1 MSOFTX3000(ATCA) Hardware System
Transcript of 1 MSOFTX3000(ATCA) Hardware System
MSOFTX3000(MSOFTX3000(A) Hardware SyA) Hardware Sy
Copyright © 2009 Huawei Technologies Co., Ltd. All rights r
(ATC(ATCystemystem
www.huawei.com
reserved.
ObjectivesObjectivesUpon completion of this course
Describe MSOFTX3000 hardwDescribe MSOFTX3000 hardw
Understand MSOFTX3000 bo
Remember system logical stru
, you will be able to:
ware structureware structure
oard functions
ucture and internal connection
ReferencesReferencesMSOFTX3000 Hardware Des
MSOFTX3000 Hardware InstaMSOFTX3000 Hardware Insta
MSOFTX3000 System Princip
scription Manual
allation Manualallation Manual
ple Manual
ContentsContents1. MSOFTX3000 Cabinet
2 MSOFTX3000 Boards2. MSOFTX3000 Boards
3. MSOFTX3000 Peripherals a
4. MSOFTX3000 Connection a
nd Other Components
nd Cables
N68E-22 CabinetN68E 22 Cabinet
Hardware ComponenCabinet
1 Cabinet1. Cabinet
2. Power distribution box (PDB)
3. Subrack 13. Subrack 1
4. Fan box
5. Master Rack Monitoring Unit g(MRMU)
6. LAN Switch
7. Cabling trough
8. KVMS
9. Subrack 0
10. Filler panel
11. Subrack 2
12. Subrack 3
nts of MSOFTX3000
Subrack
1 Sl t f th UPB d SWU1. Slots for the UPBs and SWUs2. Fan frame 23. Fan frame 14. Air intake vent5. Slots for the SMMs
1. Grounding points2 Air exhaust vent2. Air exhaust vent3. Slots for the USIAs and SWIs4, 5. Power entry module (PEM)6. Slots for the SDMs
Subrack Internal CSubrack Internal C
Boards
Fan Frame
Power entry module (PEM)
70mm
280mm
8U
omponentsomponents
Cabinet Internal CoCabinet Internal CoPower Distribution Box
LAN Switch
MRMUMRMU
KVMS
Cabling Through
omponentsomponents
QuestionsQuestionsWhat is the type of MSOFTX3
For full configuration, how ma
to be equipped?
3000 cabinet?
any cabinets and subracks need
ContentsContents1. MSOFTX3000 Cabinet
2 MSOFTX3000 Boards2. MSOFTX3000 Boards
3. MSOFTX3000 Peripherals a
4. MSOFTX3000 Connection a
nd other Components
nd Cables
General Hardware LogGeneral Hardware Log
Equipment managemEquipment managemsubsystem
Switch subsystem
SWU/SWI SMM/SD
SMM/SDMSWU/SWI
Back Plane
TI TI TI
UPB
/USI
/E
UPB
/USI
/E
UPB
/USI
/E
Processor subsystem
gical Structuregical Structure
entent
DM
Electromechanical subsystem
FAN PEM
PEMFAN PEM
IPMB
BaseTI TI TI
Fabric
TDMUPB
/USI
/E
UPB
/USI
/E
UPB
/USI
/E
Board ClassificationInstallation Positions
1 USI: Universal Service Interface1 USI: Universal Service Interface3 UPB: Universal Process Blade5 Front boards, 6 Backplane, 7 B5 Front boards, 6 Backplane, 7 BSMM: Shelf Management Module
n Based on s
e 2 SWI: Switch Interface Unite 2 SWI: Switch Interface Unit 4 SWU: Switch Unit
Back boardsBack boardse SDM: Subrack Data Module
Configuration CaseConfiguration Case
0 1 2 3 4 5 6 7 8 9 10 11
BACK
12 13SWIA1
SWIA1
USIA1
USIA1
