Release Notes for Cisco CRS Routers, IOS XR Release 6.7.2
Note |
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The Cisco Carrier Routing System (CRS) offers industry-leading performance, advanced services intelligence, environmentally conscious design, and system longevity. The Cisco CRS is powered by a chipset architecture based on multidimensional engineering and Cisco IOS XR Software, a unique self-healing, distributed operating system.
Cisco IOS XR Software is a distributed operating system designed for continuous system operation combined with service flexibility and higher performance.
You can find the most current Cisco IOS XR software documentation at:
http://www.cisco.com/en/US/products/ps5763/tsd_products_support_series_home.html
For a list of software caveats that apply to Cisco IOS XR Software Release 6.7.2 see the Caveats section. The caveats are updated for every release and are described at http://www.cisco.com/c/en/us/products/routers/carrier-routing-system/index.html.
We recommend that you view the field notices for this release located at the following URL to see if your software or hardware platforms are affected:
http://www.cisco.com/c/en/us/support/routers/carrier-routing-system/products-field-notices-list.html
This release notes describe the features provided in the Cisco IOS XR Software Release 6.7.2. See the Software Features Introduced in Cisco IOS XR Software Release 6.7.2 section in this document for information on new software features.
Supported Packages and System Requirements
This section describes the system requirements for Cisco IOS XR Software Release 6.7.2 supported on the Cisco CRS Router.
Feature Set Table
This table lists the Cisco IOS XR Software feature set matrix (TAR files) and associated filenames available for the Cisco IOS XR Software Release 6.7.2 supported on the Cisco CRS router.
Feature Set |
Filename |
Description |
---|---|---|
Cisco IOS XR IP/MPLS Core Software |
CRS-iosxr-px-6.7.2.tar |
|
Cisco IOS XR IP/MPLS Core Software 3DES |
CRS-iosxr-px-k9-6.7.2.tar |
|
This table lists the Cisco IOS XR Software feature set matrix (PIE files) and associated filenames available for the Cisco IOS XR Software Release 6.7.2 supported on the Cisco CRS router.
Feature Set |
Filename |
Description |
Composite Package |
||
Cisco IOS XR IP Unicast Routing Core Bundle |
hfr-mini-px.pie-6.7.2 |
Contains the required core packages, including OS, Admin, Base, Forwarding, Modular Services Card, Routing, SNMP Agent, and Alarm Correlation. |
Cisco IOS XR IP Unicast Routing Core Bundle |
hfr-mini-px.vm-6.7.2 |
Contains the required core packages including OS, Admin, Base, Forwarding, Modular Services Card, Routing, SNMP Agent, and Alarm Correlation. |
Optional Individual Packages (Packages are installed individually) |
||
Cisco IOS XR Manageability Package |
hfr-mgbl-px.pie-6.7.2 |
Common Object Request Broker Architecture (CORBA) agent, Extensible Markup Language (XML) Parser, and HTTP server packages. |
Cisco IOS XR MPLS Package |
hfr-mpls-px.pie-6.7.2 |
MPLS Traffic Engineering (MPLS-TE), Label Distribution Protocol (LDP), MPLS Forwarding, MPLS Operations, Administration, and Maintenance (OAM), Link Manager Protocol (LMP), Optical User Network Interface (OUNI), Resource Reservation Protocol (RSVP), and Layer-3 VPN. |
Cisco IOS XR Multicast Package |
hfr-mcast-px.pie-6.7.2 |
Multicast Routing Protocols (PIM, Multicast Source Discovery Protocol [MSDP], Internet Group Management Protocol [IGMP], Auto-RP), Tools (SAP, MTrace), and Infrastructure [(Multicast Routing Information Base [MRIB], Multicast-Unicast RIB [MURIB], Multicast forwarding [MFWD]). |
Cisco IOS XR Security Package |
hfr-k9sec-px.pie-6.7.2 |
Support for Encryption, Decryption, IP Security (IPSec), Secure Shell (SSH), Secure Socket Layer (SSL), and Public-key infrastructure (PKI) (Software based IPSec support—maximum of 500 tunnels) |
Cisco IOS XR Services Package |
hfr-services-px.pie-6.7.2 |
Includes binaries to support CGSE and CGSE PLUS cards. |
Cisco IOS XR FPD Package |
hfr-fpd-px.pie-6.7.2 |
Firmware for Fixed Physical layer interface module (PLIM) and Shared port adapters (SPA) modules as well as ROM monitor (ROMMON) images for Cisco CRS chassis. |
Cisco IOS XR Diagnostic Package |
hfr-diags-px.pie-6.7.2 |
Diagnostic utilities for Cisco IOS XR routers. |
Cisco IOS XR Documentation Package |
hfr-doc-px.pie-6.7.2 |
.man pages for Cisco IOS XR Software on the Cisco CRS chassis. |
Cisco IOS XR Video Package |
hfr-video-px.pie-6.7.2 |
Support for Video Monitoring on Cisco CRS routers. |
Cisco IOS XR Satellite Package |
hfr-asr9000v-nV-px.pie-6.7.2 |
Includes binaries to support Cisco ASR9000v Series Router Software. |
Cisco IOS XR Lawful Intercept (LI) Package |
hfr-li-px.pie-6.7.2 |
Includes LI software images. |
Memory Requirements
Caution |
If you remove the media in which the software image or configuration is stored, the router may become unstable and fail. |
The minimum memory requirements for a Cisco CRS running Cisco IOS XR Software Release consist of the following:
-
6 GB memory on route processors (RPs)
Supported Hardware
The following tables lists the supported hardware components on the Cisco CRS Router and the minimum required software versions. For more information, see the Firmware Support section.
All hardware features are supported on Cisco IOS XR Software, subject to the memory requirements specified in the Memory Requirements section.
Component |
Part Number |
Support from version |
Cisco CRS Series 16-Slot Line Card Chassis |
||
Cisco CRS 16-Slot Line Card Chassis |
CRS-16-LCC |
3.2 |
Cisco CRS Fan Tray for 16-Slot LCC |
CRS-16-LCC-FAN-TR |
3.2 |
Cisco CRS Fan Controller for 16-Slot Line Card Chassis |
CRS-16-LCC-FAN-CT |
3.2 |
Cisco CRS 16-Slot Alarm Board |
CRS-16-ALARM |
3.2 |
Cisco CRS AC Delta Power Shelf for 16-Slot LCC |
CRS-16-LCC-PS-ACD |
3.2 |
Cisco CRS AC Wye Power Shelf for 16-Slot LCC |
CRS-16-LCC-PS-ACW |
3.2 |
Cisco CRS DC Power Shelf for 16-Slot LCC |
CRS-16-LCC-PS-DC |
3.2 |
Cisco CRS LCC Front AC Power Panel |
CRS-16-ACGRILLE |
3.2 |
Cisco CRS LCC Front DC Power Panel |
CRS-16-DCGRILLE |
3.2 |
Cisco CRS Line Card Chassis Front Doors |
CRS-16-LCC-DRS-F |
3.2 |
Cisco CRS Line Card Chassis Front Cable Mgmt |
CRS-16-LCC-FRNT |
3.2 |
Cisco CRS LCC Expanded Front Cable Mgmt |
CRS-16-LCC-FRNT-E |
3.2 |
Cisco CRS Line Card Chassis Rear Cable Mgmt |
CRS-16-LCC-BCK-CM |
3.2 |
Cisco CRS Line Card Chassis Rear Doors |
CRS-16-LCC-DRS-R |
