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Cisco NTP-G341 Manual

Cisco NTP-G341 Manual

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Turning Up a Node
This chapter explains how to provision a single Cisco NCS node and turn it up for service, including assigning
the node name, date, and time; provisioning timing references; provisioning network attributes such as IP
address and default router; setting up users and user security; installing cards; and creating DWDM connections.
Note
The procedures and tasks described in this chapter for the Cisco NCS platform is applicable to the Cisco NCS
2002 and Cisco NCS 2006 platforms, unless noted otherwise.
Note
Procedures in this chapter require that you have a network plan calculated for your DWDM network with
Cisco Transport Planner. Cisco Transport Planner is a DWDM planning tool that is available from your Cisco
account representative. Cisco Transport Planner prepares a shelf plan for each network node and calculates
the power and attenuation levels for the DWDM cards installed in the node. For information about Cisco
Transport Planner, contact your Cisco account representative. For instructions on using Cisco Transport
Planner, refer to the Cisco Transport Planner DWDM Operations Guide.
Note
Cisco Transport Controller (CTC) views referenced in these procedures depend on the mode. In single-shelf
mode, the views are network, node, and card. In multishelf mode, the views are network, multishelf, shelf,
and card. For more information about CTC views, refer to
Note
In this chapter, "100G-LC-C card" refers to the 15454-M-100G-LC-C card. "10x10G-LC" refers to the
15454-M-10x10G-LC card. "CFP-LC" refers to the 15454-M-CFP-LC card.
NTP-G341 Setting Up Secure Access to TL1, on page 2
OpenSSH Version, on page 3
NTP-G29 Setting Up SNMP, on page 3
NTP-G328 Adding, Modifying, or Deleting ANS Parameters, on page 12
NTP-G30 Installing the DWDM Cards, on page 17
NTP-G179 Installing the Transponder and Muxponder Cards, on page 21
NTP-G123 Installing the Filler Cards, on page 24
CTC Enhancements, Operations, and
Turning Up a Node
Shortcuts.
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Summary of Contents for Cisco NTP-G341

  • Page 1 Turning Up a Node This chapter explains how to provision a single Cisco NCS node and turn it up for service, including assigning the node name, date, and time; provisioning timing references; provisioning network attributes such as IP address and default router; setting up users and user security; installing cards; and creating DWDM connections.
  • Page 2 Turning Up a Node NTP-G341 Setting Up Secure Access to TL1 • NTP-G34 Installing Fiber-Optic Cables on DWDM Cards and DCUs, on page 25 • NTP-G140 Installing Fiber-Optic Cables Between Terminal, Hub, or ROADM Nodes, on page 29 • NTP-G185 Installing Fiber-Optic Cables between Mesh Nodes, on page 44 •...
  • Page 3 OpenSSH Version The OpenSSH version that is currently supported is 3.5.9.1 and will be upgraded in a future release. Note The OpenSSH has been upgraded to Cisco SSH Release 1.4. NTP-G29 Setting Up SNMP Purpose This procedure provisions the SNMP parameters so that you can use SNMP management software with the Cisco NCS.
  • Page 4 Turning Up a Node DLP-G351 Deleting a Card in CTC • Click OK. The node IP address of the node where you provisioned the new trap destination appears in the Trap Destinations area. Step 4 Click the node IP address in the Trap Destinations area. Verify the SNMP information that appears in the Selected Destination list.
  • Page 5 Turning Up a Node DLP-G351 Deleting a Card in CTC Note It is recommended that the card be physically removed from its slot after deleting it from CTC. Procedure Step 1 Verify that the following conditions are not present. (During node turn-up, these conditions are normally not present): •...
  • Page 6 From the Add Card shortcut menu, choose the card type that will be installed based on the Cisco Transport Planner shelf layout. Only cards that can be installed in the slot appear in the Add Card shortcut menu. The following table shows the Add Card shortcut menu, submenu, card groups, and menu options or cards that they reference.
