gNodeB NR V100R016C10 Initial Configuration by MML Commands Brazil

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Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
 Bill of Quantity (BOQ): Based on the site delivery configuration list, you can obtain the site 
type configuration requirements and device list. 
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD GNODEBFUNCTION: gNodeBFunctionName="5G", ReferencedApplicationId=1, 
gNBId=1, gNBIdLength=22; 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 SET NE: NENAME="HUAWEI", LOCATION="NewSite", DID="NewSite12345", 
SITENAME="NewSite1", USERLABEL="NewInitSite"; 
 Currently, 5G main control boards can only be UMPTe and UMPTg, and 5G baseband 
processing units (BBPs) can only be UBBPfw1 and UBBPg.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD GNBOPERATOR: OperatorId=0, OperatorName="5G", Mcc="262", Mnc="05", 
OperatorType=PRIMARY_OPERATOR, NrNetworkingOption=SA_NSA; 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD GNBTRACKINGAREA: TrackingAreaId=0, Tac=1;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 SET MNTMODE: MNTMode=INSTALL, ST=2013&09&20&15&00&00, 
ET=2013&09&25&15&00&00, MMSetRemark="NewSite Install"; 
 The maintenance mode can be set to NORMAL, INSTALL, EXPAND, UPGRADE, or 
TESTING.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
 Note:
 If the BBP is a UBBPfw1, set Work Mode to NR when adding a BBP. For a full-width 
UBBPfw1, Slot No. must be set to 0, 2, or 4.
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 ADD CABINET: CN=0, TYPE=BTS5900;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD SUBRACK: CN=0, SRN=0, TYPE=BBU5900;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD BRD: SN=6, BT=UMPT;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD BRD: SN=0, BT=UBBP, BBWS=NR-1, BRDSPEC="UBBPg";
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD BRD: SN=16, BT=FAN;
 ADD BRD: SN=19, BT=UPEU;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD RRUCHAIN: RCN=3, TT=CHAIN, BM=COLD, AT=LOCALPORT, HSRN=0, HSN=0, 
HPN=2, PROTOCOL=eCPRI, CR=AUTO, USERDEFRATENEGOSW=OFF;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD RRU: CN=0, SRN=61, SN=0, TP=TRUNK, RCN=3, PS=0, RT=AIRU, RS=NO, 
RXNUM=0, TXNUM=0, MNTMODE=NORMAL, RFDCPWROFFALMDETECTSW=OFF, 
RFTXSIGNDETECTSW=OFF;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 SET TZ: ZONET=GMT+0800, DST=NO;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 SET TIMESRC: TIMESRC=NTP; 
 ADD NTPC: MODE=IPV4, IP="10.160.201.175", PORT=123, SYNCCYCLE=60, 
AUTHMODE=PLAIN; 
 SET MASTERNTPS: MODE=IPV4, IP="10.160.201.175";
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD GPS: SRN=0, SN=7;
 Priority: Indicates the priority of the clock source (value range: 1-4). The value 1 indicates 
the current clock source has the highest priority.
 Cable Length: indicates the length of the GPS cable. The actual cable length is the length 
of the feeder between the GPS antenna and the board connected to the GPS. Based on 
the cable length, the cable delay is calculated to ensure the clock accuracy. The clock 
accuracy is affected if the difference between the parameter value and the actual cable 
length is greater than 20 m. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD IPCLKLINK: LN=0, ICPT=PTP, SN=7, CNM=UNICAST, IPMODE=IPV4, 
CIP="192.168.1.107", SIP="192.168.1.128", DELAYTYPE=E2E, PROFILETYPE=1588V2;
 For the new transmission configuration model, before adding an IPv4 clock link, run the 
ADD IPADDR4 command to configure the port IP address.
 For the old transmission configuration model, before adding an IPv4 clock link, run the 
ADD DEVIP command to configure the port IP address.
 Before adding an IPv6 clock link, run the ADD IPADDR6 command to configure the port IP 
address.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 SET CLKSYNCMODE: CLKSYNCMODE=TIME; 
 SET CLKMODE: MODE=AUTO;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 The transmission configuration model can be the new or old model.
 If the old model is used, position information such as cabinet, subrack, and slot is included. 
