M6500 Series NE Configuration Manual Contents Preface ................................... 7 1. Preparation Before Configuration ..........................9 1.1. Configuration Process ............................ 9 1.2. Connect NMS System & NE ..........................9 1.3. Start Network Management Service ......................10 1.3.1. Start Server Program ......................... 10 2.
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M6500 Series NE Configuration Manual 2.10.1. Adjust NE Layout ..........................29 2.10.2. Create Link between NEs ......................... 30 2.10.3. Save Layout ............................31 3. DCN Configuration ..............................32 3.1. DCN Introduction ............................32 3.2. Configuration Steps ............................. 32 3.2.1. Direct Connection between PC and Device ..................32 3.2.2.
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M6500 Series NE Configuration Manual 4.5.2. WDM CFP Optical Transceiver Information ..................58 4.5.3. WDM CFP Optical Transceiver Configuration ................... 59 4.5.4. WDM CFP2 Optical Transceiver Information ..................60 4.5.5. WDM CFP2 Optical Transceiver Configuration ................. 60 5. Service Configuration .............................. 63 5.1.
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M6500 Series NE Configuration Manual 5.5. Configuration Example ..........................101 5.5.1. Configuration Example of Ring Network Service ................101 6. Overhead Configuration ............................105 6.1. Configuration Rules ........................... 105 6.1.1. SM, PM & TCMi Overhead Introduction ..................105 6.1.2. Overhead Configuration Rules ......................105 6.1.3.
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M6500 Series NE Configuration Manual 9.2.1.1. Introduction of Optical Power Monitoring Parameters ............149 9.2.1.2. View Optical Power Monitoring Information ..............149 9.2.1.3. Reset Optical Power Monitoring Data ................. 150 9.2.1.4. Optical Power Monitoring Data Shown As“-” ..............151 9.2.2. OCh Current Performance Statistics ....................152 9.2.2.1.
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M6500 Series NE Configuration Manual 9.3.2. OCh History Performance Statistics ....................169 9.3.2.1. OCh History Monitoring Parameters Introduction .............. 169 9.3.2.2. View OCh History Monitoring Information ................170 9.3.2.3. Export OCh History Monitoring Information ............... 171 9.3.3. FEC History Performance Statistics ....................172 9.3.3.1.
M6500 Series NE Configuration Manual Preface Overview Chapter Number Description Preface This chapter introduces contents, version information and explanation of special symbols. Chapter 1 Preparation Before This chapter describes the preparation work required before Configuration configuring network elements. Chapter 2 Create A Network This chapter introduces how to build a network environment.
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M6500 Series NE Configuration Manual Explanation of Special Symbols The following symbols may appear in this manual, which respectively represent the following meanings: Symbol Description Special attention should be paid to the content. If the operation is improper, it may cause serious injury to the person.
M6500 Series NE Configuration Manual 1. Preparation Before Configuration 1.1. Configuration Process When configuring M6500 devices on M Series NMS system, some rules and orders must be followed. If the whole project and its configuration are initially created, please refer to process in 1-1 to complete the operation.
M6500 Series NE Configuration Manual be directly connected to M6500 network element's management port through twisted pair cable or direct connection network cable. Figure 1-2 Connection Schematic Diagram of Network Management System and Network Elements Prerequisite The deployment of network cables between the NMS system and NE has been completed.
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M6500 Series NE Configuration Manual Figure 1-3 Start NMS Server...
M6500 Series NE Configuration Manual 2. Create Network Create network topology, that is, create corresponding network model of actual project according to the configuration of actual engineering (such as networking, single site configuration etc.), so as to realize the monitoring of devices.
M6500 Series NE Configuration Manual Figure2-1 Flow Chart of Create Network Topology 2.2. Login NMS Interface Prerequisite The installation of NMS system is completed, and NMS server has been started. Steps Open Google Chrome and type in the address bar the following network address:...
M6500 Series NE Configuration Manual Network management host: localhost:9090 Remote network management server: xxx.xxx.xxx.xxx:9090. Enter your user name and password to login. Default user name:root Default password:public Figure2-2 Login NMS System 2.3. Create Groups Steps to add a group: Click on“Global View”,...
M6500 Series NE Configuration Manual Steps to add a child group: Click on the created group; Click on“Group Configuration”on the right to continue adding a child group; module ; Enter the name of the child group in the“Add Group” Click on“Apply”to add a child group.
M6500 Series NE Configuration Manual Figure2-5 Add NE 2.4.2. Modify NE Steps: Click on the NE which has been added and select“Group Configuration”on the right; Modify the“Modify Group”module . : Only the display name of the network element can be modified here.
M6500 Series NE Configuration Manual Figure2-7 Delete NE 2.4.4. Add a Line-card Steps: Select an empty slot on the added network element; module ; Click on the empty slot; and select“Card Mode Configuration” Figure2-8 Add a line-card Select the card mode in the list;...
M6500 Series NE Configuration Manual Figure2-10 Add a line-card successfully 2.4.5. Delete a Line-card Prerequisite The line-card to be deleted has no single-board crossover or cross-board crossover services, otherwise it cannot be deleted. Steps: Click on the line-card and select“Delete Card”module on the right;...
M6500 Series NE Configuration Manual Users can only add line-card in the slots in available state. 2. Users can only delete line-card whose slot status is absent. 2.5. NE IP Address Management There are three types of NE IP address:...
M6500 Series NE Configuration Manual Figure2-13 Manage IP Configuration 2.5.2. NMS IP1 Configuration Steps: Click on the NE which has been added; Click on“MGMT IP Configuration”on the right. Input NMS IP1 address in the NMS IP1 (MGMT_Port1, 3, 4) box Click on“Apply”to save the configuration.
M6500 Series NE Configuration Manual Figure2-15 NMS IP2 Configuration 2.5.4. Local NMS IP (LCT IP) Configuration The default local NMS IP address is 192.168.126.1; The default Subnet Mask is 255.255.255.252. Figure2-16 Local NMS IP Configuration 2.5.5. Gateway Configuration Steps: Click on the NE which has been added;...
M6500 Series NE Configuration Manual Figure2-17 Gateway Configuration 2.6. Configure FTP Server In the following cases, you must configure the FTP server address: NE Software Upgrade NE Configuration Upload & Download NE Log Upload NMU/LC Card BSP Upgrade ...
M6500 Series NE Configuration Manual Figure2-18 FTP Server Configuration 2.7. SNMP Trap Configuration Steps: Click on the NE which has been added; Click on“Server Configuration”on the menu bar; Select“SNMP Trap Configuration”module Figure2-19 SNMP Trap Configuration Click on“Add”button to add SNMP Trap information. The default Trap Port is 16222. It is not recommended to modify it.
