Cisco 8200, 8600, 8700, and 8800 Series Routers
What's New in Cisco IOS XR Release 24.3.1
For more details on the Cisco IOS XR release model and associated support, see Software Lifecycle Support Statement - IOS XR.
New in Documentation
| Feature | Description |
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We have launched this interactive tool that assists you in locating features introduced across Cisco IOS XR releases and platforms. This tool empowers you to explore, discover, and utilize the full potential of our platforms. As we continue to enhance the tool, we would love to hear your feedback. You are welcome to drop us a note here. |
Software Features Enhanced and Introduced
To learn about features introduced in other Cisco IOS XR releases, select the release from the Documentation Landing Page.
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Setup and Upgrade |
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Introduced in this release on: Modular Systems (8800 [LC ASIC: Q100, Q200, P100]) This feature enables the Bootz workflow to achieve full-system onboarding for devices with both active and standby Route Processors (RPs). In earlier releases, the Bootz workflow only supported onboarding for devices with an active RP. With this enhancement, the Bootz workflow can now detect faulty or tampered standby cards that are inserted dynamically during or after the active RP Bootz process. It does this by verifying the ownership voucher (OV) of the other cards during the initial Bootz process for the active RP. Faulty cards can be shut down to prevent security threats during remote provisioning, ensuring smooth network operation. This feature allows Bootz workflow to validate the standby RP as part of the active RP Bootz process. This feature introduces the ztp bootz-server command. This feature modifies the (see GitHub, YANG Data Models Navigator) |
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Exclude the Default PSU Upgrade from the Automatic FPD Upgrade |
Introduced in this release on: Fixed Systems (8200, 8700); Centralized Systems (8600); Modular Systems (8800 [LC ASIC: Q100, Q200, P100]) To make the automatic FPD upgrade process more time efficient, we have decreased the default time needed for FPD automatic upgrades by excluding PSUs from the automatic upgrade process. This is because the PSU upgrades are carried out one after the other, and on a fully loaded router, the process could take more than an hour to complete. We have also added an option to include the PSU in the automatic FPD upgrade. Previously, the PSU upgrade was included by default in the automatic FPD upgrade. The feature introduces the following change: CLI:
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Programmability |
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Introduced in this release on: Fixed Systems (8200, 8700); Centralized Systems (8600); Modular Systems (8800 [LC ASIC: Q100, Q200, P100]) You can now use the new gNSI service for enrollment and attestation, EnrollZ and AttestZ, to enhance security of networking devices. The EnrollZ has been added to meet open-source requirements, thereby providing advantages such as the verification of device identity and integrity during boot-up, and the provisioning of owner-specific certificates. This bypasses the need for router vendor certificate authorities, offering a user-friendly and secure system. Sensitive credentials are only available to devices that have completed the EnrollZ and AttestZ processes. |
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Introduced in this release on: Fixed Systems(8200, 8700); Centralized Systems (8600); Modular Systems (8800 [LC ASIC: Q100, Q200, P100]) You can now log and monitor AAA (Authentication, Authorization, and Accounting) accounting of gRPC operations and CLI accounting data through gNSI Acctz for effective management of network for better performance and resource utilization. You can also configure the number of gNSI accounting records that can be streamed. Previously, you could monitor the AAA accounting data through syslog only. The feature introduces these changes: CLI: grpc aaa accounting queue-size To view the specification of gNSI Accounting (Acctz) RPCs and messages, see the Github repository. |
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Routing |
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Introduced in this release on: Modular Systems (8800 [LC ASIC: P100]) (select variants only*) You can now rapidly detect failures in pseudowires, minimizing downtime and ensuring service reliability. This feature continuously monitors the pseudowire end-to-end, providing quick responses to maintain the integrity of Layer 2 VPNs and Ethernet services. *This feature is supported on:
