throughput per RB ID
(rbId total Byte*8/1000)
RLC> Total Total Uplink RLC Throughput
(∑rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM), 4 ~ 5 (UM)
RLC> AM> Total Total Uplink RLC AM Throughput
(∑rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM)
RLC> AM> RB ID(x) Uplink RLC AM Throughput per RB ID
(rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM)
RLC> UM> Total Total Uplink RLC UM Throughput
(∑rbId total Byte*8/1000)
Precondition: index 4 ~ 5 (AM)
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 111
Parameter Description
RLC> UM> RB ID(x) Uplink RLC UM Throughput per RB ID
(rbId total Byte*8/1000)
Precondition: index 4 ~ 5 (AM)
MAC Uplink MAC Throughput
(MacUlTotalBytes*8/1000)
2.23 PDSCH MAC BLER
This item is for MAC BLER of downlink (PDSCH). Ratio of transport blocks which remain un-
acknowledged (CRC failure) after HARQ retransmission divided by total number of initial
transmissions received by UE MAC.
Parameter Description
Instant> All Instant total MAC BLER
( (cwd0ErrNum/cwd0TBNum) *100 + (cwd1ErrNum/cwd1TBNum) *100 ) /
2
Instant> Codeword #0 Instant code word #0 MAC BLER
(cwd0ErrNum/cwd0TBNum) *100
Instant> Codeword #1 Instant code word #1 MAC BLER
(cwd1ErrNum/cwd1TBNum) *100
Cumulative> All Cumulative total MAC BLER
Cumulative> Codeword #0 Cumulative code word #0 MAC BLER
Cumulative> Codeword #1 Cumulative code word #1 MAC BLER
2.24 RLC States Info
This item provides state information of RLC Tx/Rx Entity.
Parameter Description
Tx States> RB ID (x)> Mode Tx States RLC Mode (AM /UM/TM)
Tx States> RB ID (x)> State Tx States RLC Tx Entity state (NULL/DTR)
Rx States> RB ID (x)> Mode Rx States RLC Mode (AM /UM/TM)
Rx States> RB ID (x)> State Rx States RLC Tx Entity state (NULL/DTR)
2.25 MAC State Info
This item includes MAC DL/UL state information.
Parameter Description
MAC UL State Current state of MAC uplink
(0-NOT_CONFIGURED, 1-CONFIGURED, 2-OUT_OF_SYNC, 3-IN_SYNC, 4-
IN_CR, 5-READY_TO_SCHED )
MAC DL State Current State of MAC downlink
(0-NOT_CONFIGURED, 1-CONFIGURED, 2-PCH_STATE, 3-RACH_STATE, 4-
DSCH_STATE)
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 112
2.26 MAC UL Transmission Info
This item is for total packets information of uplink data transmission.
Parameter Description
Count> 1st Trans Success in 1st transmission
Count> 1st Re-Trans Success in 1st re-transmission
Count> 2nd Re-Trans Success in 2nd re-transmission
Count> 3rd Re-Trans Success in 3rd re-transmission
Count> 4th Re-Trans Success in 4th re-transmission
Count> 5th Re-Trans Success in 5th re-transmission
Count> 6th Re-Trans Success in 6th re-transmission
Count> 7th Re-Trans Success in 7th re-transmission
Count> 8th Re-Trans Success in 8th re-transmission
Count> 9th Re-Trans Success in 9th re-transmission
Count> 10th Re-Trans Success in 10th re-transmission
Count> Total Trans ∑SuccessCnt i (Where, i = 0 to 10)
Count> Bad Count Bad Count
Percentage> 1st Trans 1st Trans/(Total Trans+Bad Count)*100
Percentage> 1st Re-Trans 1st Re-Trans/(Total Trans+Bad Count)*100
Percentage> 2nd Re-Trans 2nd Re-Trans/(Total Trans+Bad Count)*100
Percentage> 3rd Re-Trans 3rd Re-Trans/(Total Trans+Bad Count)*100
Percentage> 4th Re-Trans 4th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 5th Re-Trans 5th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 6th Re-Trans 6th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 7th Re-Trans 7th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 8th Re-Trans 8th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 9th Re-Trans 9th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 10th Re-
Trans 10th Re-Trans/(Total Trans+Bad Count)*100
Percentage> Total Trans Total Trans/(Total Trans+Bad Count)*100
Percentage> Bad
Percentage Bad Count/(Total Trans+Bad Count)*100
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 113
2.27 RACH REQ Info
This item includes RACH request information.
Parameter Description
RACH Transmit Time RACH transmit time
Retransmission Num Retransmission Num
RACH Type 0 : INITIAL
1 : HANDOVER
2 : UL DATA ARRIVAL
3 : DL DATA ARRIVAL
4 : SR MAX
5 : NO_SR_CONFIG
RA-RNTI RACH RNTI
Preamble ID Preamble Identity
2.28 RACH RSP General Info
This item includes RACH response information.
Parameter Description
RACH Response Receiving
Time RACH response receiving time
Result 0: NACK, 1: ACK
RACH Preamble Identity RACH Preamble Identity
BackOff Indicator BackOff Indicator
Time Advance Time Advance
Temporary C-RNTI Temporary C-RNTI
MCS Modulation and coding Scheme
TPC for scheduled PUSCH TPC command for scheduled PUSCH
Hopping Flag Hopping Flag
UL Delay UL Delay
CQI Request CQI Request
Resource Block
Assignment Resource block assignment(10bits)
Access RACH Latency Access RACH Latency (sec)
2.29 RNTI Info
This item includes RNTI information.
Parameter Description
C-RNTI C-RNTI
RA-RNTI RA-RNTI
Temporary C-RNTI Temporary C-RNTI
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 114
2.30 Serving Cell & Neighbor Cell Lists Parameter Description
Serving Cell Info> UE State Current UE state
- UE_IDLE_MODE
- UE_CONNECTED_MODE
- NO_SERVICE
- NON_LTE_RAN
Serving Cell Info> Freq UL Uplink Carrier Frequency
Serving Cell Info> Freq DL Downlink Carrier Frequency
Serving Cell Info> PCI Physical Cell Identity
Serving Cell Info> TAC Tracking Area Code
Serving Cell Info> PLMN
Identity PLMN Identity
Serving Cell Info> Global
Cell ID Global Cell ID
Intra Freq Cell Lists> DL
Freq Downlink Carrier Frequency
Intra Freq Cell Lists>
Serving Cell> Serving PCI Intra Freq Cell Serving PCI
Intra Freq Cell Lists>
Serving Cell> Serving RSRP Intra Freq Cell Serving RSRP
Intra Freq Cell Lists>
Serving Cell> Serving RSRQ Intra Freq Cell Serving RSRQ
Intra Freq Cell Lists>
Serving Cell> Serving RSSI Intra Freq Cell Serving RSSI
Intra Freq Cell Lists>
Serving Cell> All Cell Info
Intra Freq Cell Serving RSRP/RSSQ/RSSI per PCI
Intra Freq Cell Lists>
Monitored Cell> Monitored
Cell Count
Number of Monitored PCI from Intra Freq Cell
Intra Freq Cell Lists>
Monitored Cell> Monitored
Cell List
Monitored PCI List from Intra Freq Cell
Intra Freq Cell Lists>
Monitored Cell> Summary
Monitored Cell List
Monitored PCI List with (RSRP,RSRQ) from Intra Freq Cell
Intra Freq Cell Lists>
Monitored Cell> RSRP Intra Freq Cell Monitored RSRP per PCI
Intra Freq Cell Lists>
Monitored Cell> RSRQ Intra Freq Cell Monitored RSRQ per PCI
Intra Freq Cell Lists>
Monitored Cell> RSSI Intra Freq Cell Monitored RSSI per PCI
Intra Freq Cell Lists>
Monitored Cell> Top Set PCI
PCI with RSRP strength from top 1 to 20 from Intra Freq
Monitored Cell
RSRP Top 1 to 20 RSRP from Intra Freq Monitored Cell
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 115
Parameter Description
RSRQ Top 1 to 20 RSRQ from Intra Freq Monitored Cell
RSSI Top 1 to 20 RSSI from Intra Freq Monitored Cell
Intra Freq Cell Lists>
Detected Cell> Detected Cell
Count
Number of Detected PCI from Intra Freq Cell
Intra Freq Cell Lists>
Detected Cell> Detected Cell
List
Detected PCI List from Intra Freq Cell
Intra Freq Cell Lists>
Detected Cell> Summary
Detected Cell List
Detected PCI List with (RSRP,RSRQ) from Intra Freq Cell
Intra Freq Cell Lists>
Detected Cell> RSRP Intra Freq Cell Detected RSRP per PCI
Intra Freq Cell Lists>
Detected Cell> RSRQ Intra Freq Cell Detected RSRQ per PCI
Intra Freq Cell Lists>
Detected Cell> RSSI Intra Freq Cell Detected RSSI per PCI
Intra Freq Cell Lists>
Detected Cell> Top Set PCI
PCI with RSRP strength from top 1 to 20 from Intra Freq
Detected Cell
RSRP Top 1 to 20 RSRP from Intra Freq Detected Cell
RSRQ Top 1 to 20 RSRQ from Intra Freq Detected Cell
RSSI Top 1 to 20 RSSI from Intra Freq Detected Cell
Intra Freq Cell Lists> All Set Intra Freq Cell RSRP/RSRQ/RSSI/Cell State per PCI
Intra Freq Cell Lists> Top
Set
PCI PCI with RSRP strength from top 1 to 20 from Intra Freq Cell
RSRP Top 1 to 20 RSRP from Intra Freq Cell
RSRQ Top 1 to 20 RSRQ from Intra Freq Cell
RSSI Top 1 to 20 RSSI from Intra Freq Cell
Cell
State
Top 1 to 20 Cell State from Intra Freq Cell
- Serving
- Monitored
- Detected
Inter Freq Cell Lists> Freq
DL(x)>PCI(y)> RSRP Inter frequency cell Reference Signal Received Power
Inter Freq Cell Lists> Freq
DL(x)>PCI(y)> RSRQ Inter frequency cell Reference Signal Received Quality
Inter Freq Cell Lists> Freq
DL(x)>PCI(y)> RSSI Inter frequency cell Received Power
Inter Freq Cell Lists> Freq
DL(x)>PCI(y)> Cell Type
Inter frequency cell type
1 : monitored cell
2 : detected cell
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 116
2.31 NAS System Info Parameter Description
PLMN_ID PLMN ID of the current cell
TAC TAC of the current cell
Cell ID Cell ID of the current cell
TAI List Tracking Area identity List
MCC (Mobile Country Code), MNC (Mobile Network Code) and TAC
(Tracking Area Code).