M6500 Series NE Configuration Manual Figure2-20 Add Trap Address The newly-added Trap name or Trap IP cannot be same as that of the trap which has been added, or the add operation will fail. 2.8. Configure NE Time 2.8.1. Configure NTP Server Click on the NE which has been added→Click...
M6500 Series NE Configuration Manual Click on“Apply”to save the configuration. Figure2-22 NTP Server Configuration 2.8.2. Configure NE Time Steps: Click on the NE which has been added; Click on“NE Configuration”on the right to enter the configuration interface; Figure2-23 NE Time Configuration...
M6500 Series NE Configuration Manual Apply Click on“ ”to save the configuration. Figure2-24 NE Time configuration 2.9. Configure NE Data Configure NE Data: Save NE Configuration: In the case of configuring the network element, in order to prevent the network element from abnormal restarting, the network element configuration is saved regularly.
M6500 Series NE Configuration Manual Figure2-25 Configuration Data Save 2.9.2. Upload NE Configuration Click on the NE which has been added→Click on“NE Configuration”on the right→Click on“Configuration Data Upload”. Figure2-26 Configuration Data Upload Input the name of the configuration file which needs to be uploaded, and click on “Upload”.
M6500 Series NE Configuration Manual Figure2-27 Input NE Configuration File Name The path to upload network element configuration is: the NMS installation directory → TFTP → config folder, as shown in the figure below: 2.9.3. Download NE Configuration Click on the NE which has been added→Click on“NE...
M6500 Series NE Configuration Manual Figure2-30 Default Configuration Data Restore 2.10. Create Fiber Optic 2.10.1. Adjust NE Layout Click on Global View, and click on NE or node in the global view and then drag it to the right place.
M6500 Series NE Configuration Manual Figure2-31 Adjust NE Layout 2.10.2. Create Link between NEs Click on“Connect”button in the global view. Figure2-32 Click“Connect”Button Input name, NE IP address, shelf number, slot number and port number in the pop-up, and then click on“Apply”.
M6500 Series NE Configuration Manual Figure2-33 Create Link between NEs 2.10.3. Save Layout Click on“Save”button in the global view. Figure2-35 Save Layout...
M6500 Series NE Configuration Manual 3. DCN Configuration 3.1. DCN Introduction DCN (Data Communication Network) controls remote NE through optical fiber and forms the in-band management channel of NE through GCC. OTN provides a dedicated communication channel (GCC0/1/2/1+2) which can realize in-band management.
M6500 Series NE Configuration Manual Configure routing on the NMS server Connect the occupied port through optical fiber Manage the device through the node IP 3.2.2. Forwarding through Router Open the GCC channel of the occupied port ...
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M6500 Series NE Configuration Manual Figure3-4 Enable OTU4/OCh (OTU4) Port Click on OTU2/OTU2e/OTU4/OCh (OTU4) or ODU2/ODU2e/ODU4 which is on the left of “Port Configuration” interface Figure3-5 Preparation before Enable GCC Channel of OTU2/ODU2...
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M6500 Series NE Configuration Manual Figure3-6 Preparation before Enable GCC Channel of OTU2e/ODU2e Figure3-7 Preparation before Enable GCC Channel of OTU4/ODU4 Then click on DCN in the lower to enter DCN configuration interface. Select GCC type (The GCC type of OTU...
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M6500 Series NE Configuration Manual Configure the node IP of the gateway NE and enable OSPF function: Select a NE as the gateway NE. After selecting the NE, click on“MGMT IP Configuration”and select“MGMT IP Configuration”module . Figure3-10 Select NE and Manage IP Configuration...
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M6500 Series NE Configuration Manual Configure node IP (The node IP cannot be in the same network segment with the out-band management port IP), and click on“Apply” after enabling OSPF function. Figure3-12 Configure Gateway NE IP The method to configure node IP of remote NE is the same as that to configure the node IP of gateway NE.
M6500 Series NE Configuration Manual Check the input route through route print command. Figure3-15 View Local Route Use optical fiber to connect occupied ports: Use optical fiber to connect the occupied ports of the two network elements, and to form fiber-optic channels.
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M6500 Series NE Configuration Manual Figure3-16 Enable Default Route Redistribution Function of the Gateway NE Add Configuration 2: Set the gateway of the remote NE as 0.0.0.0. Figure3-17 Modify Gateway...
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M6500 Series NE Configuration Manual Add Configuration 3: When there are many devices, you can configure the node IP of the remote NE to the same network segment. For example, if you set the node IP of the remote NE to 155 network segment, you can add only one route to the computer: route add 192.168.155.0 mask 255.255.0 192.168.155.1 (Here the network segment of 192.168.155.0...
M6500 Series NE Configuration Manual 4. NE & Board Configuration Prerequisite Network devices and lines are normal. Click on the desktop icon of “Run NMS Server” to open the NMS software. Click on the icon of “Start NMS Server”in the software interface to open the NMS server.
M6500 Series NE Configuration Manual Figure4-3 M6500-CH2U Shelf Information 4.1.2. M6500-CH5U The Shelf information interface of 5U device is as shown in the figure below: Figure 4-4 M6500-CH5U Shelf Information 4.2. LED Indicator Information The LED indicators on different series of network elements, ports, boards, systems are different. The following is...
M6500 Series NE Configuration Manual 4.2.1. NMU Board When M6500 series network element replaces NMU board, pay attention that the SD board files must be consistent with those on the replaced NMU board. If not, it may cause all the LED lights of the NMU board flashing, and the NMS system cannot be connected.
M6500 Series NE Configuration Manual Table4-3 LED Indicator Status of System Board Optical Management Port M6500-CH5U M6500-CH2U System Board Monochromatic Off: The port is disabled/ Off: The port is Green Light There is los alarm. disabled/There is los alarm. Optical Management...
M6500 Series NE Configuration Manual 4.2.4. Fan Tray LED Indicator Table4-6 Fan Tray LED Indicator Status M6500-CH5U M6500-CH2U Fan Tray LED Green Light On: The system Indicator NMU board starts to manage (Monochrome) the fan. Green Light Off: The system NMU board does not manage the fan.
M6500 Series NE Configuration Manual Power Tray PWR (Monochrome) Off: The power tray is not LED Indicator powered. Green Light On: Normal power supply. FAULT Off: There is not any alarm of Off: There is not any alarm of the power tray.
M6500 Series NE Configuration Manual Figure4-6 Board Information Interface 4.4. Port Configuration Select NE-Slot1 click on“Port1”, and then select“Port Management”on the right,as shown in the figure below: Figure4-7 View Port Configuration Information 4.4.1. Basic Information There are two port types: client side port and line side (system side) port.
