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Cisco ONS 15600 Reference Manual
Product and Documentation Release 6.0
Last Updated: October 2008
Corporate Headquarters
Cisco Systems, Inc.
170 West Tasman Drive
San Jose, CA 95134-1706
USA
http://www.cisco.com
Tel: 408 526-4000
800 553-NETS (6387)
Fax: 408 526-4100
Text Part Number: 78-16899-01

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  • Page 1

    Cisco ONS 15600 Reference Manual Product and Documentation Release 6.0 Last Updated: October 2008 Corporate Headquarters Cisco Systems, Inc. 170 West Tasman Drive San Jose, CA 95134-1706 http://www.cisco.com Tel: 408 526-4000 800 553-NETS (6387) Fax: 408 526-4100 Text Part Number: 78-16899-01...

  • Page 2

    You can determine whether your equipment is causing interference by turning it off. If the interference stops, it was probably caused by the Cisco equipment or one of its peripheral devices. If the equipment causes interference to radio or television reception, try to correct the interference by using one or more of the following measures: •...

  • Page 3: Table Of Contents

    1.8 Power Distribution Unit 1-13 1.9 Power and Ground Description 1-13 1.10 Fan-Tray Assembly 1-15 1.10.1 Air Filter 1-15 1.10.2 Fan Speed and Failure 1-16 1.11 Cards and Slots 1-17 1.11.1 Card Slot Requirements 1-17 Cisco ONS 15600 Reference Manual, R6.0...

  • Page 4

    2.6.4 OC192/STM64 LR/LH 4 Port 1550 Network-Level Indicators 2-16 2.6.5 OC192/STM64 LR/LH 4 Port 1550 Card OGI Connector Pinout 2-16 2.7 OC192/STM64 SR/SH 4 Port 1310 Card 2-17 2.7.1 OC192/STM64 SR/SH 4 Port 1310 Slots and Connectors 2-17 Cisco ONS 15600 Reference Manual, R6.0...

  • Page 5

    4.4.1 Legal Disclaimer 4.4.2 Login Node Group 4.5 CTC Window 4.5.1 Node View 4.5.1.1 CTC Card Colors 4.5.1.2 Node View Card Shortcuts 4.5.1.3 Node View Tabs 4.5.2 Network View 4-10 4.5.3 Card View 4-12 Cisco ONS 15600 Reference Manual, R6.0...

  • Page 6

    7.2.5 Circuit Information in the Edit Circuit Window 7.3 Cross-Connect Card Bandwidth 7-11 7.4 DCC Tunnels 7-11 7.4.1 Traditional DCC Tunnels 7-11 7.4.2 IP-Encapsulated Tunnels 7-12 7.5 Multiple Destinations for Unidirectional Circuits 7-12 7.6 Path Protection Circuits 7-12 Cisco ONS 15600 Reference Manual, R6.0...

  • Page 7

    9.2.1 Scenario 1: CTC and ONS 15600s on the Same Subnet 9.2.2 Scenario 2: CTC and ONS 15600s Connected to Router 9.2.3 Scenario 3: Using Proxy ARP to Enable an ONS 15600 Gateway 9.2.4 Scenario 4: Default Gateway on CTC Computer 9.2.5 Scenario 5: Using Static Routes to Connect to LANs...

  • Page 8

    Contents 9.2.6 Scenario 6: Using OSPF 9.2.7 Scenario 7: Provisioning the ONS 15600 Proxy Server 9-11 9.2.7.1 Firewall Not Enabled 9-12 9.2.7.2 Firewall Enabled 9-15 9.2.8 Scenario 8: Dual GNEs on a Subnet 9-17 9.3 Provisionable Patchcords 9-19 9.4 Routing Table 9-20 9.5 External Firewalls...

  • Page 9

    11.4 Alarm Filter 11-12 11.5 Alarm Suppression 11-12 11.6 External Alarms and Controls 11-13 11.6.1 External Alarm Input 11-13 11.6.2 External Control Output 11-13 11.6.3 Virtual Wires for External Alarms in Mixed Networks 11-14 Cisco ONS 15600 Reference Manual, R6.0...

  • Page 10

    B.3 Service State Transitions B.3.1 Card Service State Transitions B.3.2 Port and Cross-Connect Service State Transitions Network Element Defaults A P P E N D I X C.1 Network Element Defaults Description C.2 Card Default Settings Cisco ONS 15600 Reference Manual, R6.0...

  • Page 11

    Contents C.2.1 OC192_4 Card Default Settings C.2.2 OC48_16 Card Default Settings C.2.3 ASAP Card Default Settings C-11 C.3 Node Default Settings C-24 C.3.1 Time Zones C-29 C.4 CTC Default Settings C-32 Cisco ONS 15600 Reference Manual, R6.0...

  • Page 12: Cisco Ons 15600 Reference Manual,

    Contents Cisco ONS 15600 Reference Manual, R6.0...

  • Page 13

    Laser Warning Label Figure 1-5 Plastic Rear Cover Figure 1-6 PDU Bus Bar Cover Figure 1-7 Rear of the ONS 15600, Including the CAP Figure 1-8 CAP Faceplate and Connections Figure 1-9 Alarm Pin Assignments on the CAP 1-11 Figure 1-10...

  • Page 14

    CTC Card View Showing an OC-192 Card 4-13 Figure 6-1 ONS 15600 Timing Example Figure 7-1 ONS 15600 Circuit Window in Network View Figure 7-2 Path Protection Circuit on the Edit Circuit Window Figure 7-3 Detailed Circuit Map Showing a Terminal Loopback...

  • Page 15

    ONS 15600 Proxy Server with GNE and ENEs on the Same Subnet 9-13 Figure 9-11 Scenario 7: ONS 15600 Proxy Server with GNE and ENEs on Different Subnets 9-14 Figure 9-12 Scenario 7: ONS 15600 Proxy Server With ENEs on Multiple Rings...

  • Page 16

    Alarm Profiles Window Showing the Default Profiles of Listed Alarms 11-10 Figure 11-6 Alarm Profile on an OC48 Card 11-12 Figure 11-7 Virtual Wires Seen from an ONS 15600 11-14 Figure 11-8 Virtual Wires Seen from an ONS 15454 11-15 Cisco ONS 15600 Reference Manual, R6.0...

  • Page 17

    Table 1-3 Card Ports and Line Rates 1-18 Table 2-1 ONS 15600 Cards and Descriptions Table 2-2 ONS 15600 Software Release Compatibility Per Card Table 2-3 TSC Card-Level Indicators Table 2-4 TSC Network-Level Indicators Table 2-5 TSC Card Push-Button Switches...

  • Page 18

    9-16 Table 9-4 Proxy Server Firewall Filtering Rules When Packet Addressed to ONS 15600 9-16 Table 9-5 ONS 15600 and ONS 15454 Client and Trunk Card Combinations in Provisionable Patchcords 9-20 Table 9-6 Sample Routing Table Entries 9-21 Table 9-7...

  • Page 19

    Power and Noise Limited Performances A-14 Table A-14 Single-Mode Fiber SFP Port Cabling Specifications A-14 Table B-1 ONS 15600 Service State Primary States and Primary State Qualifiers Table B-2 ONS 15600 Secondary States Table B-3 ONS 15600 Administrative States Table B-4...

  • Page 20

    Tables Table C-6 CTC Default Settings C-32 Cisco ONS 15600 Reference Manual, R6.0 xviii...

  • Page 21: About This Manual

    The terms "Unidirectional Path Switched Ring" and "UPSR" may appear in Cisco literature. These terms Note do not refer to using Cisco ONS 15xxx products in a unidirectional path switched ring configuration. Rather, these terms, as well as "Path Protected Mesh Network" and "PPMN," refer generally to Cisco's path protection feature, which may be used in any topological network configuration.

  • Page 22: Table

    Use the manual in conjunction with the appropriate publications listed in the Related Documentation section. Audience To use this reference manual you should be familiar with Cisco or equivalent optical transmission equipment. Document Organization Table 1 Cisco ONS 15600 Reference Guide Chapters...

  • Page 23: Related Documentation

    Cisco ONS SONET TL1 Command Guide Provides a full TL1 command and autonomous message set including parameters, AIDs, conditions and modifiers for the Cisco ONS 15454, ONS 15327, ONS 15600 and ONS 15310-CL systems. Cisco ONS SONET TL1 Reference Guide •...

  • Page 24

    Tämä varoitusmerkki merkitsee vaaraa. Tilanne voi aiheuttaa ruumiillisia vammoja. Ennen kuin käsittelet laitteistoa, huomioi sähköpiirien käsittelemiseen liittyvät riskit ja tutustu onnettomuuksien yleisiin ehkäisytapoihin. Turvallisuusvaroitusten käännökset löytyvät laitteen mukana toimitettujen käännettyjen turvallisuusvaroitusten joukosta varoitusten lopussa näkyvien lausuntonumeroiden avulla. SÄILYTÄ NÄMÄ OHJEET Cisco ONS 15600 Reference Manual, R6.0 xxii...

  • Page 25

    Utilize o número da instrução fornecido ao final de cada aviso para localizar sua tradução nos avisos de segurança traduzidos que acompanham este dispositivo. GUARDE ESTAS INSTRUÇÕES Cisco ONS 15600 Reference Manual, R6.0 xxiii...

  • Page 26

    Använd det nummer som finns i slutet av varje varning för att hitta dess översättning i de översatta säkerhetsvarningar som medföljer denna anordning. SPARA DESSA ANVISNINGAR Cisco ONS 15600 Reference Manual, R6.0 xxiv...

  • Page 27

    Brug erklæringsnummeret efter hver advarsel for at finde oversættelsen i de oversatte advarsler, der fulgte med denne enhed. GEM DISSE ANVISNINGER Cisco ONS 15600 Reference Manual, R6.0...

  • Page 28

    About this Manual Cisco ONS 15600 Reference Manual, R6.0 xxvi...

  • Page 29

    Where to Find Safety and Warning Information For safety and warning information, refer to the Cisco Optical Transport Products Safety and Compliance Information document that accompanied the product. This publication describes the international agency compliance and safety information for the Cisco ONS 15454 system. It also includes translations of the safety warnings that appear in the ONS 15454 system documentation.

  • Page 30: Obtaining Documentation And Submitting A Service Request

    Obtaining Documentation and Submitting a Service Request For information on obtaining documentation, submitting a service request, and gathering additional information, see the monthly What’s New in Cisco Product Documentation, which also lists all new and revised Cisco technical documentation, at: http://www.cisco.com/en/US/docs/general/whatsnew/whatsnew.html...

  • Page 31: Figure 1-12 Fan-tray Assembly

    The ONS 15600 is a Network Equipment Building System III (NEBS III)-compliant, environmentally hardened shelf assembly that ships as a single shelf in a bay assembly for Release 6.0. The ONS 15600 comes with the power distribution unit (PDU), shelf, fans, and backplane already installed. The front...

  • Page 32: Bay Installation

    SC, ST, and FC. Fiber optic cables are routed to the front of the OC-N cards. The ONS 15600 is powered using –48 VDC power but may range from –40.5 to –72 VDC. Input power is accessible from the sides of the bay, and output power is accessible at the rear of the bay. Cisco supports dual office-power feeds only.

  • Page 33: Figure 1-1 Ons 15600 With Dollies Installed

    ONS 15600 with Dollies Installed The ONS 15600 shelf measures 25 inches high, 19-9/16 inches wide, and 23 inches deep (63.5 cm H x 49.7 cm W x58.3 cm D). A maximum of three ONS 15600s can fit in a custom seven-foot equipment rack.

  • Page 34: Figure 1-2 Ons 15600 Front Door

    ESD jack You can remove the front door of the ONS 15600 to provide unrestricted access to the front of the shelf. A label is pasted in a box in the center of the swing-down door that covers the fiber routers (Figure 1-3).

  • Page 35: Figure 1-3 Bay Label

    Laser Warning Label 1.4 Rear Covers The ONS 15600 has an optional plastic rear cover that is held in place with six 6-32 x 3/8 inch Phillips screws. This plastic cover provides additional protection for the cables and connectors on the backplane (Figure 1-5).

  • Page 36: Figure 1-5 Plastic Rear Cover

    Chapter 1 Shelf and Backplane Hardware 1.4 Rear Covers Figure 1-5 Plastic Rear Cover Figure 1-6 shows the bus bar covers. Cisco ONS 15600 Reference Manual, R6.0...

  • Page 37: Figure 1-6 Pdu Bus Bar Cover

    Metric connectors with 752 pins and is held in place with one large captive bolt and multiple screws. Figure 1-7 shows the location of the CAP on the back of the shelf. Only T1 (100 ohm) building integrated timing supply (BITS) is supported in Software R6.0. Note Cisco ONS 15600 Reference Manual, R6.0...

  • Page 38: Figure 1-7 Rear Of The Ons 15600, Including The Cap

    Chapter 1 Shelf and Backplane Hardware 1.6 Customer Access Panel Figure 1-7 Rear of the ONS 15600, Including the CAP The ONS 15600 CAP provides the following: BITS T1 (100 ohm) interfaces via wire-wrap pins. • Two Ethernet interfaces via RJ-45 connectors with internal transformer isolation.

  • Page 39: Figure 1-8 Cap Faceplate And Connections

    If the CAP fails, the node raises an EQPT alarm. You can replace the CAP on an in-service system without affecting traffic. To replace a CAP, refer to the Cisco ONS 15600 Troubleshooting Guide. Always replace the CAP during a maintenance window.

  • Page 40: Alarm, Timing, Lan, And Craft Pin Connections

    The ONS 15600 has a backplane pin field located at the bottom rear of the shelf that is part of the CAP. The CAP provides 0.045 square inch (0.290 square centimeter) wire-wrap pins for enabling alarm inputs and outputs and timing input and output.