Transmission configurations and physical devices are bound together. IPv4 and IPv6 MOs 
above the IP layer are independent of each other. If the new model is used, transmission 
configurations are decoupled from physical devices. That is, unnecessary cabinet, 
subrack, and slot configurations are excluded from transmission configurations, and IPv4 
and IPv6 MOs above the IP layer are combined. This facilitates the introduction of new 
transmission functions and reduces transmission configuration parameters.
 Compared with the old model, the new model introduces an INTERFACE MO to the data 
link layer to isolate the upper layers from the physical layer and decouple transmission 
configurations from physical devices. In the new model, device information such as 
cabinet, subrack, slot, and sub-board needs to be configured only for the physical layer or 
data link layer but not for other layers when transmission links need to be configured or 
transmission boards or ports need to be adjusted.
gNodeB NR V100R016C10 Initial Configurationby MML Commands
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 SET GTRANSPARA: TRANSCFGMODE=NEW;
 The transmission configuration model can be the new or old model, depending on the 
GTRANSPARA.TRANSCFGMODE parameter setting. When this parameter is set to 
OLD, the old transmission configuration model is used. When this parameter is set to 
NEW, the new transmission configuration model is used.
 In the new transmission model, the binding relationship between the transport layer and 
the device model is decoupled. That is, transmission parameters are no longer associated 
with physical boards or ports. When planning transmission configuration data in the new 
model, you do not need to pay attention to information about physical devices. 
 In the new model, an INTERFACE MO is added at the data link layer to isolate the upper 
layers from the physical layer. The new model simplifies operations in scenarios such as 
changing transmission boards and changing transmission ports. 
 In the new model, the IPv4 and IPv6 models are normalized, and the IPv4 and IPv6 
configuration objects above the IP layer are combined, which facilitates the extension of 
new transmission functions and reduces transmission configuration parameters. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 gNodeBs use the IP over ETH transmission mode. Transmission data can be configured 
only in endpoint mode. 
 When you configure a transmission link, set the endpoint parameters (gNodeB control- and 
user-plane hosts and peer S-GW/UPF/eNodeB/gNodeB). 
 The gNodeB automatically sets up the S1/X2/NG/Xn interface based on the endpoint 
information.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 gNodeBs use the IP over ETH transmission mode. Transmission data can be configured 
only in endpoint mode. 
 When you configure a transmission link, set the endpoint parameters (gNodeB control- and 
user-plane hosts and peer S-GW/UPF/eNodeB/gNodeB). 
 The gNodeB automatically sets up the S1/X2 or NG/Xn interface based on the endpoint 
information.
 PORTID indicates an Ethernet port.
 IPRSCGRP: This MO replaced RSCGRP in the new model.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 gNodeBs use the IP over ETH transmission mode. Transmission data can be configured 
only in endpoint mode. 
 When you configure a transmission link, set the endpoint parameters (gNodeB control- and 
user-plane hosts and peer S-GW/UPF/eNodeB/gNodeB). 
 The gNodeB automatically sets up the S1/X2 or NG/Xn interface based on the endpoint 
information.
 PORTID indicates an Ethernet port.
 IPRSCGRP: This MO replaced RSCGRP in the new model.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD ETHPORT: SN=7, SBT=BASE_BOARD, PN=1, PA=FIBER, SPEED=AUTO, 
DUPLEX=AUTO;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD DEVIP: SN=7, SBT=BASE_BOARD, PT=ETH, PN=0, IP="162.22.131.35", 
MASK="255.255.0.0";
 The IP addresses in one routing domain of different ports must be in different network 
segments. The IP addresses of one port can be in the same network segment.
 A maximum of 8 device IP addresses can be configured on an Ethernet port, a port that 
carries an Ethernet trunk, or Ethernet CI port. A maximum of 7 device IP addresses can be 
configured on a port that carries a PPP link or an MP group.