  • Page 7 Turning Up a Node DLP-G353 Pre-provisioning a Slot Table 1: CTC Add Card Shortcut Menu for DWDM Cards Menu Item Submenu Card Group Submenu Item 1 Submenu Item 2 Cards Category DWDM — 10GE_XP 10GE_XP — 10GE_XPE 10GE_XPE Transponder and Muxponder —...
  • Page 8 Turning Up a Node DLP-G353 Pre-provisioning a Slot Menu Item Submenu Card Group Submenu Item 1 Submenu Item 2 Cards Category — AR_XPE AR_XPE — 100G-LC-C 100G-LC-C — 10x10G-LC 10x10G-LC — CFP-LC CFP-LC — 100G-CK-C 100G-CK-C — 100GS-CK-LC 100GS-CK-LC — 200G-CK-LC 200G-CK-LC —...
  • Page 9 Turning Up a Node DLP-G353 Pre-provisioning a Slot Menu Item Submenu Card Group Submenu Item 1 Submenu Item 2 Cards Category DWDM Multiplexer and C Band 32 DMXO 32DMX-O Demultiplexer 40 WSS 40-WSS-C or 40- 32 WSS 32WSS 4MD-xx.x 40-MUX-C 40-MUX-C 40-DMX-C, or 40-DMX-CE 40-DMX-C, or 40...
  • Page 10 Step 3 Repeat Step 2 until all the cards shown in the Cisco Transport Planner shelf layout are provisioned in CTC. Stop. You have completed this procedure. DLP-G693 Configuring the Amplifier Card This task configures the optical parameters and threshold values of the amplifier Purpose card.
  • Page 11 Turning Up a Node DLP-G694 Configuring the PSM Card Table 2: Values for the ANS Parameters (amplifier) Port ANS Parameter Value Slot 16 (OPT-AMP C).Port COM-RX Channel LOS Threshold 35.0 dBm Slot 16 (OPT-AMP C).Port LINE-TX Amplifier Working Mode Control Gain Slot 16 (OPT-AMP C).Port LINE-TX Amplifier Tilt 0.0 dB...
  • Page 12 Turning Up a Node NTP-G328 Adding, Modifying, or Deleting ANS Parameters Step 2 From the Selector area, select the PSM slot. If the default parameters are present, continue with Step 3. If not, click Add to add the Channel LOS Threshold and VOA Attenuation parameters. To add the ANS parameters, see the DLP-G541 Adding an ANS Parameter, on page 13 for instructions.
  • Page 13 DLP-G541 Adding an ANS Parameter Note It is recommended that you use the Cisco Transport Planner XML configuration file to provision the ANS parameters instead of manually adding all the parameters in CTC. ANS provisioning parameters must be manually changed only by Cisco qualified personnel. Provisioning the ANS parameters incorrectly (either as preamplifier or booster input power thresholds) may impact traffic.
  • Page 14 Provisioning or higher Note Do not begin this procedure until the Cisco Transport Planner NE Update file is created for the node. You must import the new NE Update file and run ANS to recalculate the ANS parameters for the node.
  • Page 15 Turning Up a Node DLP-G681 Modifying an ANS Parameter If the new or updated value is not within the default range specified in the following table, an error Note message is displayed. Note When you modify the parameter value in the Value field, the active value is updated with the modified value after you run ANS.
  • Page 16 Turning Up a Node DLP-G542 Deleting an ANS Parameter Per-channel power and tilt can be edited when the Amplifier Working Mode is Control Gain or Control Note Power and Fixed Gain when Amplifier Working Mode is Fixed Gain. The Raman Expected Gain parameter is editable only on OPT-RAMP-C and OPT-RAMP-CE cards.
  • Page 17 To see translations of the warnings that appear in this publication, refer to the Regulatory Compliance and Safety Information document for the appropriate Cisco chassis. Statement Turning Up a Node...