USIA7
USIA7
USIA1
USIA1K
FRON
UPBA
SWUA
1 11
UPBA
1UPBA
UPBA
UPBA
UPBA
UPBA
UPBA
UPBA
UPBA
UPBA
UPBA
SWUA
7 7 1 1
NT
A0
A1
A0
A0
A0
A1
A1
A1
A1
A0
A0
A0
A0
A1
C fi ti i 0# fConfiguration case in 0# frame
e-IP Networkinge-IP Networking
0 1 2 3 4 5 6 7 8 9 10 11
BACK
12 13SWIA0
SWIA0
USIA1
USIA1
USIA1
USIA1
USIA1
USIA1K
FRON
UPBA
SWUA
0 01
UPBA
1UPBA
UPBA
UPBA
UPBA
UPBA
UPBA
UPBA
UPBA
UPBA
UPBA
SWUA
1 1 1 1
NT
A0
A0
A0
A0
A0
A1
A1
A1
A1
A0
A0
A0
A0
A0
C fi ti i 1# fConfiguration case in 1# frame
System InterconneSystem Interconne
UP
UP
SW
SW
UP
UP
OM
OM
UP
UP
UP
UP
IG
IG P
BPB
SMM
WU
WU
PB
PB
MU
MU
PB
PB
PB
PB
GWB
GWBSMM
0#
SWU
SWU
UPB
UPB
UPB
IGWB
IGWB
UPB
UPB
UPB
UPB
UPB
UPB
UPB
1#
U U
SMM SMM
S S U UU IG
IGUU U U U
To the b
To the b
UPB
UPB
SMM
SWU
SWU
UPB
UPB
UPB
GWB
GWB
UPB
UPB
UPB
UPB
UPB
SMM
2#
Host
ectionectionTo the NTP ServerTo the NTP Server
To the IP Backbone network
To the billing centerTo the billing Center
To the network management center
LANSWITCH
To the IP Backbone network
management center
HUB
To the billing CentergTo the billing Center
LMTLMT LMTbilling Center
billing Center
Classification of BoaClassification of BoaBased on their functions, theinto the UPB, USI, SWU, SW
Board Type
UPB UPBA0,UPBA1It can proapplicatio
USI USIA1,USIA7It providethe UPB The SWU
SWU SWUA0
The SWUinformatiand Fabr
SWI SWIA1 the interf
SMM SMM managemSMM SMM managem
SDM SDMIt recordsperformaSDM SDM performa
ardsardse boards can be classified WI, SMM, and SDM.
Functionocess data services through the service on software installed. es interfaces for communication between and the external devices
U provides internal and externalU provides internal and external on exchange functions through the Base ric planesface board of the SWU
ment module of a subrackment module of a subracks the subrack information and system ance parametersance parameters
Common Indicators
Indicators Meaning ColorIndicators Meaning Color
OOS Service status amberOff: worksprogress.On or blin
HEALTHYHealthy status
indicatorRed or green
Off: not ptimes durSteady grBlinking r
SYSTEM/Customized indicator
Customized indicator red, green,
yellowThe meancustomiza
HOTSWAPHot-swap indicator Blue
Off: activaOn: not pFast blinkSlow blink
Minor, major,
!: MinorOff: No m!!: Major
Alarm indicator and critical alarm
indicators
Red!!: MajorOff: No m!!!: CriticaOff: No croccur.
Introduction
Description Normal St tDescription Status
s normally and the services are in
nking: out of service.Off
gowered on. (The indicator blinks 10
ring power-on.)reen: works normally. Green On
red: An alarm occurs
ning of the indicator is subject to ation.
ated.owered on or is deactivated.
k: The board is being activated. Off
k: The board is being deactivated.
minor alarms; on: minor alarms occur.