  • Page 41: Alarm Cutoff And Pdu Alarms

    The PDU Alarm connection controls the visual alarm indicators on the front of the PDU. You can also activate the alarm cutoff (ACO) function by pressing the ACO button on the TSC card faceplate. The ACO function extinguishes all audible alarm indications, but the alarm is still raised in Cisco Transport Controller (CTC).

  • Page 42: Lan Installation

    1.7.3 LAN Installation Use a straight-through LAN cable with the LAN port on the ONS 15600 CAP to connect the ONS 15600 to a hub, switch, or a LAN modem for remote access to the node. Use a crossover cable when connecting the CAP to a workstation.

  • Page 43: Power Distribution Unit

    The PDU consists of a mounting chassis, A- and B-side power modules, an alarm module, and a rear I/O unit. The ONS 15600 PDU has LEDs that alert you to Critical, Major, Minor, and remote alarms on the node. Each module can support three 100A input power feeds, 48 VDC power load (based on a fully loaded ONS 15600 shelf).

  • Page 44: Figure 1-11 Front And Rear Bay Ground Holes

    The battery return connection is treated as DC-I, as defined in Telcordia GR-1089-CORE, issue 3 • The ONS 15600 shelf has redundant –48 VDC power terminals on its backplane. The terminals are labeled A FEEDS and B FEEDS and are located at the top left and right sides of the shelf behind clear plastic covers.

  • Page 45: Fan-tray Assembly

    Figure 1-12 Fan-Tray Assembly 1.10.1 Air Filter The ONS 15600 contains a reusable air filter that is made of an open-cell polyurethane foam that is flame retardant and fungi resistant. The air filter is located above the three fan trays (Figure 1-13).

  • Page 46: Figure 1-13 Air Filter And One Fan Tray Pulled Out

    CTC software will shut down one of the single shelf cross-connect (SSXC) cards. The ONS 15600 requires at least one working fan in each of the three fan trays. When a single fan in a Caution tray fails, Cisco recommends replacing the tray with a fully working tray as soon as possible.

  • Page 47: Table 1-1 Power Requirements For An Individual Fan

    1.11.1 Card Slot Requirements The ONS 15600 shelf has 14 card slots numbered sequentially from left to right. Slots 1 to 4 and 11 to 14 are reserved for optical (OC-N) traffic cards. These slots can host any of the ONS 15600 optical cards.

  • Page 48: Ogi Cables

    OC192/STM64 SR/SH 4 Port 1310 totalling 4 OC-192 ports per card 1.11.2 OGI Cables The ONS 15600 faceplate has OGI connectors that terminate in either SC, ST, or FC connectors. Figure 1-14 shows the OGI to SC cable breakout for the OC-48 card.

  • Page 49: Optical Card Cable Routing

    1.11.4 Card Replacement To replace an ONS 15600 card with another card of the same type, you do not need to make any changes to the database; remove the old card and replace it with a new card. You can use the CTC Change Card feature to replace a card with a new card while maintaining all existing provisioning.

  • Page 50

    Note card is deleted in CTC first. The alarm will clear after the card replacement is complete. If the alarm does not clear, refer to the Cisco ONS 15600 Troubleshooting Guide “Alarm Troubleshooting” chapter for more information. Cisco ONS 15600 Reference Manual, R6.0...

  • Page 51: Card Reference

    ESD jack located on the lower-left outside edge of the shelf assembly. 2.1.1 Card Summary Table 2-1 lists the ONS 15600 cards and provides a short description of and cross-reference to each. Table 2-1 ONS 15600 Cards and Descriptions...

  • Page 52: Card Compatibility

    2-24. 2.1.2 Card Compatibility Table 2-2 lists Cisco Transport Controller (CTC) software release compatibility for each card. In Table 2-2, “Yes” means the cards are compatible with the listed software versions. Table cells with dashes mean cards are not compatible with the listed software versions.

  • Page 53: Tsc Card

    “A.2.1 TSC Card Specifications” section on page A-5. Note Do not operate the ONS 15600 with an unprotected, single TSC card or a single SSXC card installed. Caution Always operate the shelf with one active card and one protect card for each of these control cards.

  • Page 54: Tsc Faceplate And Block Diagram

    CR, MJ, MN visual alarm 16 x alarm inputs 16 x alarm outputs Lamp test Mate LAN Mate control BITS 1 12 x STS-3 BITS 2 8 x line clock Mate timing control LAMP TEST RESET Cisco ONS 15600 Reference Manual, R6.0...

  • Page 55: Tsc Card-level Indicators

    ACO button, the amber ACO LED turns on. The ACO button opens the audible closure on the backplane. The ACO state is stopped if a new alarm occurs. After the originating alarm is cleared, the ACO LED and audible alarm control are reset. Cisco ONS 15600 Reference Manual, R6.0...

  • Page 56: Tsc Push-button Switches

    A-6. Note The SSXC is the central element for ONS 15600 switching. The SSXC card establishes connections and performs time division switching (TDS) at STS-1 and STS-Nc levels between ONS 15600 traffic cards. The SSXC card works with the TSC card to maintain connections and set up cross-connects within the ONS 15600.

  • Page 57: Ssxc Slots And Connectors

    Install an SSXC card in Slot 6 and a second SSXC card in Slot 8 for redundancy. (Slots 7 and 9 are also occupied by the SSXC faceplates.) The SSXC card has no external interfaces. All SSXC card interfaces are provided on the ONS 15600 backplane. 2.3.3 SSXC Faceplate and Block Diagram Figure 2-2 shows the SSXC card faceplate and a block diagram of the card.

  • Page 58: Ssxc Card-level Indicators

    You can install OC48/STM16 LR/LH 16 Port 1550 cards in Slots 1 through 4 and 11 through 14. The card provides four bidirectional OGI-type connector adapters on the faceplate (angled downward), each carrying eight fiber strands (four transmit and four receive). Cisco ONS 15600 Reference Manual, R6.0...

  • Page 59: Oc48/stm16 Lr/lh 16 Port 1550 Faceplate And Block Diagram

    OC48/STM16 LR/LH 16 Port 1550 Faceplate and Block Diagram OC48/STM16 LR/LH 16 PORT 1550 STAT LASER ON C-STS-48 copy 0 OC48 C-STS-48 copy 1 16 x OC-48 16 x OC-48 C-STS-48 copy 0 C-STS-48 copy 1 Cisco ONS 15600 Reference Manual, R6.0...

  • Page 60: Oc48/stm16 Lr/lh 16 Port 1550 Card-level Indicators

    Receive 1 Transmit 8 Receive 8 Transmit 7 Receive 7 Transmit 6 Receive 6 Transmit 5 Receive 5 Transmit 12 Receive 12 Transmit 11 Receive 11 Transmit 10 Receive 10 Transmit 9 Receive 9 Cisco ONS 15600 Reference Manual, R6.0 2-10...

  • Page 61: Oc48/stm16 Sr/sh 16 Port 1310 Card

    You can install OC48/STM16 SR/SH 16 Port 1310 cards in Slots 1 through 4 and 11 through 14. The card provides four bidirectional OGI-type connector adapters on the faceplate (angled downward), each carrying eight fiber strands (four transmit and four receive). Cisco ONS 15600 Reference Manual, R6.0 2-11...

  • Page 62: Oc48/stm16 Sr/sh 16 Port 1310 Faceplate And Block Diagram

    OC48/STM16 SR/SH 16 Port 1310 Faceplate and Block Diagram OC48/STM16 SR/SH 16 PORT 1310 STAT LASER ON C-STS-48 copy 0 OC48 C-STS-48 copy 1 16 x OC-48 16 x OC-48 C-STS-48 copy 0 C-STS-48 copy 1 Cisco ONS 15600 Reference Manual, R6.0 2-12...

  • Page 63: Oc48/stm16 Sr/sh 16 Port 1310 Card-level Indicators

    OGI Pin and Card Port Transmit 4 Receive 4 Transmit 3 Receive 3 Transmit 2 Receive 2 Transmit 1 Receive 1 Transmit 8 Receive 8 Transmit 7 Receive 7 Transmit 6 Receive 6 Transmit 5 Receive 5 Cisco ONS 15600 Reference Manual, R6.0 2-13...

  • Page 64: Oc192/stm64 Lr/lh 4 Port 1550 Card

    (one transmit and one receive). Only one transmit and receive pair is used per connector adapter. On a breakout cable, use port three, fiber 4 (transmit) and fiber 3 (receive). Cisco ONS 15600 Reference Manual, R6.0 2-14...

  • Page 65: Oc192/stm64 Lr/lh 4 Port 1550 Faceplate And Block Diagram

    STAT LASER ON C-STS-48 copy A OC192 C-STS-48 copy B 4 x OC-192 4 x OC-192 C-STS-48 copy A C-STS-48 copy B Note: Each C-STS-192 is split into four C-STS-48s for cross-connect purposes. Cisco ONS 15600 Reference Manual, R6.0 2-15...

  • Page 66: Oc192/stm64 Lr/lh 4 Port 1550 Card-level Indicators

    OGI Pin and Card Port — — Transmit 1 Receive 1 — — — — — — Transmit 2 Receive 2 — — — — — — Transmit 3 Receive 3 — — — — Cisco ONS 15600 Reference Manual, R6.0 2-16...

  • Page 67: Oc192/stm64 Sr/sh 4 Port 1310 Card

    (one transmit and one receive). Only one transmit and receive pair is used per connector adapter. On a breakout cable, use port three, fiber 4 (transmit) and fiber 3 (receive). Cisco ONS 15600 Reference Manual, R6.0 2-17...

  • Page 68: Oc192/stm64 Sr/sh 4 Port 1310 Faceplate And Block Diagram

    STAT LED Indicates a hardware fault; this LED is off during normal operation. Replace the unit if the STAT LED persists. During diagnostics, the LED flashes quickly during initialization and slowly during configuration synchronization. Cisco ONS 15600 Reference Manual, R6.0 2-18...

  • Page 69: Oc192/stm64 Sr/sh 4 Port 1310 Network-level Indicators

    Transmit 3 Receive 3 — — — — — — Transmit 4 Receive 4 — — — — 2.8 ASAP Card For hardware specifications, see the “A.2.7 ASAP Specifications” section on page A-11. Note Cisco ONS 15600 Reference Manual, R6.0 2-19...

  • Page 70: Asap Connectors

    2.8.2 ASAP Covers and Plugs The covers and plugs that are shipped with the ASAP carrier card, 4PIO/PIMs, and SFPs must be used in configurations where less than four 4PIO/PIMs or 16 SFPs are installed Cisco ONS 15600 Reference Manual, R6.0 2-20...

  • Page 71: Asap Card Faceplate And Block Diagram

    PLDs ASAP CC 1 16xSFP 4xASAP 4PIO ASAP CC 2 ASAP 16xSFP 4xASAP 4PIO ASAP CC 3 4P IO 16xSFP 4xASAP 4PIO ASAP CC 7 CP 1 16xSFP 4xASAP 4PIO ASAP CC 8 Cisco ONS 15600 Reference Manual, R6.0 2-21...

  • Page 72: 4pio Module Faceplate

    2.8.6 ASAP Card Port-Level Indicators Table 2-21 describes the functions of the port-level LEDs (numbered 1 through 4) on the 4PIO modules, depending on whether the port is configured for SONET or Ethernet. Cisco ONS 15600 Reference Manual, R6.0 2-22...

  • Page 73: Table 2-21 Asap (4pio Module) Port-level Indicators

    Amber indicates that the link has an issue inhibiting traffic, such as a signal error, or disabled port. Indicates a signal failure. Indicates a signal failure. Indicates that the port is unprovisioned. Indicates that there is no link. Cisco ONS 15600 Reference Manual, R6.0 2-23...

  • Page 74: Asap Card Port Numbering

    A-12. Note The Filler card is used to fill unused optical (OC-N) traffic card slots in the ONS 15600 shelf. In Software Release 1.1 and later, the Filler card has a card presence indicator (CPI) that allows the shelf to report the presence of the filler card to CTC. The Filler card uses dummy backplane connectors and a standard faceplate to secure the card in the empty shelf slot.

  • Page 75: Sfp (ppm) Modules

    2.10 SFP (PPM) Modules This section describes the SFPs that provide the fiber interface to the ONS 15600 ASAP card. A line rate (OC-3, OC-12, OC-48, or Gigabit Ethernet) must be assigned to each SFP (PPM) in the CTC software interface.

  • Page 76: Sfp (ppm) Description

    Chapter 2 Card Reference 2.10.2 SFP (PPM) Description Use only SFPs certified for use in Cisco Optical Networking Systems. The qualified Cisco SFP Caution pluggable module’s top assembly numbers (TANs) are provided in Table 2-22. Table 2-22 SFP (PPM) Compatibility...

  • Page 77: Figure 2-12 Actuator/button Sfp

    Chapter 2 Card Reference 2.10.2 SFP (PPM) Description Figure 2-12 Actuator/Button SFP Figure 2-13 Bail Clasp SFP Cisco ONS 15600 Reference Manual, R6.0 2-27...

  • Page 78

    Chapter 2 Card Reference 2.10.2 SFP (PPM) Description Cisco ONS 15600 Reference Manual, R6.0 2-28...

  • Page 79: Chapter 3 Card Protection

    • 3.1 Optical Port Protection When you set up protection for ONS 15600 cards, you must choose between maximum protection and maximum port availability. The highest protection reduces the number of available ports; the highest port availability reduces the protection.