 Each loopback port supports a maximum of 2 device IP addresses.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD IPRT: RTIDX=2, SN=7, SBT=BASE_BOARD, DSTIP="183.100.50.10", 
DSTMASK="255.255.255.255", RTTYPE=NEXTHOP, NEXTHOP="162.22.0.1", 
MTUSWITCH=OFF;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 To plan VLANs, configure VLAN data, which involves the following three scenarios: 
 For interface-based VLAN configuration, run the ADD INTERFACE command with 
Interface Type set to VLAN so that an interface-based VLAN ID can be set. 
Associate the interface with a port at the physical layer or data link layer.
 If VLAN networking is planned as single VLAN, run the ADD VLANMAP command 
to add an entry of mapping from a next-hop IP address to a single VLAN. In this 
step, set VLAN Mode to SINGLEVLAN, set Set VLAN Priority to 
DISABLE(Disable) (recommended) to use the default mapping relationship or run 
the SET DSCPMAP command to set the mapping between DSCPs and VLAN 
priorities. If Set VLAN Priority is set to ENABLE(Enable), you need to set the 
VLAN Priority parameter.
 If VLAN networking is planned as subnet VLAN, run the ADD SUBNETVLAN
command to add subnet-based VLAN mapping. 
 If non-VLAN networking is required, run the ADD INTERFACE command with Interface 
Type set to NORMAL. Associate the interface with a port at the physical layer or data link 
layer.
 If logical IP addresses are planned for service packets, configure a normal interface whose 
Port Type is LOOPINT. Run the ADD LOOPBACK command to add a loopback interface. 
Run the ADD INTERFACE command with Interface Type set to NORMAL(Normal), Port 
Type set to LOOPINT(Loopback Interface), and IPv6 Switch set to DISABLE(Disable).
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD ETHPORT: SN=7, SBT=BASE_BOARD, PN=1, PORTID=1, PA=FIBER, 
SPEED=AUTO, DUPLEX=AUTO; 
 Port Attribute: indicates whether the Ethernet port is an electrical port or optical port. 
When the system is started, the system binds the Ethernet port with an optical port first if 
the default port attribute is set to AUTO.
 Speed: indicates the rate mode of an Ethernet port. The rate mode of an Ethernet port 
must be consistent with that of its interconnected port.
 PORTID: indicates the ID of an Ethernet port, which uniquely identifies the Ethernet port. 
When the system automatically creates an Ethernet port, the most significant bit to the 
least significant bit of this parameter value indicate the cabinet number, subrack number, 
slot number, and port number of the Ethernet port, respectively. When Transmission 
Configuration Mode in the GTRANSPARA MO is set to OLD, this parameter is optional. 
If this parameter is not set, the default value 4294967295 is used. When Transmission 
Configuration Mode in the GTRANSPARA MO is set to NEW, this parameter is 
mandatory and must be unique in the system. If the ETHPORT MO is not configured, the 
default value 4294967295 of PORTID is displayed.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD INTERFACE: ITFID=0, ITFTYPE=VLAN, PT=ETH, PORTID=1, VLANID=3501;
 The IP addresses in one routing domain of differentports must be in different network 
segments. The IP addresses of one port can be in the same network segment.
 A maximum of 8 device IP addresses can be configured on an Ethernet port, a port that 
carries an Ethernet trunk, or Ethernet CI port. A maximum of 7 device IP addresses can be 
configured on a port that carries a PPP link or an MP group. 
 Each loopback port supports a maximum of 2 device IP addresses.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD IPADDR4: ITFID=0, IP="162.22.131.35", MASK="255.255.0.0";
 The IPv4 addresses in one routing domain of different ports must be in different network 
segments. The IPv4 addresses of one port can be in the same network segment.
 During the configuration of an IPv4 address, if an error message indicating an IP address 
conflict is displayed, search the existing IP address that may conflict with the IP address to 
be configured by running the following commands: LST IPADDR4, DSP IPADDR4, LST 
OMCH, DSP OMCH, LST LOCALIP, DSP LOCALIP, LST IPROUTE4, DSP IPROUTE4, 
LST SRCIPROUTE4, and DSP SRCIPROUTE4. Then, resolve the IP address conflict. 
The conflicting IP address may be an IPv4 address, local IP address of an O&M channel, 
IP address for local maintenance, next-hop IP address of a route, or next-hop IP address 
of a source IP route.