major alarms; on:major alarms occur. alritical alarms; on:critical alarms
Off
ContentsContents2. MSOFTX3000 Boards
2 1 Processor Subsystem Boa2.1 Processor Subsystem Boa
2.2 Switching Subsystem Board
2.3 Equipment Management Su
2 4 Subrack Boards Configuratio2.4 Subrack Boards Configuratio
ardard
bsystem Board
on Exampleson Examples
UPBAUPBA
The ni ersal process blade (UThe universal process blade (U
service processing unit of the s
processes data services throug
service application software insservice application software ins
1. Captive screw 2. Hard disk 1Capt e sc e a d d s3. Hard disk 0 4. USB port5. COM serial port 6.HOTSWAP ind7. HD0_RAID/ALM indicator 8. HD0_ACT indi9 HD1 RAID/ALM indicator 10 HD1 ACT ind9. HD1_RAID/ALM indicator 10.HD1_ACT ind11.SYSTEM indicator 12.HEALTHY ind13. OOS indicator 14.Ejector lever
UPBA) is theUPBA) is the
subrack. It
gh the
stalled on itstalled on it.
icatoricatordicatordicatordicator
UPBAs with DifferentUPBAs with Different
UPBA0CPU Memory H
UPBA0 2 6*4G NUPBA1 2 2*4G 2*
ConfigurationsConfigurations
UPBA1HD Sub-board (Flash)one 4 GB Flash73G None
USIAUSIAThe USIA (universal service inThe USIA (universal service inmust be used with the UPBA, ainstalled with different subboarinstalled with different subboardifferent interfaces (FC interfacEth t i t f Ult 320/1Ethernet interfaces, Ultra 320/1interfaces, Standard VGA port,the UPBA to communicate withdevices.
1.Captive screw 2. Shielding
3. Ejector lever 4. OOS ind
5. HEALTHY indicator 6. Cover
7. HOTSWAP indicator 8. Monitor p
9. USB portp
terface unit )terface unit ) and can be rds to providerds to provide ces, Gigabit 160 SCSI160 SCSI ,USB port) for h external
g finger
icator
port
USIA SubboardUSIA Subboard
ETIAETIA
The ETIA (E1/T1 interface unit) provvarious interfaces for the UPBA to communicate with external devices. must be used with the UPBA.
The ETIA provides TDM and GE inteto implement the TDM service and signaling processing function.
vides
It
erfaces
ETIA0 ETIA2
ETIA SubboardETIA Subboard
ContentsContents2. MSOFTX3000 Boards
2 1 Processor Subsystem Board2.1 Processor Subsystem Board
2.2 Switching Subsystem Boa
2.3 Equipment Management Su
2 4 Subrack Boards Configuratio2.4 Subrack Boards Configuratio
dd
ard
bsystem Board
on Exampleson Examples
SWUSWU
SWU: Switching UnitFeatures:
The SWU implements dataThe SWU implements data switching among the boards in a subrack through the backplane and data switching among subracksdata switching among subracks through cascading interfaces provided by the SWIs. Dual Planes Switching: BaseDual Planes Switching: Base, Fabric, and TDM
1. Ejector lever 23. HEALTHY indicator 45 BMC COM serial port 65. BMC COM serial port 67. LAN0 port 89. LAN1 port
2. OOS indicator4. SYSTEM indicator6 SYS COM serial port6. SYS COM serial port8. HOTSWAP indicator
SWUSWU
SWU0
C l h MSOFTX3000 idCurrently, the MSOFTX3000 provides two types
The SWU0 provides switching functions only th
used for broadband networkingused for broadband networking.
Based on the SWU0, the SWU1 is added with T
clock distribution among subracks and TDM swg
1 GE Fabric Switch daughter Card
SWU1 2 TDM Switch daughterCard
f h SWU h i SWU0 d SWU1s of the SWU, that is, SWU0 and SWU1.
rough the Base plane and GE Fabric plane. It is
TDM switching functions. It can implement the
itching. It is used for narrowband networking.g g
SWUSWUExternal ports
P F i D iPort Function Descript
5. BMC COM serial port
Used for locally updating or loading Comm
Port tyserial port the BMC software Port ty
Used for local management,
6. SYS COM serial port
maintenance, and debugging of the Base and Fabric l
CommPort ty
planes
Used for loading 10/100Port ty
7. LAN0 port and internal debugging
Cable Two in
9. LAN1 port Used for maintenance
10/100Port tyCable
ition
munication standard: RS232ype: RJ-45ype: RJ-45
munication standard: RS232ype: RJ-45
0 Mbit/s Base-T auto-negotiationype: RJ-45type: UTP5
ndicators
0 Mbit/s Base-T auto-negotiationype: RJ-45type: UTP5yp
SWUSWUIndicators
2-OSS2 OSS
3-HEALTHY
4 SYSTEM4-SYSTEM
The SWUA0 supports hot swapping. Two e
l t d th d l t f thlocated on the upper and lower parts of the
ejector levers help you to insert, remove, se
and power off the SWUA0and power off the SWUA0
ejector levers are
f t l The front panel. The
ecure, power on,
SWISWISWI: Switch Interface Unit.