3.2 |
Cisco CRS Lift for LCC 16 and FCC |
CRS-16-LIFT/B |
3.2 |
Cisco CRS DC PEM for 16 slot LCC and FCC |
CRS-16-DC-PEM |
3.2 |
Cisco CRS 16 Slot System Reduced-Noise DC PEM |
CRS-16-DC-PEM-B |
3.8 |
Cisco CRS 16 Slot System Reduced-Noise Fan Tray |
CRS-16-LCC-FNTR-B |
3.8 |
Cisco CRS Series LC Chassis Fan Controller |
CRS-16-LCC-F-CT-B |
4.0.1PX |
Cisco CRS 16-Slot Enhanced Line Card Chassis |
CRS-16-LCC-B |
4.0.3 |
Cisco CRS Modular Power Alarm for 16 slots and FCC |
CRS-16-ALARM-C |
3.9 |
Cisco CRS Modular Power Grill For 16 Slots and FCC |
CRS-16-PW-GRILL |
3.9 |
Cisco CRS Modular DC Power Shelf for 16 slots LCC |
CRS-16LCC-PSH-DC |
3.9 |
Cisco CRS Modular AC Power Shelf for 16 slots LCC |
CRS-16LCC-PSH-AC |
3.9 |
Cisco CRS Modular AC Power Module |
CRS-PM-AC |
3.9 |
Cisco CRS Series 8-Slot Line Card Chassis |
||
Cisco CRS 8-Slot Install Kit |
CRS-8-INSTALL-KT |
N/A |
Cisco CRS 8-Slot Fork Lift Tube |
CRS-8-LIFT-TUBE |
N/A |
Cisco CRS 8-Slot Front Badge Panel |
CRS-8-BDG-PANEL |
N/A |
Cisco CRS 8-Slot Front Inlet Grill |
CRS-8-FRNT-GRILL |
N/A |
Cisco CRS 8-Slot Horizontal Install Rails |
CRS-8-HRZ-RAILS |
N/A |
Cisco CRS 8-Slot Line Card Chassis |
CRS-8-LCC |
3.2 |
Cisco CRS Fan Tray for 8-Slot Line Card Chassis |
CRS-8-LCC-FAN-TR |
3.2 |
Cisco CRS Line Card Chassis Filter Pack |
CRS-8-LCC-FILTER |
3.2 |
Cisco CRS AC Pwr Rectifier for 8-Slot LCC |
CRS-8-AC-RECT |
3.2 |
Cisco CRS DC Power Entry Module for 8-Slot LCC |
CRS-8-DC-PEM |
3.2 |
Cisco CRS AC & DC Power Module Filter for 8-Slot LCC |
CRS-8-PWR-FILTER |
3.2 |
Cisco CRS AC Delta PDU for CRS-8 LCC |
CRS-8-LCC-PDU-ACD |
3.2 |
Cisco CRS AC Wye PDU for CRS-8 LCC |
CRS-8-LCC-PDU-ACW |
3.2 |
Cisco CRS DC PDU for CRS-8 LCC |
CRS-8-LCC-PDU-DC |
3.2 |
Cisco CRS 8-Slot Enhanced Line Card Chassis |
CRS-8-LCC-B You must use CRS-8-FANTRAY-B fan tray when CRS-MSC-X, CRS-LSP-X and CRS-FP-X line cards are installed. |
4.2.0 |
Cisco CRS Modular DC Power Shelf for 8 slots Chassis |
CRS-8-PSH-DC |
3.9 |
Cisco CRS Modular DC Power Module |
CRS-PM-DC |
3.9 |
Cisco CRS Modular AC Power Shelf for 8 slots Chassis |
CRS-8-PSH-AC |
3.9 |
Cisco CRS Modular AC Power Module |
CRS-PM-AC |
3.9 |
Cisco CRS 8 slot Fan Tray for CRS-8/S-B |
CRS-8-FANTRAY-B |
-- |
Cisco CRS Series 4-Slot Line Card Chassis |
||
Cisco CRS 4-Slot Line Card Chassis |
CRS-4-CH |
3.4 |
Cisco CRS 4-Slot AC supply |
CRS-4-AC-SUPPLY |
3.4 |
Cisco CRS 4-Slot AC Shelf |
CRS-4-AC-SHELF |
3.4 |
Cisco CRS 4 slot Fan Tray |
CRS-4-FAN-TR |
3.4 |
Cisco CRS Fabric Chassis Hardware |
||
Cisco CRS-1 Series Fabric Card Chassis Only |
CRS-FCC= |
3.2 |
CRS-1 Fabric Chassis AC Delta Power Kit |
CRS-FCC-ACD-KIT |
3.2 |
CRS-1 Fabric Chassis AC Grille |
CRS-FCC-ACGRILLE |
3.2 |
CRS-1 Fabric Chassis AC-Wye Power Kit |
CRS-FCC-ACW-KIT |
3.2 |
CRS Fabric Chassis DC Power Kit |
CRS-FCC-DC-KIT |
3.2 |
CRS-1 Fabric Chassis DC Power Grille |
CRS-FCC-DCGRILLE |
3.2 |
CRS Fabric Chassis Lift Bracket |
CRS-FCC-LIFT-BRKT |
3.2 |
CRS Fabric Chassis OIM Modules |
CRS-FCC-OIM-1S= |
3.2 |
Cisco CRS-1 Series FC Chassis Shelf/Fan/Enet cntr |
CRS-FCC-SC-GE= |
3.2 |
CRS-1 Fabric Chassis AC Intake Grille |
CRS-FCC-ACGRILLE= |
3.2 |
CRS-1 Fabric Chassis DC Intake Grille |
CRS-FCC-DCGRILLE= |
3.2 |
Cisco CRS-1 Series Fan Tray for FCC |
CRS-FCC-FAN-TR= |
3.2 |
CRS-1 Fabric Card Chassis Fan Tray Filters |
CRS-FCC-FILTER= |
3.2 |
CRS-1 Fabric Chassis Front Cosmetic Kit |
CRS-FCC-FRNT-CM= |
3.2 |
Cisco CRS-1 Series Fabric Card Chassis Fiber Module LED |
CRS-FCC-LED= |
3.2 |
Cisco CRS-1 Series DC Power Shelf for FCC |
CRS-FCC-PS-DC= |
3.2 |
CRS-1 Fabric Chassis Rear Cosmetic Kit |
CRS-FCC-REAR-CM= |
3.2 |
CRS-LIFT Brackets for Fabric Chassis |
CRS-FCC-LIFT-BRKT= |
3.2 |
CRS Fabric Chassis OIM Module |
CRS-FCC-OIM-1S |
3.2 |
CRS-1 Fabric Chassis AC Delta Power Supply |
CRS-FCC-PS-ACD |
3.2 |
CRS-1 Fabric Chassis AC Wye Option |
CRS-FCC-PS-ACW |
3.2 |
CRS-1 Fabric Chassis DC Power Option |
CRS-FCC-PS-DC |
3.2 |
Cisco CRS-1 Series Fabric Card Chassis Switch Fabric Card |
CRS-FCC-SFC= |
3.2 |
CRS-1 Fabric Chassis Integrated Switch Controller Card |
CRS-FCC-SC-22GE Integrated Switch |
3.4.1 |
Cisco CRS-3 Series Fabric Card Chassis Switch |
CRS-FCC-SFC-140 |
4.0.3 |
CRS-1 Fabric Chassis Integrated Switch Controller Card - B |
CRS-FCC-SC-22GE-B |
5.1.3 |
Cisco CRS-X Fabric Card Chassis Switch Fabric Card (400G) |
CRS-FCC-SFC-400 |
5.1.3 |
Cisco CRS-X Fabric Card Chassis Switch Fabric Card (400G)-B |
CRS-FCC-SFC-400-B |
5.3.3 with hfr-px-5.3.3.CRS.tar SMU tar file |
Cisco CRS General Chassis Hardware |
||
Cisco CRS PCMCIA Flash Disk 4 GB |
CRS-FLASH-DISK-4G |
3.8 |
Cisco CRS PCMCIA Flash Disk 16 GB |
CRS-FLASH-DISK-16G |
4.2 |
Cisco CRS Modular Service Card |
CRS-MSC |
3.2 |
Cisco CRS Modular Service Card B |
CRS-MSC-B |
3.6 |
Cisco CRS-1 Series Forwarding Processor 40G |
CRS-FP40 |
3.8.1 |
Cisco CRS Series Modular Services Card 140G |
CRS-MSC-140G |
4.0.0 PX |
Cisco CRS Series Forwarding Processor Card 140G |
CRS-FP140 |
4.0.0 PX |
Cisco CRS-3 Label Switch Processor |
CRS-LSP |
4.3.0 |
Cisco CRS-X Label Switch Processor |
CRS-LSP-X |
5.1.2 |
Cisco CRS Series Modular Services Card 400G |
CRS-MSC-X |
5.1.1 |
Cisco CRS Series Forwarding Processor 400G |
CRS-FP-X |
5.1.1 |
Cisco CRS 8-Slot Fabric Card/Single |
CRS-8-FC/S |
3.2 |
Cisco CRS 8-Slot Fabric Card Blank |
CRS-8-FC-BLANK |
3.2 |
Cisco CRS 8-Slot Fabric Handle |
CRS-8-FC-HANDLE |
3.2 |
Cisco CRS 16-Slot Fabric Card/Single |
CRS-16-FC/S |
3.2 |
Cisco CRS Series 4 Slots Fabric Card / Single (140G) |
CRS-4-FC140/S |
4.0.0 PX |
Cisco CRS Series 8 Slots Fabric Card / Single (140G) |
CRS-8-FC140/S |
4.0.0 PX |
Cisco CRS Series 16 Slots Fabric Card / Single (140G) |
CRS-16-FC140/S |
4.0.0 PX |
Cisco CRS Series 16 Slots Fabric Card / Multi (140G) |
CRS-16-FC140/M |
4.0.3 |
Cisco CRS Series 8 Slots Fabric Card / Single Chassis (400G) |
CRS-8-FC400/S |
5.1.1 |
Cisco CRS Series 16 Slots Fabric Card / Single Chassis (400G) |
CRS-16-FC400/S |
5.1.1 |
Cisco CRS Series 8-Slot Back-to-Back Fabric Card |
CRS-8-FC140/M |
4.3.1 |
Cisco CRS-X 16-Slot Line Card Chassis Fabric Card / Multi (400G) |
CRS-16-FC400/M |
5.1.3 |
Cisco CRS Series Modular Services Card 200G |
CRS-MSC-X-L |
5.1.4 |
Cisco CRS Series Forwarding Processor 200G |
CRS-FP-X-L |
5.1.4 |
Cisco CRS Series 8 Slots Fabric Card / Multi (400G) |
CRS-8-FC400/M |
5.3.1 |
Cisco CRS Interface and Route Processor Cards |
||
Cisco Carrier 1 Series SPA Interface Processor 40G |
CRS1-SIP-800 |
3.2 |
Cisco CRS-1 Distributed Route Processor |