 A maximum of 8 IPv4 addresses can be configured on an Ethernet port, a port that carries 
an Ethernet trunk, or a subinterface. Each loopback port supports a maximum of 2 IPv4 
addresses.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD IPROUTE4: RTIDX=3, DSTIP="183.1.50.1", DSTMASK="255.255.255.255", 
RTTYPE=NEXTHOP, NEXTHOP="162.22.0.1", MTUSWITCH=OFF; 
 Routes that have the same destination IP address and subnet mask but different priorities 
in a routing domain are active/standby routes.
 In the same routing domain, the route to be bound to a remote maintenance channel must 
be on a different network segment from any other route that is not bound to any remote 
maintenance channel.
 In the same routing area, two routes that have the same destination network segment and 
are not bound to any remote maintenance channel should have different priorities.
 In the same routing domain, two routes to the same destination IP address with the same 
subnet mask and not bound to the remote maintenance channel must be configured on the 
same board, and it is recommended that the priorities of the two routes be different.
 In the same routing domain, if a route is not bound to a remote maintenance channel, it is 
not recommended that the destination IP address and subnet mask of the route be the 
same as the destination IP address and subnet mask of the route bound to the remote 
maintenance channel. If they are the same and the route is not on the same board as the 
route bound to the currently used remote maintenance channel, the system disables the 
route.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 Tag Protocol Identifier (TPID) contains 2 bytes, with a fixed value of 0x8100. As a new 
type defined by IEEE, it indicates a frame carrying a 802.1Q tag.
 Tag Control Information (TCI) contains 2 bytes. The details of frame control information are 
as follows:
 Priority: 3 bits, indicating the priority of the Ethernet frame. Eight priorities (0-7) are used 
to provide differentiated forwarding services.
 Canonical Format Indicator (CFI): 1 bit, indicating the bit sequence of address 
information in the token ring/source route FDDI medium access, that is, whether a low 
bit or a high bit is transmitted first.
 VLAN ID: 12 bits, value range: 0-4095. Based on the VLAN configuration of the switch 
port, the forwarding of Ethernet frames can be controlled.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 The VLAM group mode is not recommended. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
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• ADD VLANMAP: NEXTHOPIP=“162.22.0.1", MASK="255.255.0.0", 
VLANMODE=SINGLEVLAN, VLANID=1, SETPRIO=DISABLE;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 SET DSCPMAP: VRFIDX=0, DSCP=14, VLANPRIO=0;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
 Only the gNodeBFunction supports the X2-C interface.
 The gNodeBFunction MO contains the gNBCUX2 MO, which is used to configure the X2 
interface. The gNBCUX2 MO references the EPGROUP MO. The EPGROUP MO consists 
of the USERPLANEHOST (user-plane host configuration), SCTPHOST (SCTP host 
configuration), and optional SCTPPEER (peer SCTP configuration) and 
USERPLANEPEER (peer user-plane configuration).
 The gNodeBFunction MO contains the gNBX2SonConfig MO, which is used to configure 
X2 self-setup. When X2 self-configuration is enabled, the peer SCTP information does not 
need to be configured. The system uses the MAE-Access to implement X2 self-
configuration.
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 The gNodeBFunction supports the S1-U interface but does not support the S1-C 
interface (LTE).
 The gNodeBFunction MO contains the gNBCUS1 MO, which is used to configure the S1 
interface. The gNBCUS1 MO references the EPGROUP MO. The EPGROUP MO 
consists of the USERPLANEHOST MO and USERPLANEPEER MO (optional).
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 The gNBCUXn MO is used to configure the Xn interface. The gNBCUXn MO references 
the EPGROUP MO. The EPGROUP MO consists of the USERPLANEHOST MO, 
SCTPHOST MO, SCTPPEER MO (optional), and USERPLANEPEER MO (optional).
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 The gNBCUNG MO is used to configure the NG interface. The gNBCUNG MO references 
the EPGROUP MO. The EPGROUP MO consists of the USERPLANEHOST MO, 
SCTPHOST MO, SCTPPEER MO (optional), and USERPLANEPEER MO (optional).