Interfaces:
Interface Descriptionp
1. Line clock input interface
One RJ45 interfaceProvides two 8k line cock input.
2. BASE/TDM interface
Eight Gigabit Ethernet interfaces10/100/1000 Mbit/s Base-T autoneTwo indicators
3. FABRIC interface
Eight Gigabit Ethernet interfaces10/100/1000 Mbit/s Base-T autoneTwo indicatorsO SMB i t f
1 Line clock input interface 2 BASE/TDM inte
4. BITS clock input interface
One SMB interfaceProvides 2-Mbps/2-MHz external c
1. Line clock input interface 2. BASE/TDM inte3. FABRIC interface 4. BITS clock input5. Ejector lever 6. HOTSWAP indic7 HEALTHY indicator 8 OSS indicator7. HEALTHY indicator 8. OSS indicator
egotiation;
egotiation;
rface
clock input.
SWIA1rfacet interfacecator
SWIA0 SWIA1
ContentsContents2. MSOFTX3000 Boards
2 1 Processor Subsystem Board2.1 Processor Subsystem Board
2.2 Switching Subsystem Board
2.3 Equipment Management S
2 4 Subrack Boards Configuratio2.4 Subrack Boards Configuratio
dd
Subsystem Board
on Exampleson Examples
SMMSMM
SMM position in a
The SMM is the management moThe SMM is the management mo
The SMM manages all the comp
a subrack
odule of a subrackodule of a subrack.
onents in a subrack.
SMMSMM
(1) (2) (3) (4)
COM
SMMDSHELF MANAGEMENT MODULE
(10) (9)
1: Minor alarm indicator 2: Major alarm indicato
5: ETH0 interface 6: HOTSWAP indicator9: Customized indicators 10: HEALTHY indicator
(5) (6)
ETH0
RST HSW
(8) (7)
r 3: Critical alarm indicator 4: COM serial port
r 7: Ejector lever 8: Reset buttonr
SMMThe front panel of the SMM has a remov
lever helps to insert, remove, fasten, pow
Status DescriptionB f th j t l i l d
lever helps to insert, remove, fasten, pow
Closed
Before the ejector lever is closedand the SMM is not powered on.
After the ejector lever is closed, tWh th HOTSWAP i di t iWhen the HOTSWAP indicator is o
Before the ejector lever is openedAfter the ejector lever is opened,
Openj p ,
changes to the slow blink state. Whon, the SMM is powered off. You caremove the SMM.remove the SMM.
vable ejector lever. The ejector
wer on, and power off the SMM.
th HOTSWAP i di t i
wer on, and power off the SMM.
, the HOTSWAP indicator is on
the HOTSWAP indicator is on. ff th SMM k lloff, the SMM works normally.d, the SMM works normally.the HOTSWAP indicator
hen the HOTSWAP indicator is an use the ejector lever to
SDM
SDM position in a subrack
1 2 3 4
COM2ETH
1: Ejector lever 2: HEALTHY indica4: COM2 5: COM1
65
COM1 FRAME ID
DIP ON
ator 3: ETH interface6: DIP switch
SDMSDM
The SDM is the data module of a subrack. The SMM obtains the slot information and subrack information from the SDM for managing the hardware.
Defining the subrack numberDefining the subrack number through the 8-bit DIP switch.
Recording the subrack informationRecording the subrack information.
Providing interfaces to input the it i i f ti f th PDBmonitoring information of the PDB.