  • Page 18 If you install a card incorrectly, the FAIL LED flashes continuously. The line cards released before R10.5 need a new bootcode to be installed in Cisco NCS 2015 chassis. These cards upgrade to a new bootcode automatically when they are installed between slots 2 and 7.
  • Page 19 2. Install the card in any slots between slot 2 and 7. This upgrades the bootcode for the card. The line cards supported in Cisco NCS 2015 can now be installed in any slots between slot 2 and 16. Note The INC_BOOTCODE alarm is not supported on the following SCL cards - •...
  • Page 20 Use the latches/ejectors to firmly slide the card along the slot guide rails until the card plugs into the receptacle at the back of the slot. The correct slot is designated by the Cisco Transport Planner shelf layout. Step 7 Verify that the card is inserted correctly.
  • Page 21 NTP-G179 Installing the Transponder and Muxponder Cards • If the Cisco Transport Planner shelf layout does not include DCUs, install a patchcord and 4-dB attenuator with a tolerance of +/–1 dB between the OPT-PRE TX and RX ports for each OPT-PRE card installed in the shelf.
  • Page 22 Class I (CDRH) and Class 1M (IEC) laser products. Statement 1055 Caution Always use the supplied ESD wristband when working with a powered NCS. For detailed instructions on how to wear the ESD wristband, see the Electrostatic Discharge and Grounding Guide for Cisco CPT and Cisco ONS Platforms. Caution A fan-tray assembly (15454E-CC-FTA for the ETSI shelf or 15454-CC-FTA for the ANSI shelf) must be installed in a shelf where a GE, ADM-10G, or OTU2_XP card is installed.
  • Page 23 If you install a card incorrectly, the FAIL LED flashes continuously. Procedure Step 1 Display the Cisco Transport Planner shelf layout for the node where you will install the card. Step 2 Remove the card from its packaging, then remove the protective clips from the backplane connectors.
  • Page 24 For more information, see the Hardware Specifications and the Installing the GBIC, SFP, SFP+, XFP, CXP, CFP and CPAK Optical Modules in Cisco NCS Platforms documents. PPM provisioning determines how the SFP, SFP+, XFP, CXP, CPAK, and CFP modules are used Note in CTC.
  • Page 25 Statement 156 Caution Always use the supplied ESD wristband when working with a powered NCS. For detailed instructions on how to wear the ESD wristband, refer to the Electrostatic Discharge and Grounding Guide for Cisco NCS 2000 Series. Note...
  • Page 26 DWDM cards. Step 2 Verify that the appropriate fiber optic cables are available to complete the connections shown in the Cisco Transport Planner Internal Connections report: a) Count the number of connections listed in the Internal Connections and verify that you have the same number of cables.
  • Page 27 NTP-G34 Installing Fiber-Optic Cables on DWDM Cards and DCUs Figure 1: Managing Cables on the Front Panel Step 7 Using the Cisco Transport Planner Internal Connections Report, connect one end of the fiber cable plug into the Origination Position. Step 8 Route the fiber cable on the card faceplate through the fiber clip on the faceplate, if provided.
  • Page 28 • Position—The cable origination in the format is Rack.Shelf.Slot. For example, Rack#1.Shelf Assembly 1.Slot 2 refers to Slot 2 in shelf assembly 1(DWDM) shelf of Rack 1. Refer to the Cisco Transport Planner Site Dialog box for rack and shelf names and locations.
  • Page 29 • Cisco Transport Planner Internal Connections Report Prerequisite Procedures • NTP-G34 Installing Fiber-Optic Cables on DWDM Cards and DCUs, on page 25 • DLP-G348 Using the Cisco Transport Planner Shelf Layout Report Turning Up a Node...
  • Page 30 Turning Up a Node NTP-G140 Installing Fiber-Optic Cables Between Terminal, Hub, or ROADM Nodes Required/As Needed As needed Onsite/Remote Onsite Security Level None Procedure Step 1 Determine which type of node you are fibering. The following node types require the listed equipment. The cards and patch panels should already be installed before you begin this procedure.