2.32 RRC BCH Status Info
This item provides the information of BCH status.
Parameter Description
RRC BCH Status> PCI Physical Cell Identity (0~503)
RRC BCH Status> Freq DL DL Frequency
RRC BCH Status> Purpose Purpose of BCH Setup
- SIB_NORMAL,
- CELL_RESELECTION,
- SIB_MODIFICATION,
- MOVE_TO_IDLE,
- SIB_CONNECTED,
- SFN_READ,
- SPECIFIED_SIB,
- SIBC_SIB
RRC BCH Status> Result Result of receiving System Information.
- SUCCESS,
- PLMN_MISMATCH,
- MIB_TIMEOUT,
- SI_TIMEOUT,
- LAST_RESULT
2.33 NAS State Info
This item provides the state information of EMM (EPS Mobility Management), ECM (EPS
Connection Management) and PLMN and EU (EPS Update) status when each state is changed.
Parameter Description
EMM State Current state of EMM (EPS Mobility Management)
ECM State Current state of ECM (EPS Connection Management)
PLMN State Current state of PLMN
EU State Current EU (EPS Update) status
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 117
2.34 NAS State Info(R4)
This item provides the NAS state information of EMM (EPS Mobility Management), ECM (EPS
Connection Management) and PLMN and EMM Cache status when each state is changed.
Parameter Description
EMM State Current state of EMM (EPS Mobility Management)
ECM State Current state of ECM (EPS Connection Management)
PLMN State Current state of PLMN
EMM Cache State Current state of EMM Cache
2.35 Radio & NAS Signaling Failure Info Parameter Description
Radio Problem Cause Radio problem diagnostic logging attribute.
NAS Signaling Failure
Cause NAS signaling failure diagnostic logging attribute
2.36 RRC Freq Scan Info
This item displays the result of frequency scan.
Parameter Description
Search Type Cell Search Method
- Frequency LIST
- Frequency RANGE
Freq DL DL Frequency
RSRP Reference Signal Received Power
2.37 Cell Reselection Info
This item provides the information on both source cell and target cell when RRC perform cell
reselection.
Parameter Description
Old Freq DL Old Carrier Frequency
Old Cell ID Old Cell Identity
New Freq DL New Carrier Frequency
New Cell ID New Cell Identity
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 118
2.38 Handover History
This item displays handover history, delay and result.
Parameter Description
Source Cell Source Cell Physical Identity
Target Cell Target Cell Physical Identity
Handover Delay Handover delay (Unit : ms)
Result - FAIL
- SUCCESS
Handover Type - LTE
- Outbound IRAT
- Inbound IRAT
2.39 Data Path Packet Loss
This item is for UL/DL packet loss of data path(HIM/PDCP/L2).
Parameter Description
UL UsbBlockTime UL : USB Blocking count
UL SdioBlockTime UL : SDIO Blocking count
UL UsbUnreg UL : number of discarded packet in USB by unregistered connection
UL SdioUnreg UL : number of discarded packet in SDIO by unregistered connection
UL HimAllocFail UL : Memory allocation fail count in HIM
UL DimInvHdr UL : Number of discarded packet in DIM by Invalid header
UL DimNoRB UL : Number of discarded packet in DIM because of no RB
UL PdcpSduFull UL : Fail count in PDCP by PDCP SDU Queue full
UL PdcpPduBufFull UL : Number of discarded packet in PDCP by PDCP PDU Queue full
UL PdcpCipAllocFail UL : Number of discarded packet in PDCP by Ciphering block full
UL PdcpDisTimer UL : Number of discarded packet by PDCP discard timer expiry
UL MacSchedMiss UL : Number of discarded MAC PDU which is not transfered
DL PhyAllocFail DL : Number of discarded MAC PDU by memory allocation in L1
DL MacInvHdr DL : Number of discarded MAC PDU by invalid MAC header
DL RlcDuplication DL : number of discarded RLC PDU by duplication
DL RlcInvHdr DL : number of discarded RLC PDU by invalid RLC header
DL RlcOutWnd DL: number of discarded RLC PDU which falls outside of window
DL RlcRsmFull DL : number of discard RLC PDU by RSM buffer full
DL PdcpInvHdr DL : number of discarded PDCP PDU by invalid PDCP header
DL PdcpOutWnd DL : number of discarded PDCP PDU which falls outside of window
DL CipAllocFail DL : Number of discarded packet in PDCP by Ciphering block full
DL DimInvalid DL : Number of discarded packet in DIM by IP Header length mismatch
DL HimIfFull DL : Number of discarded packet in HIM by interface buffer full
DL UsbBlockTime DL : USB block count
DL SdioBlockTime DL : SDIO block count
DL UsbPacketLoss DL : number of discarded packet in USB
XCAP-LTE Parameter Description Chapter 2. LGE
© Innowireless Co., Ltd. Page 119
Parameter Description
DL SdioPacketLoss DL : number of discard packet in SDIO
2.40 ESM Instance Info
This item includes ESM instance information R3. Maximum number of ESM instance is 15(1~15).
The EPS Id uniquely identifies each ESM instance.
Parameter Description
Tab Index 1: 1st tab, 2: 2nd tab, … 15: 15th tab
EPS Id EPS ID
Linked Bearer Id Linked Bearer ID
PDN Address PDN IP Address
APN Access Point Name
QCI QCI (1 ~ 9)
EPS Type - NONE BEARER TYPE
- DEFAULT_BEARER
- DEDICATED_BEARER
ESM State - DEACTIVE
- ACTIVE
PTI PTI
Instance Id Instance ID
Deactivate Mode - NONE_MODE
- NORMAL
- NORMAL_ALL
- DETACH
- STATUS_IND
- PDN_DISCONNECT
- PDN_DISCONNECT_REJECT
- PDN_DISCONNECT_TIMEOUT
- MODIFICATION_REJECT
- MODIFICATION_TIMEOUT
- OVERWRITE
- LOCALLY
Overwrite Mode - NONE BEARER TYPE
- DEFAULT_BEARER
- DEDICATED_BEARER
XCAP-LTE Parameter Description Chapter 3. Samsung
3. Samsung 3.1 Common Basic Info
Parameter Description
RAT Radio Access Technology
- GSM
- GPRS
- UMTS
- EDGE
- HSPA
- LTE
Modem Status Modem Status
- INITIAL
- ACQUISITION
- IDLE
- ACCESS
- TRAFFIC
- NO SERVICE
MIMO Type MIMO Type
- SISO
- SIMO
- MISO
- MIMO
Rx Frequency DL Frequency (MHz)
Tx Frequency UL Frequency (MHz)
3.2 Common Data Info Parameter Description
DL Throughput DL Throughput for GSM/GPRS/UMTS/EDGE/HSPA/ LTE
UL Throughput UL Throughput for GSM/GPRS/UMTS/EDGE/HSPA/ LTE
DL BLER DL Block Error Rate for GSM/GPRS/UMTS/EDGE/HSPA/ LTE
DL BLER DL Block Error Rate for GSM/GPRS/UMTS/EDGE/HSPA/ LTE
DL FER DL Frame Error Rate for GSM/GPRS/UMTS/EDGE/HSPA/ LTE
UL FER UL Frame Error Rate for GSM/GPRS/UMTS/EDGE/HSPA/ LTE
XCAP-LTE Parameter Description Chapter 3. Samsung
© Innowireless Co., Ltd. Page 121
3.3 LPHY N Cell Information Parameter Description
EUTRAN>PLMN PLMN
EUTRAN>Serving Cell
Info> Cell ID Serving Cell ID(PCI 0 ~ 503)
EUTRAN>Serving Cell
Info>RSSI
Serving Cell RSSI
EUTRAN>Serving Cell
Info>CINR
Serving Cell CINR
EUTRAN>Serving Cell
Info>RSRP
Serving Cell RSRP
EUTRAN>Serving Cell
Info>RSRQ
Serving Cell RSRQ
EUTRAN>Serving Cell
Info>All Cell Info
Serving Cell RSSI/CINR/RSRP/RSRQ per PCI
EUTRAN>Neighbor Cell
Info>NCell Num Neighbor Cell number
EUTRAN>Neighbor Cell
Info>EARFCN Neighbor Cell EARFCN per Cell ID(PCI)
EUTRAN>Neighbor Cell
Info>RSSI Neighbor Cell RSSI per Cell ID(PCI)
EUTRAN>Neighbor Cell
Info>RSRP Neighbor Cell RSRP per Cell ID(PCI)
EUTRAN>Neighbor Cell
Info>RSRQ Neighbor Cell RSRQ per Cell ID(PCI)
EUTRAN>Neighbor Cell
Info>Top Set
EARFCN Top 1 to 20 EARFCN from Neighbor Cell
Cell ID PCI with RSRP strength from top 1 to 20 from Neighbor Cell
RSSI Top 1 to 20 RSSI from Neighbor Cell
RSRP Top 1 to 20 RSRP from Neighbor Cell
RSRQ Top 1 to 20 RSRQ from Neighbor Cell
EUTRAN>All Set All(Serving/Neighbor) Cell EARFCN/RSSI/CINR/RSRP/RSRQ per PCI
EUTRAN>Top Set Cell ID PCI with RSRP strength from top 1 to 20 from Neighbor Cell
EARFCN Top 1 to 20 EARFCN from All(Serving/Neighbor) Cell
RSSI Top 1 to 20 RSSI from All(Serving/Neighbor) Cell
RSRP Top 1 to 20 RSRP from All(Serving/Neighbor) Cell
RSRQ Top 1 to 20 RSRQ from All(Serving/Neighbor) Cell
Cell State Top 1 to 20 Cell State from All(Serving/Neighbor) Cell
Serving, Neighbor
UTRAN>UARFCN UARFCN per PSC
UTRAN>RSSI UTRAN RSSI per PSC
UTRAN>RSCP UTRAN RSCP per PSC
UTRAN>Ec/Io UTRAN Ec/Io per PSC
XCAP-LTE Parameter Description Chapter 3. Samsung
© Innowireless Co., Ltd. Page 122
Parameter Description
UTRAN>FDD/TDD UTRAN FDD/TDD per PSC
- FDD
- TDD
UTRAN>Top Set UARFCN Top 1 to 20 UARFCN from UTRAN
PSC PSC with Ec/Io strength from top 1 to 20 from UTRAN
RSSI Top 1 to 20 RSSI from UTRAN
RSCP Top 1 to 20 RSCP from UTRAN