  • Page 80

    Note protection or bidirectional line switched ring (BLSR) protection scheme. Because there are no electrical cards in the ONS 15600, 1:1 or 1:N protection is not provided. Note Figure 3-1 shows an example of the ONS 15600 in a maximum protection, 1+1 protected configuration.

  • Page 81: Unprotected Ports

    Figure 3-2 ONS 15600 in an Unprotected Configuration Working OC-N SSXC SSXC TSC Working OC-N 3.3 External Switching Commands The external switching commands on the ONS 15600 are Manual, Force, Lock out, and Lock on. Cisco ONS 15600 Reference Manual, R6.0...

  • Page 82

    1+1 configuration is to apply a lock on to the working port. A working port with a lock on applied cannot switch traffic to the protect port in the protection group (pair). Cisco ONS 15600 Reference Manual, R6.0...

  • Page 83: Ctc Software Delivery Methods

    • • 4.8 Software Load Revert, page 4-14 4.1 CTC Software Delivery Methods Use CTC to provision and administer the ONS 15600. CTC is a Java application that is installed in two locations: ONS 15600 TSC card • PCs and UNIX workstations that connect to the ONS 15600 •...

  • Page 84: Ctc Software Installed On The Pc Or Unix Workstation

    4.2 CTC Installation Overview To connect to an ONS 15600 using CTC, enter the ONS 15600 IP address in the URL field of a web browser, such as Netscape Navigator or Microsoft Internet Explorer. After connecting to an ONS 15600, the following events occur automatically: Each ONS 15600 has a unique IP address that you use to access the ONS 15600.

  • Page 85: Pc And Unix Workstation Requirements

    4.3 PC and UNIX Workstation Requirements To use CTC with an ONS 15600, your computer must have a web browser with the correct JRE installed and a modified java.policy file. The correct JRE, Java plug-in, and modified java.policy file for the CTC software release are included on the Cisco ONS 15600 software CD.

  • Page 86: Table 4-1 Minimum Computer Requirements For Ctc

    A direct PC-to-ONS 15600 connection means LAN (CAT-5) cable to connect: your computer is physically connected to the ONS 15600. This is most commonly done by The ONS 15600 to a hub using the • connecting a LAN (CAT-5) straight-through...

  • Page 87: Ctc Login

    This service can be monitored for administrative and security reasons. By proceeding, you consent to this monitoring.” The ONS 15600 allows a user with Superuser privileges to modify the default login warning message and save it to a node using the Provisioning > Security > Legal Disclaimer > HTML tab (Figure 4-2).

  • Page 88: Login Node Group

    Additional Nodes list on the Login window the next time you log in. 4.5 CTC Window The CTC window appears after you log into an ONS 15600. The CTC node view is the first view that appears after you log into an ONS 15600 (Figure 4-3).

  • Page 89: Node View

    4.5.1.1 CTC Card Colors The graphic area of the CTC window depicts the ONS 15600 shelf assembly. The colors of the cards in the graphic reflect the real-time status of the physical card, slot, and port.

  • Page 90

    CTC Conditions tab or by using the TL1 RTRV-COND command. The AINS port will automatically transition to IS-NR when a signal is received for the length of time provisioned in the soak field. Cisco ONS 15600 Reference Manual, R6.0...

  • Page 91: Node View Card Shortcuts

    Allows you to create, delete, edit, and reroute Circuits, Rolls circuits. Provisioning Allows you to provision the ONS 15600 node. General, Network, OSI, BLSR, Protection, Security, SNMP, Comm Channels, Timing, Alarm Profiles, Alarm Extenders, Defaults Cisco ONS 15600 Reference Manual, R6.0...

  • Page 92: Network View

    Network view allows you to view and manage ONS 15600s, ONS 15454s, and ONS 15327s that have DCC connections to the node that you logged into and any login node groups you have selected (Figure 4-6). Cisco ONS 15600 Reference Manual, R6.0 4-10...

  • Page 93

    Selecting a node or span in the graphic area displays information about the node and span in the status area. Table 4-5 Node Status Color Alarm Status Green No alarms Yellow Highest-level alarm is a minor alarm Orange Highest-level alarm is major alarm Highest-level alarm is a critical alarm Cisco ONS 15600 Reference Manual, R6.0 4-11...

  • Page 94: Card View

    For more information about card service states, see Appendix B, “Administrative and Service States.” CTC displays a card view for all ONS 15600 cards except the TSC and Single Shelf Note Cross-Connect (SSXC) cards. Provisioning for these common control cards occurs at the node view;...

  • Page 95

    CTC Card View Showing an OC-192 Card Use the card view tabs and subtabs, shown in Table 4-7, to provision and manage the ONS 15600. The subtabs, fields, and information displayed under each tab depend on the card type selected. Table 4-7...

  • Page 96: Ctc Card Reset

    The Internet Inter-ORB Protocol (IIOP) port is not backed up and restored. Note The ONS 15600 does not allow you to restore a database from one node to another node. You can install a database from one node on another node by using the Configure Node option on the Maintenance >...

  • Page 97: Chapter 5 Security

    5.1 Users IDs and Security Levels When you log in to an ONS 15600 for the first time, you use the CISCO15 user ID, which is provided with every ONS 15600 system. You can use the CISCO15 ID, which has Superuser privileges, to create other ONS 15600 user IDs.

  • Page 98: User Privileges By Security Level

    Active Logins: Logout — — — Policy: Edit — — — Access: Edit — — — RADIUS Server — — — Legal Disclaimer: Edit — — — SNMP Create/Delete/Edit — — Browse trap destinations Cisco ONS 15600 Reference Manual, R6.0...

  • Page 99

    Chapter 5 Security 5.2.1 User Privileges by Security Level Table 5-1 ONS 15600 Security Levels—Node View (continued) CTC Tab Subtab Actions Retrieve Maintenance Provisioning Superuser Provisioning Comm SDCC: Create/Edit/Delete — — Channels LDCC: Create/Edit/Delete — — Timing General: Edit —...

  • Page 100: Security Policies

    5.2.2.1 Idle User Timeout Each ONS 15600 CTC or TL1 user has a specified amount of time to leave the system idle before the CTC window locks. CTC lockouts prevent unauthorized users from making changes. Higher-level users have shorter idle times and lower-level users have longer or unlimited default idle periods, as shown in Table 5-3.

  • Page 101: Superuser Password And Login Privileges

    ID are not allowed. 5.3 Audit Trail The ONS 15600 maintains a GR-839-compliant audit trail log that resides on the TSC card. This record shows who has accessed the system and what operations were performed during a given period of time.

  • Page 102: Audit Trail Log Entries

    Until the user off-loads the file, this event occurs once regardless of the amount of entries that are overwritten by the system. To export the Audit Trail log, refer to the Cisco ONS 15600 Procedure Guide.

  • Page 103: Shared Secrets

    An ONS 15600 node operates as a client of RADIUS. The client is responsible for passing user information to designated RADIUS servers, and then acting on the response that is returned. RADIUS servers are responsible for receiving user connection requests, authenticating the user, and returning all configuration information necessary for the client to deliver service to the user.

  • Page 104

    The stronger your shared secret, the more secure are the attributes (for example, those used for passwords and encryption keys) that are encrypted with it. An example of a strong shared secret is 8d#>9fq4bV)H7%a3. Cisco ONS 15600 Reference Manual, R6.0...

  • Page 105: Chapter 6 Timing

    The BITS (building integrated timing supply) pins on the Customer Access Panel (CAP). • • A port on an OC-N card installed in the ONS 15600. The timing is traceable to a node that receives timing through a BITS source. The internal Stratum 3E clock (ST3E) on the TSC card.

  • Page 106: Network Timing

    6.2 Network Timing Figure 6-1 shows an ONS 15600 network timing example. Node 1 is set to external timing. Two timing references are Stratum 1 timing sources wired to the BITS input pins on the Node 1 backplane. The third reference is set to internal clock.

  • Page 107: Synchronization Status Messaging

    SSM messages are either Generation 1 or Generation 2. Generation 1 is the first and most widely deployed SSM set. Generation 2 is a newer version. If you enable SSM for the ONS 15600, consult your timing reference documentation to determine which message set to use.

  • Page 108: Table 6-2 Ssm Generation 2 Message Set

    Primary reference source—Stratum 1 Syncronization traceability unknown Stratum 2 Transit node clock ST3E Stratum 3E Stratum 3 SONET minimum clock Stratum 4 Do not use for timing synchronization — Reserved; quality level set by user Cisco ONS 15600 Reference Manual, R6.0...

  • Page 109

    In this chapter, “cross-connect” and “circuit” have the following meanings: cross-connect refers to the Note connections that occur within a single ONS 15600 to allow a circuit to enter and exit an ONS 15600. Circuit refers to the series of connections from a traffic source (where traffic enters the ONS 15600 network) to the destination (where traffic exits an ONS 15600 network).

  • Page 110: Overview

    • Provide only protected sources and destinations for circuits. • Define a secondary circuit source or destination that allows you to interoperate an ONS 15600 path • protection with third-party equipment path protection configurations. Set path protection circuits as revertive or nonrevertive.

  • Page 111: Figure 7-1 Ons 15600 Circuit Window In Network View

    You cannot set up VT circuits to terminate on an ONS 15600 node. However, you can create both STS Note and VT circuits that have an ONS 15454 or ONS 15327 source and destination with an ONS 15600 as a pass-through node. For information on VT circuit creation and tunneling, refer to the circuit chapters in the Cisco ONS 15327 Reference Manual and the Cisco ONS 15454 Reference Manual.

  • Page 112: Concatenated Sts Time Slot Assignments

    Circuits and Tunnels 7.2.1 Concatenated STS Time Slot Assignments 7.2.1 Concatenated STS Time Slot Assignments Table 7-1 shows the available time slot assignments for concatenated STSs when using Cisco Transport Controller (CTC) to provision circuits. Table 7-1 STS Mapping Using CTC...

  • Page 113: Table 7-1 Sts Mapping Using Ctc

    Chapter 7 Circuits and Tunnels 7.2.1 Concatenated STS Time Slot Assignments Table 7-1 STS Mapping Using CTC (continued) Starting STS-3c STS-6c STS-9c STS-12c STS-18c STS-24c STS-36c STS-48c STS-192c Cisco ONS 15600 Reference Manual, R6.0...

  • Page 114: Circuit Status

    (in the ONS 15454, the MAC address resides on the AIP; in the ONS 15600, the MAC address resides on the backplane EEPROM). In CTC, circuits are represented using cross-connects and network spans.

  • Page 115: Circuit States

    OOS-AU,AINS service state after a signal is continuously received. When the cross-connects in a circuit are in the OOS-AU,AINS service state, the ONS 15600 monitors the cross-connects for an error-free signal. It changes the state of the circuit from OOS to IS or to OOS-PARTIAL as each cross-connect assigned to the circuit path is completed.

  • Page 116: Circuit Protection Types

    The circuit is protected by a path protection. 7.2.5 Circuit Information in the Edit Circuit Window When Show Detailed Map is checked in the Edit Circuit window, you can view information about ONS 15600 circuits. Routing information includes: Circuit direction (unidirectional or bidirectional) •...

  • Page 117: Figure 7-2 Path Protection Circuit On The Edit Circuit Window

    By default, the working path is indicated by a green, bidirectional arrow, and the protect path is indicated by a purple, bidirectional arrow. Source and destination ports are shown as circles with an S and D, respectively. Port states are indicated by colors, shown in Table 7-4. Cisco ONS 15600 Reference Manual, R6.0...

  • Page 118: Figure 7-3 Detailed Circuit Map Showing A Terminal Loopback

    (organized by severity), a port’s service state, and the protection topology. Right-click a node, port, or span on the detailed circuit map to initiate certain circuit actions: Right-click a unidirectional circuit destination node to add a drop to the circuit. • Cisco ONS 15600 Reference Manual, R6.0 7-10...

  • Page 119: Cross-connect Card Bandwidth

    In traditional DCC tunnels, you can use the three Line DCCs (LDCCs) and the SDCC (when not used for ONS 15600 DCC terminations). A DCC tunnel endpoint is defined by slot, port, and DCC, where DCC can be either the SDCC or one of the LDCCs. You can link LDCCs to LDCCs and link SDCCs to SDCCs.

  • Page 120: Ip-encapsulated Tunnels

    SDCC bandwidth. Each ONS 15600 supports up to 128 IP-encapsulated tunnels. You can convert a traditional DCC tunnel to an IP-encapsulated tunnel or an IP-encapsulated tunnel to a traditional DCC tunnel. Only tunnels in the DISCOVERED status can be converted.

  • Page 121: Figure 7-4 Editing Path Protection Selectors

    In the UPSR Selectors tab, the SF Ber Level and SD Ber Level columns display “N/A” for those nodes Note that do not support VT signal bit error rate (BER) monitoring. In Software Release 6.0, only the Cisco ONS 15310-CL supports VT signal BER monitoring. From the UPSR Switch Counts subtab, you can: •...

  • Page 122: Protection Channel Access Circuits

    To do this, you create three circuits. One circuit is created on the source ONS 15600 network. This circuit has one source and two destinations, one at each ONS 15600 that is connected to the third-party network. The second circuit is created on the third-party network so that the circuit travels across the network on two paths to the ONS 15600s.

  • Page 123: Path Trace

    OC192/STM64 LR/LH 4 Port 1550 ASAP OC-N ports ASAP Ethernet ports The ONS 15600 supports both automatic and manual J1 path trace monitoring to detect and report the contents of the 64-byte STS path trace message (nonterminated) for the designated STS path. •...