  • Page 31 Turning Up a Node NTP-G140 Installing Fiber-Optic Cables Between Terminal, Hub, or ROADM Nodes • Two 40-SMR1-C cards and two 15216-MD-40-ODD, 15216-EF-40-ODD, or 15216-MD-48-ODD patch panels • Two 40-SMR2-C cards and two 15216-MD-40-ODD, 15216-EF-40-ODD, or 15216-MD-48-ODD patch panels • Two 80-WXC-C cards and two 15216-MD-40-ODD, 15216-EF-40-ODD, or 15216-MD-48-ODD units and 15216-MD-40-EVEN, 15216-EF-40-EVEN, or 15216-MD-48-EVEN units and two 15216-MD-ID-50 or 15216-MD-48-CM units •...
  • Page 32 Turning Up a Node DLP-G315 Installing Fiber-Optic Cables From the 32WSS/32DMX Cards to the Standard Patch Panel Tray • 15216-MD-40-ODD, 15216-EF-40-ODD, or 15216-MD-48-ODD patch panel: • Complete the #unique_157 task. Step 5 To close the patch panel tray, unlock it by pressing the red latch in the top left corner, and then push the tray back toward the rack until it locks into place.
  • Page 33 Turning Up a Node DLP-G315 Installing Fiber-Optic Cables From the 32WSS/32DMX Cards to the Standard Patch Panel Tray Required/As Needed As needed Onsite/Remote Onsite Security Level None Note For a ROADM or hub node, two patch panels will be used, one for Side B side and one for Side A. The Side B 32WSS/32DMX card will connect to the Side B patch panel.
  • Page 34 Turning Up a Node DLP-G315 Installing Fiber-Optic Cables From the 32WSS/32DMX Cards to the Standard Patch Panel Tray Step 4 Route the MPO cable slack through the patch panel tray as necessary. When you close the patch panel tray, the cables must not be pinched, and the cable bend radius must Caution be equal to or greater than the minimum radius that is recommended in your site specifications.
  • Page 35 Turning Up a Node DLP-G315 Installing Fiber-Optic Cables From the 32WSS/32DMX Cards to the Standard Patch Panel Tray Figure 5: Rear View of the Patch Panel The following figure shows the assigned wavelengths for each port on the patch panel, as indicated at the top of the patch panel bar.
  • Page 36 Turning Up a Node DLP-G316 Installing Fiber-Optic Cables from TXP, MXP Cards to the Standard Patch Panel Tray DLP-G316 Installing Fiber-Optic Cables from TXP, MXP Cards to the Standard Patch Panel Tray Purpose This task describes how to route fiber-optic cables from the patch panel to TXP, MXP, GE_XP, 10GE_XP, GE_XPE, 10GE_XPE, ADM-10G, or OTU2_XP cards.
  • Page 37 Turning Up a Node DLP-G356 Installing Fiber-Optic Cables from the 32WSS/32DMX Cards to the Deep Patch Panel Tray Step 4 Plug one end of a fiber-optic cable into the RX port of the DWDM adapter on the TXP, MXP, GE_XP, 10GE_XP, GE_XPE, 10GE_XPE, ADM-10G, or OTU2_XP card.
  • Page 38 Turning Up a Node DLP-G356 Installing Fiber-Optic Cables from the 32WSS/32DMX Cards to the Deep Patch Panel Tray Security Level None Note For a ROADM or hub node, two patch panels will be used, one for Side A (Slots 1 through 6) and one for Side B (Slots 12 through 17).
  • Page 39 Turning Up a Node DLP-G427 Rerouting Fiber-Optic Cables in the 40-Channel Patch Panel Tray Figure 9: Deep Patch Panel Port Wavelengths Step 8 At the adjacent 32DMX card in the same side of the shelf, plug the MPO connector labeled 1 TX on the MPO cable (Figure 4: MPO Cable, on page 33) into the top Drop TX (30.3–36.6) port of the card...