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M6500 Series NE Configuration Manual Figure 4-8 Port Management Interface The client side port mode of M6500-TMXP2 board is different from that of other boards. When the port 2 is disabled, it is in unused status, as shown in the figure below: Figure4-9 M6500-TMXP2 Board Client Side Port Disabled Interface While enabling the port, firstly select the port mode and click on apply.
M6500 Series NE Configuration Manual Figure4-10 M6500-TMXP2 Client Side-Select Port Mode Select “Enable” in the management status bar to enable the port, as shown in the figure below: Figure4-11 Enable M6500-TMXP2 Client Side Port 4.4.1.1. Interface Configuration Select NE-Slot 1, click on“Port1” and select“Port...
M6500 Series NE Configuration Manual Figure4-12 Port Management-Interface Information 4.4.1.2. ODU2/ODU2e Configuration ODU2 Configuration Select NE-Slot 1,click on“Port1”and select “Port Management”on the right, the port management interface shows up (here we take ODU2 corresponding to XGE_GFPF port mode as an example). Click on ODU2 option from“Port...
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M6500 Series NE Configuration Manual Figure4-14 ODU2 Toolbar Management Interface ODU2e Configuration Select NE-Slot 1, click on“Port1” and select“Port Management”on the right, the port management interface shows up(here we take ODU2e corresponding to XGE_BMP port mode as an example) . Click on ODU2e option from“Port...
M6500 Series NE Configuration Manual Figure4-16 ODU2e Toolbar Management Interface 4.4.1.3. OTU2/OTU2e Configuration OTU2 Configuration Select NE-Slot 1, click on“Port1” and select“Port Management”on the right(here we take OTU2 corresponding to OTU2 port mode as an example), the port management interface pops up. Click on OTU2 option from“Port...
M6500 Series NE Configuration Manual Figure4-18 OTU2e Toolbar Interface 4.4.1.4. ODU4 Configuration Select NE-Slot 2, click on“Port1” and select“Port Management”on the right, the port management interface shows up (here we take ODU4 corresponding to HGE_GMP port mode as an example). Click on ODU4 option from“Port...
M6500 Series NE Configuration Manual Figure4-20 OTU4 Toolbar Interface 4.4.1.6. OTUC2 Configuration Select NE-Slot 2, click on“Port 1” and select“Port Management”on the right, the port management interface shows up (here we take OTUC2 corresponding to OCh (OTUC2) port mode as an example). Click on OTUC2 option from“Port...
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M6500 Series NE Configuration Manual Figure4-22 M6500-MXP10 Port Mode Figure4-23 M6500-TMXP2 Port Mode Figure4-24 M6500-TMXP5 Port Mode Table4-10 Parameter Description of OTN Board Board Interface Description...
M6500 Series NE Configuration Manual 1*100G line side interface (CFP) The client side signal (10GE, STM-64/OC-192) is mapped to ODU2/2e. 10*10G client side interface The line side signal is demultiplexed from ODU4 to (SFP+) ODU2/2e and connected to the client side signal.
M6500 Series NE Configuration Manual Figure4-25 View Optical Module Information When the optical module is DWDM and the wavelength is tunable, its frequency and wavelength can be configured. The configuration interface is under the port configuration-interface menu. 4.5.1. SFP/SFP+ Optical Transceiver Information The SFP and SFP + optical module information of M Series NMS system is not separately distinguished.
M6500 Series NE Configuration Manual Figure4-27 Parameter Information of SFP/SFP+ Optical Transceiver 4.5.2. WDM CFP Optical Transceiver Information Figure4-28 Parameter Information of WDM CFP Optical Transceiver Figure4-29 Parameter Information of WDM CFP Optical Transceiver...
M6500 Series NE Configuration Manual 4.5.3. WDM CFP Optical Transceiver Configuration Configure the port mode as OCh (OTU4), insert a WDM CFP optical module and select the interface; you can configure the working wavelength and transmitting optical power of the optical module, as shown in the figure...
M6500 Series NE Configuration Manual 4.5.4. WDM CFP2 Optical Transceiver Information Figure 4-32 Basic Information of WDM CFP2 Optical Transceiver Figure 4-33 Parameter of WDM CFP2 Optical Transceiver 4.5.5. WDM CFP2 Optical Transceiver Configuration Configure the port mode as OCh (OTUC2), insert a WDM CFP2 optical module and select the interface;...
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M6500 Series NE Configuration Manual Figure 4-34 Configure Operating Wavelength of WDM CFP2 Figure 4-35 Configure WDM CFP2 Transmit Optical Power...
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M6500 Series NE Configuration Manual Figure 4-34 Parameter Reading of WDM CFP2 Optical Transceiver...
M6500 Series NE Configuration Manual 5. Service Configuration Prerequisite 1. Network devices and lines are normal. 2. The NE and the NMS system have been configured. 3. The NMS server has been running and logged into the NMS system. 5.1. Electric Cross-Connect Introduction OTN electric cross-connect technology is based on ODUk as the particle for mapping, multiplexing and cross-connection.
M6500 Series NE Configuration Manual Figure5-2 Traffic Configuration Interface The configuration includes two types—with protection and without protection. For the type with protection, there are A protection and Z protection, as shown in the figure below: Figure5-3 Protection Schematic Diagram 5.1.1.
M6500 Series NE Configuration Manual Figure5-4 Configuration of Unidirectional Cross-Connection without Protection Figure5-5 Configuration Result of Unidirectional Cross-Connection without Protection 5.1.2. Bidirectional Cross-Connection without Protection Select NE, click on“Shelf01”and select“Add”button in “SNC Configuration” of“Business Configuration”interface; you can create bidirectional cross-connection without protection (here we take M6500-MXP10 port 1-port 11 cross-connection as an example to select the corresponding slot, cross-connection type and capacity information).
M6500 Series NE Configuration Manual Figure5-6 Configuration of Bidirectional Cross-Connection without Protection Figure5-7 Configuration Result of Bidirectional Cross-Connection without Protection 5.1.3. Unidirectional Cross-Connection with Protection Select NE, click on“Shelf”,click on“Business Configuration”and select“Add”button in “SNC Configuration” of“Business Configuration”interface; you can create unidirectional cross-connection with protection (here we...
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M6500 Series NE Configuration Manual Figure5-8 Configuration of Unidirectional Cross-Connection with Protection...
M6500 Series NE Configuration Manual Figure5-9 Configuration Result of Unidirectional Cross-Connection with Protection 5.1.4. Bidirectional Cross-Connection with Protection Select NE, click on“Shelf”and select“Add”button in “SNC of“Business Configuration”interface; you Configuration” can create bidirectional cross-connection with protection (here we take M6500-MXP10 as an example, the 11...