  • Page 124: Bandwidth Allocation And Routing

    CTC does not allow a secondary destination for unidirectional circuits because you can specify • additional destinations after you create the circuit. • Primary and secondary sources should be on the same node. • Primary and secondary destinations should be on the same node. Cisco ONS 15600 Reference Manual, R6.0 7-16...

  • Page 125: Manual Circuit Routing

    For bidirectional circuits, CTC creates a path protection connection at the source node that allows traffic to be selected from one of the two sources on the ONS 15600 network. If you check the Fully Path Protected option during circuit creation, traffic is protected within the ONS 15600 network. At the destination, another path protection connection is created to bridge traffic from the ONS 15600 network to the two destinations.

  • Page 126: Constraint-based Circuit Routing

    When the bridged signal at the receiving end point is verified, the roll process creates a new cross-connect to receive the new signal. When the roll completes, the original cross-connects are Cisco ONS 15600 Reference Manual, R6.0 7-18...

  • Page 127: Rolls Window

    You can use the bridge and roll feature for maintenance functions such as card or facility replacement, or for load balancing. You can perform a bridge and roll on the following ONS platforms: ONS 15600, ONS 15454, ONS 15454 SDH, ONS 15327, and ONS 15310. 7.12.1 Rolls Window The Rolls window lists information about a rolled circuit before the roll process is complete.

  • Page 128: Roll Status

    C can become INCOMPLETE if Node B is rebooted. The cross connect information is lost on Node B during a reboot. The Roll State on Nodes A and C will change to INCOMPLETE. Cisco ONS 15600 Reference Manual, R6.0 7-20...

  • Page 129: Single And Dual Rolls

    Single Roll from One Circuit to Another Circuit (Destination Changes) Node 1 Node 2 Node 3 Node 4 Original leg New leg Figure 7-11 shows one circuit rolling onto another circuit at the source. Cisco ONS 15600 Reference Manual, R6.0 7-21...

  • Page 130: Figure 7-11 Single Roll From One Circuit To Another Circuit (source Changes)

    New leg Figure 7-13 illustrates a dual roll involving two circuits. Figure 7-13 Dual Roll to Reroute to a Different Node Node 1 Node 2 Node 3 Node 4 Original leg New leg Cisco ONS 15600 Reference Manual, R6.0 7-22...

  • Page 131: Two Circuit Bridge And Roll

    • one-way circuits in opposing directions. • Circuit sizes must be identical. Circuit end points must send or receive the same framing format. • The merged circuits must become a DISCOVERED circuit. • Cisco ONS 15600 Reference Manual, R6.0 7-23...

  • Page 132: Reconfigure Circuits

    DISCOVERED circuit. Otherwise, the circuit appears as a PARTIAL or PARTIAL_TL1 circuit. PARTIAL tunnel circuits do not split into multiple circuits during reconfiguration. Note Cisco ONS 15600 Reference Manual, R6.0 7-24...

  • Page 133: Overview

    • 8.1 Overview The ONS 15600 usually operates as a hub node in networks that include ONS 15454s, ONS 15327s, and ONS 15310-CLs. Single nodes are installed at geographic locations where several ONS SONET topologies converge. A single ONS 15600 node might be a part of several ONS SONET rings/networks.

  • Page 134: Point-to-point And Linear Adm Configurations

    Protect Path 8.3 Bidirectional Line Switched Rings The ONS 15600 can support up to 32 bidirectional line switched rings (BLSRs). Eight four-fiber BLSR rings can be supported if all ports are OC-192. Because the working and protect bandwidths must be equal, you can create only OC-48 or OC-192 BLSRs.

  • Page 135

    The traffic travels in a reverse direction on the protect bandwidth until it reaches its destination node. At that point, traffic is switched back to the working bandwidth. Figure 8-3 shows a traffic pattern sample on a four-node, two-fiber BLSR. Cisco ONS 15600 Reference Manual, R6.0...

  • Page 136

    Fiber 2 at Node 3. For example, a circuit carrying traffic on STS-2 on Fiber 1 switches to STS-26 on Fiber 2. Fiber 2 carries the circuit to Node 0 where the circuit switches back to STS-2 on Fiber 1 and is then dropped to its destination. Cisco ONS 15600 Reference Manual, R6.0...

  • Page 137: Four-fiber Blsrs

    Figure 8-5. To implement a four-fiber BLSR, you can install either two or four OC-48 or OC-192 cards at each BLSR node. Cisco ONS 15600 Reference Manual, R6.0...

  • Page 138

    8-7) occurs when a working span fails. Traffic switches to the • protect fibers between the nodes (Node 0 and Node 1 in the example in Figure 8-6) and then returns to the working fibers. Multiple span switches can occur at the same time. Cisco ONS 15600 Reference Manual, R6.0...

  • Page 139

    8-7) occurs when a span switch cannot recover traffic, such as when both • the working and protect fibers fail on the same span. In a ring switch, traffic is routed to the protect fibers throughout the full ring. Cisco ONS 15600 Reference Manual, R6.0...

  • Page 140: Blsr Bandwidth

    96 x N – PT 1. N equals the number of ONS 15600 nodes configured as BLSR nodes. 2. PT equals the number of STS-1 circuits passed through ONS 15600 nodes in the ring (capacity can vary depending on the traffic pattern).

  • Page 141: Blsr Fiber Connections

    192 x N – PT 1. N equals the number of ONS 15600 nodes configured as BLSR nodes. 2. PT equals the number of STS-1 circuits passed through ONS 15600 nodes in the ring (capacity can vary depending on the traffic pattern).

  • Page 142: Figure 8-9 Connecting Fiber To A Four-node, Two-fiber Blsr

    BLSR. Slot 2/Port 7 (west) and Slot 12/Port 11 (east) carry the working traffic. Slot 3/Port 1 (west) and Slot 13/Port 1 (east) carry the protect traffic. Cisco ONS 15600 Reference Manual, R6.0 8-10...

  • Page 143: Path-protected Mesh Networks

    (PPMNs). PPMNs include multiple ONS 15600 SONET topologies and extend the protection provided by a single path protection to the meshed architecture of several interconnecting rings. In a PPMN, circuits travel diverse paths through a network of single or multiple meshed rings.

  • Page 144

    The switch occurs within 50 ms. PPMN also allows spans of different SONET line rates to be mixed together in virtual rings. Figure 8-12 shows Nodes 1, 2, 3, and 4 in an OC-192 ring. Cisco ONS 15600 Reference Manual, R6.0 8-12...

  • Page 145: In-service Topology Upgrades

    You cannot upgrade stitched Ethernet circuits during topology conversions. For in-service topology upgrade procedures, refer to the “Convert Network Configurations” chapter in the Cisco ONS 15600 Procedure Guide. For procedures to add or remove a node, refer to the “Add and Remove Nodes” chapter of the Cisco ONS 15600 Procedure Guide.

  • Page 146: Point-to-point Or Linear Adm To Two-fiber Blsr

    1+1 linear ADM or path protection configuration does not disrupt traffic. CTC provides a wizard for adding a node to a point-to-point or 1+1 linear ADM. This wizard is used when adding a node between two other nodes. Cisco ONS 15600 Reference Manual, R6.0 8-14...

  • Page 147: Ip Networking Overview

    This chapter does not provide a comprehensive explanation of IP networking concepts and procedures, Note nor does it provide IP addressing examples to meet all networked scenarios. For ONS 15600 networking setup instructions, refer to the “Turn Up Node” chapter of the Cisco ONS 15600 Procedure Guide.

  • Page 148: Ons 15600 Ip Addressing Scenarios

    Management Network Connectivity 9.2 ONS 15600 IP Addressing Scenarios • IP subnetting can create ONS 15600 node groups, which allow you to provision nodes in a network that are not connected using the data communications channel (DCC). • Different IP functions and protocols allow you to achieve specific network goals. For example, Proxy Address Resolution Protocol (ARP) enables one LAN-connected ONS 15600 to serve as a gateway for ONS 15600s that are not connected to the LAN.

  • Page 149: Scenario 2: Ctc And Ons 15600s Connected To Router

    On the CTC computer, the default gateway is set to router interface A. If the LAN uses Dynamic Host Configuration Protocol (DHCP), the default gateway and IP address are assigned automatically. In the Figure 9-2 example, a DHCP server is not available. Cisco ONS 15600 Reference Manual, R6.0...

  • Page 150: Scenario 3: Using Proxy Arp To Enable An Ons 15600 Gateway

    Static Routes = N/A Static Routes = N/A 9.2.3 Scenario 3: Using Proxy ARP to Enable an ONS 15600 Gateway Scenario 3 is similar to Scenario 1, but only one ONS 15600 (Node 1) connects to the LAN (Figure 9-3).

  • Page 151: Scenario 4: Default Gateway On Ctc Computer

    DCC-connected ONS 15600s must reside on the same subnet. When a LAN device sends an ARP request to an ONS 15600 that is not connected to the LAN, the gateway ONS 15600 returns its MAC address to the LAN device. The LAN device then sends the datagram for the remote ONS 15600 to the MAC address of the proxy ONS 15600.

  • Page 152: Scenario 5: Using Static Routes To Connect To Lans

    OSPF.) ONS 15600s residing on subnet 192.168.2.0 are connected through Node 1 to the router through interface B. To connect to CTC computers on LAN A, you would create a static route on Node 1. Cisco ONS 15600 Reference Manual, R6.0...

  • Page 153: Figure 9-5 Scenario 5: Static Route With One Ctc Computer Used As A Destination

    In this figure, the IP address of router interface B is entered as the next hop (the next router that a packet traverses to reach its destination), and the cost (number of hops from source to destination) is 2. Cisco ONS 15600 Reference Manual, R6.0...

  • Page 154: Scenario 6: Using Ospf

    ONS 15600s use the OSPF protocol in internal ONS 15600 networks for node discovery, circuit routing, and node management. You can enable OSPF on the ONS 15600s so that the ONS 15600 topology is sent to OSPF routers on a LAN. Advertising the ONS 15600 network topology to LAN routers means...

  • Page 155

    ONS 15600 subnetworks. Figure 9-7 shows the same network enabled for OSPF. When you are logged into a ONS 15600 node, CTC does not allow both a DCC interface and a LAN interface in the same nonzero OSPF area. Figure 9-7...

  • Page 156

    DCC or LAN interfaces are in the same OSPF area, while a node is in multiple OSPF areas if it has DCC or LAN interfaces in two or more OSPF areas. If the ONS 15600 has interfaces (DCC or LAN) in multiple OSPF areas, at least one ONS 15600 interface (DCC or LAN) must be in the backbone area 0.

  • Page 157: Scenario 7: Provisioning The Ons 15600 Proxy Server

    (NOC) personnel can both access the same ONS 15600s while preventing the field technicians from accessing the NOC LAN. To do this, one ONS 15600 is provisioned as a GNE and the other ONS 15600s are provisioned as ENEs. The GNE ONS 15600 tunnels connections between CTC computers and ENE ONS 15600s, providing management capability while preventing access for purposes other than ONS 15600 management.

  • Page 158: Firewall Not Enabled

    ONS 15600 proxy server implementation. A ONS 15600 GNE is connected to a central office LAN and to ONS 15600 ENEs. The central office LAN is connected to a NOC LAN, which has CTC computers. The NOC CTC computer and craft technicians must both be able to access the ONS 15600 ENEs.

  • Page 159: Figure 9-10 Ons 15600 Proxy Server With Gne And Enes On The Same Subnet

    10.10.10.250/24 10.10.10.200/24 Ethernet Local/Craft CTC 192.168.20.20 SONET Table 9-2 shows recommended settings for ONS 15600 GNEs and ENEs in the configuration shown in Figure 9-10. Table 9-2 ONS 15600 GNE and ENE Settings Setting ONS 15600 GNE ONS 15600 ENE...

  • Page 160: Figure 9-11 Scenario 7: Ons 15600 Proxy Server With Gne And Enes On Different Subnets

    Management Network Connectivity 9.2.7 Scenario 7: Provisioning the ONS 15600 Proxy Server Figure 9-11 shows the same proxy server implementation with ONS 15600 ENEs on different subnets. The ONS 15600 GNEs and ENEs are provisioned with the settings shown in Table 9-2.

  • Page 161: Firewall Enabled

    ONS 15600 ONS 15600 192.168.10.250/24 192.168.10.200/24 ONS 15600 ONS 15600 192.168.80.250/24 192.168.70.200/24 Ethernet SONET 9.2.7.2 Firewall Enabled Table 9-3 shows the rules the ONS 15600 users to filter packets when the firewall is enabled. Cisco ONS 15600 Reference Manual, R6.0 9-15...

  • Page 162

    Protocols not listed in the Accepted column If an ONS 15600 or CTC computer resides behind a firewall that uses port filtering, you must enable an Internet Inter-ORB Protocol (IIOP) port on the ONS 15600 and/or CTC computer, depending on whether one or both devices reside behind a firewall.

  • Page 163: Scenario 8: Dual Gnes On A Subnet

    IIOP port. For example, if the CTC computer firewall uses IIOP port 4000, and the ONS 15600 firewall uses IIOP port 5000, 4000 is the IIOP port you provision for the CTC computer and 5000 is the IIOP port you provision for the ONS 15600.

  • Page 164: Figure 9-15 Scenario 8: Dual Gnes On The Same Subnet

    Scenario 8: Dual GNEs on the Same Subnet Remote CTC 10.10.20.10 10.10.20.0/24 Interface 0/0 10.10.20.1 Router A Interface 0/1 10.10.10.1 10.10.10.0/24 ONS 15600 ONS 15600 10.10.10.100/24 10.10.10.150/24 ONS 15600 ONS 15600 10.10.10.250/24 10.10.10.200/24 Ethernet Local/Craft CTC 192.168.20.20 SONET Cisco ONS 15600 Reference Manual, R6.0 9-18...