  • Page 40 Turning Up a Node DLP-G427 Rerouting Fiber-Optic Cables in the 40-Channel Patch Panel Tray Onsite/Remote Onsite Security Level None Procedure Step 1 Carefully unwind all of the MPO cables in the patch panel tray and gently set the cables to the side of the tray, out of the way of the internal hardware.
  • Page 41 Turning Up a Node DLP-G428 Installing Fiber-Optic Cables from the 40-WSS-C/40-WSS-CE and 40-DMX-C/40-DMX-CE Cards to the 40-Channel Patch Panel Tray Step 2 Slide each of the ten LC-port adapter packs upward. Step 3 Unscrew the two screws in the bottom left bending limiter and remove the bending limiter. Step 4 Remove the single screw below the center of the patch panel to free the patch panel hardware.
  • Page 42 Turning Up a Node DLP-G428 Installing Fiber-Optic Cables from the 40-WSS-C/40-WSS-CE and 40-DMX-C/40-DMX-CE Cards to the 40-Channel Patch Panel Tray Note For a ROADM node, two patch panels will be used, one for the Side A and one for Side B. The Side B 40-WSS-C/40-WSS-CE card will connect to the Side B patch panel.
  • Page 43 Procedure Step 1 Refer to the Cisco Transport Planner Internal Connections Report to connect the TXP, MXP, GE_XP, 10GE_XP, GE_XPE, 10GE_XPE, ADM-10G, or OTU2_XP card to the proper (Side A or Side B) patch panel. At the appropriate TXP, MXP, GE_XP, 10GE_XP, GE_XPE, 10GE_XPE, ADM-10G, or OTU2_XP card, plug one end of a fiber-optic cable into the TX port of the DWDM adapter.
  • Page 44 Turning Up a Node NTP-G185 Installing Fiber-Optic Cables between Mesh Nodes When you close the fiber-storage tray, the cables must not be pinched, and the cable bend radius must Caution be equal to or greater than the minimum radius that is recommended in your site specifications. As you route each cable through the fiber-storage tray, make sure that adequate cable slack remains.
  • Page 45 Turning Up a Node NTP-G185 Installing Fiber-Optic Cables between Mesh Nodes Tools/Equipment Mesh nodes require the following equipment. The cards and patch panels should already be installed before you begin this procedure. • One 40-MUX-C card per side of the mesh node (up to 8 sides per node) •...
  • Page 46 Turning Up a Node DLP-G430 Installing Fiber-Optic Cables from the 40-MUX-C and 40-DMX-C Cards to the 40-Channel Patch Panel Tray Step 2 Complete the DLP-G430 Installing Fiber-Optic Cables from the 40-MUX-C and 40-DMX-C Cards to the 40-Channel Patch Panel Tray, on page Step 3 Complete the DLP-G431 Installing Fiber-Optic Cables from the 40-WXC-C, or 40-SMR-C Cards to a mesh Patch Panel Tray.
  • Page 47 Turning Up a Node NTP-G191 Installing Fiber-Optic Cables on Passthrough ROADM Nodes Procedure Step 1 Choose Side A of the shelf to cable the 40-MUX-C and 40-DMX-C cards. Note If you are cabling any cards from the right side of the shelf (Slots 12 through 17), you must first perform the DLP-G427 Rerouting Fiber-Optic Cables in the 40-Channel Patch Panel Tray, on page to route the MPO cables out of the right side of the patch panel tray, or route the cables through a...
  • Page 48 • One fiber-storage tray • Two 3-meter fiber-optic cables, each terminated with a single LC connector on each end. • Cisco Transport Planner Internal Connections Report Prerequisite Procedures DLP-G348 Using the Cisco Transport Planner Shelf Layout Report Required/As Needed As needed Onsite/Remote Onsite...
  • Page 49 Turning Up a Node NTP-G191 Installing Fiber-Optic Cables on Passthrough ROADM Nodes Step 8 Route the fiber-optic cable through the vertical fiber guide as needed to reach the entry to the fiber-storage tray. Step 9 Thread the cable into the fiber-storage tray at the appropriate side and around the first bend radius delimiter as shown in Figure 14: Fiber-Storage Tray, on page Step 10...