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Introduced in this release on: Fixed Systems (8200, 8700); Centralized Systems (8600); Modular Systems (8800 [LC ASIC: Q100, Q200, P100]) You can now accelerate the rate at which Link State Packets (LSPs) are distributed across an IS-IS network. Faster LSP distribution means faster network convergence. This faster convergence ensures that the most accurate topology information is quickly available across all routers on the network, reducing the chances of routing loops or misrouting. The feature introduces these changes: CLI: YANG Data Model:
(see GitHub, YANG Data Models Navigator) |
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Segment Routing |
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Introduced in this release on: Fixed Systems (8100, 8200); Modular Systems (8800 [LC ASIC: Q100, Q200]) SRv6 with BGP supports the coexistence of IP routes with or without SRv6 SID over an SRv6-enabled core network. This support enables integrating SRv6 capabilities into existing network infrastructures without replacing IP routing completely. This feature enables flexibility and scalability, transition to new technologies, and enhanced network efficiency, making it easier to migrate from MPLS to SRV6. The feature introduces these changes: CLI: |
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H.Insert.Red Headend Behavior for SRv6 on Cisco Silicon One P100-based Routers |
Introduced in this release on: Modular Systems (8800 [LC ASIC: P100]) (select variants only*) With H.Insert.Red head-end behavior, you can effectively steer traffic into an SR policy, allowing for fast rerouting, traffic optimization, and simplified path management without additional encapsulation. The H.Insert.Red head-end behavior enables the router to insert a Segment Routing Header (SRH) directly into an existing IPv6 packet. The feature introduces these changes: CLI: * This feature is supported on:
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Introduced in this release on: Fixed Systems(8200, 8700); Centralized Systems (8600); Modular Systems (8800 [LC ASIC: Q200, P100]) Segment Routing over IPv6 (SRv6) services on Ethernet Virtual Private Network (EVPN) E-Line offers a modern approach to simplify and enhance network operations. SRv6 utilizes IPv6 addresses to encode segment routing information, seamlessly integrating with EVPN E-Line services to provide efficient, scalable, and flexible network solutions. |
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BGP |
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Introduced in this release on: Fixed Systems (8200, 8700); Centralized Systems (8600); Modular Systems (8800 [LC ASIC: Q100, Q200, P100]) Now you can ensure continuous connectivity by allowing non-Long Lived Graceful Restart (LLGR) eBGP neighbors to use LLGR stale routes, allowing for LLGR capability to be enabled and advertised without having to explicitly configure a timeout value, and gain greater flexibility in route management by advertising stale routes to non-LLGR peers through the NO_EXPORT community. This is an enhancement to the existing BGP Persistence feature. The feature introduces these changes: CLI:
YANG Data Model:
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Interface and Hardware Component |
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Introduced in this release on: Fixed Systems(8200, 8700); Centralized Systems (8600); Modular Systems (8800 [LC ASIC: Q100, Q200, P100]). The Media Link-down PreFEC Degrade functionality can be used to protect the media side of the optical transceiver during transmission errors. By using this feature, you can proactively switch the traffic to standby path when the BER counter crosses the threshold value. This feature helps to avoid further traffic impact when the optical network reaches more noise or error. The feature introduces these changes:CLI: Modified the controller optics command by adding the media link-down prefec-degrade keyword. YANG Data Model:
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Introduced in this release on: Fixed Systems (8200, 8700); Centralized Systems (8600); Modular Systems (8800 [LC ASIC: Q100, Q200, P100]) Remote Link State Propagation allows the status of a link to be communicated to remote devices, ensuring that all relevant parts of the network are aware of link state changes. Link Loss Forwarding (LLF) uses this feature to propagate link failures to remote endpoints. By enabling remote state propagation and LLF on an interface, you can ensure that the link state changes are communicated to remote devices, allowing for quick failover and rerouting of traffic. This feature introduces the propagate remote-status command. |
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L2VPN |