  • Page 165: Provisionable Patchcords

    A provisionable patchcord is a user-provisioned link that is advertised by OSPF throughout the network. Provisionable patchcords, also called virtual links, are needed if an ONS 15600 optical port is connected to an ONS 15454 transponder or muxponder client port provisioned in transparent mode. Provisionable patchcords are required on both ends of a physical link.

  • Page 166: Routing Table

    Chapter 9 Management Network Connectivity 9.4 Routing Table Table 9-5 ONS 15600 and ONS 15454 Client and Trunk Card Combinations in Provisionable Patchcords ONS 15454 Client Cards MXP_2.5G_10G/ MXP_2.5G_10E/ ONS 15600 Trunk Cards TXP_MR_10G TXP(P)_MR_2.5G TXP_MR_10E OC-192 — OC-48 ASAP (OC-48 PPM) Optical ports have the following requirements when used in a provisionable patchcord: •...

  • Page 167

    Gateway (172.20.214.1) is the default gateway address. All outbound traffic that cannot be found in • this routing table or is not on the node’s local subnet will be sent to this gateway. Interface (cpm0) indicates that the ONS 15600 Ethernet interface is used to reach the gateway. • Entry 2 shows the following: •...

  • Page 168: External Firewalls

    Gateway (172.20.214.92) is the gateway address. All outbound traffic belonging to this network is sent to this gateway. • Interface (cpm0) indicates that the ONS 15600 Ethernet interface is used to reach the gateway. Entry 3 shows the following: •...

  • Page 169

    In the example, the CTC workstation's address is 192.168.10.10. and the ONS 15600 address is 10.10.10.100. The firewall is attached to the GNE, so inbound is CTC to the GNE and outbound is from the GNE to CTC. The CTC Common Object Request Broker Architecture (CORBA) Standard constant is 683 and the TCC CORBA Default is TCC Fixed (57790).

  • Page 170: Open Gne

    101 remark *** allows ACKs from the 15600 GNE to CTC *** 9.6 Open GNE The ONS 15600 can communicate with non-ONS nodes that do not support point-to-point protocol (PPP) vendor extensions or OSPF type 10 opaque link-state advertisements (LSA), both of which are necessary for automatic node and link discovery.

  • Page 171: Figure 9-18 Proxy And Firewall Tunnels For Foreign Terminations

    10.10.20.10 10.10.20.0/24 Interface 0/0 10.10.20.1 Router A Interface 0/1 10.10.10.1 10.10.10.0/24 ONS 15600 ONS 15600 10.10.10.100/24 10.10.10.150/24 ONS 15600 ONS 15600 10.10.10.250/24 10.10.10.200/24 Non-ONS node Ethernet Foreign NE Local/Craft CTC 130.94.122.199/28 192.168.20.20 SONET Cisco ONS 15600 Reference Manual, R6.0 9-25...

  • Page 172: Tcp/ip And Osi Networking

    SONET 9.7 TCP/IP and OSI Networking ONS 15600 DCN communication is based on the TCP/IP protocol suite. However, ONS 15600s can also be networked with equipment that uses the OSI protocol suite. While TCP/IP and OSI protocols are not directly compatible, they do have the same objectives and occupy similar layers of the OSI reference model.

  • Page 173: Point-to-point Protocol

    Link control protocol (LCP)—Establishes, configures, and tests the point-to-point connections. • CTC automatically enables IP over PPP whenever you create an SDCC or LDCC. The SDCC or LDCC can be provisioned to support OSI over PPP. Cisco ONS 15600 Reference Manual, R6.0 9-27...

  • Page 174: Link Access Protocol On The D Channel

    9.7.2 Link Access Protocol on the D Channel LAP-D is a data link protocol used in the OSI protocol stack. LAP-D is assigned when you provision an ONS 15600 SDCC as OSI-only. Provisionable LAP-D parameters include: • Transfer Service—One of the following transfer services must be assigned: –...

  • Page 175: Table 9-9 Nsap Fields

    NSAP addresses. Whether an address is an NSAP address or a NET depends on the network selector value in the NSAP. The ONS 15600 supports the ISO Data Country Code (ISO-DCC) NSAP address format as specified in ISO 8348. The NSAP address is divided into an initial domain part (IDP) and a domain-specific part (DSP).

  • Page 176

    They are not advertised when a node is configured as an IS. Tunnel NSELs are not advertised until a tunnel is created. Figure 9-20 shows the ISO-DCC NSAP address with the default values delivered with the ONS 15600. The System ID is automatically populated with the node MAC address. Figure 9-20...

  • Page 177: Osi Routing

    Management Network Connectivity 9.7.4 OSI Routing The ONS 15600 main NSAP address is shown on the node view Provisioning > OSI > Main Setup subtab. This address is also the Router 1 primary manual area address, which is viewed and edited on Provisioning >...

  • Page 178: End System-to-intermediate System Protocol

    Domain When you provision an ONS 15600 for a network with NEs that use both the TCP/IP and OSI protocol stacks, you will provision it as one of the following: Intermediate System Level 1—The ONS 15600 performs OSI IS functions. It communicates with •...

  • Page 179: Tarp

    Three optional IS-IS metrics (costs)—delay, expense, and error—are not supported by the ONS 15600. IS-IS maintains a mapping of the metrics to the quality of service (QoS) option in the CLNP packet header. IS-IS uses the mappings to compute routes through the internetwork.

  • Page 180: Tarp Processing

    Maintenance > OSI > TDC subtab. The TDC subtab contains the following TARP PDU fields: TID—TID of the originating NE (tar-tor). • NSAP—NSAP of the originating NE. • Cisco ONS 15600 Reference Manual, R6.0 9-34...

  • Page 181: Tarp Loop Detection Buffer

    LDB entry, the PDU is discarded. If the tar-seq is greater than the LDB entry, the PDU is processed and the tar-seq field in the LDB entry is updated with the new value. The ONS 15600 LDB holds approximately 500 entries.

  • Page 182: Manual Tarp Adjacencies

    TCP/IP and OSI protocol suites: • T–TD—Performs a TL1-over-IP to TL1-over-OSI gateway mediation to enable an IP-based OSS to manage OSI-only NEs subtended from a GNE. Figure 9-23 shows the T–TD protocol flow. Cisco ONS 15600 Reference Manual, R6.0 9-36...

  • Page 183: Osi Virtual Routers

    • 9.7.7 OSI Virtual Routers The ONS 15600 supports twelve OSI virtual routers. The routers are provisioned on the Provisioning > OSI > Routers tab. Each router has an editable manual area address and a unique NSAP System ID that is set to the node MAC address + n.

  • Page 184: Ip-over-clns Tunnels

    9.7.8 IP-over-CLNS Tunnels IP-over-CLNS tunnels are used to encapsulate IP for transport across OSI NEs. The ONS 15600 supports two tunnel types: GRE—Generic Routing Encapsulation is a tunneling protocol that encapsulates one network layer •...

  • Page 185: Provisioning Ip-over-clns Tunnels

    IP-over-CLNS tunnels must be carefully planned to prevent nodes from losing visibility or connectivity. Before you begin a tunnel, verify that the tunnel type, either Cisco IP or GRE, is supported by the equipment at the other end. Always verify IP and NSAP addresses. Provisioning of IP-over-CLNS tunnels in CTC is performed on the node view Provisioning >...

  • Page 186: Ip Over Clns Tunnel Scenario 1: Ons Node To Other Vendor Gne

    If you are provisioning an IP-over-CLNS tunnel on a Cisco router, always follow procedures provided in the Cisco IOS documentation for the router you are provisioning. For information about ISO CLNS provisioning including IP-over-CLNS tunnels, see the “Configuring ISO CLNS” chapter in the Cisco IOS Apollo Domain, Banyon VINES, DECnet, ISO CLNS, and XNS Configuration Guide.

  • Page 187: Ip Over Clns Tunnel Scenario 2: Ons Node To Router

    SDCC is created between the ONS NE 1 and the other vender GNE. The OSI over IP tunnel can be either the Cisco IP tunnel or a GRE tunnel, depending on the tunnel types supported by the router. IP-over-CLNS tunnel on ONS NE 1: Destination: 10.10.30.10 (Router 1, Interface 0/1)

  • Page 188: Figure 9-27 Ip Over Clns Tunnel Scenario 2: Ons Node To Router

    Interface 0/0: 10.10.10.10/24 Interface 0/1: 10.10.20.10/24 39.840F.80.111111.0000.1111.1111.aaaaaaaaaaaa.00 Router 1 Interface 0/0: 10.10.20.20/24 Interface 0/1: 10.10.30.10/24 39.840F.80. 111111.0000.1111.1111.bbbbbbbbbbbb.00 Other vendor GRE or Cisco IP tunnel OSI-only DCC (LAPD) Other vendor ONS NE 1 10.10.30.30/24 39.840F.80. 111111.0000.1111.1111.dddddddddddd.00 Cisco ONS 15600 Reference Manual, R6.0 9-42...

  • Page 189: Ip Over Clns Tunnel Scenario 3: Ons Node To Router Across An Osi Dcn

    (LAP-D) SDCC is created between the ONS NE 1 and the other vender GNE. The OSI over IP tunnel can be either the Cisco IP tunnel or a GRE tunnel, depending on the tunnel types supported by the router. IP-over-CLNS tunnel on ONS NE 1: Destination: Router 2 IP address •...

  • Page 190: Osi/ip Networking Scenarios

    • ONS 15600 NEs run TARP, which allows them to resolve a TL1 TID to a NSAP address. A TID might resolve to both an IP and an NSAP address when the destination TID is an ONS 15600 NE that has both IP and NSAP address.

  • Page 191: Osi/ip Scenario 1: Ip Oss, Ip Dcn, Ons Gne, Ip Dcc, And Ons Ene

    9.7.9 OSI/IP Networking Scenarios • All ONS 15600 NEs participating in an OSI network run OSI over PPP between themselves. This is needed so that other vendor GNEs can route TL1 commands to all ONS 15600 NEs participating in the OSI network.

  • Page 192: Osi/ip Scenario 2: Ip Oss, Ip Dcn, Ons Gne, Osi Dcc, And Other Vendor Ene

    9-30) shows an ONS 15600 GNE in a multivendor OSI network. Both the ONS 15600 GNE and the other vendor NEs are managed by an IP OSS using TL1 and FTP. The ONS 15600 is also managed by CTC and Cisco Transport Manager (CTM). Because the other vendor NE only supports TL1 and FTAM over the full OSI stack, the ONS 15600 GNE provides T–TD and...

  • Page 193: Osi/ip Scenario 3: Ip Oss, Ip Dcn, Other Vendor Gne, Osi Dcc, And Ons Ene

    9.7.9 OSI/IP Networking Scenarios The ONS 15600 GNE routes TL1 traffic to the correct NE by resolving the TL1 TID to either an IP or NSAP address. For TL1 traffic to other vendor NEs (OSI-only nodes), the TID is resolved to an NSAP address.

  • Page 194: Figure 9-31 Osi/ip Scenario 3: Ip Oss, Ip Dcn, Other Vendor Gne, Osi Dcc, And Ons Ene

    NE The IP OSS manages the ONS 15600 and other vendor NEs using TL1 and FTP. The other vendor GNE performs mediation for TL1 and FTP, so the DCCs to the ONS 15600 and other vendor NEs are OSI-only.

  • Page 195: Osi/ip Scenario 4: Multiple Ons Dcc Areas

    ONS 15600 OSPF area. An alternate approach is to create a single IP-over-CLNS tunnel from CTC/CTM to an ONS 15600 NE, and then to configure a tunnel from that NE to an NE in each isolated OSPF area. This approach requires additional static routes.

  • Page 196: Osi/ip Scenario 5: Gne Without An Osi Dcc Connection

    9-34) is similar to OSI/IP Scenario 3 except that the OSI GNE only has an IP connection to the DCN. It does not have an OSI DCN connection to carry CTC/CTM IP traffic through an IP-over-OSI tunnel. A separate DCN to ONS 15600 NE connection is created to provide CTC/CTM access.

  • Page 197: Osi/ip Scenario 6: Ip Oss, Osi Dcn, Ons Gne, Osi Dcc, And Other Vendor Ene

    (Figure 9-35) shows how the ONS 15600 supports OSI DCNs. The OSI DCN has no impact on the ONS 15600 because all IP traffic (CTC/CTM, FTP, and TL1) is tunneled through the OSI DCN. Cisco ONS 15600 Reference Manual, R6.0...

  • Page 198: Osi/ip Scenario 7: Osi Oss, Osi Dcn, Other Vender Gne, Osi Dcc, And Ons Nes

    Other vendor NE The IP OSS manages ONS 15600 and other vendor NEs using TL1 and FTP. OSS IP traffic is tunneled through the DCN to the ONS 15600 GNE. CTC/CTM IP traffic is tunneled through the DCN to the ONS 15600 GNE.

  • Page 199: Figure 9-36 Osi/ip Scenario 7: Osi Oss, Osi Dcn, Other Vender Gne, Osi Dcc, And Ons Nes

    IP and OSI/PPP/DCC ONS NE 3 ONS 15600 NEs are managed by CTC/CTM only (TL1/FTP is not used). The OSI OSS manages other vendor NEs only. CTC/CTM communicates with the ONS 15600 over a IP-over-CLNS tunnel between the ONS 15600 NE and external router.

  • Page 200: Osi/ip Scenario 8: Osi Oss, Osi Dcn, Ons Gne, Osi Dcc, And Other Vender Nes

    ONS 15600. Management traffic between the OSS and other vendor NEs is routed by the ONS 15600 GNE and NEs. This is possible because all ONS 15600 NEs run dual stacks (OSI and IP).