  • Page 50 OTU2_XP cards. You can use Y-cable protection modules that you have installed in a FleyLayer shelf, or Y-cable modules installed in a Y-cable module tray. Tools/Equipment Fiber-optic cables Cisco Transport Planner Internal Connections Report Prerequisite Procedures Required/As Needed As needed...
  • Page 51 None Procedure Step 1 Referring to the Cisco Transport Planner Internal Connections Report, install a fiber-optic cable between a TXP, MXP, GE_XP, 10GE_XP, GE_XPE, 10GE_XPE, AR_MXP, AR_XP, or AR_XPE card and a Y-cable module. If you want to protect one client signal or protect two client signals using a single Y-cable module, connect the fiber-optic cables according to the following tables.
  • Page 52 Y-cable modules to the client devices. Tools/Equipment Fiber-optic cables (4-meter [13.12-foot]), single-mode or multimode as appropriate Cisco Transport Planner Internal Connections Report NTP-G179 Installing the Transponder and Muxponder Cards Prerequisite Procedures As needed Required/As Needed...
  • Page 53 DLP-G376 Installing Fiber-Optic Cables on the Y-Cable Modules in the Y-Cable Module Tray Step 3 Referring to the Cisco Transport Planner Internal Connections Report, install a 4-meter (13.12-foot) fiber-optic cable (single-mode or multimode, as appropriate) between a TXP, MXP, GE_XP, 10GE_XP, GE_XPE, or 10GE_XPE card and the Y-cable module installed farthest to the left.
  • Page 54 As you route each cable through the tray, make sure that adequate cable slack remains. Step 4 Referring to the Cisco Transport Planner Internal Connections Report, install a fiber-optic cable of adequate length (single-mode or multimode, as appropriate) between the Y-cable module and the client signal that you want to protect.
  • Page 55 Turning Up a Node NTP-G39 Verifying OSCM Transmit Power Prerequisite Procedures • DLP-G46 Log into CTC • NTP-G37 Running Automatic Node Setup Required/As Needed Required Onsite/Remote Onsite or remote Security Level Superuser only Procedure Step 1 Disable automatic laser shutdown (ALS) on Side A or (for terminal nodes) the terminal side OSCM or OSC-CSM card: a) In the node view (single-shelf mode) or shelf view (multishelf mode), double-click the Side A or terminal-side OSCM or OSC-CSM card.
  • Page 56 Turning Up a Node DLP-G314 Verifying OSCM Transmit Power DLP-G314 Verifying OSCM Transmit Power Purpose This task verifies that the transmit power of the OSCM card is correct. Tools/Equipment None DLP-G46 Log into CTC Prerequisite Procedures Required/As Needed Required Onsite/Remote Onsite or remote Security Level Superuser only...
  • Page 57 Turning Up a Node NTP-G211 Provisioning Node to Send SNMPv3 Traps Prerequisite Procedures • DLP-G46 Log into CTC • NTP-G22 Verifying Common Card Installation Required/As Needed Required if you want to implement SNMPv3 on your network. Onsite/Remote Onsite or remote Security Level Provisioning or higher Procedure...
  • Page 58 Turning Up a Node NTP-G212 Manually Provisioning a GNE/ENE to Manage an ENE using SNMPv3 Step 2 Complete the following tasks as required: • DLP-G496 Creating an SNMPv3 User Using CTC, on page 62 • DLP-G498 Create Group Access Using CTC, on page 63 •...
  • Page 59 Turning Up a Node NTP-G213 Automatically Provisioning a GNE to Manage an ENE using SNMPv3 • DLP-G497 Create MIB Views Using CTC, on page 63 Step 7 Complete the DLP-G502 Manually Configuring the SNMPv3 Proxy Forwarder Table, on page 67. Use the context engine ID from Step 3, the local user details created in...