Ec/Io Top 1 to 20 Ec/Io from UTRAN
FDD/TDD Top 1 to 20 FDD/TDD from UTRAN
GERAN>RSSI GERAN RSSI per ARFCN
GERAN>BSIC GERAN BSIC per ARFCN
GERAN>Top Set ARFCN ARFCN with RSSI strength from top 1 to 20 from GERAN
BSIC Top 1 to 20 BSIC from GERAN
RSSI Top 1 to 20 RSSI from GERAN
CDMA2000>Frequency CDMA2000 Frequency per PN
CDMA2000>Ec/Io CDMA2000 Ec/Io per PN
CDMA2000>1xRTT/HRPD CDMA2000 1xRTT/HRPD per PN
CDMA2000>PN Phase CDMA2000 PN Phase per PN
CDMA2000>Top Set Frequency Top 1 to 20 Frequency from CDMA2000
PN PN with Ec/Io strength from top 1 to 20 from CDMA2000
Ec/Io Top 1 to 20 Ec/Io from CDMA2000
PN Phase Top 1 to 20 PN Phase from CDMA2000
1xRTT/HRPD Top 1 to 20 1xRTT/HRPD from CDMA2000
3.4 LPHY Cell Search Info Parameter Description
Cell ID Cell ID(PCI 0 ~ 503)
CP type Cyclic Prefix type
- Normal
- Extended
Antenna[x]>RSRP Antenna[x] RSRP (where, x = 0 ~3)
Antenna[x]>RSRQ Antenna[x] RSRQ (where, x = 0 ~3)
Antenna[x]>RSSI Antenna[x] RSSI (where, x = 0 ~3)
XCAP-LTE Parameter Description Chapter 3. Samsung
© Innowireless Co., Ltd. Page 123
3.5 LPHY System Info Parameter Description
Transmission mode Transmission mode
- SISO
- SIMO
- 2TX SFBC
- 4TX SFBC-FSTD
- 2TX Open-loop SM-: 4TX Open-loop SM
- 2TX Closed-loop SM, Rank=2
- 4TX Closed-loop SM, Rank=2
- 2TX Multi-user MIMO
- 4TX Multi-user MIMO
- 2TX Closed-loop SM, Rank=1
- 4TX Closed-loop SM, Rank=1
- port5 SISO
- port5 SIMO
DL Pwr Control>Pa Index Pa Index
- [-6 dB]
- [ -4.77 dB]
- [-3 dB]
- [-1.76 dB]
- [0 dB]
- [1 dB]
- [2 dB]
- [3 dB]
DL Pwr Control>Pb Index Pb Index
- 1 (One Antenna)
- 4/5 (One Antenna)
- 3/5 (One Antenna)
- 2/5 (One Antenna)
- 5/4 (Two or Four Antenna)
- 1 (Two or Four Antenna)
- 3/4 (Two or Four Antenna)
- 1/2 (Two or Four Antenna)
DL Pwr Control>CQI
feedback type(Aperiodic)
CQI feedback type(Aperiodic)
- Aperiodic Mode 1-2
- Aperiodic Mode 2-0
- Aperiodic Mode 2-2
- Aperiodic Mode 3-0
- Aperiodic Mode 3-1
DL Pwr Control>CQI
feedback type(Periodic)
CQI feedback type(Periodic)
- Periodic Mode 1-0
- Periodic Mode 1-1
- Periodic Mode 2-0
- Periodic Mode 2-1
XCAP-LTE Parameter Description Chapter 3. Samsung
© Innowireless Co., Ltd. Page 124
Parameter Description
DL Pwr Control>Codebook
Subset Restriction Codebook Subset Restriction
3.6 LPHY Channel Quality Info Parameter Description
CINR>CINR 0 CINR 0 for Ant 0
CINR>CINR 1 CINR 1 for Ant 1
CQI Metric>CQI Metric0 Channel Quality information Metric0
CQI Metric>CQI Metric1 Channel Quality information Metric1
CQI Metric>RI Rank Indication
CQI Metric>PMI Precoding Matrix Indicator
CQI Metric>Best PMI Best Precoding Matrix Indicator
3.7 LPHY Parameter Info Parameter Description
DL System Info>DL BW Downlink System Bandwidth
- 1.4M
- 3M
- 5M
- 10M
- 15M
- 20M
DL System Info>CP Type DL System Cyclic Prefix type
- Normal
- Extended
DL System Info>eNB Ant
Num
- 1
- 2
- 4
DL System Info>UE Ant
Num
- 1
- 2
DL System Info>Cell ID Cell ID(PCI 0 ~ 503)
UL System Info>UL BW Uplink System Bandwidth
- 1.4M
- 3M
- 5M
- 10M
- 15M
- 20M
UL System Info>CP Type UL System Cyclic Prefix type
- Normal
- Extended
XCAP-LTE Parameter Description Chapter 3. Samsung
© Innowireless Co., Ltd. Page 125
3.8 LPHY PHICH Info Parameter Description
PHICH group number Physical HARQ indicator channel group number
(parameter to derive number of PHICH groups)
PHICH duration Physical HARQ indicator channel duration
- Short (Normal)
- Extended
3.9 LL1 RF & Sync Info Parameter Description
RSSI Ant0 Received signal strength indication for Ant 0
RSSI Ant1 Received signal strength indication for Ant 1
TX Power Transmitted Power
Sync Info>Cell ID Sync Cell ID
Sync Info>SFN Sync SFN
PBCH Info>Bandwidth Bandwidth
- 1.4M
- 3M
- 5M
- 10M
- 15M
- 20M
PBCH Info>Phich Resource PHICH Resource
- 1/6
- 1/2
- 1
- 2
PBCH Info>Phich Duration PHICH Duration
- Short (Normal)
- Extended
PBCH Info>eNB Ant eNB(LTE Site) Antenna
- 1
- 2
3.10 LL1 Downlink Info Parameter Description
PDSCH BLER PDSCH Block Error Rate
RB Num Resource Block Number for DL
MCS Level0 MCS Level0 for DL
MCS Level1 MCS Level1 for DL
Modulation0 Modulation0 (QPSK, 16QAM, 64QAM) for DL
Modulation1 Modulation1 (QPSK, 16QAM, 64QAM) for DL
XCAP-LTE Parameter Description Chapter 3. Samsung
© Innowireless Co., Ltd. Page 126
3.11 LL1 Uplink Info Parameter Description
PUSCH BLER PUSCH Block Error Rate
RB Num Resource Block Number for UL
MCS Level MCS Level for UL
Modulation Modulation (QPSK, 16QAM, 64QAM) for UL
(LTE UE CAPA 5 supports 64QAM.)
3.12 LL1 Measurement Config Info Parameter Description
S-measure S-measure
Gap Pattern Gap Pattern
Gap Start SFN Gap Start System Frame Number
Gap Start Subframe Gap Start Subframe
EUTRA quantity EUTRA quantity
EUTRA FC RSRP EUTRA Fc RSRP (where, Fc: Frequency of the carrier centre frequency)
EUTRA FC RSRQ EUTRA Fc RSRQ (where, Fc: Frequency of the carrier centre frequency)
3.13 LL2 SCH Configuration Info Parameter Description
DL SCH Config>Semi
Persist Sched Interval
Semi Persist Schedule Interval [Unit: sf]
UL SCH Config>
MaxHARQ-Tx
Max HARQ-Tx [Unit: n]
UL SCH Config>Semi
Persist Sched Interval
Semi Persist Schedule Interval [Unit: sf]
UL SCH Config>Periodic
BSR timer
Periodic Buffer Status Report timer [Unit: n]
3.14 Timer & Preamble Info Parameter Description
Time Alignment Timer
Info>Time Alignment Timer
Time Alignment Timer [Unit: sf]
PHR Configuration
Info>Periodic PHR Timer
Periodic PHR Timer [Unit: sf]
PHR Configuration Info>PHR
Prohibit Timer
PHR Prohibit Timer [Unit: sf]
PHR Configuration Info>DL
Pathloss Change
DL Pathloss Change [Unit: dB]
Preamble Info>No. of RA-
Preambles
Number of RA-Preambles [Unit: n]
XCAP-LTE Parameter Description Chapter 3. Samsung
© Innowireless Co., Ltd. Page 127
Parameter Description
Preamble Info>Size of RA-
Preambles Group A
Size of RA-Preambles Group A [Unit: n]
3.15 Power Ramping & RA Supervision Info Parameter Description
Power Ramping Param
Info>Power Ramping Step
Power Ramping Step[Unit: dB]
Power Ramping Param
Info>Preamble Initial Rx
Target Pwr
Preamble Initial Rx Target Power [Unit: dBm]
RA Supervision
Info>Preamble Trans Max
Preamble Trans Max [Unit: n]
RA Supervision Info>RA
Response Window Size
RA Response Window Size [Unit: sf]
RA Supervision Info>MAC
Contention Resolution Timer
MAC Contention Resolution Timer [Unit: sf]
3.16 Max HARQ Msg3Tx & RACH Info Parameter Description
Max HARQ Msg3Tx
Info>MaxHARQ-Msg3Tx
Max HARQ-Msg3Tx
RACH Info>PREAMBLE_ID Preamble ID
RACH Info>Back Off Timer
Value
Back Off Timer Value [Unit: ms]
RACH Info>Preamble
Counter
Preamble Counter
3.17 LL2 RNTI Info Parameter Description
SI-RNTI SI-RNTI
P-RNTI P-RNTI
Temp C-RNTI Temporary C-RNTI
C-RNTI C-RNTI
RA-RNTI RA-RNTI
SPS-RNTI SPS-RNTI
XCAP-LTE Parameter Description Chapter 3. Samsung
© Innowireless Co., Ltd. Page 128
3.18 LL2 RLC Info Parameter Description
Uplink>RB ID [x]>UM SN
length
UM SN length for Uplink (where, x = 0 ~ 31)
Uplink>RB ID [x]>Poll
retransmit timer
Poll retransmit timer for Uplink (where, x = 0 ~ 31) [Unit: ms]
Uplink>RB ID [x]>Poll PDU Poll PDU for Uplink (where, x = 0 ~ 31)
Uplink>RB ID [x]>Poll Byte Poll Byte for Uplink (where, x = 0 ~ 31) [Unit: kB]
Uplink>RB ID [x]>Max
Retransmit threshold
Max Retransmit threshold for Uplink (where, x = 0 ~ 31) [Unit: n]
Uplink>RB ID [x]>Active Info Active Info for Uplink (where, x = 0 ~ 31)
Downlink>RB ID [x]>UM SN
length
UM SN length for Downlink (where, x = 0 ~ 31)
Downlink>RB ID [x]>T1 time
value
T1 time value for Downlink (where, x = 0 ~ 31) [Unit: ms]
Downlink>RB ID [x]>Status
Prohibit timer value
Status Prohibit timer value for Downlink (where, x = 0 ~ 31) [Unit: ms]
Downlink>RB ID [x]>Active
Info
Active Info for Downlink (where, x = 0 ~ 31)
- Deactive
- Active
3.19 LL2 PDCP Info Parameter Description
Uplink>PDCP Info Num Uplink PDCP Info Number (where, x = 0 ~ 31)
Uplink>RB ID
[x]>Connection Info
Connection Info for Uplink (where, x = 0 ~ 31)
- invalid
- valid
Uplink>RB ID
[x]>Integrity Protection
Flag
Integrity Protection Flag for Uplink (where, x = 0 ~ 31)
- Null