M6500 Series NE Configuration Manual Figure5-10 Configuration of Bidirectional Cross-Connection with Protection Figure5-11 Configuration Result of Bidirectional Cross-Connection with Protection 5.2. Service Type 5.2.1. Service Type Select NE-Slot 1, click on“Port1”and select“Port Management”on the right, as shown in the figure below:...
M6500 Series NE Configuration Manual Figure5-12 Operation Steps of How to View Service Type As shown in the figure below, open the port management interface, and select the service type from basic information-port mode. Figure5-13 Port Service Type Interface 5.2.2. Service Mapping In M Series NMS, you can select the service mapping mode in the port management-port mode interface.
M6500 Series NE Configuration Manual Figure5-15 STM64_AMP Mapping Mode 5.2.2.2. BMP (Bit-synchronous Mapping Procedure BMP) requires the rate of the service layer signal to match that of the client layer signal, and there is no frequency deviation. Here we take M6500-MXP10 board as an example. Select NE-Slot, click on“Port1”and select“Port...
M6500 Series NE Configuration Manual Figure5-17 HGE_GMP Mapping Mode 5.2.2.4. GFP-F The encapsulation of GFP-F (Frame mapped Generic Framing Procedure) can completely map the traffic signal frame into a GFP frame with variable length and there is no need to make any changes to the encapsulated data.
M6500 Series NE Configuration Manual Figure5-19 XGE_GFPFextp Mapping Mode 5.3. Service Configuration Process Figure5-20 Service Configuration Process...
M6500 Series NE Configuration Manual 5.4. Configuration instructions 5.4.1. M6500-MXP10 The port type of M6500-MXP10 includes 1 (port 11)*100G line side interface (CFP) and 10 (port 1-10)*10G client side interfaces (SFP+). 5.4.1.1. Service Type Line Side Port Select NE-Slot 1, click on“Port11”and select“Port...
M6500 Series NE Configuration Manual Select NE-Slot 1, click on“Port1”and select“Port Management”on the right,the operation interface is as shown in the figure below: Figure5-23 M6500-MXP10 Client Side Port Information The client side port management interface is as shown in the figure below and the service type can be selected in port mode.
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M6500 Series NE Configuration Manual Figure5-25 Operation Steps of M6500-MXP10 TP Multiplexing Configuration ODU4 Click on“ ”button and the interface is as shown in the figure below. Select ODU4 to demultiplex to ODU2/ODU2e. Figure5-26 M6500-MXP10 Demultiplexing Configuration Interface ODU4 can be demultiplexed to 10*ODU2/ODU2e (here we take ODU2e as an example), 8 time slots need to be...
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M6500 Series NE Configuration Manual Figure5-27 M6500-MXP10 Demultiplexing ODU2e Configuration The result when it is with full configuration of 10*ODU2e is as shown in the figure below:...
M6500 Series NE Configuration Manual Figure5-28 Configuration Result of M6500-MXP10 Demultiplexing 10*ODU2e 5.4.1.3. Cross-Connection Configuration For example, if we need to create bidirectional cross-connection with protection of port 1 to port 11, the operation is as follows: Select XGE_BMP at the client side and select OCh (OTU4) at the line side, then ODU2e...
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M6500 Series NE Configuration Manual Figure5-29 M6500-MXP10 Bidirectional Cross-Connection with Protection The following figure shows that the cross-connection is successfully established.
M6500 Series NE Configuration Manual Figure5-30 Successful Establishment of M6500-MXP10 Bidirectional Cross-Connection with Protection 5.4.1.4. FEC Configuration FEC is only configurable on OUT layer. Line Side Port Select NE-Slot 1, click on“Port11”and select“Port Management”, and then select OCh (OTU4) as the port mode.
M6500 Series NE Configuration Manual Figure5-32 FEC Configuration of M6500-MXP10 Client Side (OTU2) Port Figure5-33 FEC Configuration of M6500-MXP10 Client Side (OTU2e) Port 5.4.2. M6500-TMXP2 The port type of M6500-TMXP2 includes 1 (port 3)*100G line side interface (CFP), 1 (port 1)*100G rate client side interface (QSFP28) or 2 (port 1-2)*40G client side interfaces (QSFP+).
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M6500 Series NE Configuration Manual Figure5-34 M6500-TMXP2 Line Side Port Information The line side port management interface is as shown in the figure below and the service type can be selected in port mode. Figure5-35 M6500-TMXP2 Line Side Port Interface ...
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M6500 Series NE Configuration Manual The client side port management interface is as shown in the figure below and the service type can be selected in port mode. Figure5-37 M6500-TMXP2 Client Side 100G Port Interface Client Side 40G Port The current board mode is 100G;...
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M6500 Series NE Configuration Manual Figure5-40 Apply M6500-TMXP2 Board Mode After successful application, the board is initialized, as shown in the figure below: Figure5-41 M6500-TMXP2 Board Initialization After a moment,NE synchronization is performed. The latest mode of M6500-TMXP2 board is synchronized.The operation steps are as follows: select NE, and click and select "...
M6500 Series NE Configuration Manual Figure5-43 Successful Switch of the Board Mode At this time, 40G client side port mode can be selected: select NE-Slot 2, click on“Port1”and select“Port Management”on the right, the interface is as shown in the figure below: Figure5-44 M6500-TMXP2 Client Side 40G Port Interface 5.4.2.2.
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M6500 Series NE Configuration Manual Figure5-45 Operation Steps of M6500-TMXP2 TP Multiplexing The interface is as shown in the figure below. Select ODU4 to demultiplex to ODU3 (ODU2&ODU2e are unavailable). Figure5-46 M6500-TMXP2 Demultiplexing Configuration Interface ODU4 can be demultiplexed to 2*ODU3 and 31 time slots are configured for each ODU3.
M6500 Series NE Configuration Manual Figure5-47 Time Slot Configuration of M6500-TMXP2 Demultiplex ODU3 When it is fully configured with 2*ODU3, the interface is as shown in the figure below: Figure5-48 Configuration Result of M6500-TMXP2 Demultiplexing 2*ODU3 5.4.2.3. Cross-Connection Configuration For example, if we need to create bidirectional cross-connection without protection of port 1 to port 3, the...
M6500 Series NE Configuration Manual Figure5-49 M6500-TMXP2 Bidirectional Cross-Connection without Protection The following figure shows that the cross-connection is successfully established. Figure5-50 Successful Establishment of M6500-TMXP2 Bidirectional Cross-Connection without Protection 5.4.2.4. FEC Configuration FEC is only configurable on OUT layer.