CRS-DRP |
3.3 |
Cisco CRS-1 Distributed Route Processor CPU Module |
CRS-DRP-B-CPU |
3.4.1 |
Cisco CRS-1 Distributed Route Processor PLIM Module |
CRS-DRP-B-PLIM |
3.4.1 |
Cisco CRS Series 14x10GbE LAN/WAN-PHY Interface Module |
14X10GBE-WL-XFP |
4.0.0 PX |
Cisco CRS Series 20x10GbE LAN/WAN-PHY Interface Module |
20X10GBE-WL-XFP |
4.0.0 PX |
Cisco CRS 1-port 100-GE CFP PLIM |
1x100-GE CFP PLIM |
4.0.1 PX |
Cisco CRS 2-port 100-GE and 5-port 40-GE QSFP+combination PLIM |
2X100GE-FLEX-40 |
5.1.3 |
Cisco CRS Series 4x100GbE LAN/OTN Interface Module |
4X100GE-LO |
5.1.1 |
Cisco CRS Series 40x10GbE LAN/WAN/OTN Interface Module |
40X10GE-WLO |
5.1.1 |
Cisco CRS-1 Series 8 Slots 6 Gb Performance Route Processor |
CRS-8-PRP-6G |
4.1 |
Cisco CRS-1 Series 8 Slots 12 Gb Performance Route Processor |
CRS-8-PRP-12G |
4.1 |
Cisco CRS-1 Series 16 Slots 6 Gb Performance Route Processor |
CRS-16-PRP-6G |
4.1 |
Cisco CRS-1 Series 16 Slots 12 Gb Performance Route Processor |
CRS-16-PRP-12G |
4.1 |
Cisco CRS Series 4x40GbE OTU3 Interface Module |
4-40GE-L/OTN |
4.2.3 |
Cisco CRS Series 2x40GbE OTU3 Interface Module |
2-40GE-L/OTN |
4.2.3 |
Cisco CRS Series 1x100GbE IPoDWDM Interface Module |
1-100GE-DWDM/C |
4.2.3 |
Cisco CRS Flexible SPA and 6-port 10GE PLIM |
6-10GE-WLO-FLEX |
4.3.0 |
Cisco CRS 80 Gbps Carrier Grade Services Engine PLIM |
CRS-CGSE-PLUS |
4.3.1 |
Cisco CRS SONET Interface Modules and SPAs |
||
Cisco CRS 4xOC-192c/STM64c POS/DPT Interface Module/VS |
4OC192-POS/DPT-VS |
3.2 |
Cisco CRS 4xOC-192c/STM64c POS/DPT Interface Module/SR |
4OC192-POS/DPT-SR |
3.2 |
Cisco CRS 4xOC-192c/STM64c POS/DPT Interface Module/IR |
4OC192-POS/DPT-IR |
3.2 |
Cisco CRS 4xOC-192c/STM64c POS/DPT Interface Module/LR |
4OC192-POS/DPT-LR |
3.2 |
Cisco CRS 16xOC-48c/STM16c POS/DPT Interface Module |
16OC48-POS/DPT |
3.2 |
Cisco CRS 1xOC-768c/STM256c POS Interface Module/SR |
1OC768-POS-SR |
3.2 |
Cisco CRS 8-Port OC-12c/STM-4c Shared Port Adapter |
SPA-8XOC12-POS |
3.3 on CRS1-SIP-800 4.3.1 on 6-10GE-WLO-FLEX |
Cisco CRS 2-Port OC-48c/STM-16c POS/RPR Shared Port Adapter |
SPA-2XOC48-POS/RPR |
3.4 on CRS1-SIP-800 4.3.0 on 6-10GE-WLO-FLEX |
Cisco CRS 4-Port OC-48c/STM-16c POS/RPR Shared Port Adapter |
SPA-4XOC48-POS/RPR |
3.4 on CRS1-SIP-800 4.3.0 on 6-10GE-WLO-FLEX |
Cisco CRS 1-Port OC-192c/STM-64c POS/RPR Shared Port Adapter with XFP Optics |
SPA-OC192POS-XFP |
3.2 on CRS1-SIP-800 4.3.0 on 6-10GE-WLO-FLEX |
Cisco CRS 4-Port OC-3c/STM-1c Shared Port Adapter |
SPA-4XOC3-POS |
3.2 on CRS1-SIP-800 4.3.1 on 6-10GE-WLO-FLEX |
Cisco CRS 1-Port OC-192/STM-64 POS/RPR SPA VSR Optics |
SPA-OC192POS-VSR |
3.4.1 on CRS1-SIP-800 |
Cisco CRS 4-Port OC-12c/STM-4 Packet over SONET SPA |
SPA-4XOC12-POS |
4.0.1 on CRS1-SIP-800 4.3.1 on 6-10GE-WLO-FLEX |
Cisco CRS 8-Port OC-3c/STM-1 Packet over SONET SPA |
SPA-8XOC3-POS |
4.0.1 on CRS1-SIP-800 4.3.1 on 6-10GE-WLO-FLEX |
Cisco CRS 4-Port OC-3c/STM-1 Packet over SONET SPA |
SPA-4XOC3-POS-V2 |
4.0.1 on CRS1-SIP-800 4.3.2 on 6-10GE-WLO-FLEX |
Cisco CRS 1-Port OC-768c/STM-256c (C-band) DWDM PLIM |
1OC768-ITU/C |
3.3 |
Cisco CRS 1-Port OC-768c/STM-256c (C-band) DPSK+ DWDM PLIM |
1OC768-DPSK/C |
3.6 |
Cisco CRS ATM Modules and SPAs |
||
3-Port Clear Channel OC-3 ATM SPA |
SPA-3XOC3-ATM-V2 |
3.7 on CRS1-SIP-800 |
1-Port Clear Channel OC-12 ATM SPA |
SPA-1XOC12-ATM-V2 |
3.7 on CRS1-SIP-800 |
Cisco CRS Serial Interface Modules and SPAs |
||
Cisco CRS 4-Port Clear Channel T3/E3 Serial Shared Port Adapter |
SPA-4XT3/E3 |
3.4.1 on CRS1-SIP-800 |
Cisco CRS 2-Port Clear Channel T3/E3 Serial Shared Port Adapter |
SPA-2XT3/E3 |
3.4.1 on CRS1-SIP-800 |
Cisco CRS Ethernet Interface Modules and SPAs |
||
Cisco CRS 8x10 GbE Interface Module LR/ER |
8-10GBE |
3.2 |
Cisco 5-Port Gigabit Ethernet Shared Port Adapter, Version 2 |
SPA-5X1GE-V2 |
3.4 on CRS1-SIP-800 |
Cisco 8-Port Gigabit Ethernet Shared Port Adapter, Version 2 |
SPA-8X1GE-V2 |
3.4 on CRS1-SIP-800 4.3.0 on 6-10GE-WLO-FLEX |
Cisco 8-Port Gigabit Ethernet Shared Port Adapter |
SPA-8X1GE |
3.2 on CRS1-SIP-800 |
Cisco 10-Port Gigabit Ethernet Shared Port Adapter, Version 2 |
SPA-10X1GE-V2 |
3.4 on CRS1-SIP-800 4.3.2 on 6-10GE-WLO-FLEX |
Cisco 1-Port Ten Gigabit Ethernet Shared Port Adapter, Version 2 |
SPA-1X10GE-L-V2 |
3.4 on CRS1-SIP-800 4.3.2 on 6-10GE-WLO-FLEX |
Cisco 4-Port Ten Gigabit Ethernet (C-band) DWDM PLIM |
4-10GE-ITU/C |
3.3 |
Cisco 1-port 10GbE SPA WAN/LAN PHY |
SPA-1X10GE-WL-V2 |
3.5.2 on CRS1-SIP-800 4.3.2 on 6-10GE-WLO-FLEX |
Cisco CRS-1 Series 4x10GE Interface Module |
4-10GE |
3.8.1 |
Cisco CRS-1 Series 42x1GE Interface Module |
42-1GE |
3.8.1 |
Cisco CRS-1 Series 8-Port Ten Gigabit Ethernet Interface Module |
8-10GBE-WL-XFP |
3.9.1 |
Cisco CRS-1 Series 4-Port Ten Gigabit Ethernet Interface Module |
4-10GBE-WL-XFP |
3.8.4 |
Cisco CRS-1 Series 20x1GE Flexible Interface Module |
20-1GE-FLEX |
3.8.1 |
Cisco CRS-1 Series 2x10GE WAN/LAN Flexible Interface Module |
2-10GE-WL-FLEX |
3.8.1 |
Cisco CRS 10GE Optical to Electrical Modules |
||
10GBASE-LR XENPAK Module for Cisco CRS |
XENPAK-10GB-LR+ |
3.4 |
10GBASE-DWDM XENPAK |
XENPAK-10GB-DWDM |
3.2.2 |
10GBASE-ER XENPAK Modular for Cisco CRS-1 |
XENPAK-10GB-ER |
3.4 |
10GBASE-ER XENPAK Modular for Cisco CRS-1 |
XENPAK-10GB-ER+ |
3.4 |
Cisco 10GBASE-SR XFP Module for MMF |
XFP-10G-MM-SR |
3.8 |
Cisco Multirate 10GBASE-LR/-LW and OC-192/STM-64 SR-1 XFP Module for SMF |
XFP-10GLR-OC192SR |
3.4 |
Cisco Multirate 10GBASE-LR/-LW and OC-192/STM-64 SR-1 XFP Module for SMF, low power (1.5W) |
XFP10GLR-192SR-L |
3.8.4, 3.9.1 |
Cisco Multirate 10GBASE-ER/-EW and OC-192/STM-64 IR-2 XFP Module for SMF |
XFP-10GER-192IR+ |
3.4 |
Cisco Multirate 10GBASE-ER/-EW and OC-192/STM-64 IR-2 XFP Module for SMF, low power (2.5W) |
XFP10GER-192IR-L |
3.8.4, 3.9.1 |
Cisco Multirate 10GBASE-ZR/-ZW and OC-192/STM-64 lR-2 XFP Module for SMF |
XFP-10GZR-OC192LR |
3.4 |
Cisco fixed rate Dense Wavelength-Division Multiplexing XFP Modules |
DWDM-XFP-30.33 through DWDM-XFP-59.79 |
NA |
Cisco 10GBASE Dense Wavelength-Division Multiplexing XFP Module |
DWDM-XFP-C |
4.2.3 |
10GBASE-SR SFP Module |
SFP-10G-SR |
5.1.1 |
10GBASE-SR SFP Module for Extended Temp range |
SFP-10G-SR-X |
5.1.1 |
10GBASE-LR SFP Module |
SFP-10G-LR |
5.1.1 |
10GBASE-LR SFP Module for Extended Temp range |
SFP-10G-LR-X |
5.1.1 |
10GBASE-ER SFP Module |
SFP-10G-ER |
5.1.1 |
10GBASE-ZR SFP10G Module for SMF |
SFP-10G-ZR |
5.1.1 |
Cisco CRS SFPs and CFPs |
||
Optics module for 3-Port 100-GE LAN and 1-Port 100-GE IPoDWDM PLIM |