- Snow3G
- AES
Uplink>RB ID
[x]>Ciphering Flag
Ciphering Flag for Uplink (where, x = 0 ~ 31)
- Null
- Snow3G
- AES
Uplink>RB ID [x]>SN
Window Size
SN Window Size for Uplink (where, x = 0 ~ 31)
- SRBs
- DRBs on RLC UM
- DRBs on RLC UM or AM
Uplink>RB ID [x]>SDU
Discard Timer
SDU Discard Timer for Uplink (where, x = 0 ~ 31)
- Discard timer disable
- Discard timer time (0x01 ~ 0xFE) [Unit: ms]
- Infinity
Downlink>PDCP Info Num Downlink PDCP Info Number (where, x = 0 ~ 31)
XCAP-LTE Parameter Description Chapter 3. Samsung
© Innowireless Co., Ltd. Page 129
Parameter Description
Downlink>RB ID
[x]>Connection Info
Connection Info for Downlink (where, x = 0 ~ 31)
- invalid
- valid
Downlink>RB ID
[x]>Integrity Protection
Flag
Downlink>RB ID [x]>Integrity Protection Flag for Downlink (where, x = 0
~ 31)
- Null
- Snow3G
- AES
Downlink>RB ID
[x]>Ciphering Flag
Downlink>RB ID [x]>Ciphering Flag for Downlink (where, x = 0 ~ 31)
- Null
- Snow3G
- AES
Downlink>RB ID [x]>SN
Window Size
Downlink>RB ID [x]>SN Window Size for Downlink (where, x = 0 ~ 31)
- SRBs
- DRBs on RLC UM
- DRBs on RLC UM or AM
3.20 LRRC Serving Cell Info Parameter Description
Global Cell ID Global Cell ID
Band Band (Band 1 ~ 14, 17, 33 ~ 40)
PLMN ID PLMN ID
TAC List TAC List (TAC[0] & TAC[1])
3.21 LRRC State Variables Info Parameter Description
RRC State RRC State
- NULL
- IDLE
- CONNECTED
- DISCONNECTING
XCAP-LTE Parameter Description Chapter 3. Samsung
© Innowireless Co., Ltd. Page 130
3.22 LRRC Timer Info Parameter Description
T300 Timer 300
(Start)
Transmission of RRCConnectionRequest
(Stop)
Reception of RRCConnectionSetup or RRCConnectionReject message, cell
re-selection and upon abortion of connection establishment by upper layers
(At expiry)
Perform the actions as specified in 3GPP 36.331 5.3.3.6
T301 Timer 301
(Start)
Transmission of RRCConnectionReestabilshmentRequest
(Stop)
Reception of RRCConnectionReestablishment or
RRCConnectionReestablishmentReject message as well as when the
selected cell becomes unsuitable
(At expiry)
Go to RRC_IDLE
T310 Timer 310
(Start)
Upon detecting physical layer problems i.e. upon receiving N310
consecutive out-of-sync indications from lower layers
(Stop)
Upon receiving N311 consecutive in-sync indications from lower layers,
upon triggering the handover procedure and upon initiating the connection
re-establishment procedure
(At expiry)
If security is not activated: go to RRC_IDLE else: initiate the connection
re-establishment procedure
T311 Timer 311
(Start)
Upon initiating the RRC connection re-establishment procedure
(Stop)
Selection of a suitable E-UTRA cell or a cell using another RAT
(At expiry)
Enter RRC_IDLE
XCAP-LTE Parameter Description Chapter 3. Samsung
© Innowireless Co., Ltd. Page 131
3.23 LNAS State Variables Info Parameter Description
EMM Functional State EMM Functional State
- DETACHED
- IDLE
- CONNECTED
EMM State EMM State
- NULL
- DEREGISTERED
- REGISTERED_INITIATED
- REGISTERED
- TAU_INITIATED
- SERVICE_REQUEST_INITIATED
- DEREGISTERED_INITIATED
3.24 LNAS MM(SIM/PLMN/Security) Info Parameter Description
SIM Data Info>TAI TAI
SIM Data Info>S-TMSI S-TMSI
SIM Data Info>SIM Update
status
SIM Update status
SIM Data Info>IMSI IMSI
SIM Data Info>GUTI GUTI
SIM Data Info>HPLMN
search period
HPLMN search period
PLMN Selection
Info>Registered PLMN
Registered PLMN
Security Info>Status Security Status
0: Enable
1: Disable
Security Info>NAS KSI NAS KSI
Security Info>CK CK
Security Info>IK IK
Security Info>Security
algo integrity
Security algorithm integrity
- INTEG_NULL_ALGO
- INTEG_SNOW3G_ALGO
- INTEG_AES_ALGO
Security Info>Security
algo ciphering
Security algorithm ciphering
- INTEG_NULL_ALGO
- INTEG_SNOW3G_ALGO
- INTEG_AES_ALGO
XCAP-LTE Parameter Description Chapter 3. Samsung
© Innowireless Co., Ltd. Page 132
3.25 LNAS PDP/IP Info Parameter Description
PDP Info EPS Bearer Id, Bearer Type and SM Cause
IP Info>IPv4 Address IP v4 Address
IP Info>IP Mode IP Mode
- IPv4
- IPv6
- IPv4_IPv6
3.26 LDATA Throughput Info Parameter Description
Physical Layer>UL
Throughput LTE PUSCH Throughput [Unit: Mbps]
Physical Layer>DL
Throughput LTE PDSCH Throughput [Unit: Mbps]
3.27 LDATA Timing Info Parameter Description
Connection time Connection time by Samsung LTE chipset [Unit: ms]
XCAP-LTE Parameter Description Chapter 4. GCT
4. GCT 4.1 L1 Status Info
L1 status information shows physical layer status such as channel setup status, serving cell
information, PCH DRX and measurement periodicity, etc.
Parameter Description
State Info> Main State Physical layer main state
0: DEACTIVATED
1: IDLE
2: CONNECTED
State Info> BCH BCH Channel State
0: RELEASE
1: SETUP
State Info> PCH PCH Channel State
0: RELEASE
1: SETUP
State Info> DL-SCH for
BCCH
DL-SCH for BCCH Channel State
0: RELEASE
1: SETUP
State Info> UL/DL-SCH
and RACH
UL/DL-SCH and RACH Channel State
0: RELEASE
1: SETUP
Serving Cell Info> PCI Cell identifier
Serving Cell Info> DL Freq Downlink frequency
Serving Cell Info> UL Freq Uplink frequency
Serving Cell Info> DL
Bandwidth Downlink bandwidth (Unit : RB)
Serving Cell Info> UL
Bandwidth Uplink bandwidth (Unit : RB)
Serving Cell Info> Antenna
Num Number of downlink transmit antenna
PCH DRX Period PCH DRX periodicity
0: 0.32sec
1: 0.64sec
2: 1.28sec
3: 2.56sec
255: OFF
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 134
4.2 Serving Cell Signal Quality Info
The serving cell quality information shows SNR of reference signal (RS SNR) and received power
of reference signal (RS RSSI).
Parameter Description
RS RSSI 0 received power 0 of reference signal
RS RSSI 1 received power 1 of reference signal
RS RSSI total received power of reference signal
(rs_rssi[0] + rs_rssi[1])/2
RS SNR Reference signal power and noise power for a resource element are
estimated.
10*log10{ (signal_pwr[0] + signal_pwr [1])/ (noise_pwr[0] + noise_pwr
[1])})
4.3 Tx Power Info
Time sync report log shows the time sync status of UE.
Parameter Description
PUCCH Tx Power PUSCH average UE output power in dBm
PUSCH Tx Power PUCCH average UE output power in dBm
PRACH Tx Power PRACH instantaneous UE output power in dBm
Total Tx Power 1 frame based average UE output power in dBm
4.4 RACH Info Parameter Description
Frame Num Start frame number
TTI Start subframe number
Preamble Format 0: Format 0, 1: Format 1, 2: Format2, 3: Format3
Speed Mode 0: normal speed, 1: high speed
Root Seq Root Sequence
Cyclic Shift Cyclic Shift per Use
Zero Correlation Zone Zero Correlation Zone (Ncs value 59)
Retrans Num Retransmit number
Tx Power RACH transmit power
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 135
4.5 Timing Adjustment Info
Tx Timing adjustment log shows the TA position.
Parameter Description
Rx SFN Received frame number
Rx TTI Received subframe number
NTA Timing advance command
In case of random access response : 11bit for NTA
In other case : 6bit for NTA (TA = 0, 1, 2,..., 63)
Accum TA Accumulate timing advance command
4.6 Cell Info
Cell Information display cell lists which are collected from Mp Searcher and Cell Searcher.
Parameter Description
INTRA>SYNC> RSRP Reference Signal Received Power of Intra cell which is known the sync
position.
INTRA>SYNC> RSRQ Reference Signal Received Quality of Intra cell which is known the sync
position
INTRA>SYNC> RSSI Received Power of Intra cell which is known the sync position
INTRA>SYNC> FrameBound Cell frame boundary in Intra Sync
INTRA>SYNC> CPLength CP length in Intra Sync
0: Unknown
1 : Normal CP
2 : Extended CP
INTRA>SYNC> DL Earfcn Earfcn number in Intra Sync
INTRA>SYNC> Top Set PCI
PCI with RSRP strength from top 1 to 20 from Intra Sync
Cell
RSRP Top 1 to 20 RSRP from Intra Sync Cell
RSRQ Top 1 to 20 RSRQ from Intra Sync Cell
RSSI Top 1 to 20 RSSI from Intra Sync Cell
FrameBound Top 1 to 20 FrameBound from Intra Sync Cell
CPLength Top 1 to 20 CPLength from Intra Sync Cell
DL Earfcn Top 1 to 20 DL Earfcn from Intra Sync Cell
INTRA>ASYNC> RSRP Reference Signal Received Power of Intra cell which is unknown the sync
position.