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M6500 Series NE Configuration Manual Select NE-Slot 2, click on “Port select“Port Management”on the right, and then select OCh (OTU4) as the 3”and port mode. In“OTU4”interface under“Port Configuration”, select “FEC type”to view the configuration. There are in all 7 FEC modes for TMXP2 line side, which are respectively G709FEC/SDFEC1/SDFEC2/SDFEC3/SDFEC1_Non-diff/SDFEC2_Non-diff/SDFEC3_Non-diff.
M6500 Series NE Configuration Manual Figure5-53 FEC Configuration of M6500-TMXP2 Client Side 40G 5.4.3. M6500-TMXP5 M6500-TMXP5 port types are divided into 1 (port 1) 200G/100G line side interface (CFP2), 2 (ports 2-3) 100G client interface (QSFP28), 1 (port 3) 100G client interface (QSFP28) ) and 2 (ports 5-6) 40G client-side interfaces (QSFP+),...
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M6500 Series NE Configuration Manual Figure 5-55 M6500- TMXP5 Line side port interface Client side port M6500-TMXP5 client-side ports are divided into 100G, 40G, and 10G. According to different board modes, different client-side ports are displayed. Select the NE-Slot 1, click on "Slot...
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M6500 Series NE Configuration Manual Figure 5-57 M6500- TMXP5 Card mode selection Apply TMXP5_4X40G-4X10GMode. Figure5-58 M6500-TMXP5 Board mode apply After apply successfully, the board will be in initialization mode as shown below: Figure5-59 M6500-TMXP5 Board initialization After a while, perform NE synchronization and synchronize the latest mode of the M6500-TMXP5 board. The NE Management operation steps are as follows: select the NE, click and select "...
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M6500 Series NE Configuration Manual Figure5-60 NE Synchronization After the synchronization is successful, the TMXP5_4X40G-4X10G board card mode is successfully switched, as shown in the figure below. Figure5-61 The board mode switch successfully Client Side 100G Select the NE-Slot 1, click on "Port...
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M6500 Series NE Configuration Manual Open the client-side port management interface as shown in the figure below, and you can select the service type in the port mode. Figure5-63 M6500-TMXP5 Client side 100G port interface Client side 40G port First switch the card mode to the corresponding mode.
M6500 Series NE Configuration Manual Figure5-65 M6500-TMXP5 Client side 10G port interface 5.4.3.2. Time slot configuration When the board is in the 2X100G mode, there is no need to configure the time slot, and the other board modes all need to configure the time slot.
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M6500 Series NE Configuration Manual Figure5-67 M6500-TMXP5 Demultiplexing configuration interface Each ODU4 can be demultiplexed into 2 ODU3 in total, each ODU3 is configured with 31 time slots; and 2 ODU2/2e, each ODU2/2e is configured with 8 time slots. Figure5-68 M6500-TMXP5 Demultiplexing ODU3 time slot configuration...
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M6500 Series NE Configuration Manual Figure5-69 M6500-TMXP5 Demultiplexing ODU2/2e time slot configuration Fully configure 2 * ODU3 and 2*ODU2/2e is shown as below figure. Figure5-70 M6500-TMXP5 demultiplexing 2*ODU3 and ODU2/2e configuration results...
M6500 Series NE Configuration Manual 5.4.3.3. Cross configuration Taking the establishment of 40G service as an example, the operation is as follows: select FGE_GMP on the client side and OCh (OTUC2) on the line side, corresponding to the establishment of ODU3 crossover, as shown in the following figure.
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M6500 Series NE Configuration Manual Line side port Select NE-Slot 1, click on "Port1" and select "Port Management" on the right, select OCh (OTUC2) or OCh (OTU4) as the port mode, select "OTUC2" or "OTU4" under "Port Configuration" and "...
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M6500 Series NE Configuration Manual There are 7 types of 100G on the client side, and the default FEC mode is G709 FEC.The configuration is shown below. Figure5-74 M6500-TMXP5 Client side 100G Port FEC configuration Client side 40G port Select the NE-Slot 1, click on "Port...
M6500 Series NE Configuration Manual FEC modes for 10G, namely no FEC/G709FEC/I.4EFEC/I.7EFEC, among which G709FEC is the default mode. The configuration is shown below. Figure5-76 M6500-TMXP5 Client side 40G Port FEC configuration 5.5. Configuration Example 5.5.1. Configuration Example of Ring Network Service Here we take the ring network of Site A, Site B and Site C in M6500-TMXP2 board access 100G service as an example.
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M6500 Series NE Configuration Manual Figure5-78 Configure Line Side Signal Mode Create cross-board two-way SNC cross-connection for ODU4 of the client side port1 to port3.
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M6500 Series NE Configuration Manual Figure5-79 Create Two-way Cross-Connection of ODU4 Build the environment according to the following diagram. Respectively create the two-way SNC cross-connection with protection of port1 to port3 (primary)/port3 (standby) at Site A and Site C.
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M6500 Series NE Configuration Manual Figure5-80 Site-to-Site Primary and Standby Protection Environment...
M6500 Series NE Configuration Manual 6. Overhead Configuration 6.1. Configuration Rules The G.709 standard defines the overhead function of the OTN frame structure and the network of each layer. M6500adopts a lot of overhead bytes, which provides great convenience for equipment maintenance.
M6500 Series NE Configuration Manual value expected to be received at the opposite end. That is to say, the two network elements connected by the overhead should meet the rules as shown in table 6-1: Table6-1 Overhead Establishment Rules NE A...
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M6500 Series NE Configuration Manual Figure6-2 Select Port Service Figure6-3 Enter TP Multiplexing Interface Figure6-4 TP Multiplexing Configuration Step 1...
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M6500 Series NE Configuration Manual Figure6-5 TP Multiplexing Configuration Step 2...
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M6500 Series NE Configuration Manual Figure6-6 Click to Enter OTU4 Port Interface Figure6-7 Set SM Overhead TTI Configuration Enter“OTU4” interface of the local and opposite ends to configure“Send TTI”and “Expect to Receive TTI”of “SM”overhead for the corresponding port. The configuration rules are as shown in the table above. Configure the expected and sent source access point identifier (SAPI), the expected and sent destination access point identifier (DAPI).
M6500 Series NE Configuration Manual Figure6-8 Configure Local-End TTI Figure6-9 Configure Opposite-End TTI The Source Access Identifier and Destination Access Identifier values in the TTI overhead can be either default or arbitrary strings. 6.2.2. PM Configuration Steps Activate the connection and monitoring enablement of PM overhead.
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M6500 Series NE Configuration Manual Demultiplex ODU4 to ODU2e, configure service cross-connection, connect optical fiber and build the environment. For line side Port 11: If the status of ODU layer is“unterminated”, then only expected TTI can be set, but sent TTI cannot be set.
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M6500 Series NE Configuration Manual Figure6-12 Set Line Side PM Overhead...