  • Page 201: Figure 9-37 Osi/ip Scenario 8: Osi Oss, Osi Dcn, Ons Gne, Osi Dcc, And Other Vender Nes

    CTC/CTM communicates with the ONS 15600 over an IP-over-CLNS tunnel between the ONS 15600 NE and the external router. A static route is needed on the GNE. The ONS 15600 GNE routes OSI traffic to other vendor NEs. No IP-over-CLNS tunnel is needed.

  • Page 202: Osi Provisioning In Ctc

    9.7.10 OSI Provisioning in CTC Table 9-16 shows the OSI actions that are performed from the node view Provisioning tab. Refer to the Cisco ONS 15600 Procedures Guide for OSI procedures and tasks. Table 9-16 OSI Actions from the CTC Provisioning Tab Actions OSI >...

  • Page 203: Any Service Any Port Card Application

    The Any Service Any Port (ASAP) Carrier Card plugs into any of the eight available I/O slots for the ONS 15600. Each ASAP carrier card has four slots available for up to and including four ASAP Pluggable Input/output Modules (PIMs). There are four slots available on the PIM for Pluggable Port Modules (PPM), which are Small Form-factor Pluggable (SFP) optics.

  • Page 204: Transport Functionality

    Each SFP is also hot-pluggable. Layer 1 Ethernet transport is implemented for Gigabit Ethernet (GE) interfaces. GE traffic is encapsulated by generic framing procedure (GFP), ITU X.86, or Cisco high-level data link control/LAN extension (HDLC/LEX) and mapped into a SONET payload.

  • Page 205

    Matrix Line Card The ONS 15600 provides transport functionality of all frames arriving on the Ethernet interfaces. Frames arriving on each Ethernet interface are mapped onto their own SONET path. In the reverse direction, frames arriving on a SONET path are mapped to one and only one Ethernet interface. Frames arriving on different Ethernet interfaces are not mapped onto the same SONET path.

  • Page 206: Ethernet Rates And Mapping

    The Ethernet ports can be provisioned for encapsulation in frame-mapped GFP (GFP-F) as per ITU G.7041, Cisco HDLC/LEX as per RFC 1841, or Ethernet over Link Access Protocol over SDH (LAPS) as per ITU X.86. LEX with CRC-32 is the default encapsulation, as it is supported by most Cisco data cards.

  • Page 207: Oversubscription

    In the ONS 15600, oversubscription of interfaces is supported. This occurs when the GE interface is mapped to any of the STS-1, STS-3, STS-6, STS-9, and STS-12 (c) rates. No guarantees on frame loss or delay due to oversubscription is provided by the system.

  • Page 208: Vlan

    The Ethernet interfaces are capable of using symmetric or asymmetric flow control to meter packet receptions according to the requirements specified in IEEE 802.3x. This is done to avoid dropping packets internally due to output or input queue congestion. When an Ethernet interface uses symmetric Cisco ONS 15600 Reference Manual, R6.0 10-6...

  • Page 209: Autonegotiation

    The mode used by the Ethernet interface is the one agreed to by the Ethernet peers. If an agreement on the supported flow control mode cannot be reached, the transmitter is turned off. Autonegotiation is depicted in Figure 10-4. Cisco ONS 15600 Reference Manual, R6.0 10-7...

  • Page 210: Gigabit Etherchannel/ieee 802.3ad Link Aggregation

    The ASAP card supports all forms of link aggregation technologies including GEC, which is a Cisco proprietary standard, and the IEEE 802.3ad standard. The end-to-end link integrity feature ASAP card allows a circuit to emulate an Ethernet link.

  • Page 211: Overview

    To troubleshoot specific alarms, refer to the Cisco ONS 15600 Troubleshooting Guide. 11.1 Overview CTC detects and reports SONET alarms generated by the Cisco ONS 15600 and the larger SONET network. You can use CTC to monitor and manage alarms at the card, node, or network level. Default alarm severities conform to the Telcordia GR-253-CORE standard, but you can set alarm severities in customized alarm profiles or suppress CTC alarm reporting.

  • Page 212: Table 11-1 Alarms Column Descriptions

    Severity level: Critical (CR), Major (MJ), Minor (MN), Not Alarmed (NA), Not Reported (NR) Status: Raised (R), Clear (C), Transient (T) When checked, indicates a service-affecting alarm Cond Error message/alarm name; alphabetically defined in the Cisco ONS 15600 Troubleshooting Guide Description Description of the alarm Node Node where the alarm occurred (only displayed in network view) 1.

  • Page 213

    When using Netscape, you can limit the number of colors used by launching it from the command line with either the -install option or the -ncols 32 option. Cisco ONS 15600 Reference Manual, R6.0 11-3...

  • Page 214: Alarm Window

    If checked, CTC automatically deletes cleared alarms. Alarms 11.2.2 Alarm-Affected Circuits You can determine which ONS 15600 circuits are affected by a specific alarm by positioning the cursor over the alarm in the Alarm window and right-clicking. A shortcut menu appears (Figure 11-2).

  • Page 215: Conditions Window

    LOS conditions in this window. Having all conditions visible can be helpful when troubleshooting the ONS 15600. If you want to retrieve conditions that obey a root-cause hierarchy (that is, LOS supersedes and replaces LOF), you can exclude the same root causes.

  • Page 216: Conditions Window Actions

    (Figure 11-3). If you click the Retrieve button in the network view, all conditions for the network (including ONS 15600 nodes and other connected nodes such as ONS 15454s) appear, and the card view shows only card-specific conditions. Figure 11-3 Viewing Conditions in the Conditions Window Cisco ONS 15600 Reference Manual, R6.0...

  • Page 217: History Window

    The ONS 15600 can store up to 3,000 total alarms and conditions: 750 Critical alarms, 750 Major alarms, 750 Minor alarms, and 750 conditions. When the limit is reached, the ONS 15600 begins replacing the oldest items. The History window presents several alarm history views: •...

  • Page 218: Figure 11-4 Viewing All Alarms Reported For Current Session

    Description of the condition Port Port where the condition occurred Cond Condition name Slot Slot where the condition occurred (only displays in network view and node view) When checked, indicates a service-affecting alarm Cisco ONS 15600 Reference Manual, R6.0 11-8...

  • Page 219: Alarm History Actions

    The alarm profiles feature allows you to change default alarm severities by creating unique alarm profiles for individual ONS 15600 ports, cards, or nodes. A created alarm profile can be applied to any node on the network. Alarm profiles can be saved to a file and imported elsewhere in the network, but the profile must be stored locally on a node before it can be applied to the node, cards, or ports.

  • Page 220: Alarm Profile Buttons

    Displays all entities (nodes and alarm subjects) present in the network and which profiles contain the alarm (can be printed). 11.3.3 Alarm Profile Editing Table 11-9 describes the five profile-editing options available when you right-click an alarm item in the profile column (such as Default). Cisco ONS 15600 Reference Manual, R6.0 11-10...

  • Page 221: Alarm Severity Option

    At the node level, you can apply profile changes on a card-by-card basis or set a profile for the entire node. At the card-level view, you can apply profile changes on a port-by-port basis for all ports on that card. Figure 11-6 shows an OC48 card view of an alarm profile. Cisco ONS 15600 Reference Manual, R6.0 11-11...

  • Page 222: Alarm Filter

    ID is activated. 11.5 Alarm Suppression The ONS 15600 has suppression options that prevent node, slot, chassis, or port alarms from appearing in the Alarms window. Suppression changes the entity alarm to Not Reported, so suppressed alarms are shown in the Conditions window.

  • Page 223: External Alarms And Controls

    You provision external alarms and controls in the node view Maintenance > Alarm Extenders window. Up to 16 external alarm inputs and 16 external controls are available. The external input/output contacts are located on the CAP attached to the ONS 15600 backplane. 11.6.1 External Alarm Input You can provision each alarm input separately.

  • Page 224: Virtual Wires For External Alarms In Mixed Networks

    ONS 15600 Virtual Wires window with a DCC connection to an ONS 15454 node. The ONS 15600 Virtual Wires window shows 10 virtual wire columns, but 16 are available. The first 12 are available for other ONS 15600s. Only the last four are available for the ONS 15454, because it can only support four virtual wires.

  • Page 225: Figure 11-8 Virtual Wires Seen From An Ons 15454

    Chapter 11 Alarm Monitoring and Management 11.6.3 Virtual Wires for External Alarms in Mixed Networks Figure 11-8 Virtual Wires Seen from an ONS 15454 CISCO1 10.255.255.255 10.255.255.255 10.255.255.255 Cisco ONS 15600 Reference Manual, R6.0 11-15...

  • Page 226

    Chapter 11 Alarm Monitoring and Management 11.6.3 Virtual Wires for External Alarms in Mixed Networks Cisco ONS 15600 Reference Manual, R6.0 11-16...

  • Page 227: Appendix

    The terms "Unidirectional Path Switched Ring" and "UPSR" may appear in Cisco literature. These terms Note do not refer to using Cisco ONS 15xxx products in a unidirectional path switched ring configuration. Rather, these terms, as well as "Path Protected Mesh Network" and "PPMN," refer generally to Cisco's path protection feature, which may be used in any topological network configuration.

  • Page 228: Cards

    Appendix A Hardware Specifications A.1.3 Cards A.1.3 Cards The ONS 15600 has the following cards: • • SSXC ASAP • OC48/STM16 LR16 1550 • OC48/STM16 SR16 1310 • OC192/STM64 LR4 1550 • OC192/STM64 SR4 1310 • A.1.4 Configurations The ONS 15600 has the following configurations: 1+1 automatic protections switching (APS) for point-to-point and linear configurations •...

  • Page 229: Tl1 Craft Interface

    • 2 DS-1 BITS inputs • 2 derived OC-N outputs A.1.12 System Timing The ONS 15600 has the following system timing specifications: Holdover stability: Stratum 3E per Telcordia GR-253-CORE • Free running accuracy: +/– 4.6 ppm • Reference: External BITS, line, internal •...

  • Page 230: Environmental Specifications

    Appendix A Hardware Specifications A.1.14 Environmental Specifications A.1.14 Environmental Specifications The ONS 15600 has the following environmental specifications: Operating temperature: 23 to 122 degrees Fahrenheit (–5 to +50 degrees Celsius) • • Operating humidity: 5 to 95%, noncondensing A.1.15 Power Specifications The ONS 15600 has the following power specifications: Input voltage: –48 to –60 VDC (operational from –40.5 to –72 VDC)

  • Page 231: Tsc Card Specifications

    Depth: 18.31 in. (465 mm) Card weight: 4.0 lb (1.81 kg) Compliance When installed in a system, ONS 15600 cards comply with these safety standards: UL 60950, CSA C22.2 No. 950, EN 60950, IEC 60950 Cisco ONS 15600 Reference Manual, R6.0...

  • Page 232: Ssxc Specifications

    Depth: 18.31 in. (465 mm) Card weight: 5.0 lb (2.27 kg) Compliance When installed in a system, ONS 15600 cards comply with these safety standards: UL 60950, CSA C22.2 No. 950, EN 60950, IEC 60950 A.2.3 OC48/STM16 LR/LH 16 Port 1550 Specifications Table A-5 shows the OC48/STM16 LR/LH 16 Port 1550 card specifications.

  • Page 233

    Compliance SONET Telcordia GR-253 When installed in a system, ONS 15600 cards comply with these safety standards: UL 60950, CSA C22.2 No. 950, EN 60950, IEC 60950 Eye safety compliance: Class 1 (21 CFR 1040.10 and 1040.11) and Class 1 (IEC 60825) laser products Cisco ONS 15600 Reference Manual, R6.0...

  • Page 234: Oc48/stm16 Sr/sh 16 Port 1310 Specifications

    Compliance SONET Telcordia GR-253 When installed in a system, ONS 15600 cards comply with these safety standards: UL 60950, CSA C22.2 No. 950, EN 60950, IEC 60950 Eye safety compliance: Class 1 (21 CFR 1040.10 and 1040.11) and Class 1 (IEC 60825) laser products Cisco ONS 15600 Reference Manual, R6.0...

  • Page 235: Oc192/stm64 Lr/lh 4 Port 1550 Specifications

    Compliance SONET Telcordia GR-253 When installed in a system, ONS 15600 cards comply with these safety standards: UL 60950, CSA C22.2 No. 950, EN 60950, IEC 60950 Eye safety compliance: Class 1 (21 CFR 1040.10 and 1040.11) and Class 1 (IEC 60825) laser products Cisco ONS 15600 Reference Manual, R6.0...

  • Page 236: Oc192/stm64 Sr/sh 4 Port 1310 Specifications

    Compliance SONET Telcordia GR-253 When installed in a system, ONS 15600 cards comply with these safety standards: UL 60950, CSA C22.2 No. 950, EN 60950, IEC 60950 Eye safety compliance: Class 1 (21 CFR 1040.10 and 1040.11) and Class 1 (IEC 60825) laser products Cisco ONS 15600 Reference Manual, R6.0...

  • Page 237: Asap Specifications

    Compliance SONET Telcordia GR-253 When installed in a system, ONS 15600 cards comply with these safety standards: UL 60950, CSA C22.2 No. 950, EN 60950, IEC 60950 Eye safety compliance: Class 1 (21 CFR 1040.10 and 1040.11) and Class 1 (IEC 60825) laser products Cisco ONS 15600 Reference Manual, R6.0...