INTRA> ASYNC> RSRQ Reference Signal Received Quality of Intra cell which is unknown the sync
position
INTRA> ASYNC> RSSI Received Power of Intra cell which is unknown the sync position
INTRA> ASYNC>
FrameBound Cell frame boundary in Intra Async
INTRA> ASYNC> CPLength CP length in Intra Async
0: Unknown
1 : Normal CP
2 : Extended CP
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 136
Parameter Description
INTRA> ASYNC> DL Earfcn Earfcn number in Intra Async
INTRA> ASYNC > Top Set PCI
PCI with RSRP strength from top 1 to 20 from Intra Async
Cell
RSRP Top 1 to 20 RSRP from Intra Async Cell
RSRQ Top 1 to 20 RSRQ from Intra Async Cell
RSSI Top 1 to 20 RSSI from Intra Async Cell
FrameBound Top 1 to 20 FrameBound from Intra Async Cell
CPLength Top 1 to 20 CPLength from Intra Async Cell
DL Earfcn Top 1 to 20 DL Earfcn from Intra Async Cell
INTRA>DETECT> RSRP Reference Signal Received Power of Intra cell which is newly detected at
this search.
INTRA> DETECT> RSRQ Reference Signal Received Quality of Intra cell which is newly detected at
this search
INTRA> ASYNC> RSSI Received Power of Intra cell which is newly detected at this search
INTRA> DETECT>
FrameBound Cell frame boundary in Intra Detected
INTRA> DETECT> CPLength CP length in Intra Detected
0: Unknown
1 : Normal CP
2 : Extended CP
INTRA> DETECT> DL Earfcn Earfcn number in Intra Detected
INTRA> DETECT > Top Set PCI
PCI with RSRP strength from top 1 to 20 from Intra
Detect Cell
RSRP Top 1 to 20 RSRP from Intra Detect Cell
RSRQ Top 1 to 20 RSRQ from Intra Detect Cell
RSSI Top 1 to 20 RSSI from Intra Detect Cell
FrameBound Top 1 to 20 FrameBound from Intra Detect Cell
CPLength Top 1 to 20 CPLength from Intra Detect Cell
DL Earfcn Top 1 to 20 DL Earfcn from Intra Detect Cell
INTER>SYNC> RSRP Reference Signal Received Power of Inter cell which is known the sync
position.
INTER>SYNC> RSRQ Reference Signal Received Quality of Inter cell which is known the sync
position
INTER>SYNC> RSSI Received Power of Inter cell which is known the sync position
INTER>SYNC> FrameBound Cell frame boundary in Inter Sync
INTER>SYNC> CPLength CP length in Inter Sync
0: Unknown
1 : Normal CP
2 : Extended CP
INTER>SYNC> DL Earfcn Earfcn number in Inter Sync
INTER >SYNC> Top Set PCI
PCI with RSRP strength from top 1 to 20 from Inter Sync
Cell
RSRP Top 1 to 20 RSRP from Inter Sync Cell
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 137
Parameter Description
RSRQ Top 1 to 20 RSRQ from Inter Sync Cell
RSSI Top 1 to 20 RSSI from Inter Sync Cell
FrameBound Top 1 to 20 FrameBound from Inter Sync Cell
CPLength Top 1 to 20 CPLength from Inter Sync Cell
DL Earfcn Top 1 to 20 DL Earfcn from Inter Sync Cell
INTER>ASYNC> RSRP Reference Signal Received Power of Inter cell which is unknown the sync
position.
INTER> ASYNC> RSRQ Reference Signal Received Quality of Inter cell which is unknown the sync
position
INTER> ASYNC> RSSI Received Power of Inter cell which is unknown the sync position
INTER> ASYNC>
FrameBound Cell frame boundary in Inter Async
INTER> ASYNC> CPLength CP length in Inter Async
0: Unknown
1 : Normal CP
2 : Extended CP
INTER> ASYNC> DL Earfcn Earfcn number in Inter Async
INTER > ASYNC > Top Set PCI
PCI with RSRP strength from top 1 to 20 from Inter Async
Cell
RSRP Top 1 to 20 RSRP from Inter Async Cell
RSRQ Top 1 to 20 RSRQ from Inter Async Cell
RSSI Top 1 to 20 RSSI from Inter Async Cell
FrameBound Top 1 to 20 FrameBound from Inter Async Cell
CPLength Top 1 to 20 CPLength from Inter Async Cell
DL Earfcn Top 1 to 20 DL Earfcn from Inter Async Cell
INTER>DETECT> RSRP Reference Signal Received Power of Inter cell which is newly detected at
this search.
INTER> DETECT> RSRQ Reference Signal Received Quality of Inter cell which is newly detected at
this search
INTER> ASYNC> RSSI Received Power of Inter cell which is newly detected at this search
INTER> DETECT>
FrameBound Cell frame boundary in Inter Detected
INTER> DETECT> CPLength CP length in Inter Detected
0: Unknown
1 : Normal CP
2 : Extended CP
INTER> DETECT> DL Earfcn Earfcn number in Inter Detected
INTER > DETECT > Top Set PCI
PCI with RSRP strength from top 1 to 20 from Inter
Detect Cell
RSRP Top 1 to 20 RSRP from Inter Detect Cell
RSRQ Top 1 to 20 RSRQ from Inter Detect Cell
RSSI Top 1 to 20 RSSI from Inter Detect Cell
FrameBound Top 1 to 20 FrameBound from Inter Detect Cell
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 138
Parameter Description
CPLength Top 1 to 20 CPLength from Inter Detect Cell
DL Earfcn Top 1 to 20 DL Earfcn from Inter Detect Cell
All Set All Cell RSRP/RSRQ/RSSI/FrameBound /CPLength/DL Earfcn/Cell State
per PCI
Top Set PCI PCI with RSRP strength from top 1 to 20 from All Cell
RSRP Top 1 to 20 RSRP from All Cell
RSRQ Top 1 to 20 RSRQ from All Cell
RSSI Top 1 to 20 RSSI from All Cell
FrameBound Top 1 to 20 FrameBound from All Cell
CPLength Top 1 to 20 CPLength from All Cell
DL Earfcn Top 1 to 20 DL Earfcn from All Cell
Cell State
Top 1 to 20 Cell State from All Cell
- Intra Sync
- Intra Async
- Intra Detect
- Inter Sync
- Inter Async
- Inter Detect
4.7 Search Result
Search Result log shows Mp Search result and Cell Search result.
Parameter Description
MP Searcher Mp Searcher Dominant Energy and Mp Searcher position per PCIS
(PCIS: 0,1 or 2)
Cell Searcher> Dominant
PCI PCI with Dominant Cell Search Energy
Cell Searcher> Dominant
Cell Srch Energy Dominant Cell Search Energy
Cell Searcher> PCI# Cell Search Energy, PCIG, Half Frame Idx and CP Length per PCI
(PCIG: 0 ~ 167, PCI: 0 ~ 503)
Earfcn EARFCN number
Used Cell Searcher Num Num of Used Cell Searcher
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 139
4.8 Channel Info
The channel information shows no antenna in the 2x2 MIMO channel.
Parameter Description
Tx Correlation> Freq Total
Band(Avg) Tx Correlation in Total Band(Sub Band 1 ~ 30)
Tx Correlation> Freq Sub
Band x Tx Correlation per Sub Band
Rx Correlation> Freq Total
Band(Avg) Rx Correlation in Total Band(Sub Band 1 ~ 30)
Rx Correlation> Freq Sub
Band x Tx Correlation per Sub Band
H00 (Real)> Freq Sub
Band x H00 (Real value) per Sub Band
H00 (Imaginary)> Freq
Sub Band x H00 (Imaginary value) per Sub Band
H01 (Real)> Freq Sub
Band x H00 (Real value) per Sub Band
H01 (Imaginary)> Freq
Sub Band x H00 (Imaginary value) per Sub Band
H10 (Real)> Freq Sub
Band x H00 (Real value) per Sub Band
H10 (Imaginary)> Freq
Sub Band x H00 (Imaginary value) per Sub Band
H11 (Real)> Freq Sub
Band x H00 (Real value) per Sub Band
H11 (Imaginary)> Freq
Sub Band x H00 (Imaginary value) per Sub Band
4.9 CQI Info
The wideband CQI information shows measured CQI of wideband in the UE.
The sub-band CQI information shows the CQI (channel quality information) of sub-bands. The
sub-band is defined a unit for a group of resource elements used for reporting sub-band CQI.
Parameter Description
Rank Ratio> Instant Instant Rank Ratio (Range 0 ~ 1)
Rank Ratio> Cumulative Cumulative Rank Ratio (Range 0 ~ 1)
CQI(Wideband)> Rank1 CQI Rank1 wide band CQI
CQI(Wideband)> Rank2 CW0 CQI Rank2 wide band CQI for CW0
CQI(Wideband)> Rank2 CW1 CQI Rank2 wide band CQI for CW1
CQI(Wideband)> Rank1 PMI Rank1 wide band PMI
CQI(Wideband)> Rank2 PMI Rank2 wide band PMI
CQI(Subband)> Rank1 CQI Rank1 sub band CQI
CQI(Subband)> Rank2 CW0 CQI Rank2 sub band CQI for CW0
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 140
Parameter Description
CQI(Subband)> Rank2 CW1 CQI Rank2 sub band CQI for CW1
CQI(Subband)> Rank1 PMI Rank1 sub band PMI
CQI(Subband)> Rank2 PMI Rank2 sub band PMI
4.10 Multi-paths Profile
This information shows the channel impulse response of reference signals in the time domain.
Parameter Description
Serving PCI Serving cell ID (0~503)
Ref EsNo The reference EsNo is the detected RS SNR in the reference position.
RS power metric of reference path. EsNo is calculated by computing
10*log10(RS power metric/noise power metric)
Ref Timing The reference timing gives the information of reference cell timing of
demodulation.
Reference timing of serving cell. The resolution is Ts in a frame
Path Info[x]> EsNo RS power metric of this path
Path Info[x]> Time Index Timing offset from reference timing (Ts resolution)
4.11 PBCH BLER
PBCH BLER displays how much transport blocks get CRC_NOK about total received transport
blocks.