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M6500 Series NE Configuration Manual Figure6-13 Enter Client Side Port Management Interface Figure6-14 Enter Client Side ODU2 Management Interface...
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M6500 Series NE Configuration Manual Figure6-15 Set Client Side PM Overhead TTI Configuration Enter“ODU2”/“ODU2e”interface of line side local and opposite ends to configure “Expected Receiving TTI”of “PM” overhead for the corresponding port and to monitor whether the line side receiving signal is correct.
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M6500 Series NE Configuration Manual Figure6-16 Configure Line Side Port TTI...
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M6500 Series NE Configuration Manual Figure6-17 Configure Client Side Local End Port TTI...
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M6500 Series NE Configuration Manual Figure6-18 Configure Client Side Opposite End Port TTI...
M6500 Series NE Configuration Manual The Source Access Identifier and Destination Access Identifier values in the TTI overhead can be either default or arbitrary strings. 6.3. Configuration Examples Application Environment: Figure6-19 Application Environment of SM/PM Overhead Configuration Configuration analysis: The network elements of the local-end and opposite-end client side signals should be configured with the same service, such as XGE_GFPF service (Specific configuration needs to be made according to actual needs).
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M6500 Series NE Configuration Manual Figure6-20 Schematic Diagram of SM Overhead Configuration The line side NE of the two ends is OTU2 service (configured according to the service type of the client side). Enable the monitoring function of SM overhead on the OTU2 layer at both ends, and then set the values of sending TTI and expected TTI.
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M6500 Series NE Configuration Manual Figure6-21 Schematic Diagram of PM Overhead Configuration The line side of the NE at the two ends is OTU2 service (configured according to the service type of the client side). After being demultiplexed to ODU2, enable the monitoring function of PM overhead on ODU2 layer at the two ends.
M6500 Series NE Configuration Manual 7. SNC Protection Configuration 7.1. Introduction of SNC Protection SNC protection is also called subnet connection protection. Its function is when the signal on the client side fails in the working channel (signal failure, signal degradation), the service can automatically switch to the protection channel and continue to work normally.
M6500 Series NE Configuration Manual Create SNC cross-connection with protection. Select SNC protection type--SNC/I or SNC/N. Reply Wait Settings Set reply mode—Reply Mode or Non-reply Mode. If it is set as “non-reply mode”, it indicates that after the service is...
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M6500 Series NE Configuration Manual STM16_BMP/OC48_BMP 10G Service XGE_BMP ODU2e XGE_GFPF XGE_GFPFextp ODU2 STM64_AMP/OC48_AMP STM64_BMP/OC48_BMP OTU2 OTU2e ODU2e 40G Service FGE_GMP ODU3 OTU3 100G Service HGE_GMP ODU4 HGE_GFPF OTU4 Here we take the 10G service cross board protection of M6500-MXP10 board as an example to introduce the configuration process of SNC services.
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M6500 Series NE Configuration Manual Figure7-3 Select Client Side Port Select the service type you need and enable the port, then click on “Apply”. Figure7-4 Configure Client Side Service 2. Here we take Port 11 of Slot 1 and Port 11 of pair Slot 17 as the line side port.Click on the port and select“Port...
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M6500 Series NE Configuration Manual Figure7-5 Configure Line Side Service 3. Click on the service board and select“ TP Multiplexing Structure ”. Figure7-6 TP Multiplexing Structure Select the appropriate time slot to demultiplex to the low order ODU layer, so as to make the line side rate and...
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M6500 Series NE Configuration Manual Figure7-7 Select Time Slot Demultiplexing 4. Select SNC cross-connection type--“ bidirectional with protection unidirectional with protection ”or“ ”.
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M6500 Series NE Configuration Manual Figure7-8 Select Cross-Connection Type 5. Select the service capacity, that is, the corresponding ODU time slot. Figure7-9 Select Service Capacity 6. Select SNC protection mode—Site A protection or Site Z protection.
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M6500 Series NE Configuration Manual Figure7-10 Select Protection Mode...
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M6500 Series NE Configuration Manual 7. Select client side port number and line side port number. The tag name can be empty. Create the cross-connection of SNC protection service, then click on“ ”option of the created SNC cross-connection with protection.
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M6500 Series NE Configuration Manual Figure7-13 Reply Wait Settings 9. Click on“ Switch ”option of the created SNC protection cross-connection. Figure7-14 Protection Switching Settings Manually select to issue protection switching command. The command priority is clear>lock protection switching>force switch to working channel>force switch to protection channel>manually switch to working...
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M6500 Series NE Configuration Manual Figure7-15 Select Protection Switching Command 10. Click on“ Unprotect ”option of the created SNC protection cross-connection. Figure8-16 Delete Protection You can manually select to delete the working channel or the protection channel. Figure7-17 Delete Working Channel or Protection Channel...
M6500 Series NE Configuration Manual 8. Alarm Management 8.1. Alarm Management Introduction The alarm management function is a functional group that manages the faults of various network devices managed by the NMS system during the operation of the system. The managed fault is commonly called alarm.
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M6500 Series NE Configuration Manual Figure8-2 Current Alarm The lower right corner of the alarm interface can filter the number of alarms displayed on the current page, and the number of displayed alarms per page can be adjusted to 10, 20, 50 and 100 (as shown below).
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M6500 Series NE Configuration Manual Figure8-4 Select to Confirm Current Alarm Figure8-5 Carry Out Confirmation of Current Alarm Figure8-6 Complete Confirmation of Current Alarm Unack The function of“ ” button is to cancel confirmed alarms and return them to unconfirmed state.
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M6500 Series NE Configuration Manual Figure8-8 Cancel Confirmation Figure8-9 Complete Confirmation Cancellation of Current Alarm Query The function of“ ”button is to use the known conditions to view and operate the specified alarm. The filter conditions include: NE IP, specified slot of specified IP, specified port of specified slot; alarm creation and termination time (i.e.
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M6500 Series NE Configuration Manual Figure8-12 Create Time to Filter Current Alarm Figure8-12 Filter Current Alarm According to Alarm Level & Confirmation Status The method to filter IP, slot and port is: IP→Slot→Port or IP→Slot or IP. It is not allowed to select slot or port separately.
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M6500 Series NE Configuration Manual Figure8-14 Alarm Details Figure8-15 Alarm Document Link...
M6500 Series NE Configuration Manual The lower middle area is the display section of the current alarm. From left to right in turn, the table header is: check box, serial number, alarm level, NE, alarm source, alarm name, alarm type, status, generation time, clearance time, confirmation status, confirmer and confirmation time, operation.
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M6500 Series NE Configuration Manual Figure8-17 Delete History Alarm The function of“Delete All”button is to delete all the history alarms. The function of“Export”button is to export all the history alarms. A dialog box pops up after clicking the Export button. Enter the name of the file you want to save in the dialog box. After saving, it will prompt to save the path.