ONS-CFP2-WDM |
6.1.2 |
Cisco CRS 2.5 G SFP LR Optic |
POM-OC48-LR2-LC-C |
3.2 |
Cisco CRS 2.5 G SFP SR Optic |
POM-OC48-SR-LC-C |
3.2 |
GE SFP, LC connector LX/LH transceiver |
GLC-LH-SM |
3.2 |
1000BASE-SX SFP transceiver module, MMF, 850nm, DOM |
GLC-SX-MMD |
3.6 |
1000BASE-LX/LH SFP transceiver module, MMF/SMF, 1310nm, DOM |
GLC-LH-SMD |
3.6 |
1000BASE-LX/LH SFP |
SFP-GE-L |
3.4 |
1000BASE-SX SFP (DOM) |
SFP-GE-S |
3.4 |
1000BASE-T SFP (NEBS 3 ESD) |
SFP-GE-T |
3.4 |
1000BASE-ZX Gigabit Ethernet SFP (DOM) |
SFP-GE-Z |
3.4 |
100GBASE-LR4 CFP transceiver module for SMF, 1310-nm wavelength, SC duplex connector |
CFP-100G-LR4 |
4.0 |
100 Gigabit Ethernet over 10 short-reach optical lanes (SR10) optics (multimode fiber) |
CFP-100G-SR10 |
4.2.1 |
CPAK-100G-LR4 Transceiver module, 10 km SMF |
CPAK-100G-LR4 |
5.1.1 |
CPAK-100G-SR10 Transceiver module, 100 m OM3 MMF |
CPAK-100G-SR10 |
5.1.1 |
CPAK optical transceiver module, 100GBASE-SR4, 100m OM4 |
CPAK-100G-SR4 |
6.1.2 |
100-Gigabit Ethernet C Form-factor Pluggable (CFP) optics module - CFP-100G-ER4 |
CFP-100G-ER4 |
5.1.2 |
40-Gigabit Ethernet C Form-factor Pluggable (CFP) optics module - 40GBASE-LR4 |
CFP-40G-LR4 |
4.2.3 |
40-Gigabit Ethernet C Form-factor Pluggable (CFP) optics module - 40GBASE-SR4 |
CFP-40G-SR4 |
4.2.3 |
40-Gigabit Ethernet C Form-factor Pluggable (CFP) optics module - 40GBASE-FR |
CFP-40G-FR |
4.2.3 |
Cisco 40GBASE-SR4 QSFP Module |
QSFP-40G-SR4 |
5.1.3 |
Cisco 40GBASE-LR4 QSFP Module |
QSFP-40G-LR4 |
5.1.3 |
Cisco 40GBASE-ER4 QSFP Module |
QSFP-40G-ER4 |
5.3.1 |
Hardware Not Supported
The following hardware are not supported:
Component |
Part Number |
Cisco CRS-1 16-Slot Line-Card Chassis Route Processor |
CRS-16-RP |
Cisco CRS PCMCIA Flash Disk 2 GB |
CRS-FLASH-DISK-2G |
Cisco CRS 8-Slot Route Processor |
CRS-8-RP |
Cisco CRS-1 16-slot Route Processor, revision B |
CRS-16-RP-B |
Note |
|
CRS-FP140 Licenses
The following licenses apply to the CRS-FP140:
Licence |
Description |
XC-ENH-NF-140G |
Cisco CRS Series Enhanced Netflow Performance License 140G |
XC-L2L3VPN-140G |
Cisco CRS Series L2 and L3 VPN Peering Edge License 140G |
XC-RTE-SCL-140G |
Cisco CRS Series Route Scale License 140G |
XC-TE-SCL-140G |
Cisco CRS Series Traffic Engineering Scale License 140G |
XC-MC-LIC-140G |
Cisco CRS Series Multichassis License 140G |
CRS-FP140 also supports eDelivery licenses, which can be downloaded as the License Certificates in PDF format.
eDelivery PID |
Description |
L-XC-ENH-NF-140G= |
Cisco CRS Series Enhanced NetFlow License 140G |
L-XC-RTE-SCL-140G= |
Cisco CRS Series Route Scale License 140G |
L-XC-MC-LIC-140G= |
Cisco CRS Series Multichassis License 140G |
L-XC-TE-SCL-140G= |
Cisco CRS Series Traffic Engineering Scale License 140G |
L-XC-L2L3VPN-140G= |
Cisco CRS Series L2 L3 VPN Peering Edge License 140G |
CRS-FP400G Licenses
The following licenses apply to the CRS-FP400G:
Licence |
Description |
XC-ENH-NF-400G |
Cisco CRS Series Enhanced Netflow Performance License 400G |
XC-L2L3VPN-400G |
Cisco CRS Series L2 and L3 VPN Peering Edge License 400G |
XC-RTE-SCL-400G |
Cisco CRS Series Route Scale License 400G |
XC-TE-SCL-400G |
Cisco CRS Series Traffic Engineering Scale License 400G |
CRS-FP400G also supports eDelivery licenses, which can be downloaded as the License Certificates in PDF format.
For further information or questions, please visit http://www.cisco.com/web/partners/tools/edelivery.html.
eDelivery PID |
Description |
L-XC-ENH-NF-400G= |
Cisco CRS Series Enhanced NetFlow License 400G |
L-XC-RTE-SCL-400G= |
Cisco CRS Series Route Scale License 400G |
L-XC-TE-SCL-400G= |
Cisco CRS Series Traffic Engineering Scale License 400G |
L-XC-L2L3VPN-400G= |
Cisco CRS Series L2 L3 VPN Peering Edge License 400G |
Minimum Firmware Requirement
The following table provides the procedures and resources for minimum firmware requirements:
After completing an RMA, upgrade the firmware as per the matrix in this link, which also links to PDF copies of the IOS XR Firmware Upgrade Guides |
|
For the upgrade CLI, refer to the Hardware Redundancy and Node Administration Commands on Cisco IOS XR Software chapter of the Cisco IOS XR System Management Command Reference for the Cisco CRS router |
http://www.cisco.com/en/US/products/ps5763/prod_command_reference_list.html |
Note |
P image is discontinued from Cisco IOS XR Software Release 4.2 onwards. For more information about this, see the discontinuation of P image for Cisco CRS in Cisco IOS XR Software Release 4.2 and later at http://www.cisco.com/en/US/prod/collateral/routers/ps5763/product_bulletin_c25-663499.html. |
Software Compatibility
Cisco IOS XR Software Release is compatible with the following Cisco CRS-1 and CRS-3 systems:
-
Cisco CRS 4-Slot Single Chassis System
-
Cisco CRS 8-Slot Single Chassis System
-
Cisco CRS 16-Slot Single Chassis System
-
Cisco CRS Multichassis Systems
Cisco IOS XR Software Release is compatible with the following Cisco CRS-3 system:
-
Cisco CRS-3 Multichassis System, maximum configuration of 8+2
-
Cisco CRS-3 16-slot Back-to-Back System
-
Cisco CRS-3 8-slot Back-to-Back System
Cisco IOS XR Software Release is compatible with the following Cisco CRS-X systems:
-
Cisco CRS 8-Slot Single Chassis System. You must use CRS-8-FANTRAY-B fan tray with Cisco CRS-X system.
-
Cisco CRS 16-Slot Single Chassis System
-
Cisco CRS-X Multichassis System, maximum configuration of 8+2
-
Cisco CRS-X 16-slot Back-to-Back System
-
Cisco CRS-X 8-slot Back-to-Back System
Determining Installed Packages
To determine the version of Cisco IOS XR Software packages installed on your router, log in to the router and enter the show install committed summary command:
RP/0/RP0/CPU0:router# show install committed summary
Default Profile:
Admin Resources
SDRs:
Owner
Committed Packages:
disk0:hfr-asr9000v-nV-px-6.7.2
disk0:hfr-diags-px-6.7.2
disk0:hfr-doc-px-6.7.2
disk0:hfr-fpd-px-6.7.2
disk0:hfr-k9sec-px-6.7.2
disk0:hfr-li-px-6.7.2
disk0:hfr-mcast-px-6.7.2
disk0:hfr-mgbl-px-6.7.2
disk0:hfr-mini-px-6.7.2
disk0:hfr-mpls-px-6.7.2
disk0:hfr-services-px-6.7.2
disk0:hfr-video-px-6.7.2
Software Features Introduced in this Release
Flow-Based Manual Traffic Steering
Currently, the steering of traffic through a Segment Routing (SR) policy is based on the destination of the policy (Per-Destination Policy or PDP). Typically, the candidate paths of an SR policy define different paths to the destination of the policy. Every SR policy is also associated with a color.