Parameter Description
Instant Instant PBCH BLER
(bler_info.err_nums / bler_info.total_nums) * 100
Cumulative Cumulative PBCH BLER
4.12 PDSCH BLER
PDSCH BLER displays how much transport blocks get CRC_NOK about total received transport
blocks.
Parameter Description
Instant> All Instant PDSCH Total BLER
((bler_info[0].err_nums + bler_info[1].err_nums) /
(bler_info[0].total_nums + bler_info[1].total_nums)) * 100
Instant> Codeword #0 Instant PDSCH Codeword0 BLER
(bler_info[0].err_nums / bler_info[0].total_nums) * 100
Instant> Codeword #1 Instant PDSCH Codeword1 BLER
(bler_info[1].err_nums / bler_info[1].total_nums) * 100
Cumulative> All Cumulative PDSCH Total BLER
Cumulative> Codeword #0 Cumulative PDSCH Codeword0 BLER
Cumulative> Codeword #1 Cumulative PDSCH Codeword1 BLER
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 141
4.13 PDCCH Detection Rate
UE can’t calculate PDCCH BLER because UE doesn’t know when eNode-B sends its PDCCH. In
other words, UE detects PDCCH blindly. So, UE DM supports this item similar with PDCCH BLER.
Parameter Description
DCI 0 The number of detection for DCI#0
DCI 1 The number of detection for DCI 1
DCI 1a The number of detection for DCI 1a
DCI 1b The number of detection for DCI 1b
DCI 1c The number of detection for DCI 1c
DCI 2 The number of detection for DCI 2
DCI 2a The number of detection for DCI 2a
DCI 3 The number of detection for DCI 3
DCI 3a The number of detection for DCI 3a
4.14 DL Grant & UL Ack/Nack Status Info
(Improved)
DL Grant & UL ACK/NACK Status(Improved) displays DL grant regardless any DCI format in
every TTI. According to TS36.212, each DCI format has the specific fields, not all, and the
unnecessary fields are displayed to the blank. Additionally, UL_ACK/NACK, CFI, and DCI_3/3A
payload will be included in this item.
Parameter Description
SFN SFN value
TTI TTI value
DCI Format> Count DCI 1 Num/ DCI 1A Num/ DCI 1B Num/ DCI 1C Num/ DCI 2 Num/
DCI 2A Num/ DCI 3 Num/ DCI 3A Num/ N/A Num
DCI Format> Rate DCI 1 Rate/ DCI 1A Rate/ DCI 1B Rate/ DCI 1C Rate/ DCI 2 Rate/
DCI 2A Rate/ DCI 3 Rate/ DCI 3A Rate/ N/A Rate
TM Scheme transmission scheme
0:"SING-ANT(P0)",1:"SING-ANT(P5)",2:"TRANS-
DIV",3:"LARGE-CDD",4:"CLOSE-SM",5:"MU-MIMO"
TPC TPC
RB Num Resource Block Number
MCS> CW0> MCS(Idx) CW0 MCS
MCS> CW0> QPSK Rate CW0 QPSK Rate
MCS> CW0> 16 QAM Rate CW0 16 QAM Rate
MCS> CW0> 64 QAM Rate CW0 64 QAM Rate
MCS> CW1> MCS(Idx) CW1 MCS
MCS> CW1> QPSK Rate CW1 QPSK Rate
MCS> CW1> 16 QAM Rate CW1 16 QAM Rate
MCS> CW1> 64 QAM Rate CW1 64 QAM Rate
NDI> CW0> New Data Num CW0 NDI (NDI field = 1)
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 142
Parameter Description
NDI> CW0> Retrans Data Num CW0 NDI (NDI field = 0)
NDI> CW0> New Data Rate New Data Num/(Retrans Data Num+New Data Num)*100 in CW0
NDI> CW1> New Data Num CW1 NDI (NDI field = 1)
NDI> CW1> Retrans Data Num CW1 NDI (NDI field = 0)
NDI> CW1> New Data Rate New Data Num/(Retrans Data Num+New Data Num)*100 in CW1
UL ACK/NACK> CW0> ACK Count CW0 UL ACK result
UL ACK/NACK> CW0> NACK
Count CW0 UL NACK result
UL ACK/NACK> CW0> DTX Count CW0 UL DTX result
UL ACK/NACK> CW0> ACK Rate ACK Count/(ACK Count+NACK Count+DTX Count)*100 in CW0
UL ACK/NACK> CW0> NACK Rate NACK Count/(ACK Count+NACK Count+DTX Count)*100 in CW0
UL ACK/NACK> CW0> DTX Rate DTX Count/(ACK Count+NACK Count+DTX Count)*100 in CW0
UL ACK/NACK> CW1> ACK Count CW1 UL ACK result
UL ACK/NACK> CW1> NACK
Count CW1 UL NACK result
UL ACK/NACK> CW1> DTX Count CW1 UL DTX result
UL ACK/NACK> CW1> ACK Rate ACK Count/(ACK Count+NACK Count+DTX Count)*100 in CW1
UL ACK/NACK> CW1> NACK Rate NACK Count/(ACK Count+NACK Count+DTX Count)*100 in CW1
UL ACK/NACK> CW1> DTX Rate DTX Count/(ACK Count+NACK Count+DTX Count)*100 in CW1
DCI 3(Mode)> DCI 3/3A
Value(CW0) CW0 DCI3/3A value
DCI 3(Mode)> DCI 3/3A
Value(CW1) CW1 DCI3/3A value
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 143
4.15 DL Grant & UL Ack/Nack Status Info (Improved)[Detail per TTI]
DL Grant & UL Ack/Nack Status Info(Improved)[Detail per TTI] displays the related information
per TTI.
Parameter Description
SFN SFN value
TTI TTI value
CFI CFI value
DCI Format DCI format
0:"DCI_1",1:"DCI_1A,2:"DCI_1B",3:"DCI_1C",4:"DCI_2",
5:"DCI_2A",6:"DCI_3",7:"DCI_3A"
RNTI RNTI type
0:"C-RNTI",1:"RA-RNTI",2:"P-RNTI",3:"SI-RNTI",
4:"PUCCH",5:"PUSCH",6:"SPS-RNTI",7:”T-CRNTI”
TM Scheme transmission scheme
0:"SING-ANT(P0)",1:"SING-ANT(P5)",2:"TRANS- DIV",3:"LARGE-
CDD",4:"CLOSE-SM",5:"MU-MIMO"
Distribution Flag distribution flag 0:"LOCAL", 1:"DIST"
Gap Value gap value
RA Header RA header
Precoding precoding information
RB Num Resource Block Number
PMI Confirmation PMI confirmation
TPC TPC
HARQ Number HARQ number
MCS(CW0) MCS in CW0
NDI(CW0) NDI in CW0
RV(CW0) redundancy version in CW0
MOD Type(CW0) modulation type in CW0
New/Retrans Type(CW0) new or retransmission type in CW0
TB Size(CW0) transport block size in CW0
CRC Result(CW0) CRC result in CW0
UL ACK/NACK Result(CW0) UL ACK/NACK result in CW0
DCI 3(CW0) DCI3/3A value in CW0
MCS(CW1) MCS in CW1
NDI(CW1) NDI in CW1
RV(CW1) redundancy version in CW1
MOD Type(CW1) modulation type in CW1
New/Retrans Type(CW1) new or retransmission type in CW1
TB Size(CW1) transport block size in CW1
CRC Result(CW1) CRC result in CW1
UL ACK/NACK Result(CW1) UL ACK/NACK result in CW1
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 144
Parameter Description
DCI 3(CW1) DCI3/3A value in CW1
4.16 UL Grant & DL Ack/Nack Status Info
UL Grant Info Status log shows get UL Scheduling Grant information to PDCCH.
Parameter Description
SFN SFN value
TTI TTI value
FH> FH Num FH Number
FH> No FH Num No FH Number
FH> FH Rate FH Num/(No FH Num+FH Num)* 100
MCS> CQI REQ> MCS(Idx) No CQI Request Modulation and Coding Rate
MCS> No CQI REQ>
MCS(Idx) CQI Request Modulation and Coding Rate
MCS> No CQI REQ> QPSK
Rate QPSK Num/(QPSK Num+16QAM Num+64QAM Num)*100 in CQI Request
MCS> No CQI REQ> 16
QAM Rate 16QAM Num/(QPSK Num+16QAM Num+64QAM Num)*100 in CQI Request
MCS> No CQI REQ> 64
QAM Rate 64QAM Num/(QPSK Num+16QAM Num+64QAM Num)*100 in CQI Request
New Data Num New data indicator (NDI field = 1)
Retrans Data Num New data indicator (NDI field = 0)
New Data Rate New Data Num/(Retrans Data Num+New Data Num)*100
TPC Power control of PUSCH
CS DMRS Cyclic shift for DMRS
DL ACK/NACK> ACK Count DL ACK result
DL ACK/NACK> NACK
Count DL NACK result
DL ACK/NACK> DTX Count DL DTX result
DL ACK/NACK> ACK Rate ACK Count/(ACK Count+NACK Count+DTX Count)*100
DL ACK/NACK> NACK Rate NACK Count/(ACK Count+NACK Count+DTX Count)*100
DL ACK/NACK> DTX Rate DTX Count/(ACK Count+NACK Count+DTX Count)*100
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 145
4.17 UL Grant & DL Ack/Nack Status info [Detail per TTI]
UL Grant & DL Ack/Nack Status info[Detail per TTI] displays the related information per TTI.
Parameter Description
SFN SFN value
TTI TTI value
TB Size Transport Block size
RB Assign Resurce block assingment
FH 0 :No FH
1 :FH
MCS Modulation and Coding Rate
NDI New data indicator
TPC Power control of PUSCH
CS DMRS Cyclic shift for DMRS
CQI Request Ind CQI Request Indication
0 : No CQI Request
1 : CQI Request
DL ACK/NACK Result 0 :NACK
1 :ACK
4.18 PDSCH PHY Throughput
PDSCH PHY Throughput has displays how much to get the downlink data in 1sec.
Parameter Description
All PDSCH PHY Total Throughput
(cw_0 + cw_1) / 1000
Codeword #0 PDSCH PHY Codeword0 Throughput
(cw_0) / 1000
Codeword #1 PDSCH PHY Codeword0 Throughput
(cw_1) / 1000
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 146
4.19 UL PRB MAP Data Info
This information shows the log of transmit physical resource mapping information.