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
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gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD EPGROUP: EPGROUPID=1, IPPMSWITCH=DISABLE;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD SCTPTEMPLATE: SCTPTEMPLATEID=0, SWITCHBACKFLAG=ENABLE;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD SCTPHOST: SCTPHOSTID=0, IPVERSION=IPv4, SIGIP1V4="162.22.131.35", 
SIGIP1SECSWITCH=DISABLE, SIGIP2V4="0.0.0.0", SIGIP2SECSWITCH=DISABLE, 
PN=36412, SIMPLEMODESWITCH=SIMPLE_MODE_OFF, SCTPTEMPLATEID=0;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD SCTPPEER: SCTPPEERID=0, IPVERSION=IPv4, SIGIP1V4="10.20.20.50", 
SIGIP1SECSWITCH=DISABLE, SIGIP2V4="0.0.0.0", SIGIP2SECSWITCH=DISABLE, 
PN=36412, SIMPLEMODESWITCH=SIMPLE_MODE_OFF;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD USERPLANEHOST: UPHOSTID=3, IPVERSION=IPv4, LOCIPV4="162.22.131.35", 
IPSECSWITCH=DISABLE;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD USERPLANEPEER: UPPEERID=0, IPVERSION=IPv4, PEERIPV4="10.20.20.52", 
IPSECSWITCH=DISABLE;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD SCTPHOST2EPGRP: EPGROUPID=0, SCTPHOSTID=0; 
 ADD SCTPPEER2EPGRP: EPGROUPID=0, SCTPPEERID=1; 
 ADD UPHOST2EPGRP: EPGROUPID=0, UPHOSTID=0; 
 ADD UPPEER2EPGRP: EPGROUPID=0, UPPEERID=1;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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ADD GNBCUS1: gNBCuS1Id=1, UpEpGroupId=0;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD GNBCUX2: gNBCuX2Id=0, CpEpGroupId=1, UpEpGroupId=1;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD GNBCUXN: gNBCuXnId=1, CpEpGroupId=1, UpEpGroupId=1;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD GNBCUNG: gNBCuNgId=1, CpEpGroupId=1, UpEpGroupId=0;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
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 ADD OMCH: IP="162.22.131.35", MASK="255.255.0.0", PEERIP="10.160.201.175", 
PEERMASK="255.255.255.0", BEAR=IPV4, BRT=NO, CHECKTYPE=NONE;
 Local IP: indicates the local IP address of the remote OM channel. In the old model for 
IPv4 transmission, this IP address must be added by running the ADD DEVIP command. 
In the new model for IPv4 transmission, this IP address must be added by running the 
ADD IPADDR4 command. In the new model for IPv6 transmission, this IP address must 
be added by running the ADD IPADDR6 command.
 If the peer and local IP address of the OM channel are on different network segments, a 
route must be bound to the channel. In the old model for IPv4 transmission, a route can be 
added by running the ADD IPRT command. In the new model for IPv4 transmission, a 
route can be added by running the ADD IPROUTE4 command. In the new model for IPv6 
transmission, a route can be added by running the ADD IPROUTE6 command.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 In the overlapping coverage scenario, a cell consists of one sector, and the coverage of 
the cell is the same as that of the sector.
 In the separate coverage scenario, multiple sectors are planned in the same cell to form a 
multi-sector cell to reduce handovers between cells. Common multi-sector cells include 
two-RU-combined cells and digital combination cells.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 The SectorEqm MO defines a group of antenna channels in a sector and their working 
mode. The supported working modes include RX, TX, and TX/RX (also indicates whether 
an antenna channel is used as an active/standby TX channel). A sector can have multiple 
sets of sector equipment.
 The EUCellSectorEqm MO defines the sector equipment used by a cell and the dedicated 
capability of the cell on each sector equipment. A set of sector equipment can provide 
different services for one or more cells. You can specify different maximum transmit power 
for different cells on one set of sector equipment.
 An NRDUCell MO defines information such as the NR DU cell ID and RF information. It is 
configured by network planning engineers based on site requirements.
 An NRDUCellTrp MO defines the basic TRP information such as information of baseband 
equipment and RF equipment. It is configured by network planning engineers based on 
site requirements.