M6500 Series NE Configuration Manual Time, Acknowledge State,Acknowledge User, Acknowledge Time. (The functions are the same as that in the current alarm. Here we will not go into much detail.) In history alarm details, there is no recommended measure and linked document. There are three types of alarm clearance states, which are automatic clearance, manual clearance and synchronous clearance.For the confirmation...
M6500 Series NE Configuration Manual The upper area of the alarm configuration shows the searching function. By entering the specified content, it can get the alarms which contain that content, as shown in the following figure. Figure8-18 Searching Function in Alarm Configuration The middle area of the alarm configuration is the main content of alarm configuration.
M6500 Series NE Configuration Manual Figure8-19 Alarm Notification Configuration The alarm notification configuration is an alarm configuration for alarm mail notifications, and by default only the alarm at the emergency level is checked (that is, the mail receives only the alarm notification at the emergency level).
M6500 Series NE Configuration Manual The function of the alarm mailbox server configuration is to configure a mailbox as a server mailbox, and then click on the navigation bar→Configuration. Configuration→User Management→(Specify User Bar) Modify Information→Fill in a mailbox address for receiving alarm notifications.In this way, the alarm generated on the NE (after the configuration in the previous...
M6500 Series NE Configuration Manual 9. Performance Management The first step of performance management is to enable the performance monitoring point to be monitored in the performance monitoring point management interface. 9.1. Performance Management Introduction 9.1.1. Filter Box Configuration Performance Monitoring Click on "...
M6500 Series NE Configuration Manual Far-end monitoring point: according to received BEI. The direction of performance monitoring points: ingress and egress. Monitoring Cycle: 15 minutes, 24 hours. 9.1.3. Enable Performance Monitoring Point When the current 15-minute performance monitoring point is enabled, all the performance monitoring parameters of the performance monitoring point are enabled at the same time, so when the performance monitoring point is enabled, the relevant data of the current performance statistics can be viewed.
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M6500 Series NE Configuration Manual Figure9-3 Enable A Single Monitoring Point To realize batch enabling operations on multiple pieces of data, you can select the previous multiple checkboxes, then click the button on the table (Enable PMP) to enable the monitoring of selected performance,...
M6500 Series NE Configuration Manual Figure9-5 No Modification of Monitoring Point Status 9.1.4. Disable Performance Monitoring Point When the current 15-minute performance monitoring point is disabled, the 24-hour performance monitoring will be automatically disabled by default, and all the performance monitoring parameters of the performance monitoring point will be disabled at the same time.
M6500 Series NE Configuration Manual Figure9-8 Disable Batch Monitoring Points Select multiple disabled performance monitoring, then select “Disable PMP”button, click on“Apply”, it will display “Not Modified”, as shown in the figure below. Figure9-11 No Modification of Monitoring Point Status 9.1.5. Attentions for Monitoring Performance ...
M6500 Series NE Configuration Manual Figure9-12 Current Performance Statistics Directory 9.2.1. Monitoring of Optical Power 9.2.1.1. Introduction of Optical Power Monitoring Parameters The monitoring parameters of optical power monitoring point include maximum optical power, maximum optical power time stamp, minimum optical power, minimum optical power time stamp, average optical power, suspicious interval marker, running time and reset operation.
M6500 Series NE Configuration Manual Figure9-14 15-Minute Monitoring Point Data of Optical Power When the 24-hour monitoring port is enabled, the suspicious interval marker should be untrustworthy. The running time counts from 0. After 86400 seconds, the suspicious interval marker will become trustworthy. The running time counts again from 0.
M6500 Series NE Configuration Manual 9.2.1.4. Optical Power Monitoring Data Shown As“-” Here are the situations when the monitoring data of optical power for the port is shown as NA: (1) When optical module is not inserted into the port, the optical module is not in position but the port is enabled.
M6500 Series NE Configuration Manual Figure9-20 Optical Power Monitoring Data When Mismatched 9.2.2. OCh Current Performance Statistics 9.2.2.1. OCh Monitoring Parameters Introduction Monitoring parameters of OCh monitoring points include maximum differential group delay (DGD), maximum differential group delay (DGD) time stamp, minimum differential group delay (DGD), minimum differential...
M6500 Series NE Configuration Manual Figure9-22 15-Minute OCh Monitoring Data WDM module is inserted into the monitoring port. OCh data and corresponding generation time stamp which are currently read will be displayed. After the 24-hour performance monitoring port is enabled, the suspicious interval marker should be untrustworthy.
M6500 Series NE Configuration Manual Figure 9-25 Successful Resetting of OCh 9.2.2.4. OCh Monitoring Data Shown As“-” Here are the situations when the OCh monitoring data for the port is shown as -: (1) When optical module is not inserted into the port, the optical module is not in position but the port is enabled.
M6500 Series NE Configuration Manual Figure9-28 OCh Monitoring Data When Mismatched 9.2.3. FEC Current Performance Statistics 9.2.3.1. FEC Monitoring Parameters Introduction As shown in the figure, the monitoring parameters of FEC monitoring points include maximum error correction rate, maximum error correction rate time stamp, average error correction rate, suspicious interval marker, running time and reset operation.
M6500 Series NE Configuration Manual Figure9-31 24-Hour Monitoring Data of FEC 9.2.3.3. Reset FEC Monitoring Data When the current FEC monitoring data needs to be reset and to restart the monitoring, the 15-minute and 24-hour operation steps are the same. Taking 15-minute operation as an example, you can click on Reset behind each piece of monitoring record to perform resetting of a single piece of monitoring record, or you can select the first box to reset, as shown in the figure below.
M6500 Series NE Configuration Manual (1) When optical module is not inserted into the port, the optical module is not in position but the port is enabled. (2) Optical module is inserted into the port but it is mismatched and the port is enabled.
M6500 Series NE Configuration Manual runtime (S) and reset operation.The performance parameters of OTUk / ODUk will be enabled or disabled at the same time. Figure9-37 OTUk/ODUk Monitoring Parameters 9.2.4.2. View OTUk/ODUk Monitoring Information As shown in the figure, select the appropriate network elements, slots, ports and monitoring cycle through the selection box above the menu, the OTUk/ODUk value of a certain network element/slot/port will be displayed.
M6500 Series NE Configuration Manual Figure9-39 24-Hour OTUk/ODUk Monitoring Data 9.2.4.3. Error Generation Conditions for Monitoring Parameters SES counts are generated when the following alarms are generated at the near end, and continuous 10S of SES becomes a UAS. If the alarm persists, the ES and SES stops counting, but the UAS counts all the time, as shown in the figure.