  • Page 238: Filler Card Specifications

    Depth: 18.31 in. (465 mm) Card weight: 2.5 lb (1.134 kg) A.3 SFP Specifications Table A-11 Table A-12 list the specifications for available SFPs for the Cisco ONS 15600. Table A-11 SFP Specifications Transmitter Output Receiver Input Power SFP Product ID...

  • Page 239

    OC-48/STM16 1559.7 nm ONS-SC-2G-60.6 OC-48/STM16 1560.6 nm 1. Typical loss on a 1310-nm wavelength SMF is 0.6 dB/km. Table A-13 describes the power and noise limited performances parameters for the OC-SC-2G series SFPs. Cisco ONS 15600 Reference Manual, R6.0 A-13...

  • Page 240: Table A-13 Power And Noise Limited Performances

    9 micron SMF 80 km (49.71 mi.) ONS-SE-Z1 1310 nm 9 micron SMF 15 km (9.3 mi.) ONS-SI-155-L2 1530 nm 9 micron SMF 80 km (49.71 mi.) 1. Typical loss on a 1310-nm wavelength SMF is 0.6 dB/km. Cisco ONS 15600 Reference Manual, R6.0 A-14...

  • Page 241: Appendix

    A P P E N D I X Administrative and Service States This appendix describes administrative and service states for Cisco ONS 15600 cards, ports, and cross-connects. For circuit state information, see Chapter 7, “Circuits and Tunnels.” Entity states in Software Release 6.0 are based on the generic state model defined in Telcordia GR-1093-CORE, Issue...

  • Page 242: Administrative States

    B.2 Administrative States Administrative states are used to manage service states. Administrative states consist of a PST and an SST. Table B-3 lists the administrative states supported by the ONS 15600. See Table B-2 for SST definitions. A change in the administrative state of an entity does not change the service state of supporting or Note supported entities.

  • Page 243: Service State Transitions

    A service state transition is based on the action performed on the entity. B.3.1 Card Service State Transitions Table B-4 lists card service state transitions. Table B-4 ONS 15600 Card Service State Transitions Current Service State Action Next Service State IS-NR...

  • Page 244

    Appendix B Administrative and Service States B.3.1 Card Service State Transitions Table B-4 ONS 15600 Card Service State Transitions (continued) Current Service State Action Next Service State OOS-AU,SWDL Restart completed. IS-NR Pull the card. OOS-AU,UEQ OOS-AU,UEQ Insert a valid card.

  • Page 245: Port And Cross-connect Service State Transitions

    Note Deleting a port or cross-connect removes the entity from the system. The deleted entity does not transition to another service state. Table B-5 ONS 15600 Port and Cross-Connect Service State Transitions Current Service State Action Next Service State IS-NR...

  • Page 246: Table B-5 Ons 15600 Port And Cross-connect Service State Transitions

    Appendix B Administrative and Service States B.3.2 Port and Cross-Connect Service State Transitions Table B-5 ONS 15600 Port and Cross-Connect Service State Transitions (continued) Current Service State Action Next Service State OOS-AU,AINS & FLT Alarm/condition is cleared. OOS-AU,AINS Put the port or cross-connect in OOS-AU,FLT the IS administrative state.

  • Page 247

    Appendix B Administrative and Service States B.3.2 Port and Cross-Connect Service State Transitions Table B-5 ONS 15600 Port and Cross-Connect Service State Transitions (continued) Current Service State Action Next Service State OOS-MA,MT Put the port or cross-connect in IS-NR the IS administrative state.

  • Page 248

    Appendix B Administrative and Service States B.3.2 Port and Cross-Connect Service State Transitions Cisco ONS 15600 Reference Manual, R6.0...

  • Page 249: Appendix

    C.1 Network Element Defaults Description The NE defaults are preinstalled on each Cisco ONS 15600 TSC card. They also ship as a file called 15454-defaults.txt on the Cisco Transport Controller (CTC) software CD in the event you want to import the defaults onto existing Timing and Shelf Controller (TSC) cards.

  • Page 250: Card Default Settings

    C.2 Card Default Settings The tables in this section list the default settings for each card. Cisco provides user-configurable defaults for the Cisco ONS 15600 optical and electrical cards, including: Soak Time (all cards) is the length of time that elapses between an automaticInService (AINS) port •...

  • Page 251: Oc192_4 Card Default Settings

    0–8850600 OC192_4.pmthresholds.line.farend.15min.ES 87 (seconds) 0–900 OC192_4.pmthresholds.line.farend.15min.FC 10 (count) 0–72 OC192_4.pmthresholds.line.farend.15min.SES 1 (seconds) 0–900 OC192_4.pmthresholds.line.farend.15min.UAS 3 (seconds) 0–900 OC192_4.pmthresholds.line.farend.1day.CV 850400 (B2 count) 0–849657600 OC192_4.pmthresholds.line.farend.1day.ES 864 (seconds) 0–86400 OC192_4.pmthresholds.line.farend.1day.FC 40 (count) 0–6912 OC192_4.pmthresholds.line.farend.1day.SES 4 (seconds) 0–86400 Cisco ONS 15600 Reference Manual, R6.0...

  • Page 252

    OC192_4.pmthresholds.section.nearend.15min.ES 500 (seconds) 0–900 OC192_4.pmthresholds.section.nearend.15min.SEFS 500 (seconds) 0–900 OC192_4.pmthresholds.section.nearend.15min.SES 500 (seconds) 0–900 OC192_4.pmthresholds.section.nearend.1day.CV 100000 (B1 count) 0–764899200 OC192_4.pmthresholds.section.nearend.1day.ES 5000 (seconds) 0–86400 OC192_4.pmthresholds.section.nearend.1day.SEFS 5000 (seconds) 0–86400 OC192_4.pmthresholds.section.nearend.1day.SES 5000 (seconds) 0–86400 OC192_4.pmthresholds.sts1.farend.15min.CV 15 (B3 count) 0–2160000 Cisco ONS 15600 Reference Manual, R6.0...

  • Page 253

    0–2160000 OC192_4.pmthresholds.sts12c+.farend.15min.ES 60 (seconds) 0–900 OC192_4.pmthresholds.sts12c+.farend.15min.FC 10 (count) 0–72 OC192_4.pmthresholds.sts12c+.farend.15min.SES 3 (seconds) 0–900 OC192_4.pmthresholds.sts12c+.farend.15min.UAS 10 (seconds) 0–900 OC192_4.pmthresholds.sts12c+.farend.1day.CV 750 (B3 count) 0–207360000 OC192_4.pmthresholds.sts12c+.farend.1day.ES 600 (seconds) 0–86400 OC192_4.pmthresholds.sts12c+.farend.1day.FC 40 (count) 0–6912 OC192_4.pmthresholds.sts12c+.farend.1day.SES 7 (seconds) 0–86400 Cisco ONS 15600 Reference Manual, R6.0...

  • Page 254

    0–86400 OC192_4.pmthresholds.sts3c.farend.1day.UAS 10 (seconds) 0–86400 OC192_4.pmthresholds.sts3c.nearend.15min.CV 25 (B3 count) 0–2160000 OC192_4.pmthresholds.sts3c.nearend.15min.ES 20 (seconds) 0–900 OC192_4.pmthresholds.sts3c.nearend.15min.FC 10 (count) 0–72 OC192_4.pmthresholds.sts3c.nearend.15min.NPJC-PDET 60 (count) 0–7200000 OC192_4.pmthresholds.sts3c.nearend.15min.NPJC-PGEN 60 (count) 0–7200000 OC192_4.pmthresholds.sts3c.nearend.15min.PPJC-PDET 60 (count) 0–7200000 OC192_4.pmthresholds.sts3c.nearend.15min.PPJC-PGEN 60 (count) 0–7200000 Cisco ONS 15600 Reference Manual, R6.0...

  • Page 255: Oc48_16 Card Default Settings

    OPT-LOW, OPT-LOW + 1.0, OPT-LOW + 2.0 .. 255.0 OC48_16.physicalthresholds.warning.15min.OPT-LOW 80 (%) 0.0, 1.0, 2.0 .. OPT-HIGH OC48_16.physicalthresholds.warning.1day.LBC-HIGH 200 (%) LBC-LOW, LBC-LOW + 1.0, LBC-LOW + 2.0 .. 255.0 OC48_16.physicalthresholds.warning.1day.LBC-LOW 20 (%) 0.0, 1.0, 2.0 .. LBC-HIGH Cisco ONS 15600 Reference Manual, R6.0...

  • Page 256

    0–900 OC48_16.pmthresholds.line.nearend.1day.CV 212600 (B2 count) 0–212371200 OC48_16.pmthresholds.line.nearend.1day.ES 864 (seconds) 0–86400 OC48_16.pmthresholds.line.nearend.1day.FC 40 (count) 0–6912 OC48_16.pmthresholds.line.nearend.1day.PSC 5 (count) 0–57600 OC48_16.pmthresholds.line.nearend.1day.PSC-R 5 (count) 0–57600 OC48_16.pmthresholds.line.nearend.1day.PSC-S 5 (count) 0–57600 OC48_16.pmthresholds.line.nearend.1day.PSC-W 5 (count) 0–57600 OC48_16.pmthresholds.line.nearend.1day.PSD 600 (seconds) 0–86400 Cisco ONS 15600 Reference Manual, R6.0...

  • Page 257

    0–7200000 OC48_16.pmthresholds.sts1.nearend.15min.PPJC-PDET 60 (count) 0–7200000 OC48_16.pmthresholds.sts1.nearend.15min.PPJC-PGEN 60 (count) 0–7200000 OC48_16.pmthresholds.sts1.nearend.15min.SES 3 (seconds) 0–900 OC48_16.pmthresholds.sts1.nearend.15min.UAS 10 (seconds) 0–900 OC48_16.pmthresholds.sts1.nearend.1day.CV 125 (B3 count) 0–207360000 OC48_16.pmthresholds.sts1.nearend.1day.ES 100 (seconds) 0–86400 OC48_16.pmthresholds.sts1.nearend.1day.FC 40 (count) 0–6912 OC48_16.pmthresholds.sts1.nearend.1day.NPJC-PDET 5760 (count) 0–691200000 Cisco ONS 15600 Reference Manual, R6.0...

  • Page 258

    OC48_16.pmthresholds.sts12c+.nearend.1day.NPJC-PGEN 5760 (count) 0–691200000 OC48_16.pmthresholds.sts12c+.nearend.1day.PPJC-PDET 5760 (count) 0–691200000 OC48_16.pmthresholds.sts12c+.nearend.1day.PPJC-PGEN 5760 (count) 0–691200000 OC48_16.pmthresholds.sts12c+.nearend.1day.SES 7 (seconds) 0–86400 OC48_16.pmthresholds.sts12c+.nearend.1day.UAS 10 (seconds) 0–86400 OC48_16.pmthresholds.sts3c.farend.15min.CV 25 (B3 count) 0–2160000 OC48_16.pmthresholds.sts3c.farend.15min.ES 20 (seconds) 0–900 OC48_16.pmthresholds.sts3c.farend.15min.FC 10 (count) 0–72 Cisco ONS 15600 Reference Manual, R6.0 C-10...

  • Page 259: Asap Card Default Settings

    Default Value Default Domain ASAP_4.config.ether.AINSSoakTime 08:00 (hours:mins) 00:00, 00:15, 00:30 .. 48:00 ASAP_4.config.ether.State OOS,DSBLD IS; OOS,DSBLD; OOS,MT; IS,AINS ASAP_4.config.oc12.line.AINSSoakTime 08:00 (hours:mins) 00:00, 00:15, 00:30 .. 48:00 ASAP_4.config.oc12.line.SDBER 1E-7 1E-5, 1E-6, 1E-7, 1E-8, 1E-9 Cisco ONS 15600 Reference Manual, R6.0 C-11...

  • Page 260

    0.0, 1.0, 2.0 .. LBC-HIGH ASAP_4.physicalthresholds.oc12.warning.15min.OPR-HIGH 200 (%) OPR-LOW, OPR-LOW + 1.0, OPR-LOW + 2.0 .. 255.0 ASAP_4.physicalthresholds.oc12.warning.15min.OPR-LOW 50 (%) 0.0, 1.0, 2.0 .. OPR-HIGH ASAP_4.physicalthresholds.oc12.warning.15min.OPT-HIGH 120 (%) OPT-LOW, OPT-LOW + 1.0, OPT-LOW + 2.0 .. 255.0 Cisco ONS 15600 Reference Manual, R6.0 C-12...

  • Page 261

    OPT-LOW + 2.0 .. 255.0 ASAP_4.physicalthresholds.oc3.warning.1day.OPT-LOW 80 (%) 0.0, 1.0, 2.0 .. OPT-HIGH ASAP_4.physicalthresholds.oc48.alarm.LBC-HIGH 200 (%) LBC-LOW, LBC-LOW + 1.0, LBC-LOW + 2.0 .. 255.0 ASAP_4.physicalthresholds.oc48.alarm.LBC-LOW 20 (%) 0.0, 1.0, 2.0 .. LBC-HIGH Cisco ONS 15600 Reference Manual, R6.0 C-13...

  • Page 262

    ASAP_4.pmthresholds.oc12.line.farend.1day.ES 864 (seconds) 0–86400 ASAP_4.pmthresholds.oc12.line.farend.1day.FC 40 (count) 0–6912 ASAP_4.pmthresholds.oc12.line.farend.1day.SES 4 (seconds) 0–86400 ASAP_4.pmthresholds.oc12.line.farend.1day.UAS 10 (seconds) 0–86400 ASAP_4.pmthresholds.oc12.line.nearend.15min.CV 5315 (B2 count) 0–2212200 ASAP_4.pmthresholds.oc12.line.nearend.15min.ES 87 (seconds) 0–900 ASAP_4.pmthresholds.oc12.line.nearend.15min.FC 10 (count) 0–72 ASAP_4.pmthresholds.oc12.line.nearend.15min.PSC 1 (count) 0–600 Cisco ONS 15600 Reference Manual, R6.0 C-14...