 An NRDUCellCoverage MO defines basic RF equipment information. It is configured by 
network planning engineers based on site requirements.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD BASEBANDEQM: BASEBANDEQMID=0, BASEBANDEQMTYPE=ULDL, 
UMTSDEMMODE=NULL, SN1=0;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD SECTOR: SECTORID=1, ANTNUM=0, CREATESECTOREQM=FALSE; 
 The number of antennas corresponding to an AAU is fixed to 0.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD SECTOREQM: SECTOREQMID=0, SECTORID=1, ANTCFGMODE=BEAM, 
RRUCN=0, RRUSRN=61, RRUSN=0, BEAMSHAPE=SEC_120DEG, 
BEAMLAYERSPLIT=None, BEAMAZIMUTHOFFSET=None; 
 If Create Default Sector Equipment in the ADD SECTOR command is set to FALSE, run 
the ADD SECTOREQM command to add a set of sector equipment and the antenna 
corresponding to the sector equipment.
 If massive MIMO is enabled, Antenna Config Mode must be set to BEAM. For details, 
see the corresponding guide.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD NRDUCELL: NrDuCellId=7, NrDuCellName="7", DuplexMode=CELL_TDD, CellId=7, 
PhysicalCellId=0, FrequencyBand=N78, DlNarfcn=633332, 
UlBandwidth=CELL_BW_100M, DlBandwidth=CELL_BW_100M, 
SlotAssignment=4_1_DDDSU, SlotStructure=SS2, TrackingAreaId=0, 
SsbDescMethod=SSB_DESC_TYPE_NARFCN, SsbFreqPos=633320, 
LogicalRootSequenceIndex=0;
 The number of ports for transmitting reference signals in a cell cannot be larger than the 
number of physical antennas.
 If massive MIMO is enabled, the TX/RX mode of the cell can be set to 64T64R. For details, 
see the corresponding guide. 
 Logical Root Sequence Index: indicates the index of the start logical root sequence used 
to generate the cell preamble sequence. Each logical root sequence maps one physical 
root sequence. For details, see 3GPP TS 38.211.
 An SSB absolute frequency and global synchronization channel number should be added 
during the addition of a cell.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD NRDUCELL: NrDuCellId=7, NrDuCellName="7", DuplexMode=CELL_FDD, CellId=7, 
PhysicalCellId=0, FrequencyBand=N3, DlNarfcn=370000, UlBandwidth=CELL_BW_20M, 
DlBandwidth=CELL_BW_20M, TrackingAreaId=0, SsbFreqPos=4625, 
LogicalRootSequenceIndex=0;
 The SSB frequency-domain position is specified by the NRDUCell.SsbFreqPos
parameter. The NRDUCell.SsbDescMethod parameterspecifies how an SSB frequency-
domain position is described:
 If NRDUCell.SsbDescMethod is set to SSB_DESC_TYPE_NARFCN, 
NRDUCell.SsbFreqPos indicates the NARFCN corresponding to the SSB center 
frequency. 
 If NRDUCell.SsbDescMethod is set to SSB_DESC_TYPE_GSCN, 
NRDUCell.SsbFreqPos indicates the GSCN corresponding to the SSB center 
frequency.
 In SA or hybrid SA and NSA networking, set the NRDUCell.SsbDescMethod parameter 
to SSB_DESC_TYPE_GSCN. In NSA networking, set the NRDUCell.SsbDescMethod
parameter to SSB_DESC_TYPE_GSCN or SSB_DESC_TYPE_NARFCN. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD NRDUCELLTRP: NrDuCellTrpId=7, NrDuCellId=7, TxRxMode=64T64R, 
BasebandEqmId=255, MaxTransmitPower=300, 
CpriCompression=3DOT2_COMPRESSION;
 The number of ports for transmitting reference signals in a cell cannot be larger than the 
number of physical antennas.
 If massive MIMO is enabled, Transmit and Receive Mode of the cell can be set to 
64T64R. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD NRDUCELLTRP: NrDuCellTrpId=7, NrDuCellId=7, TxRxMode=4T4R, 
BasebandEqmId=255, PowerConfigMode=TRANSMIT_POWER, MaxTransmitPower=400, 
CpriCompression=2_COMPRESSION, FrAndDuplexMode=FDD;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD NRDUCELLCOVERAGE: NrDuCellTrpId=7, NrDuCellCoverageId=0, SectorEqmId=0;
 Use this command to add an NR DU cell coverage item.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD NRCELL: NrCellId=7, CellName="dingbiao", CellId=7, FrequencyBand=N77, 
DuplexMode=CELL_TDD;
 The number of ports for transmitting reference signals in a cell cannot be larger than the 
number of physical antennas.