  • Page 60 Turning Up a Node NTP-G214 Manually Provisioning a GNE/ENE to Send SNMPv3 Traps using SNMPv3 NTP-G214 Manually Provisioning a GNE/ENE to Send SNMPv3 Traps using SNMPv3 This procedure describes how to manually configure the GNE/ENE to allow Purpose an ENE to send SNMPv3 traps to the NMS. Tools/Equipment None •...
  • Page 61 Turning Up a Node NTP-G215 Automatically Provisioning a GNE/ENE to Send SNMPv3 Traps Using SNMPv3 Stop. You have completed this procedure. NTP-G215 Automatically Provisioning a GNE/ENE to Send SNMPv3 Traps Using SNMPv3 Purpose This procedure describes how to automatically configure the GNE/ENE to allow an ENE to send SNMPv3 traps to the NMS.
  • Page 62 This procedure creates an SNMPv3 user. Tools/Equipment None • DLP-G46 Log into CTC Prerequisite Procedures • "Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series • DLP-G498 Create Group Access Using CTC, on page 63 Required/As Needed As needed...
  • Page 63 DLP-G497 Create MIB Views Using CTC Purpose This procedure creates an SNMPv3 MIB view. Tools/Equipment None Prerequisite Procedures "Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series • DLP-G46 Log into CTC Required/As Needed As needed...
  • Page 64 Turning Up a Node DLP-G498 Create Group Access Using CTC Prerequisite Procedures "Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series • DLP-G46 Log into CTC Required/As Needed As needed Onsite/Remote Onsite Security Level...
  • Page 65 DLP-G499 Configure SNMPv3 Trap Destination Using CTC DLP-G499 Configure SNMPv3 Trap Destination Using CTC Purpose This procedure configures SNMPv3 trap destination. Tools/Equipment None "Login to CTC" in System Setup and Software Installation Guide for Cisco Prerequisite Procedures NCS 4000 Series Required/As Needed As needed Onsite/Remote...
  • Page 66 Turning Up a Node DLP-G500 Deleting SNMPv3 Trap Destination DLP-G500 Deleting SNMPv3 Trap Destination Purpose This procedure deletes an SNMPv3 trap destination. Tools/Equipment None DLP-G46 Log into CTC Prerequisite Procedures Required/As Needed As needed Onsite/Remote Onsite Security Level Provisioning or higher Procedure Step 1 In node view, click the Provisioning >...
  • Page 67 DLP-G502 Manually Configuring the SNMPv3 Proxy Forwarder Table Purpose This procedure creates an entry in the SNMPv3 Proxy Forwarder Table. Tools/Equipment None Prerequisite Procedures Login to CTC in System Setup and Software Installation Guide for Cisco NCS 4000 Series. Required/As Needed As needed Onsite/Remote Onsite...
  • Page 68 DLP-G503 Automatically Configuring the SNMPv3 Proxy Forwarder Table This procedure creates an entry in the SNMPv3 Proxy Forwarder Table. Purpose Tools/Equipment None Prerequisite Procedures Login to CTC in System Setup and Software Installation Guide for Cisco NCS 4000 Series. As needed Required/As Needed Onsite/Remote Onsite...
  • Page 69 Turning Up a Node DLP-G504 Manually Configuring the SNMPv3 Proxy Trap Forwarder Table • Proxy Type—Select the type of proxies to be forwarded. The options are Read and Write. • Security Level—Select the security level for the incoming requests that are to be forwarded. The options are: •...
  • Page 70 Purpose This procedure creates an entry in the SNMPv3 Proxy Trap Forwarder Table automatically. Tools/Equipment None Prerequisite Procedures Login to CTC in System Setup and Software Installation Guide for Cisco NCS 4000 Series. As needed Required/As Needed Onsite/Remote Onsite Security Level...
  • Page 71 Turning Up a Node DLP-G789 Enable RSVP on an Interface Procedure Step 1 In network view, click Provisioning > SNMPv3 tabs. Step 2 In the SNMPv3 Proxy Server area, complete the following: • From the GNE drop-down list, choose the GNE to be used as the SNMPv3 proxy server. •...