Parameter Description
SFN Frame number
TTI TTI number
Bandwidth 0:1.4MHz, 1:3MHz, 2:5MHz, 3:10MHz, 4:15MHz, 5:20MHz
Channel Type> Count DTX/ PRACH/ PUCCH/ PUSCH/ SRS/ PUSCH+SRS/ PUCCH+SRS Count
Channel Type> Rate DTX/ PRACH/ PUCCH/ PUSCH/ SRS/ PUSCH+SRS/ PUCCH+SRS Rate
PRACH RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB
Offset in PRACH
PUCCH RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB
Offset in PUCCH
PUSCH RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB
Offset in PUSCH
SRS RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB
Offset in SRS
PUSCH+SRS RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB
Offset in PUSCH+SRS
PUCCH+SRS RB Size/ Even Slot RB Offset/ Odd Slot RB Offset/ SRS RB Size/ SRS RB
Offset in PUCCH+SRS
4.20 PUSCH PHY Throughput
UL Throughput log shows the Uplink data throughput at UE side.
Parameter Description
NEW Transmission A number of bits about new transmission per 1 sec
(new_bit_nums) / 1000
Total UL A number of bits about re-transmission per 1 sec
(new_bit_nums + retrans_bit_nums) / 1000
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 147
4.21 L2 DL Throughput Parameter Description
PDCP> Total Total Downlink PDCP Throughput
(∑rbId total Byte*8/1000)
PDCP> RB ID(x) Downlink PDCP Throughput per RB ID
(rbId total Byte*8/1000)
RLC> Total Total Downlink RLC Throughput
(∑rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM), 4 ~ 5 (UM)
RLC> AM> Total Total Downlink RLC AM Throughput
(∑rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM)
RLC> AM> RB ID(x) Downlink RLC AM Throughput per RB ID
(rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM)
RLC> UM> Total Total Downlink RLC UM Throughput
(∑rbId total Byte*8/1000)
Precondition: index 4 ~ 5 (AM)
RLC> UM> RB ID(x) Downlink RLC UM Throughput per RB ID
(rbId total Byte*8/1000)
Precondition: index 4 ~ 5 (AM)
MAC Downlink MAC Throughput
(MacDlTotalBytes*8/1000)
4.22 L2 UL Throughput Parameter Description
PDCP> Total Total Uplink PDCP Throughput
(∑rbId total Byte*8/1000)
PDCP> RB ID(x) Uplink PDCP Throughput per RB ID
(rbId total Byte*8/1000)
RLC> Total Total Uplink RLC Throughput
(∑rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM), 4 ~ 5 (UM)
RLC> AM> Total Total Uplink RLC AM Throughput
(∑rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM)
RLC> AM> RB ID(x) Uplink RLC AM Throughput per RB ID
(rbId total Byte*8/1000)
Precondition: index 1 ~ 3 (AM)
RLC> UM> Total Total Uplink RLC UM Throughput
(∑rbId total Byte*8/1000)
Precondition: index 4 ~ 5 (AM)
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 148
Parameter Description
RLC> UM> RB ID(x) Uplink RLC UM Throughput per RB ID
(rbId total Byte*8/1000)
Precondition: index 4 ~ 5 (AM)
MAC Uplink MAC Throughput
(MacUlTotalBytes*8/1000)
4.23 PDSCH MAC BLER
This item is for MAC BLER of downlink (PDSCH). Ratio of transport blocks which remain un-
acknowledged (CRC failure) after HARQ retransmission divided by total number of initial
transmissions received by UE MAC.
Parameter Description
Instant> All Instant total MAC BLER
( (cwd0ErrNum/cwd0TBNum) *100 + (cwd1ErrNum/cwd1TBNum) *100 ) /
2
Instant> Codeword #0 Instant code word #0 MAC BLER
(cwd0ErrNum/cwd0TBNum) *100
Instant> Codeword #1 Instant code word #1 MAC BLER
(cwd1ErrNum/cwd1TBNum) *100
Cumulative> All Cumulative total MAC BLER
Cumulative> Codeword #0 Cumulative code word #0 MAC BLER
Cumulative> Codeword #1 Cumulative code word #1 MAC BLER
4.24 RLC States Info
This item provides state information of RLC Tx/Rx Entity.
Parameter Description
Tx States> RB ID (x)> Mode Tx States RLC Mode (AM /UM/TM)
Tx States> RB ID (x)> State Tx States RLC Tx Entity state (NULL/DTR)
Rx States> RB ID (x)> Mode Rx States RLC Mode (AM /UM/TM)
Rx States> RB ID (x)> State Rx States RLC Tx Entity state (NULL/DTR)
4.25 MAC State Info
This item includes MAC DL/UL state information.
Parameter Description
MAC UL State Current state of MAC uplink
(0-NOT_CONFIGURED, 1-CONFIGURED, 2-OUT_OF_SYNC, 3-IN_SYNC, 4-
IN_CR, 5-READY_TO_SCHED )
MAC DL State Current State of MAC downlink
(0-NOT_CONFIGURED, 1-CONFIGURED, 2-PCH_STATE, 3-RACH_STATE, 4-
DSCH_STATE)
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 149
4.26 MAC UL Transmission Info
This item is for total packets information of uplink data transmission.
Parameter Description
Count> 1st Trans Success in 1st transmission
Count> 1st Re-Trans Success in 1st re-transmission
Count> 2nd Re-Trans Success in 2nd re-transmission
Count> 3rd Re-Trans Success in 3rd re-transmission
Count> 4th Re-Trans Success in 4th re-transmission
Count> 5th Re-Trans Success in 5th re-transmission
Count> 6th Re-Trans Success in 6th re-transmission
Count> 7th Re-Trans Success in 7th re-transmission
Count> 8th Re-Trans Success in 8th re-transmission
Count> 9th Re-Trans Success in 9th re-transmission
Count> 10th Re-Trans Success in 10th re-transmission
Count> Total Trans ∑SuccessCnt i (Where, i = 0 to 10)
Count> Bad Count Bad Count
Percentage> 1st Trans 1st Trans/(Total Trans+Bad Count)*100
Percentage> 1st Re-Trans 1st Re-Trans/(Total Trans+Bad Count)*100
Percentage> 2nd Re-Trans 2nd Re-Trans/(Total Trans+Bad Count)*100
Percentage> 3rd Re-Trans 3rd Re-Trans/(Total Trans+Bad Count)*100
Percentage> 4th Re-Trans 4th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 5th Re-Trans 5th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 6th Re-Trans 6th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 7th Re-Trans 7th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 8th Re-Trans 8th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 9th Re-Trans 9th Re-Trans/(Total Trans+Bad Count)*100
Percentage> 10th Re-
Trans 10th Re-Trans/(Total Trans+Bad Count)*100
Percentage> Total Trans Total Trans/(Total Trans+Bad Count)*100
Percentage> Bad
Percentage Bad Count/(Total Trans+Bad Count)*100
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 150
4.27 RACH REQ Info
This item includes RACH request information.
Parameter Description
RACH Transmit Time RACH transmit time
Retransmission Num Retransmission Num
RACH Type 0 : INITIAL
1 : HANDOVER
2 : UL DATA ARRIVAL
3 : DL DATA ARRIVAL
4 : SR MAX
5 : NO_SR_CONFIG
RA-RNTI RACH RNTI
Preamble ID Preamble Identity
4.28 RACH RSP General Info
This item includes RACH response information.
Parameter Description
RACH Response Receiving Time RACH response receiving time
Result 0: NACK, 1: ACK
RACH Preamble Identity RACH Preamble Identity
BackOff Indicator BackOff Indicator
Time Advance Time Advance
Temporary C-RNTI Temporary C-RNTI
MCS Modulation and coding Scheme
TPC for scheduled PUSCH TPC command for scheduled PUSCH
Hopping Flag Hopping Flag
UL Delay UL Delay
CQI Request CQI Request
Resource Block Assignment Resource block assignment(10bits)
Access RACH Latency Access RACH Latency (sec)
4.29 RNTI Info
This item includes RNTI information.
Parameter Description
C-RNTI C-RNTI
RA-RNTI RA-RNTI
Temporary C-RNTI Temporary C-RNTI
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 151
4.30 Serving Cell & Neighbor Cell Lists Parameter Description
Serving Cell Info> UE
State
Current UE state
- UE_IDLE_MODE
- UE_CONNECTED_MODE
- NO_SERVICE
- NON_LTE_RAN
Serving Cell Info> Freq UL Uplink Carrier Frequency
Serving Cell Info> Freq DL Downlink Carrier Frequency
Serving Cell Info> PCI Physical Cell Identity
Serving Cell Info> TAC Tracking Area Code
Serving Cell Info> PLMN
Identity PLMN Identity
Serving Cell Info> Global
Cell ID Global Cell ID
Intra Freq Cell Lists> DL
Freq Downlink Carrier Frequency
Intra Freq Cell Lists>
Serving Cell> Serving PCI Intra Freq Cell Serving PCI
Intra Freq Cell Lists>
Serving Cell> Serving
RSRP
Intra Freq Cell Serving RSRP
Intra Freq Cell Lists>
Serving Cell> Serving
RSRQ
Intra Freq Cell Serving RSRQ
Intra Freq Cell Lists>
Serving Cell> Serving
RSSI
Intra Freq Cell Serving RSSI
Intra Freq Cell Lists>
Serving Cell> All Cell Info
Intra Freq Cell Serving RSRP/RSSQ/RSSI per PCI
Intra Freq Cell Lists>
Monitored Cell> Monitored
Cell Count
Number of Monitored PCI from Intra Freq Cell
Intra Freq Cell Lists>
Monitored Cell> Monitored
Cell List
Monitored PCI List from Intra Freq Cell
Intra Freq Cell Lists>
Monitored Cell> Summary
Monitored Cell List
Monitored PCI List with (RSRP,RSRQ) from Intra Freq Cell
Intra Freq Cell Lists>
Monitored Cell> RSRP Intra Freq Cell Monitored RSRP per PCI
Intra Freq Cell Lists>
Monitored Cell> RSRQ Intra Freq Cell Monitored RSRQ per PCI
Intra Freq Cell Lists>
Monitored Cell> RSSI Intra Freq Cell Monitored RSSI per PCI
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 152
Parameter Description
Intra Freq Cell Lists>
Monitored Cell> Top Set PCI
PCI with RSRP strength from top 1 to 20 from Intra Freq
Monitored Cell
RSRP Top 1 to 20 RSRP from Intra Freq Monitored Cell
RSRQ Top 1 to 20 RSRQ from Intra Freq Monitored Cell
RSSI Top 1 to 20 RSSI from Intra Freq Monitored Cell
Intra Freq Cell Lists>
Detected Cell> Detected
Cell Count
Number of Detected PCI from Intra Freq Cell
Intra Freq Cell Lists>
Detected Cell> Detected
Cell List
Detected PCI List from Intra Freq Cell
Intra Freq Cell Lists>
Detected Cell> Summary
Detected Cell List
Detected PCI List with (RSRP,RSRQ) from Intra Freq Cell
Intra Freq Cell Lists>
Detected Cell> RSRP Intra Freq Cell Detected RSRP per PCI
Intra Freq Cell Lists>
Detected Cell> RSRQ Intra Freq Cell Detected RSRQ per PCI
Intra Freq Cell Lists>
Detected Cell> RSSI Intra Freq Cell Detected RSSI per PCI
Intra Freq Cell Lists>
Detected Cell> Top Set PCI
PCI with RSRP strength from top 1 to 20 from Intra Freq Detected
Cell
RSRP Top 1 to 20 RSRP from Intra Freq Detected Cell
RSRQ Top 1 to 20 RSRQ from Intra Freq Detected Cell
RSSI Top 1 to 20 RSSI from Intra Freq Detected Cell
Intra Freq Cell Lists> All
Set Intra Freq Cell RSRP/RSRQ/RSSI/Cell State per PCI
Intra Freq Cell Lists> Top
Set
PCI PCI with RSRP strength from top 1 to 20 from Intra Freq Cell
RSRP Top 1 to 20 RSRP from Intra Freq Cell
RSRQ Top 1 to 20 RSRQ from Intra Freq Cell
RSSI Top 1 to 20 RSSI from Intra Freq Cell
Cell
State
Top 1 to 20 Cell State from Intra Freq Cell
- Serving
- Monitored
- Detected
Inter Freq Cell Lists> Freq
DL(x)>PCI(y)> RSRP Inter frequency cell Reference Signal Received Power
Inter Freq Cell Lists> Freq
DL(x)>PCI(y)> RSRQ Inter frequency cell Reference Signal Received Quality
Inter Freq Cell Lists> Freq
DL(x)>PCI(y)> RSSI Inter frequency cell Received Power
Inter Freq Cell Lists> Freq
DL(x)>PCI(y)> Cell Type
Inter frequency cell type
1 : monitored cell
2 : detected cell
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 153
4.31 NAS System Info Parameter Description
PLMN_ID PLMN ID of the current cell
TAC TAC of the current cell
Cell ID Cell ID of the current cell
TAI List Tracking Area identity List
MCC (Mobile Country Code), MNC (Mobile Network Code) and TAC
(Tracking Area Code).