The Flow-Based Manual Traffic Steering using SR-TE Policies feature introduces a way to steer traffic on a SR policy based on the attributes of the incoming packets. Packets are classified into internal tags called forward classes (FC). Flow-based policies (Per-Flow Policy or PFP) contain mappings between different FCs and colors. Traffic steered onto a PFP are switched onto the appropriate path based on the packet’s FC.
For more information about the Flow-Based Manual Traffic Steering using SR-TE Policies feature, see the Configure SR-TE Policies chapter in the Segment Routing Configuration Guide for Cisco CRS Routers.
Seamless Bidirectional Forwarding Detection
Bidirectional forwarding detection (BFD) provides low-overhead, short-duration detection of failures in the path between adjacent forwarding engines. BFD allows a single mechanism to be used for failure detection over any media and at any protocol layer, with a wide range of detection times and overhead.
In BFD, each end of the connection maintains a BFD state and transmits packets periodically over a forwarding path. Seamless BFD (SBFD) is unidirectional, resulting in faster session activation. The BFD state and client context is maintained on the head-end (initiator) only. The tail-end (reflector) validates the BFD packet and responds, so there’s no need to maintain the BFD state on the tail-end.
For more information, see the Configure SR-TE Policies chapter in the Segment Routing Configuration Guide for Cisco CRS Routers.
Segment Routing Traffic Matrix Collection for Telemetry
This feature introduces support for enabling the Segment Routing Traffic Matrix (SR-TM) and the corresponding model-driven streaming Telemetry paths to export SR-TM statistics.
For more information about streaming model-driven telemetry data, see Telemetry Configuration Guide for Cisco CRS Routers.
For more information about SR-TM, see the Using Segment Routing Traffic Matrix chapter in the Segment Routing Configuration Guide for Cisco CRS Routers.
Segment Routing Performance Measurement for Link Delay Using RFC5357 (TWAMP Light) Encoding
This feature introduces support for Two-Way Active Measurement Protocol (TWAMP) Light (RFC5357) for link delay measurement. TWAMP Light adds two-way or round-trip measurement capabilities.
Network performance data such as packet loss, delay and delay variation, and bandwidth utilization is a critical measure for Traffic Engineering (TE). This data provides service providers the characteristics of their networks for performance evaluation that is required to ensure the Service Level Agreements (SLAs). The performance measurement and delay variation feature allows you to measure those metrics and advertise them through IGP extensions as extended TE metrics.
GRE Tunnel Configuration in oc-interfaces Data Model
Generic Routing Encapsulation (GRE) Tunnel configuration support is added to oc-interfaces
data model. This data model is used to manage network interfaces and subinterfaces.
-
src
-
dst
-
ttl (time-to-live or hop limit)
-
gre-key
Obtain this data model from Github repository.
See .
Table Connection Support in OC NI Data Model
The openconfig-network-instance (oc-ni
) data model is defined by OpenConfig community. This model defines the network instance concept to model Layer 3 and Layer
2 network instances applicable for services such as L3VPN, L2VPN, and EVPN.
The table-conection container in the oc-ni data model contains policies that dictate how routing information base (RIB) or forwarding information base (FIB) entries are propagated between routing tables.
The leaf list consists of a list of connections between pairs of routing or forwarding tables, the leaking of entries between which is specified by the import policy. A connection connecting a source table to a destination table implies that routes that match the policy specified for the connection are available for the destination protocol to advertise, or match within its policies. It shows the configuration and state parameters that relate to the connection between tables.
The oc-ni data model is available in the Github repository.
See .
OCNI BGP Advertised Prefix
OCNI BGP data model has global, neighbor and peer-group containers. Under the neighbor container are the Address Family Identifier (AFI) state-related leaves. Three leaves (sent, installed and advertised prefix count) are related to the prefixes received from and advertised to the neighbor specific to that AFI. The sent count is defined as how many prefixes are sent to the neighbor for a specific AFI.
In the existing implementation, the cumulative count may not display accurate value owing to various conditions such as route-refresh out, policy changes, route-target changes, configuration changes like nexthop-self to name a few.
In this release, BGP walks through the prefix table calculating exactly how many prefixes are advertised for each neighbor. The results are collected in an array, converted and sent to MDT.
Obtain this data model from Github repository.
See .
New Hardware
No new hardware feature is introduced in this release.
Firmware Support
To check the firmware code running on the Cisco CRS Router, run the show fpd package command in admin mode.
Note |
The show command output lists supported and EOL hardware PIDs. To know the PIDs that are supported in this release, see the Supported Hardware section in this Release Notes. |
RP/0/RP0/CPU0:router(admin)#show fpd package
=============================== ================================================
Field Programmable Device Package
================================================
SW Min Req Min Req
Card Type FPD Description Type Subtype Version SW Ver HW Vers
========================= ========================== ==== ======= =========== ======== =========
PRP FPGA ZJF uBlaze lc fpga2 0.01 0.00 0.0
S-8 FPGA Nirvana lc fpga3 14.00 0.00 0.0
FPGA BCM 8727 lc fpga4 0.01 0.00 0.0
FPGA MCU lc fpga5 0.01 0.00 0.0
FPGA CPU ZJF lc fpga1 23.08 0.00 0.0
ROMMONA swv2.12 x86mp lc rommonA 2.12 2.10 0.0
ROMMONB swv2.12 x86mp lc rommon 2.12 2.12 0.0
-------------------------------------------------------------------------------------------------
PRP FPGA ZJF uBlaze lc fpga2 0.01 0.00 0.0
S-16 FPGA Nirvana lc fpga3 17.00 0.00 0.0
FPGA BCM 8727 lc fpga4 0.01 0.00 0.0
FPGA MCU lc fpga5 0.01 0.00 0.0
ZJF FPGA CPU lc fpga1 23.08 0.00 0.0
ROMMONA swv2.12 x86mp lc rommonA 2.12 2.10 0.0
ROMMONB swv2.12 x86mp lc rommon 2.12 2.12 0.0
-------------------------------------------------------------------------------------------------
SC-B FPGA SARVA lc fpga2 2.32 0.00 0.0
FPGA CPU 0.15 lc fpga1 0.15 0.00 0.0
ROMMONA swv2.11 kensho lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 kensho lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
S2 FPGA 4.02 lc fpga2 4.02 0.00 0.0
FPGA 5.00 lc fpga3 5.00 0.00 0.0
FPGA 6.04 spb lc fpga1 6.04 0.00 0.0
ROMMONA swv2.11 spb lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 spb lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
140G-S1S2S3 FPGA 4.01 lc fpga2 4.01 0.00 0.0
FPGA 6.04 spb lc fpga1 6.04 0.00 0.0
ROMMONA swv2.11 spb lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 spb lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
Fabric HS123 Superstar FPGA 4.00 lc fpga2 4.00 0.00 0.0
FPGA 6.04 spb lc fpga1 6.04 0.00 0.0
ROMMONA swv2.11 spb lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 spb lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
140G-4-S1S2S3 FPGA 4.01 lc fpga2 4.01 0.00 0.0
FPGA 6.04 spb lc fpga1 6.04 0.00 0.0
ROMMONA swv2.11 spb lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 spb lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
140G-S1S3 FPGA 4.01 lc fpga2 4.01 0.00 0.0
FPGA 6.04 spb lc fpga1 6.04 0.00 0.0
ROMMONA swv2.11 spb lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 spb lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
140G-S1S2S3-2 FPGA 4.01 lc fpga2 4.01 0.00 0.0
FPGA 6.04 spb lc fpga1 6.04 0.00 0.0
ROMMONA swv2.11 spb lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 spb lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
140G-S1S3-2 FPGA 4.01 lc fpga2 4.01 0.00 0.0
FPGA 6.04 spb lc fpga1 6.04 0.00 0.0
ROMMONA swv2.11 spb lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 spb lc rommon 2.11 2.11 0.0
RXPOD swvF034 spb lc rxpod 0.52 0.00 0.0
TXPOD swvF039 spb lc txpod 0.57 0.00 0.0
-------------------------------------------------------------------------------------------------
140G-S2-2 FPGA 4.02 lc fpga2 4.02 0.00 0.0
FPGA 16.00 lc fpga3 16.00 0.00 0.0
FPGA 6.04 spb lc fpga1 6.04 0.00 0.0
ROMMONA swv2.11 spb lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 spb lc rommon 2.11 2.11 0.0
RXPOD swvF034 spb lc rxpod 0.52 0.00 0.0
TXPOD swvF039 spb lc txpod 0.57 0.00 0.0
-------------------------------------------------------------------------------------------------
140G-HS1S3-1 FPGA 4.02 lc fpga2 4.02 0.00 0.0
FPGA 6.04 spb lc fpga1 6.04 0.00 0.0
ROMMONA swv2.11 spb lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 spb lc rommon 2.11 2.11 0.0
RXPOD swvF034 spb lc rxpod 0.52 0.00 0.0
TXPOD swvF039 spb lc txpod 0.57 0.00 0.0
-------------------------------------------------------------------------------------------------
400G-S1S2S3 FPGA 0.35 lc fpga2 0.35 0.00 0.0
FPGA 1.04 spc lc fpga1 1.04 0.00 0.0
ROMMONA swv2.11 spc lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 spc lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
Fabric HS123 Sapir FPGA 0.35 lc fpga2 0.35 0.00 0.0
FPGA 1.04 spc lc fpga1 1.04 0.00 0.0
ROMMONA swv2.11 spc lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 spc lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
400G-S1S3 FPGA 0.35 lc fpga2 0.35 0.00 0.0
FPGA 1.04 spc lc fpga1 1.04 0.00 0.0
ROMMONA swv2.11 spc lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 spc lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
Fabric HS13 Sapir FPGA 0.35 lc fpga2 0.35 0.00 0.0
FPGA 1.04 spc lc fpga1 1.04 0.00 0.0
ROMMONA swv2.11 spc lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 spc lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
S2 FPGA 0.25 lc fpga2 0.25 0.00 0.0
FPGA 0.10 lc fpga3 0.10 0.00 0.0