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Introduced in this release on: Modular Systems (8800 [LC ASIC: P100]) (select variants only*) Pseudowire Headend (PWHE) is a virtual interface that allows termination of access PWs into a Layer 3 (VRF or global) domain or into a Layer 2 domain. PWHE enables integration of legacy Layer 2 services into packet-switched networks (PSNs) like IP or MPLS networks, so that users can integrate their older devices into newer networks without upgrading their hardware. This is possible because PWHE allows the termination or encapsulation of the frames from the attachment circuit into packets that can be transmitted over the PSN. * This feature is supported only on:
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Introduced in this release on: Fixed Systems (8200); Centralized Systems (8600); Modular Systems (8800 [LC ASIC: Q100, Q200, P100]) Introduced support for the following VLAN tags on line cards and routers with Q100, Q200, and P100 based Silicon One ASIC:
Introduced support for BUM traffic in VPLS service load balancing. |
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Introduced in this release on: Modular Systems (8800 [LC ASIC: P100])(select variants only*) This feature allows you to perform a detailed inspection and analysis of layer 2 network traffic passing through a set of ethernet interfaces without interrupting the flow of traffic. You can copy or mirror the network packets that pass through a specific source interface within a layer 2 VPN, allowing these packets to be redirected to a predetermined destination interface. *This feature is enabled by default and supported on:
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EVPN |
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Introduced in this release on: Fixed Systems (8200, 8700); Centralized Systems (8600); Modular Systems (8800 [LC ASIC: Q100, Q200, P100]) Fast reroute minimizes traffic loss by quickly redirecting traffic to a backup path in the event of a link failure, ensuring fast convergence and maintaining the service continuity. This feature introduces the convergence reroute command. |
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Modular QoS |
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Introduced in this release on: Modular Systems (8800 [LC ASIC: P100])(select variants only*) You can now prioritize critical services like voice, video, and real-time applications for network traffic entering a Pseudowire Headend (PWHE) interface, which then forwards the prioritized traffic into the pseudowire to be transported over a packet-switched network, such as an IP or MPLS network. The feature introduces the show qos-ea default-queue command. The feature modifies the *This feature is supported on:
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Multicast Traffic Scheduling on Egress Queues |
Introduced in this release on: Modular Systems (8800 [LC ASIC:ASIC: P100])(select variants only*) We have introduced multicast traffic scheduling on egress queues. Now you can have more granular control over multicast traffic by applying egress queuing policy map parameters such as traffic shaping, priority, and queuing, to each egress queue. This allows for specific management of multicast traffic for different receivers, ensuring efficient and prioritized handling of multicast data. *This feature is enabled by default and supported on:
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Egress Class-level Traffic Shaping for Subinterface |
Introduced in this release on: Modular Systems (8800 [LC ASIC: P100])(select variants only*) You can now granularly control the traffic flow on each class in the egress queuing policy map ensuring optimal bandwidth allocation and improved network performance. This is achieved by introducing support for enabling class-level rate limiting traffic shapers for each class in the egress subinterface-level (main and LAG) queuing policy maps. *This feature is enabled by default and supported on:
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Priority Propagation on Egress Queues |
Introduced in this release on: Fixed Systems (8200, 8700); Centralized Systems (8600); Modular Systems (8800 [LC ASIC: P100]) You can now ensure that high-priority traffic is consistently prioritized across multiple sub-interfaces on the same network port, enhancing the performance of critical applications. This is achieved by enabling support for egress queuing policy maps that allow high-priority P1 traffic (on class TC7) to take precedence over non-P1 traffic across sub-interfaces. This feature ensures that critical traffic, such as voice or real-time video, is always given the highest priority, regardless of the sub-interface it is associated with, thereby maintaining optimal network performance and reducing latency for essential services. |
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NetFlow and sFlow |