M6500 Series NE Configuration Manual untrustworthy to trustworthy and the running time counts again from 0. All the details updated to the latest time to read the value. Figure9-42 OTUk/ODUk Successfully Reset 9.2.4.5. OTUk/ODUk Monitoring Data Shown As“-” Here are the situations when the OTUk/ODUk monitoring data for the port is shown as -: (1) When optical module is not inserted into the port, the optical module is not in position but the port is enabled.
M6500 Series NE Configuration Manual Figure9-45 OTUk/ODUk Monitoring Data When Mismatched 9.2.5. Current Performance Statistics of SDH Regeneration Segment 9.2.5.1. Monitoring Parameters Introduction of SDH Regeneration Segment Monitoring parameters of SDH monitoring points include background error block (BBE), error second (ES), serious error second (SES), unavailable second (UAS), suspicious interval marker, runtime (S) and reset operation.
M6500 Series NE Configuration Manual running time counts from 0. After 86400 seconds, the suspicious interval marker will become trustworthy and the running time counts again from 0. The last 24-hour data automatically becomes the history data, as shown in the figure below: Figure9-48 24-Hour SDH Monitoring Data 9.2.5.3.
M6500 Series NE Configuration Manual 9.2.5.4. Monitoring Data of SDH Regeneration Segment Shown As NA Here are the situations when the monitoring data of the SDH regeneration segment for the port is shown as NA: (1) When optical module is not inserted into the port, the optical module is not in position but the port is enabled.
M6500 Series NE Configuration Manual become trustworthy and the running time counts again from 0. The last 24-hour data automatically becomes the history data, as shown in the figure below: Figure9-56 24-Hour Ethernet Monitoring Data 9.2.6.3. Ethernet Monitoring Data Reset When the current Ethernet monitoring data needs to be reset and to restart the monitoring, the 15-minute and 24-hour operation steps are the same.
M6500 Series NE Configuration Manual Figure9-59 Optical Module of Ethernet Not In Position Here are the situations when the monitoring data for the board is shown as NA: (1) When the board is not in position or is pre-configured with an empty slot and the port for the board is enabled, all the data will be shown as NA.The suspicious interval is marked as untrustworthy, and the running...
M6500 Series NE Configuration Manual Figure9-62 History Performance Parameters of Optical Power 9.3.1.2. View History Monitoring Information of Optical Power 15minutes and 24hours of optical power history data operation and display are the same form. Here we take 15-minute optical power history monitoring point as an example. Choose the appropriate network elements, slots, ports and monitoring cycles through the screening box above the menu, and then select the time interval, performance monitoring point and parameters which need to be monitored in the right menu.
M6500 Series NE Configuration Manual Figure9-64 15-Minute Tabular Interface of Optical Power Click the time interval shortcut in the right menu or select the required time interval in Duration, and then click on Apply button in the lower right corner, the history data of all the optical power records on this port will be...
M6500 Series NE Configuration Manual Figure9-66 Export History Data of Optical Power Any character such as English, Chinese, alphabet or number can be entered as the file name, and then click on Apply button, it will prompt that the export is successful, as shown in the figure below: Figure9-67 Successfully Export Data of Optical Power 9.3.2.
M6500 Series NE Configuration Manual dispersion (CD), average chromatic dispersion (CD), maximum optical signal-to-noise ratio (OSNR), minimum optical signal-to-noise ratio (OSNR), average optical signal-to-noise ratio (OSNR). Figure9-68 OCh History Performance Parameters 9.3.2.2. View OCh History Monitoring Information 15minutes and 24hours of OCh history data operation and display are the same form. Here we take 15-minute OCh history monitoring point as an example.
M6500 Series NE Configuration Manual Figure9-70 15-Minute Tabular Interface of OCh Click the time interval shortcut in the right menu or select the required time interval in Duration, and then click on Apply button in the lower right corner, the history data of all the OCh records on this port will be displayed,...
M6500 Series NE Configuration Manual Figure9-73 Successfully Export Data of OCh 9.3.3. FEC History Performance Statistics 9.3.3.1. FEC History Monitoring Parameters Introduction The monitoring parameter of the history monitoring point for FEC includes time interval, which is a shortcut to choose the time.
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M6500 Series NE Configuration Manual Figure9-75 15-Minute Chart Data of FEC History performance statistics of FEC also show history data in tabular form. Click on the table, the interface as shown in the figure below appears: Figure9-76 15-Minute Tabular Interface of FEC...
M6500 Series NE Configuration Manual Figure9-77 15-Minute Tabular History Data of FEC 9.3.3.3. Export FEC History Monitoring Information To save the history data, you can click on the upper Export button, and an interface will pop up, as shown in the...
M6500 Series NE Configuration Manual Performance Monitoring Point: There are near end and far end, as well as entrance and exit for OTUk/ODUk monitoring points. Performance Monitoring Parameters: background error code block (BBE), bit error seconds (ES), serious bit error seconds (SES) and unavailable seconds.
M6500 Series NE Configuration Manual Figure9-82 15-Minute Tabular Interface of OTUk/ODUk Click the time interval shortcut in the right menu or select the required time interval in Duration, and then click on Apply button in the lower right corner, the history data of all OTUk/ODUk monitoring points on this port will...
M6500 Series NE Configuration Manual Any character such as English, Chinese, alphabet or number can be entered as the file name, and then click on Apply button, it will prompt that the export is successful, as shown in the figure below: Figure9-85 Successfully Export Data of OTUk/ODUk 9.3.5.
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M6500 Series NE Configuration Manual and then select the time interval, performance monitoring point and parameters which need to be monitored in the right menu.Parameters to be monitored can be all selected or only select one or two of them to check.After that, click Apply button on the lower right corner.
M6500 Series NE Configuration Manual Figure9-89 15-Minute Tabular History Data of SDH Regeneration Segment 9.3.5.3. Export SDH Regeneration Segment History Monitoring Information To save the history data, you can click on the Export button, and an interface will pop up, as shown in the figure...
M6500 Series NE Configuration Manual Figure9-91 Successfully Export Data of SDH Regeneration Segment 9.3.6. History Performance Statistics of Ethernet 9.3.6.1. Ethernet History Monitoring Parameters Introduction The monitoring parameter of the history monitoring point for Ethernet includes time interval, which is a shortcut to choose the time.
M6500 Series NE Configuration Manual The ordinate represents the value of the monitoring data, and the abscissa represents the time. Data which has been read for more than 15 minutes will be automatically transferred from current statistics to history statistics.
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M6500 Series NE Configuration Manual Figure9-96 Export History Data of Ethernet Any character such as English, Chinese, alphabet or number can be entered as the file name, and then click on Apply button, it will prompt that the export is successful, as shown in the figure below:...
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