ContentsContents2. MSOFTX3000 Boards
2 1 Processor Subsystem Board2.1 Processor Subsystem Board
2.2 Switching Subsystem Board
2.3 Equipment Management Su
2 4 Subrack Boards Configura2.4 Subrack Boards Configura
dd
bsystem Board
ation Examplesation Examples
Subrack Boards ConExamples
0 1 2 3 4 5 6 7 8 9 10 11 12 130 1 2 3 4 5 6 7 8 9 10 11
BACK
12 13SWIA1
SWIA1
USIA1
USIA1
USIA7
USIA7
USIA1
USIA1
FRON
UPBA0
SWUA
1 11
UPBA0
1UPBA0
UPBA0
UPBA1
UPBA1
UPBA1
UPBA1
UPBA0
UPBA0
UPBA0
UPBA0
SWUA
7 7 1 1
NT 0 10 0 0 1 1 1 1 0 0 0 01
IP Networking Subrack
nfiguration
0 1 2 3 4 5 6 7 8 9 10 11 12 130 1 2 3 4 5 6 7 8 9 10 11
BACK
12 13SWIA1
SWIA1
USIA1
USIA1
USIA7
USIA7
USIA1
USIA1
ETIA0
ETIA0
ETIA0
ETIA0
FRON
UPBA0
SWUA
1 11
UPBA0
1UPBA0
UPBA0
UPBA1
UPBA1
UPBA1
UPBA1
UPBA0
UPBA0
UPBA0
UPBA0
SWUA
7 7 1 10 0 0 0
TDM Networking Subrack
NT 0 10 0 0 1 1 1 1 0 0 0 01
Configuration Principg p
Th SMM SDM SWU d SWIThe SMM, SDM, SWU, and SWI are esseconfigured in active/standby mode.
The SMMs are permanently inserted in froThe SMMs are permanently inserted in froSDMs are permanently inserted in back s
The SWUs are permanently inserted in froThe SWUs are permanently inserted in froare permanently inserted in back slots 6 a
The OMUs are preferentially installed onThe OMUs are preferentially installed on
The UPBA0 serving as a service processan expansion subrack. The UPBA0 must p
Other UPBs and USIs can be inserted in subrack according to the delivery requirem
ples of Boards p
ti l b d i h b k Th t bential boards in each subrack. They must be
ont slots 14 and 15 in each subrack; theont slots 14 and 15 in each subrack; the slots 14 and 15 in each subrack.
ont slots 6 and 7 in each subrack; the SWIsont slots 6 and 7 in each subrack; the SWIs and 7 in each subrack.
the front boards in slots 4 and 5 of subrack 0.the front boards in slots 4 and 5 of subrack 0.
board can be installed in a basic subrack or be configured in active/standby mode. g y
any slot in a basic subrack or an expansion ments.
ContentsContents1. MSOFTX3000 Cabinet
2 MSOFTX3000 Boards2. MSOFTX3000 Boards
3. MSOFTX3000 Peripherals a
4. MSOFTX3000 Connection a
and other Components
nd Cables
PDBPDB
Supporting dual-input, dual 2-input, and dual 3-
input power supply (dual 3-input is used for theinput power supply (dual 3-input is used for the
MSOFTX3000)
Input voltage: -40 to -72 V DC; Maximum input
current: 100 A
Supporting the dual 10-output power supply, with
maximum current of 50 A for each output (not
more than 100 A for each zone)
Power SwitchesPower Switches
Cabi
Integconfon c
Serv
procp
g ca
inet Switch Component
grated (A7 and A8) / (B7 SUBRACK-1 figuratiabinet
and B8) (expansion subrack 1)
A2/B2 MRMU
A3 LANS-1
B3 LANS-0
A1 KVMS
(A9 and A10) / ( B9 and B10 )
SUBRACK-0 (basic subrack 0)( B9 and B10 ) (basic subrack 0)
vice
cessin
(A7 and A8 ) / ( B7 and B8)
SUBRACK-1 (expansion subrack 3)
binetsubrack 3)
(A9 and A10) / ( B9 and B10 )
SUBRACK-0 (expansion subrack 2)subrack 2)
Terminal EquipmentTerminal Equipment Th t i l i t i PCThe terminal equipment is a PC or workstation that is installed
ith th ti dwith the operation and maintenance client software.