4.32 RRC BCH Status Info
This item provides the information of BCH status.
Parameter Description
RRC BCH Status> PCI Physical Cell Identity (0~503)
RRC BCH Status> Freq DL DL Frequency
RRC BCH Status> Purpose Purpose of BCH Setup
- SIB_NORMAL,
- CELL_RESELECTION,
- SIB_MODIFICATION,
- MOVE_TO_IDLE,
- SIB_CONNECTED,
- SFN_READ,
- SPECIFIED_SIB,
- SIBC_SIB
RRC BCH Status> Result Result of receiving System Information.
- SUCCESS,
- PLMN_MISMATCH,
- MIB_TIMEOUT,
- SI_TIMEOUT,
- LAST_RESULT
4.33 NAS State Info
This item provides the state information of EMM (EPS Mobility Management), ECM (EPS
Connection Management) and PLMN and EU (EPS Update) status when each state is changed.
Parameter Description
EMM State Current state of EMM (EPS Mobility Management)
ECM State Current state of ECM (EPS Connection Management)
PLMN State Current state of PLMN
EU State Current EU (EPS Update) status
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 154
4.34 NAS State Info(R4)
This item provides the NAS state information of EMM (EPS Mobility Management), ECM (EPS
Connection Management) and PLMN and EMM Cache status when each state is changed.
Parameter Description
EMM State Current state of EMM (EPS Mobility Management)
ECM State Current state of ECM (EPS Connection Management)
PLMN State Current state of PLMN
EMM Cache State Current state of EMM Cache
4.35 Radio & NAS Signaling Failure Info Parameter Description
Radio Problem Cause Radio problem diagnostic logging attribute.
NAS Signaling Failure Cause NAS signaling failure diagnostic logging attribute
4.36 RRC Freq Scan Info
This item displays the result of frequency scan.
Parameter Description
Search Type Cell Search Method
- Frequency LIST
- Frequency RANGE
Freq DL DL Frequency
RSRP Reference Signal Received Power
4.37 Cell Reselection Info
This item provides the information on both source cell and target cell when RRC perform cell
reselection.
Parameter Description
Old Freq DL Old Carrier Frequency
Old Cell ID Old Cell Identity
New Freq DL New Carrier Frequency
New Cell ID New Cell Identity
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 155
4.38 Handover History
This item displays handover history, delay and result.
Parameter Description
Source Cell Source Cell Physical Identity
Target Cell Target Cell Physical Identity
Handover Delay Handover delay (Unit : ms)
Result - FAIL
- SUCCESS
Handover Type - LTE
- Outbound IRAT
- Inbound IRAT
4.39 Data Path Packet Loss
This item is for UL/DL packet loss of data path(HIM/PDCP/L2).
Parameter Description
UL UsbBlockTime UL : USB Blocking count
UL SdioBlockTime UL : SDIO Blocking count
UL UsbUnreg UL : number of discarded packet in USB by unregistered connection
UL SdioUnreg UL : number of discarded packet in SDIO by unregistered connection
UL HimAllocFail UL : Memory allocation fail count in HIM
UL DimInvHdr UL : Number of discarded packet in DIM by Invalid header
UL DimNoRB UL : Number of discarded packet in DIM because of no RB
UL PdcpSduFull UL : Fail count in PDCP by PDCP SDU Queue full
UL PdcpPduBufFull UL : Number of discarded packet in PDCP by PDCP PDU Queue full
UL PdcpCipAllocFail UL : Number of discarded packet in PDCP by Ciphering block full
UL PdcpDisTimer UL : Number of discarded packet by PDCP discard timer expiry
UL MacSchedMiss UL : Number of discarded MAC PDU which is not transfered
DL PhyAllocFail DL : Number of discarded MAC PDU by memory allocation in L1
DL MacInvHdr DL : Number of discarded MAC PDU by invalid MAC header
DL RlcDuplication DL : number of discarded RLC PDU by duplication
DL RlcInvHdr DL : number of discarded RLC PDU by invalid RLC header
DL RlcOutWnd DL: number of discarded RLC PDU which falls outside of window
DL RlcRsmFull DL : number of discard RLC PDU by RSM buffer full
DL PdcpInvHdr DL : number of discarded PDCP PDU by invalid PDCP header
DL PdcpOutWnd DL : number of discarded PDCP PDU which falls outside of window
DL CipAllocFail DL : Number of discarded packet in PDCP by Ciphering block full
DL DimInvalid DL : Number of discarded packet in DIM by IP Header length mismatch
DL HimIfFull DL : Number of discarded packet in HIM by interface buffer full
DL UsbBlockTime DL : USB block count
DL SdioBlockTime DL : SDIO block count
DL UsbPacketLoss DL : number of discarded packet in USB
XCAP-LTE Parameter Description Chapter 4. GCT
© Innowireless Co., Ltd. Page 156
Parameter Description
DL SdioPacketLoss DL : number of discard packet in SDIO
4.40 ESM Instance Info
This item includes ESM instance information R3. Maximum number of ESM instance is 15(1~15).
The EPS Id uniquely identifies each ESM instance.
Parameter Description
Tab Index 1: 1st tab, 2: 2nd tab, … 15: 15th tab
EPS Id EPS ID
Linked Bearer Id Linked Bearer ID
PDN Address PDN IP Address
APN Access Point Name
QCI QCI (1 ~ 9)
EPS Type - NONE BEARER TYPE
- DEFAULT_BEARER
- DEDICATED_BEARER
ESM State - DEACTIVE
- ACTIVE
PTI PTI
Instance Id Instance ID
Deactivate Mode - NONE_MODE
- NORMAL
- NORMAL_ALL
- DETACH
- STATUS_IND
- PDN_DISCONNECT
- PDN_DISCONNECT_REJECT
- PDN_DISCONNECT_TIMEOUT
- MODIFICATION_REJECT
- MODIFICATION_TIMEOUT
- OVERWRITE
- LOCALLY
Overwrite Mode - NONE BEARER TYPE
- DEFAULT_BEARER
- DEDICATED_BEARER
XCAP-LTE Parameter Description Chapter 5. LTE KPI
5. LTE KPI Supported Chipset: Qualcomm/LGE/Samsung/GCT/HiSilicon(Hi6910/6920)
Qualcomm: Qc
Samsung: Ss
LGE: Lg
GCT: Gc
HiSilicon6910: Hi1
HiSilicon6920(Balong): Hi2B
Parameter Supported Chipset
Chip Type Qc Ss Lg Gc Hi1 Hi2B
Serving PCI V V V V V V
Serving RSRP V V V V V V
Serving RSRQ V V V V V V
Serving RSSI V V V V V V
PUSCH Power V V V V V V
PUCCH Power V V V V V V
SRS Power V V V V V V
Total Tx Power V V V V V V
SINR V V V V V V
WB CQI CW0 V V V V V V
WB CQI CW1 V V V V V V
WB RI V V V V V V
WB PMI 0 V V V V V V
WB PMI 1 V V V V V V
DL MCS0 V V V V V V
DL MCS1 V V V V V V
UL MCS V V V V V V
DL Modulation0 V V
DL Modulation1 V V
UL Modulation V V
PDSCH PRB Number V V V V V
PUSCH PRB Number V V V V V
PDSCH BLER V V V V V V
PUSCH BLER V V V
PDSCH Throughput V V V V V V
PUSCH Throughput V V V V V V
MAC DL Throughput V V V V V
MAC UL Throughput V V V V V
RLC DL Throughput V V V V V
XCAP-LTE Parameter Description Chapter 5. LTE KPI
© Innowireless Co., Ltd. Page 158
Parameter Supported Chipset
RLC UL Throughput V V V V V
PDCP DL Throughput V V V V V
PDCP UL Throughput V V V V V
TAC V V
XCAP-LTE Parameter Description
Innowireless Co., Ltd.,
Address: #1-301, Complex2, Pangyo7 Techno Valley, #633, Sampyung-Dong, Bundang-
Gu, Seongnam-Si, Kyungki-Do
Web site: www.innowireless.co.kr
Phone #: +82-31-788-1700
Fax #: +82-31-705-1246