FPGA 1.04 spc lc fpga1 1.04 0.00 0.0
ROMMONA swv2.11 spc lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 spc lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
140G-MSC FPGA Linecard 0.36 lc fpga2 0.36 0.00 0.0
FPGA CPU 0.10 lc fpga1 0.10 0.00 0.0
ROMMONA swv2.11 kensho lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 kensho lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
FP-140G FPGA Linecard 0.36 lc fpga2 0.36 0.00 0.0
FPGA CPU 0.10 lc fpga1 0.10 0.00 0.0
ROMMONA swv2.11 kensho lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 kensho lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
CRS-LSP FPGA Linecard 0.36 lc fpga2 0.36 0.00 0.0
FPGA CPU 0.10 lc fpga1 0.10 0.00 0.0
ROMMONA swv2.11 kensho lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 kensho lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
400G-MSC FPGA Linecard 0.54 lc fpga2 0.54 0.00 0.0
FPGA CPU 0.15 lc fpga1 0.15 0.00 0.0
ROMMONA swv2.11 kensho lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 kensho lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
FP-400G FPGA Linecard 0.54 lc fpga2 0.54 0.00 0.0
FPGA CPU 0.15 lc fpga1 0.15 0.00 0.0
ROMMONA swv2.11 kensho lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 kensho lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
LSP-400G FPGA Linecard 0.54 lc fpga2 0.54 0.00 0.0
FPGA CPU 0.15 lc fpga1 0.15 0.00 0.0
ROMMONA swv2.11 kensho lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 kensho lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
200G-MSC FPGA Linecard 0.54 lc fpga2 0.54 0.00 0.0
FPGA CPU 0.15 lc fpga1 0.15 0.00 0.0
ROMMONA swv2.11 kensho lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 kensho lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
FP-200G FPGA Linecard 0.54 lc fpga2 0.54 0.00 0.0
FPGA CPU 0.15 lc fpga1 0.15 0.00 0.0
ROMMONA swv2.11 kensho lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 kensho lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
1OC768-ITU/C OPTICS FIRMWARE 110B10 lc fpga2 110.10 0.00 0.0
-------------------------------------------------------------------------------------------------
1OC768-DWDM-L OPTICS FIRMWARE 110B10 lc fpga2 110.10 0.00 0.0
-------------------------------------------------------------------------------------------------
1OC768-DPSK/C OPTICS FIRMWARE 110B14 lc fpga2 110.14 0.00 0.0
-------------------------------------------------------------------------------------------------
1OC768-DPSK/C-O OPTICS FIRMWARE 110B14 lc fpga2 110.14 0.00 0.0
-------------------------------------------------------------------------------------------------
1OC768-DPSK/C-E OPTICS FIRMWARE 110B14 lc fpga2 110.14 0.00 0.0
-------------------------------------------------------------------------------------------------
CRS-CGSE-PLIM FPGA mCPU0 0.559 lc fpga2 0.559 0.00 0.0
FPGA sCPU0 0.559 lc fpga3 0.559 0.00 0.0
FPGA mCPU1 0.559 lc fpga4 0.559 0.00 0.0
FPGA sCPU1 0.559 lc fpga5 0.559 0.00 0.0
FPGA PLIM_SVC 0.41014 lc fpga1 0.41014 0.00 0.0
-------------------------------------------------------------------------------------------------
2-40GBE-OTN PLIM FPGA 32 lc fpga3 32.00 0.00 0.0
-------------------------------------------------------------------------------------------------
1-100GBE-DWDM PLIM FPGA 32.0 lc fpga3 32.00 0.00 0.0
OPTICS FIRMWARE 5.05 lc fpga4 5.05 0.00 0.0
-------------------------------------------------------------------------------------------------
4-40GBE-OTN PLIM FPGA 32 lc fpga3 32.00 0.00 0.0
-------------------------------------------------------------------------------------------------
6-10GE-WLO-FLEX OBI FPGA 31.0 lc fpga3 31.00 0.00 0.0
TORBAY FPGA 45.0 lc fpga4 45.00 0.00 0.0
-------------------------------------------------------------------------------------------------
CRS-CGSE-PLUS-PLIM PLIM FPGA 0.03 lc fpga3 0.4107 0.00 0.0
FPGA XLP 0.301 lc fpga4 0.301 0.00 0.0
-------------------------------------------------------------------------------------------------
40-10GbE NUGGET FPGA 37.0 lc fpga3 37.00 0.00 0.0
GEM0 FPGA 4.0 lc fpga4 4.00 0.00 0.0
GEM1 FPGA 4.0 lc fpga5 4.00 0.00 0.0
-------------------------------------------------------------------------------------------------
4-100GbE NUGGET FPGA 37.0 lc fpga3 37.00 0.00 0.0
-------------------------------------------------------------------------------------------------
2x100GE_5x40GE NUGGET FPGA 37.0 lc fpga3 37.00 0.00 0.0
GEM0 FPGA 4.0 lc fpga4 4.00 0.00 0.0
-------------------------------------------------------------------------------------------------
400G_DWDM_FLEX Amethyst FPGA 8.0 lc fpga3 8.00 0.00 0.0
CAMEO FPGA 66.0 lc fpga4 66.00 0.00 0.0
CAMEO FPGA 25.0 lc fpga5 25.00 0.00 0.0
ETNA ASIC 3.62 lc fpga6 3.62 0.00 0.0
CFP2 OPTICS 5.23 lc fpga8 5.23 0.00 0.0
-------------------------------------------------------------------------------------------------
20-10GBE PLIM FPGA 42.0 lc fpga3 42.00 0.00 0.0
-------------------------------------------------------------------------------------------------
12-10GBE PLIM FPGA 42.0 lc fpga3 42.00 0.00 0.0
-------------------------------------------------------------------------------------------------
1-100GBE PLIM FPGA 19.0 lc fpga3 19.00 0.00 0.0
RX MAC FPGA 52.0 lc fpga4 52.00 0.00 0.0
TX MAC FPGA 39.0 lc fpga5 39.00 0.00 0.0
-------------------------------------------------------------------------------------------------
14-10GBE PLIM FPGA 42.0 lc fpga3 42.00 0.00 0.0
-------------------------------------------------------------------------------------------------
DRP_B FPGA 6.04 spb lc fpga1 6.04 0.00 0.0
ROMMONA swv2.11 asmp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 dsmp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 sp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 spb lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 asmp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 dsmp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 sp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 spb lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
MSC_B FPGA 6.04 spb lc fpga1 6.04 0.00 0.0
ROMMONA swv2.11 asmp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 dsmp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 sp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 spb lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 asmp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 dsmp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 sp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 spb lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
FP40 FPGA 6.04 spb lc fpga1 6.04 0.00 0.0
ROMMONA swv2.11 asmp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 dsmp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 sp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 spb lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 asmp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 dsmp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 sp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 spb lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
CRS1-SIP-800 JACKET FPGA swv6.0 lc fpga1 6.00 5.00 0.0
FPGA swv6.0 hwv80 lc fpga1 6.00 5.00 0.80
-------------------------------------------------------------------------------------------------
8-10GBE FPGA swvA.0 lc fpga1 10.00 0.00 0.0
-------------------------------------------------------------------------------------------------
OC48-POS-16-ED FPGA PLIM_OC48 9.0 lc fpga1 9.00 0.00 0.0
-------------------------------------------------------------------------------------------------
4-10GBE FPGA sw_4p_v15.0 lc fpga1 15.00 0.00 0.0
-------------------------------------------------------------------------------------------------
8-10GBE FPGA sw_8p_v15.0 lc fpga1 15.00 0.00 0.0
-------------------------------------------------------------------------------------------------
4-10GE SQUIRREL FPGA 10.0 lc fpga1 10.00 0.00 0.0
-------------------------------------------------------------------------------------------------
42-1GE FPGA swv6.0 lc fpga1 6.00 0.00 0.0
FPGA swv6.0 hwv0.80 lc fpga1 6.00 0.00 0.80
-------------------------------------------------------------------------------------------------
20-1GE-FLEX FPGA swv6.0 lc fpga1 6.00 0.00 0.0
FPGA swv6.0 hwv0.80 lc fpga1 6.00 0.00 0.80
-------------------------------------------------------------------------------------------------
2-10GE-WL-FLEX FPGA swv6.0 lc fpga1 6.00 0.00 0.0
FPGA swv6.0 hwv0.80 lc fpga1 6.00 0.00 0.80
-------------------------------------------------------------------------------------------------
CRS-16-ALARM-C FPGA 6.04 spb lc fpga1 6.04 0.00 0.0
ROMMONA swv2.11 sp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 spb lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 sp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 spb lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
CRS-16-ALARM-B FPGA 6.05 spb lc fpga1 6.05 0.00 0.0
ROMMONA swv2.11 spb lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 spb lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
CRS-16-FAN-CT FPGA 6.04 spb lc fpga1 6.04 0.00 0.0
ROMMONA swv2.11 spb lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 spb lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
CRS-16-LCC-F-CT-B FPGA 6.04 spb lc fpga1 6.04 0.00 0.0
ROMMONA swv2.11 spb lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 spb lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
CRS-FCC-LED FPGA 6.04 spb lc fpga1 6.04 0.00 0.0
ROMMONA swv2.11 sp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 spb lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 sp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 spb lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
Route Processor ROMMONA swv2.11 asmp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 dsmp lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 asmp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 dsmp lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
SC ROMMONA swv2.11 asmp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 dsmp lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 asmp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 dsmp lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