The terminal equipment provides various functions such as device management, data configuration, host status query, and device maintenance.
CPU: P4 2.8 GHz or more Memory: 512 MB or moHard disk: 80 GB or more Ethernet AdapterHard disk: 80 GB or more Ethernet Adapter
Display window Keyboard, mouse, cd-ro
Universal Alarm BoxUniversal Alarm Box Th l b i d t iThe alarm box is used to receivaudio and visual alarms..
The universal alarm box is usuaequipment room.
l i f ti d t idve alarm information and to provide
ally installed on the wall of the
ContentsContents1. MSOFTX3000 Cabinet
2 MSOFTX3000 Boards2. MSOFTX3000 Boards
3. MSOFTX3000 Peripherals a
4. MSOFTX3000 Connection a
nd other Components
and Cables
System ConnectionSystem Connection
UP
UP
SW
SW
UP
UP
OM
OM
UP
UP
UP
UP
IG
IG P
BPB
SMM
WU
WU
PB
PB
MU
MU
PB
PB
PB
PB
GWB
GWBSMM
0#
SWU
SWU
UPB
UPB
UPB
IGWB
IGWB
UPB
UPB
UPB
UPB
UPB
UPB
UPB
1#
U U
SMM SMM
S S U UU IG
IGUU U U U
To the b
To the b
UPB
UPB
SMM
SWU
SWU
UPB
UPB
UPB
GWB
GWB
UPB
UPB
UPB
UPB
UPB
SMM
2#
Host
nnTo the NTP ServerTo the NTP Server
To the IP Backbone network
To the billing centerTo the billing Center
To the network management center
LANSWITCH
To the IP Backbone network
management center
HUB
To the billing CentergTo the billing Center
LMTLMT LMTbilling Center
billing Center
OMU Back Slot BoOMU Back Slot Bo
OMC/NTP
LIGLIG
oard Connectionoard Connection
iGWB Back Slot BConnection
To Billing Center
Board
Cascading ModegSWI01
SWI01
SWI01
SWI01
SWI01
SWI01
SWISWI0101
SWI0101 1
234567
1234567
1234567
1234567
1234567
1234567
1234567
1234567
1234567
1234567
01234567
01234567
01234567
01234567
01234567
01234567
01234567
01234567
01234567
01234567
0#
77
SWI0
SWI SW0
SWI
0#
77
SWI0
SWI SW0
SWI
0#
77
0#
7777
SWI0
SWI SWISWI00
SWI SW0
SWI SWSW00
SWI01234567
01234567
01234567
01234567
01234567
01234567
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01234567
01234567
01234567
01234567
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012345
7
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7
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7
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77
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77
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7
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7
012345
77
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012345
77
012345
012345
1#
67
67
2#
67
67
1#
67
67
2#
67
67
1#
67
67
1#
6767
6767
2#
67
67
2#
6767
6767
WIWIWIWIWI SWI0
SWI0
SWI0
SWI0
SWI0
SWI0
SWISWI00
SWI00 0
1234567
01234567
01234567
01234567
01234567
01234567
01234567
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01234567 7
012345
7
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7
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7
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7
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7
012345
77
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77
012345
012345
Base/TDM
Fabric#
67
67
#
67
67
#
67
67
#
6767
6767
Broadband SignalinBoard Back Slot Boa
IP Signaling Interface
g Processing ard Connection
To the IP Backbone network
PDB Monitor Serial CPDB Monitor Serial C
PDBPDB
SDMSDM
Cable ConnectionCable Connection
BB
SDMSDM
QuestionsQuestionsWhat kind of the interfaces
back slot board?
Which board will be used to
What kind of the interfaces
Usually which slot will be uUsually, which slot will be u
Processing Board?
s can be provided by OMU
o provide sync clock interface?
s?
used to configure IP Signalingused to configure IP Signaling
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