 If massive MIMO is enabled, Transmit and Receive Mode of the cell can be set to 
64T64R. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ΔFGlobal: Granularity of the global frequency raster
 FREF: RF reference frequency
 NREF: NR-ARFCN (NR Absolute Radio Frequency Channel Number)
 NREF-Offs and FREF-Offs are provided in the table.
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD NRDUCELL: NrDuCellId=7, NrDuCellName="7", DuplexMode=CELL_TDD, CellId=7, 
PhysicalCellId=0, FrequencyBand=N78, UlNarfcnConfigInd=NOT_CONFIG, 
DlNarfcn=633332, UlBandwidth=CELL_BW_100M, DlBandwidth=CELL_BW_100M, 
SlotAssignment=4_1_DDDSU, SlotStructure=SS2, TrackingAreaId=0, 
SsbDescMethod=SSB_DESC_TYPE_NARFCN, SsbFreqPos=633320, 
LogicalRootSequenceIndex=0;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 24250–100000 MHz: high frequency range
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
• (2125.5-2110)x10+1950=2105
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
Neighboring CellNeighboring Cell
LTE N CellLTE N Cell
EUTRANINTRA
FREQNCELL
EUTRANINTRA
FREQNCELL
EUTRANINTER
FREQNCELL
EUTRANINTER
FREQNCELL
Inter System N 
cell
Inter System N 
cell
CDMA2000HRP
DNCELL
CDMA2000HRP
DNCELL
UTRANNCELLUTRANNCELL
GERANNCELLGERANNCELL
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD NREXTERNALNCELL: Mcc="262", Mnc="05", gNBId=968842, CellId=9, 
PhysicalCellId=9, SsbDescMethod=SSB_DESC_TYPE_NARFCN, SsbFreqPos=633320, 
Tac=33;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD NRCELLRELATION: NrCellId=0, Mcc="450", Mnc="06", gNBId=31180, CellId=7;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD NRNFREQ: LocalCellId=0, DlArfcn=633320, UlArfcnConfigInd=NOT_CFG, 
SsbOffset=0, SsbPeriod=20MS, SubcarrierSpacing=30KHZ;
 ADD NRMFBIFREQ: DlArfcn=633320, FrequencyBand=N78;
 Configure the frequency band for a neighboring NR frequency whose NR-ARFCN falls 
within the following ranges: 158200-160600, 285400-303400, 386000-398000, 402000-
404000, 422000-434000, 514000-537999, 620000-653333, and 2054166-2084999
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD NREXTERNALCELL: Mcc="262", Mnc="05", GnodebId=1, CellId=7, DlArfcn=633320, 
UlArfcnConfigInd=NOT_CFG, PhyCellId=1, Tac=1;
 ADD NRNRELATIONSHIP: LocalCellId=0, Mcc="262", Mnc="05", GnodebId=1, CellId=7;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD PCCFREQCFG: PccDlEarfcn=1500;
 ADD NRSCGFREQCONFIG: PccDlEarfcn=1500, ScgDlArfcn=633320, 
ScgDlArfcnPriority=6, NsaDcB1ThldRsrp=-105, NrB1TimeToTrigger=40MS;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 MOD NSADCMGMTCONFIG: LocalCellId=0, 
NsaDcAlgoSwitch=NSA_DC_CAPABILITY_SWITCH-1;
 MOD CELLQCIPARA: LocalCellId=0, Qci=9, 
NsaDcDefaultBearerMode=SCG_SPLIT_BEARER;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 MOD GNBPDCPPARAMGROUP: PdcpParamGroupId=1, 