  • Page 263

    ASAP_4.pmthresholds.oc12.sts1.farend.1day.ES 100 (seconds) 0–86400 ASAP_4.pmthresholds.oc12.sts1.farend.1day.FC 40 (count) 0–6912 ASAP_4.pmthresholds.oc12.sts1.farend.1day.SES 7 (seconds) 0–86400 ASAP_4.pmthresholds.oc12.sts1.farend.1day.UAS 10 (seconds) 0–86400 ASAP_4.pmthresholds.oc12.sts1.nearend.15min.CV 15 (B3 count) 0–2160000 ASAP_4.pmthresholds.oc12.sts1.nearend.15min.ES 12 (seconds) 0–900 ASAP_4.pmthresholds.oc12.sts1.nearend.15min.FC 10 (count) 0–72 ASAP_4.pmthresholds.oc12.sts1.nearend.15min.NPJC-PDET 60 (count) 0–7200000 Cisco ONS 15600 Reference Manual, R6.0 C-15...

  • Page 264

    ASAP_4.pmthresholds.oc12.sts12c+.nearend.15min.NPJC-PGEN 60 (count) 0–7200000 ASAP_4.pmthresholds.oc12.sts12c+.nearend.15min.PPJC-PDET 60 (count) 0–7200000 ASAP_4.pmthresholds.oc12.sts12c+.nearend.15min.PPJC-PGEN 60 (count) 0–7200000 ASAP_4.pmthresholds.oc12.sts12c+.nearend.15min.SES 3 (seconds) 0–900 ASAP_4.pmthresholds.oc12.sts12c+.nearend.15min.UAS 10 (seconds) 0–900 ASAP_4.pmthresholds.oc12.sts12c+.nearend.1day.CV 750 (B3 count) 0–207360000 ASAP_4.pmthresholds.oc12.sts12c+.nearend.1day.ES 600 (seconds) 0–86400 ASAP_4.pmthresholds.oc12.sts12c+.nearend.1day.FC 40 (count) 0–6912 Cisco ONS 15600 Reference Manual, R6.0 C-16...

  • Page 265

    ASAP_4.pmthresholds.oc12.sts3c-9c.nearend.1day.NPJC-PDET 5760 (count) 0–691200000 ASAP_4.pmthresholds.oc12.sts3c-9c.nearend.1day.NPJC-PGEN 5760 (count) 0–691200000 ASAP_4.pmthresholds.oc12.sts3c-9c.nearend.1day.PPJC-PDET 5760 (count) 0–691200000 ASAP_4.pmthresholds.oc12.sts3c-9c.nearend.1day.PPJC-PGEN 5760 (count) 0–691200000 ASAP_4.pmthresholds.oc12.sts3c-9c.nearend.1day.SES 7 (seconds) 0–86400 ASAP_4.pmthresholds.oc12.sts3c-9c.nearend.1day.UAS 10 (seconds) 0–86400 ASAP_4.pmthresholds.oc3.line.farend.15min.CV 1312 (B2 count) 0–2212200 ASAP_4.pmthresholds.oc3.line.farend.15min.ES 87 (seconds) 0–900 Cisco ONS 15600 Reference Manual, R6.0 C-17...

  • Page 266

    500 (seconds) 0–900 ASAP_4.pmthresholds.oc3.section.nearend.15min.SES 500 (seconds) 0–900 ASAP_4.pmthresholds.oc3.section.nearend.1day.CV 100000 (B1 count) 0–206582400 ASAP_4.pmthresholds.oc3.section.nearend.1day.ES 5000 (seconds) 0–86400 ASAP_4.pmthresholds.oc3.section.nearend.1day.SEFS 5000 (seconds) 0–86400 ASAP_4.pmthresholds.oc3.section.nearend.1day.SES 5000 (seconds) 0–86400 ASAP_4.pmthresholds.oc3.sts1.farend.15min.CV 15 (B3 count) 0–2160000 ASAP_4.pmthresholds.oc3.sts1.farend.15min.ES 12 (seconds) 0–900 Cisco ONS 15600 Reference Manual, R6.0 C-18...

  • Page 267

    ASAP_4.pmthresholds.oc3.sts3c.farend.15min.FC 10 (count) 0–72 ASAP_4.pmthresholds.oc3.sts3c.farend.15min.SES 3 (seconds) 0–900 ASAP_4.pmthresholds.oc3.sts3c.farend.15min.UAS 10 (seconds) 0–900 ASAP_4.pmthresholds.oc3.sts3c.farend.1day.CV 250 (B3 count) 0–207360000 ASAP_4.pmthresholds.oc3.sts3c.farend.1day.ES 200 (seconds) 0–86400 ASAP_4.pmthresholds.oc3.sts3c.farend.1day.FC 40 (count) 0–6912 ASAP_4.pmthresholds.oc3.sts3c.farend.1day.SES 7 (seconds) 0–86400 ASAP_4.pmthresholds.oc3.sts3c.farend.1day.UAS 10 (seconds) 0–86400 Cisco ONS 15600 Reference Manual, R6.0 C-19...

  • Page 268

    ASAP_4.pmthresholds.oc48.line.nearend.15min.CV 21260 (B2 count) 0–2212200 ASAP_4.pmthresholds.oc48.line.nearend.15min.ES 87 (seconds) 0–900 ASAP_4.pmthresholds.oc48.line.nearend.15min.FC 10 (count) 0–72 ASAP_4.pmthresholds.oc48.line.nearend.15min.PSC 1 (count) 0–600 ASAP_4.pmthresholds.oc48.line.nearend.15min.PSC-R 1 (count) 0–600 ASAP_4.pmthresholds.oc48.line.nearend.15min.PSC-S 1 (count) 0–600 ASAP_4.pmthresholds.oc48.line.nearend.15min.PSC-W 1 (count) 0–600 ASAP_4.pmthresholds.oc48.line.nearend.15min.PSD 300 (seconds) 0–600 Cisco ONS 15600 Reference Manual, R6.0 C-20...

  • Page 269

    ASAP_4.pmthresholds.oc48.sts1.farend.15min.FC 10 (count) 0–72 ASAP_4.pmthresholds.oc48.sts1.farend.15min.SES 3 (seconds) 0–900 ASAP_4.pmthresholds.oc48.sts1.farend.15min.UAS 10 (seconds) 0–900 ASAP_4.pmthresholds.oc48.sts1.farend.1day.CV 125 (B3 count) 0–207360000 ASAP_4.pmthresholds.oc48.sts1.farend.1day.ES 100 (seconds) 0–86400 ASAP_4.pmthresholds.oc48.sts1.farend.1day.FC 40 (count) 0–6912 ASAP_4.pmthresholds.oc48.sts1.farend.1day.SES 7 (seconds) 0–86400 ASAP_4.pmthresholds.oc48.sts1.farend.1day.UAS 10 (seconds) 0–86400 Cisco ONS 15600 Reference Manual, R6.0 C-21...

  • Page 270

    ASAP_4.pmthresholds.oc48.sts12c+.nearend.15min.CV 75 (B3 count) 0–2160000 ASAP_4.pmthresholds.oc48.sts12c+.nearend.15min.ES 60 (seconds) 0–900 ASAP_4.pmthresholds.oc48.sts12c+.nearend.15min.FC 10 (count) 0–72 ASAP_4.pmthresholds.oc48.sts12c+.nearend.15min.NPJC-PDET 60 (count) 0–7200000 ASAP_4.pmthresholds.oc48.sts12c+.nearend.15min.NPJC-PGEN 60 (count) 0–7200000 ASAP_4.pmthresholds.oc48.sts12c+.nearend.15min.PPJC-PDET 60 (count) 0–7200000 ASAP_4.pmthresholds.oc48.sts12c+.nearend.15min.PPJC-PGEN 60 (count) 0–7200000 ASAP_4.pmthresholds.oc48.sts12c+.nearend.15min.SES 3 (seconds) 0–900 Cisco ONS 15600 Reference Manual, R6.0 C-22...

  • Page 271

    ASAP_4.pmthresholds.oc48.sts3c-9c.nearend.15min.UAS 10 (seconds) 0–900 ASAP_4.pmthresholds.oc48.sts3c-9c.nearend.1day.CV 250 (B3 count) 0–207360000 ASAP_4.pmthresholds.oc48.sts3c-9c.nearend.1day.ES 200 (seconds) 0–86400 ASAP_4.pmthresholds.oc48.sts3c-9c.nearend.1day.FC 40 (count) 0–6912 ASAP_4.pmthresholds.oc48.sts3c-9c.nearend.1day.NPJC-PDET 5760 (count) 0–691200000 ASAP_4.pmthresholds.oc48.sts3c-9c.nearend.1day.NPJC-PGEN 5760 (count) 0–691200000 ASAP_4.pmthresholds.oc48.sts3c-9c.nearend.1day.PPJC-PDET 5760 (count) 0–691200000 ASAP_4.pmthresholds.oc48.sts3c-9c.nearend.1day.PPJC-PGEN 5760 (count) 0–691200000 Cisco ONS 15600 Reference Manual, R6.0 C-23...

  • Page 272: Node Default Settings

    C.3 Node Default Settings Table C-4 lists the node-level default settings for the Cisco ONS 15600. Cisco provides the following user-configurable defaults for each Cisco ONS 15600 node: Create Like TL1—Instructs the node to create only cross-connects, allowing the resulting circuits •...

  • Page 273

    However, when the card level defaults are changed using the Provisioning > Defaults tab, existing card provisioning remains unaffected. For more information about each individual node setting, refer to the “Change Node Settings” chapter Note of the Cisco ONS 15600 Procedure Guide. Table C-4 Node Default Settings Default Name...

  • Page 274

    TRUE, FALSE NODE.protection.blsr.SpanReversionTime 5.0 (minutes) 0.5, 1.0, 1.5 .. 12.0 NODE.protection.blsr.SpanRevertive TRUE TRUE, FALSE NODE.security.emsAccess.AccessState NonSecure NonSecure, Secure NODE.security.emsAccess.IIOPListenerPort (May reboot node) 57790 (port #) 0–65535 NODE.security.idleUserTimeout.Maintenance 01:00 00:00, 00:01, 00:02 .. 16:39 (hours:mins) Cisco ONS 15600 Reference Manual, R6.0 C-26...

  • Page 275

    DisableInactiveUser is TRUE • 45 (and N/A) when DisableInactiveUser is FALSE NODE.security.other.PMClearingPrivilege Provisioning Provisioning, Superuser NODE.security.other.SingleSessionPerUser FALSE TRUE, FALSE NODE.security.passwordAging.EnforcePasswordAging FALSE TRUE, FALSE NODE.security.passwordAging.maintenance.AgingPeriod 45 (days) 20–90 NODE.security.passwordAging.maintenance.WarningPeriod 5 (days) 2–20 NODE.security.passwordAging.provisioning.AgingPeriod 45 (days) 20–90 Cisco ONS 15600 Reference Manual, R6.0 C-27...

  • Page 276

    (mins:secs) NODE.security.userLockout.ManualUnlockBySuperuser FALSE TRUE, FALSE NODE.timing.bits-1.Coding B8ZS B8ZS, AMI NODE.timing.bits-1.Framing ESF, D4 NODE.timing.bits-1.State IS; OOS,DSBLD; OOS,MT; IS,AINS NODE.timing.bits-2.Coding B8ZS B8ZS, AMI NODE.timing.bits-2.Framing ESF, D4 NODE.timing.bits-2.State IS; OOS,DSBLD; OOS,MT; IS,AINS NODE.timing.general.Mode External External, Line Cisco ONS 15600 Reference Manual, R6.0 C-28...

  • Page 277: Time Zones

    Phoenix - Arizona GMT-06:00 Central Time (US & Canada) GMT-06:00 Mexico City GMT-06:00 Costa Rica, Managua, San Salvador GMT-06:00 Saskatchewan, Manitoba GMT-05:00 Bogota, Lima, Quito GMT-05:00 Eastern Time (US & Canada) GMT-05:00 Havana Cisco ONS 15600 Reference Manual, R6.0 C-29...

  • Page 278

    Cape Town, Harare, Johannesburg, Pretoria GMT+02:00 Jerusalem GMT+02:00 Kaliningrad, Minsk GMT+03:00 Aden, Antananarivo, Khartoum, Nairobi GMT+03:00 Baghdad GMT+03:00 Kuwait, Riyadh GMT+03:00 Moscow, St. Petersburg, Novgorod GMT+03:30 Tehran GMT+04:00 Abu Dhabi, Mauritius, Muscat GMT+04:00 Aqtau, T'bilisi Cisco ONS 15600 Reference Manual, R6.0 C-30...

  • Page 279

    Honiara, Magadan, Soloman Islands GMT+11:00 Noumea - New Caledonia GMT+11:30 Kingston - Norfolk Island GMT+12:00 Andyra, Kamchatka GMT+12:00 Auckland, Wellington GMT+12:00 Marshall Islands, Eniwetok GMT+12:00 Suva - Fiji GMT+12:45 Chatham Island GMT+13:00 Nuku'alofa - Tonga Cisco ONS 15600 Reference Manual, R6.0 C-31...

  • Page 280: Ctc Default Settings

    Line Islands, Kiritimati - Kiribati C.4 CTC Default Settings Table C-6 lists the CTC-level default settings for the Cisco ONS 15600. Cisco provides the following user-configurable defaults for CTC. Create circuits with the Route Automatically check box selected by default.

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