RP ROMMONA swv2.11 asmp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 dsmp lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 asmp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 dsmp lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
Shelf Controller GE ROMMONA swv2.11 asmp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 dsmp lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 asmp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 dsmp lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
RP ROMMONA swv2.11 asmp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 dsmp lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 asmp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 dsmp lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
Shelf Controller GE22 ROMMONA swv2.11 asmp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 dsmp lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 asmp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 dsmp lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
DRP ROMMONA swv2.11 asmp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 dsmp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 sp lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 asmp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 dsmp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 sp lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
S1S2S3 ROMMONA swv2.11 sp lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 sp lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
S1S3 ROMMONA swv2.11 sp lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 sp lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
S2 ROMMONA swv2.11 sp lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 sp lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
Fabric HS123 ROMMONA swv2.11 sp lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 sp lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
Fabric QQS123 ROMMONA swv2.11 sp lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 sp lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
LED ROMMONA swv2.11 sp lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 sp lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
40G-MSC ROMMONA swv2.11 asmp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 dsmp lc rommonA 2.11 2.10 0.0
ROMMONA swv2.11 sp lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 asmp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 dsmp lc rommon 2.11 2.11 0.0
ROMMONB swv2.11 sp lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
CRS-16-ALARM ROMMONA swv2.11 sp lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 sp lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
CRS-16-LCC-FAN-CT ROMMONA swv2.11 sp lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 sp lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
FC Fan Controller ROMMONA swv2.11 sp lc rommonA 2.11 2.10 0.0
ROMMONB swv2.11 sp lc rommon 2.11 2.11 0.0
-------------------------------------------------------------------------------------------------
SPA-4XT3/E3 SPA E3 Subrate FPGA spa fpga2 1.04 0.00 0.0
SPA T3 Subrate FPGA spa fpga3 1.04 0.00 0.0
SPA I/O FPGA spa fpga1 1.00 0.00 0.0
SPA ROMMON spa rommon 2.12 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-2XT3/E3 SPA E3 Subrate FPGA spa fpga2 1.04 0.00 0.0
SPA T3 Subrate FPGA spa fpga3 1.04 0.00 0.0
SPA I/O FPGA spa fpga1 1.00 0.00 0.0
SPA ROMMON spa rommon 2.12 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-OC192POS-XFP SPA FPGA swv1.101 hwv3 spa fpga2 1.101 0.00 3.0
SPA FPGA swv1.2 spa fpga1 1.02 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-1XCHOC48/DS3 SPA I/O FPGA spa fpga2 1.00 0.00 0.49
SPA I/O FPGA spa fpga3 1.00 0.00 0.52
SPA I/O FPGA spa fpga1 1.36 0.00 0.49
SPA ROMMON spa rommon 2.02 0.00 0.49
-------------------------------------------------------------------------------------------------
SPA-1XCHOC12/DS0 SPA I/O FPGA spa fpga2 1.00 0.00 0.49
SPA I/O FPGA spa fpga1 1.36 0.00 0.49
SPA ROMMON spa rommon 2.02 0.00 0.49
-------------------------------------------------------------------------------------------------
SPA-OC192POS SPA FPGA swv1.3 spa fpga1 1.03 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-8XOC12-POS SPA FPGA swv1.0 spa fpga1 1.00 0.00 0.5
-------------------------------------------------------------------------------------------------
SPA-4XOC3-POS SPA FPGA swv3.4 spa fpga1 3.04 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-1XOC12-POS SPA FPGA swv3.4 spa fpga1 3.04 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-8X1GE SPA FPGA swv1.8 spa fpga1 1.08 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-2XOC48POS/RPR SPA FPGA swv1.0 spa fpga1 1.00 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-4XOC48POS/RPR SPA FPGA swv1.0 spa fpga1 1.00 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-1XOC48POS/RPR SPA FPGA swv1.2 spa fpga1 1.02 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-8XOC3-POS SPA FPGA swv1.0 spa fpga1 1.00 0.00 0.5
SPA FPGA swv1.0 spa fpga1 1.00 0.00 0.5
-------------------------------------------------------------------------------------------------
SPA-2XOC12-POS SPA FPGA swv1.0 spa fpga1 1.00 0.00 0.5
-------------------------------------------------------------------------------------------------
SPA-4XOC12-POS SPA FPGA swv1.0 spa fpga1 1.00 0.00 0.5
-------------------------------------------------------------------------------------------------
SPA-10X1GE-V2 SPA FPGA swv1.10 spa fpga1 1.10 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-8X1GE-V2 SPA FPGA swv1.10 spa fpga1 1.10 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-5X1GE-V2 SPA FPGA swv1.10 spa fpga1 1.10 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-1X10GE-L-V2 SPA FPGA swv1.11 spa fpga1 1.11 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-4XOC3-POS-V2 SPA FPGA swv1.0 spa fpga1 1.00 0.00 0.5
-------------------------------------------------------------------------------------------------
SPA-1X10GE-WL-V2 SPA FPGA swv1.11 spa fpga1 1.11 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-1XOC3-ATM-V2 SPA FPGA swv1.2 spa fpga1 2.02 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-2XOC3-ATM-V2 SPA FPGA swv1.2 spa fpga1 2.02 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-3XOC3-ATM-V2 SPA FPGA swv1.2 spa fpga1 2.02 0.00 0.0
-------------------------------------------------------------------------------------------------
SPA-1XOC12-ATM-V2 SPA FPGA swv1.2 spa fpga1 2.02 0.00 0.0
-------------------------------------------------------------------------------------------------
Migrating Cisco CRS-1 to CRS-3
For information about migrating from a Cisco CRS-1 to a Cisco CRS-3 chassis, refer to the Cisco CRS-1 Carrier Routing System to Cisco CRS-3 Carrier Routing System Migration Guide at the URL http://www.cisco.com/en/US/products/ps5763/prod_installation_guides_list.html
Migrating Cisco CRS-1 and CRS-3 to CRS-X
For information about migrating from a Cisco CRS-1 and Cisco CRS-3 to a Cisco CRS-X chassis, refer to the URL http://www.cisco.com/en/US/products/ps5763/prod_installation_guides_list.html
DWDM Configuration Management
Note |
This section describes the new DWDM configuration requirements in Cisco IOS XR 3.9.0 and later releases. It does not describe all updates to the DWDM feature. For more information about DWDM configuration, refer to the Configuring Dense Wavelength Division Multiplexing Controllers on Cisco IOS XR Software module in the Cisco IOS XR Interface and Hardware Component Configuration Guide for the Cisco CRS Router. |
Cisco IOS XR Software Release 3.9.0 introduced new commands in addition to an important change to the default laser state for all of the DWDM physical layer interface modules (PLIMs) supported on the Cisco CRS-1 and CRS-3 routers, which impacts the required configuration to support those cards.
This change affects all models of the following hardware on the Cisco CRS-1 router:
-
Cisco 1-Port OC-768c/STM-256c DWDM PLIM
-
Cisco 4-Port 10-Gigabit Ethernet DWDM PLIM
This change affects all models of the following hardware on the Cisco CRS-3 router:
-
Cisco 1-Port 100GE OTU4 IPoDWDM PLIM
-
Cisco 4-Port 40-GE OTU3 OTN/LAN PLIM
-
Cisco 2-Port 40-GE OTU3 OTN/LAN PLIM
The g709 fec high-gain and g709 fec long-haul commands are added under DWDM configuration to configure the new high-gain FEC mode and long-haul FEC mode for Cisco 1-Port 100GE OTU4 IPoDWDM PLIM.
The following is an example of configuring the g709 fec high-gain command under DWDM configuration to configure the new high-gain FEC mode:
RP/0/RP0/CPU0:router# configure
RP/0/RP0/CPU0:router(config)# controller dwdm <>
RP/0/RP0/CPU0:router(config)# g709 fec high-gain
RP/0/RP0/CPU0:router(config)# commit
The following is an example of configuring the g709 fec long-haul command under DWDM configuration to configure the new long-haul FEC mode:
RP/0/RP0/CPU0:router# configure
RP/0/RP0/CPU0:router(config)# g709 fec long-haul
RP/0/RP0/CPU0:router(config)# commit
Other Important Information
-
Starting with Cisco IOS XR Release 6.7.2, the output for show mpls traffic-eng tunnels xx role head command is missing protocol and area ID information for path-option dynamic tunnels in area 0.
-
Starting with Cisco IOS XR Release 6.3.1, the SNMP walk for any OSPF Metric OID returns only the metric of the highest area ID from either MADJ interface or primary interface. That is, if the highest area ID is for MADJ interface then the OID returns the MADJ interface metric, or if the highest area ID is for primary interface, it will return primary interface metric. Prior to this release, the OID would return primary interface metric and highest area ID MADJ interface metric.
-
From Release 6.0, the onePK toolkit is not supported.
-
Default timestamp setting—The timestamp prompt that precedes console output is enabled by default. To disable the timestamp prompt, use the no service timestamp command. For more information, refer to the Cisco IOS XR System Management Command Reference for the Cisco CRS Router .