DlDataPdcpSplitMode=SCG_AND_MCG;
 MOD GNBPDCPPARAMGROUP: PdcpParamGroupId=1, UlDataSplitPrimaryPath=SCG, 
UlDataSplitThreshold=BYTE1600, DlPdcpSnSize=BITS18;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 MOD NRCELLALGOSWITCH: NrCellId=7, NsaDcSwitch=ON;
 MOD NRCELLQCIBEARER: NrCellId=7, Qci=9, AmPdcpParamGroupId=1, RlcMode=AM;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD RRUCHAIN: RCN=0, TT=CHAIN, BM=COLD, AT=LOCALPORT, HSRN=0, HSN=2, 
HPN=2, CR=AUTO, USERDEFRATENEGOSW=OFF;
 ADD RRU: CN=0, SRN=60, SN=0, TP=TRUNK, RCN=0, PS=0, RT=MRRU, RS=LN, 
RN="5G06_60", RXNUM=4, TXNUM=4, MNTMODE=NORMAL, 
RFDCPWROFFALMDETECTSW=OFF, RFTXSIGNDETECTSW=OFF;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD SECTOR: SECTORID=1, SECNAME="Sector_0", USERLABEL="for cell", 
ANTNUM=4, ANT1CN=0, ANT1SRN=60, ANT1SN=0, ANT1N=R0A,ANT2CN=0, 
ANT2SRN=60, ANT2SN=0, ANT2N=R0B, ANT3CN=0, ANT3SRN=60, ANT3SN=0, 
ANT3N=R0C, ANT4CN=0, ANT4SRN=60, ANT4SN=0, ANT4N=R0D, 
CREATESECTOREQM=FALSE;
 ADD SECTOREQM: SECTOREQMID=1, SECTORID=1, 
ANTCFGMODE=ANTENNAPORT, ANTNUM=4, ANT1CN=0, ANT1SRN=60, ANT1SN=0, 
ANT1N=R0A, ANTTYPE1=RX_MODE, ANT2CN=0, ANT2SRN=60, ANT2SN=0, 
ANT2N=R0B, ANTTYPE2=RX_MODE, ANT3CN=0, ANT3SRN=60, ANT3SN=0, 
ANT3N=R0C, ANTTYPE3=RX_MODE, ANT4CN=0, ANT4SRN=60, ANT4SN=0, 
ANT4N=R0D, ANTTYPE4=RX_MODE;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD NRDUCELL: NrDuCellId=1, NrDuCellName="1", DuplexMode=CELL_SUL, 
FrequencyBand=N80, UlNarfcn=344500, UlBandwidth=CELL_BW_15M, 
SubcarrierSpacing=15KHz, LogicalRootSequenceIndex=0;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD NRDUCELLTRP: NrDuCellTrpId=1, NrDuCellId=1, TxRxMode=4R, 
CpriCompression=NO_COMPRESSION;
 ADD NRDUCELLCOVERAGE: NrDuCellTrpId=1, NrDuCellCoverageId=1, 
SectorEqmId=1;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 ADD NRDUCELLSUL: NrDuCellId=0, SulNrDuCellId=1,RsrpThld=-110,SrsRsrpThld=-111;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 MOD NRDUCELLALGOSWITCH: NrDuCellId=0, UlDlDecouplingSwitch=ON;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 MOD NRDUCELLPRACH: NRDUCellId=0, RsrpThldForSsbSelection=29;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 MOD NRDUCELLSUL: NrDuCellId=0, SulNrDuCellId=1, 
UlDlDecouplingAlgoSwitch=SEC_HARMONIC_INTRF_AVOID_SW-
1&UL_CARR_SEL_FOR_UE_EXP_SW-1;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
 MOD RACHCFG: LocalCellId=0, PrachConfigIndexCfgInd=NOT_CFG;
 ADD NRSCGFREQCONFIG: PccDlEarfcn=1300, ScgDlArfcn=0, ScgDlArfcnPriority=7, 
NrFrequencyBand=N80-1, NsaDcSulB1ThldRsrp=-115;
 MOD NSADCMGMTCONFIG: LocalCellId=0, NsaDcAlgoSwitch=TDM_SWITCH-1;
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands
Copyright © Huawei Technologies Co., Ltd. All rights reserved. 
gNodeB NR V100R016C10 Initial Configuration by MML Commands