  • Page 72 Mode. • From the Local Interfaces drop-down list, choose an interface. • From the Interfaces Configuration area, select the UnNumbered radio button for NCS 4000 node or Numbered radio button for Cisco CRS. Step 4 Click Next.
  • Page 73 Turning Up a Node NTP-G355 Provisioning OTDR • From the Alien Wavelength drop-down list, choose the required wavelength. Select Trunk 100G or 200G for 100GS-CK-LC and 200G-CK-LC cards. • From the FEC drop-down list, choose the required FEC type. Step 9 In the Alien wavelength pane, click Finish.
  • Page 74 Stop. You have completed this procedure. DLP-G793 Configuring Common OTDR Parameters for OTDR Scan Purpose (Cisco NCS 2006, NCS 2015, NCS 2002) This task lets you configure common OTDR pa scan on TNCS-O and TNCS-2O cards. Tools/Equipment TNCS-O or TNCS-2O card •...
  • Page 75 Step 11 Return to your originating procedure (NTP). DLP-G782 Configuring OTDR Port Values (Cisco NCS 2006, NCS 2015, NCS 2002) This task configures the OTDR port values Purpose TNCS-2O cards for each sector required for an OTDR scan. TNCS-O or TNCS-2O card...
  • Page 76 Turning Up a Node DLP-G782 Configuring OTDR Port Values Procedure Step 1 In the node view, click Provisioning > WDM-ANS > OTDR > Side. Step 2 Select the port to be configured for the OTDR scan from the OTDR Position drop-down list. The OTDR Position drop-down list displays two PPM port listing for each TNCS-O and TNCS-2O Note card in the node.
  • Page 77 Turning Up a Node DLP-G782 Configuring OTDR Port Values The Capture End Point value (length of the fiber span for OTDR scan) is defined automatically for Note the Auto mode sector. The other values for the scan (Pulse Width, Measure Time, and Resolution) are then configured accordingly.
  • Page 78 Step 7 Click Apply. Step 8 Return to your originating procedure (NTP). DLP-G783 Provisioning OTDR Scan Recurrence (Cisco NCS 2006, NCS 2015, NCS 2002) This task lets you provision OTDR scan recurr Purpose TNCS-2O cards. TNCS-O or TNCS-2O card Tools/Equipment Prerequisite Procedures •...
  • Page 79 Turning Up a Node DLP-G783 Provisioning OTDR Scan Recurrence Procedure Step 1 In the node view, click Provisioning > WDM-ANS > OTDR > Side > Recurrence. Step 2 From the OTDR Position drop-down list, select the port on which you want to provision a recurring scan. Step 3 Equipment Insertion Loss for OTDR (Display only) Displays the sum of insertion loss caused by the amplifiers and patchcords for OTDR port in each direction.
  • Page 80 Turning Up a Node DLP-G784 Configuring Threshold Values for OTDR Scan DLP-G784 Configuring Threshold Values for OTDR Scan Purpose (Cisco NCS 2006, NCS 2015, NCS 2002) This task configures the threshold values for O TNCS-2O cards. Tools/Equipment TNCS-O or TNCS-2O card Prerequisite Procedures •...
  • Page 81 • OTDR-BASELINE-A-EXCEEDED-TX • OTDR-BASELINE-A-EXCEEDED-RX • OTDR-BASELINE-R-EXCEEDED-TX • OTDR-BASELINE-R-EXCEEDED-RX For more information on the OTDR alarms, see Cisco NCS 2000 Series Troubleshooting Guide, Release 10.x.x Step 5 Enter the absolute ORL threshold values in the TX and RX directions. The following alarms are raised when the scan results for ORL exceeds the threshold values: •...
  • Page 82 Turning Up a Node DLP-G784 Configuring Threshold Values for OTDR Scan Turning Up a Node...

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