-
Country-specific laws, regulations, and licenses—In certain countries, use of these products may be prohibited and subject to laws, regulations, or licenses, including requirements applicable to the use of the products under telecommunications and other laws and regulations; customers must comply with all such applicable laws in the countries in which they intend to use the products.
-
Field replacable unit (FRU) removal—For all card removal and replacement (including fabric cards, line cards, fan controller, and RP) follow the instructions provided by Cisco to avoid impact to traffic. See the Cisco IOS XR Getting Started Guide for the Cisco CRS Router for procedures.
-
Exceeding Cisco testing—If you intend to test beyond the combined maximum configuration tested and published by Cisco, contact your Cisco Technical Support representative to discuss how to engineer a large-scale configuration for your purpose.
-
mpls traffic engineering igp-intact command—This command must be used only when policy based tunnel selection is configured for all tunnels originating on the device. This CLI needs to be turned on under IGP (OSPF/ISIS) under the respective AFI.
-
The following TE Path option attribute commands are not supported on the Cisco CRS-1 Series Router:
-
affinity location set
-
affinity location type
-
affinity program
-
affinity self
-
-
BFD IPv6 UDP Checksum Calculation—Starting Cisco IOS XR Software Release 3.9, you turn the BFD IPv6 UDP checksum calculation on and off:
-
To disable the BFD IPv6 UDP checksum calculation:
RP/0/RP0/CPU0:router(config)#bfd RP/0/RP0/CPU0:router(config-bfd)#ipv6 checksum disable RP/0/RP0/CPU0:router(config-bfd)#end
-
To enable BFD IPv6 UDP checksum calculation:
RP/0/RP0/CPU0:router(config)#bfd RP/0/RP0/CPU0:router(config-bfd)#no ipv6 checksum disable RP/0/RP0/CPU0:router(config-bfd)#end
-
-
When upgrading a system from a release prior to 3.8.4, the MAC address assigned to physical interfaces changes. This is required because prior to Cisco IOS XR Software Release 3.8.4 the MAC address assigned to the bundle interface was taken from the first member's MAC address. If this bundle member is removed from the bundle, the bundle gets a new MAC address, which results in traffic loss due to ARP resolution. Beginning in Cisco IOS XR Software Release 3.8.4, a pool of MAC addresses are assigned to the bundle interfaces by the bundlemgr process during bundle interface creation.
-
Deactivation of os-mbi dependent (Nonreload) SMU fails—Backing out the non reload os-mbi SMU fails because deactivation runs out of memory (activation did not release some memory, which stayed at 38 MB). This failure to activate or deactivate the SMU due to insufficient SP resources impacts SP cards on CRS.
-
When configuring the Label Distribution Protocol (LDP) graceful restart (GR) process in a network with multiple [link and/or targeted] LDP hello adjacencies with the same neighbor, make sure that GR is activated on the session before any hello adjacency times out due to neighbor control plane failures. One way of achieving this is by configuring a lower session hold time between neighbors such that session time out always occurs before hello adjacency can time out. Cisco recommends setting LDP session hold time using the following formula:
LDP session hold time <= (Hello hold time - Hello interval) * 3
This means that for default values of 15/5 seconds respectively for the link Hello hold time and the Hello interval, the LDP session hold time should be set to 30 seconds or less.
For more information, refer to the Implementing MPLS Label Distribution Protocol on Cisco IOS XR Software section of the MPLS Configuration Guide for the Cisco CRS Routers.
-
For information about upgrading from a Cisco CRS-1 to a Cisco CRS-3 chassis, refer to the Cisco CRS-1 Carrier Routing System to Cisco CRS-3 Carrier Routing System Upgrade Guide at the following URL:
http://www.cisco.com/en/US/products/ps5763/prod_installation_guides_list.html
-
The following commands have been modified to support Cisco CRS-3 and CRS-X routers:
-
show environment
-
hw-module reload
-
show controllers egressq client location <>
-
show controllers egressq queue drr [max | min] location <>
-
show controllers egressq queue drr [max | min] location <>
-
show controllers egressq group ntb [max | min] location <>
-
show controllers egressq port bpmap location <>
-
show controllers egressq statistics detail location <>
-
show controllers egressq resources location <>
For information about these commands, refer to the Commands section of the Cisco CRS-1 Carrier Routing System to Cisco CRS-3 Carrier Routing System Upgrade Guide:
http://www.cisco.com/en/US/products/ps5763/prod_installation_guides_list.html
-
-
This release supports the following fixed DWDM XFPs with CRS-3 and certain CRS-1 10GE interface modules:
-
DWDM-XFP-30.33
-
DWDM-XFP-60.61
-
DWDM-XFP-50.92
-
DWDM-XFP-50.12
-
DWDM-XFP-31.12
-
DWDM-XFP-31.90
-
DWDM-XFP-32.68
-
DWDM-XFP-34.25
-
DWDM-XFP-35.04
-
DWDM-XFP-35.82
-
DWDM-XFP-36.61
-
DWDM-XFP-38.19
-
DWDM-XFP-38.98
-
DWDM-XFP-39.77
-
DWDM-XFP-40.56
-
DWDM-XFP-42.14
-
DWDM-XFP-42.94
-
DWDM-XFP-43.73
-
DWDM-XFP-44.53
-
DWDM-XFP-46.12
-
DWDM-XFP-46.92
-
DWDM-XFP-47.72
-
DWDM-XFP-48.51
-
DWDM-XFP-51.72
-
DWDM-XFP-52.52
-
DWDM-XFP-54.13
-
DWDM-XFP-54.94
-
DWDM-XFP-55.75
-
DWDM-XFP-56.55
-
DWDM-XFP-58.17
-
DWDM-XFP-58.98
-
DWDM-XFP-59.79
-
Caveats
Caveats describe unexpected behavior in Cisco IOS XR Software releases. Severity-1 caveats are the most critical caveats; severity-2 caveats are less critical.
This section contains caveats that are generic to the Cisco IOS XR Software Release and those specific to the Cisco CRS-1 router and the Cisco CRS-3 router.
Cisco IOS XR Caveats
There are no caveats specific to Cisco IOS XR Software Release.
Caveats Specific to the CRS Routers
Caveat |
Description |
---|---|
CSCvu84118 |
Multiple process crashed on CRS-X LCs with bundle members microflap |
CSCvu98588 |
672 CRS SIT: Mcast v6 traffic drop on CRS-3 LC with dsc RPFO |
Upgrading Cisco IOS XR Software
Cisco IOS XR Software is installed and activated from modular packages, allowing specific features or software patches to be installed, upgraded, or downgraded without affecting unrelated processes. Software packages can be upgraded or downgraded on all supported card types, or on a single card (node).
Software packages are installed from package installation envelope (PIE) files that contain one or more software components.
Before starting the software upgrade, use the show install health command in the admin mode. This command validates if the statuses of all relevant parameters of the system are ready for the software upgrade without interrupting the system.
The upgrade document is available along with the software images.
To upgrade |
Refer |
---|---|
Cisco IOS XR software |
CRS_Upgrade_Downgrade_MOP_6.7.2.pdf |
Cisco Software Manager (CSM) application provides an intuitive user interface to manage Cisco IOS XR installations, with pre-installation and post-installation checks and reports. CSM helps manage the process of software maintenance upgrades (SMUs) and service packs (SPs) on devices that run the Cisco IOS XR Software.
For information on how to use CSM, see Cisco Software Manager User Guide.
Troubleshooting
For information on troubleshooting Cisco IOS XR Software, see the Cisco IOS XR Troubleshooting Guide for the Cisco CRS router and the Cisco IOS XR Getting Started Guide for the Cisco CRS router
Related Documentation
The most current Cisco CRS router hardware documentation is located at the following URL:
The Cisco IOS XR Software documentation set includes the Cisco IOS XR software configuration guides and command references.
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The configuration guides are located at this URL:
https://www.cisco.com/c/en/us/support/routers/carrier-routing-system/products-installation-and-configuration-guides-list.html -
The command reference guides are located at this URL:
https://www.cisco.com/c/en/us/support/routers/carrier-routing-system/products-command-reference-list.html
The document containing Cisco IOS XR System Error Messages (SEM) is located at this URL:
https://www.cisco.com/c/en/us/td/docs/ios_xr_sw/error/message/ios-xr-sem-guide.htmlProduction Software Maintenance Updates (SMUs)
A production SMU is a SMU that is formally requested, developed, tested, and released. Production SMUs are intended for use in a live network environment and are formally supported by the Cisco TAC and the relevant development teams. Software bugs identified through software recommendations or Bug Search Tools are not a basis for production SMU requests.
For information on production SMU types, refer the Production SMU Types section of the IOS XR Software Maintenance Updates (SMUs) guide.
Communications, Services, and Additional Information
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To receive timely, relevant information from Cisco, sign up at Cisco Profile Manager.
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To get the business impact you’re looking for with the technologies that matter, visit Cisco Services.
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To submit a service request, visit Cisco Support.
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To discover and browse secure, validated enterprise-class apps, products, solutions and services, visit Cisco Marketplace.
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To obtain general networking, training, and certification titles, visit Cisco Press.
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To find warranty information for a specific product or product family, access Cisco Warranty Finder.
Cisco Bug Search Tool
Cisco Bug Search Tool (BST) is a web-based tool that acts as a gateway to the Cisco bug tracking system that maintains a comprehensive list of defects and vulnerabilities in Cisco products and software. BST provides you with detailed defect information about your products and software.