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Introduced in this release on: Modular Systems (8800 [LC ASIC: P100]) (select variants only*) NetFlow is now supported on Pseudowire Headend (PWHE) interfaces, enhancing traffic congestion monitoring and network operation efficiency. This feature enables monitoring of IP traffic transmitted through PWHE interfaces, which facilitates the termination and encapsulation of legacy non-IP traffic into IP packets. *This feature is supported on:
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System Management |
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Introduced in this release on: Fixed Systems (8200, 8700); Centralized Systems (8600); Modular Systems (8800 [LC ASIC: Q100, Q200, P100]) The router performs the commit and rebase operations simultaneously, ensuring that the commit operation remains unblocked during the rebase operation. This removes the need to use the cfs check command to increase the commit count and the commit file diff size. |
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Introduced in this release on: Fixed Systems (8200); Centralized Systems (8600); and Modular Systems (8800[LC ASIC: Q100, Q200, P100]) You can now get statistical information with Performance Monitoring in PTP networks, such as clock accuracy, synchronization status, and network delays by defining Performance Monitoring Parameters and Port Specific Parameters. This feature empowers operators with comprehensive performance monitoring and precise time-stamp analysis, offering enhanced granularity for time synchronization in telecommunication networks. By providing detailed insights, it enables operators to make well-informed decisions and take proactive actions to ensure optimal network performance. The feature introduces these changes: CLI: YANG Data Models:
(see GitHub, YANG Data Models Navigator) |
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System Security |
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Introduced in this release on: Fixed Systems (8200) (select variants only*) MACsec, the Layer 2 encryption protocol, secures data on physical media and provides data integrity and confidentiality. *We now support MACsec encryption on all ports of 8212-48FH-M. |
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Introduced in this release on: Modular Systems (8800 [LC ASIC: P100]) (select variants only*) MACsec, the Layer 2 encryption protocol, secures data on physical media and provides data integrity and confidentiality. *We now support MACsec encryption on all ports of 88-LC1-52Y8H-EM. |
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Timing and Synchronization |
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Precision Time Protocol (PTP) Support on Cisco 8711-32FH-M Routers |
Introduced in this release on: Fixed Systems(8700)(select variants only*) Precision Time Protocol (PTP) is a protocol that defines a method to synchronize clocks in a network for networked measurement and control system. *This feature is supported on 8711-32FH-M. With this release, Cisco 8711-32FH-M routers support these PTP telecom profiles:
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Synchronous Ethernet (SyncE) Support on Cisco 8711-32FH-M Routers |
Introduced in this release on: Fixed Systems(8700)(select variants only*) SyncE provides synchronization signals transmitted over the Ethernet physical layer to downstream devices, while the Synchronization Status Message (SSM) indicates the quality level of the transmitting clock to the neighboring nodes, informing the nodes about the level of the network's reliability. Ethernet Synchronization Message Channel (ESMC) is the logical channel that uses an Ethernet PDU (protocol data unit) to exchange SSM information over the SyncE link. *This feature is supported on 8711-32FH-M. With this release, the Cisco 8711-32FH-M routers support these SyncE ITU-T profiles:
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Global Navigation Satellite System Support on Cisco 8711-32FH-M Routers |
Introduced in this release on: Fixed Systems(8700)(select variants only*); Global Navigation Satellite System (GNSS) is a satellite system used as a timing interface. GNSS receiver receives signals from GNSS satellites and decodes the information from multiple satellites to determine its distance from each satellite. Based on this data, the GNSS receiver identifies the location of each satellite. *This feature is supported on 8711-32FH-M. |
| PTP Support on 88-LC1-12TH24FH-E and 88-LC1-52Y8H-EM |
Introduced in this release on: Modular Systems (8800 [LC ASIC: P100]) (select variants only*) Based on the IEEE 1588-2008 standard, Precision Time Protocol (PTP) is a protocol that defines a method to synchronize clocks in a network for networked measurement and control systems. *This feature is now supported on 88-LC1-12TH24FH-E and 88-LC1-52Y8H-EM line cards. With this release, 88-LC1-12TH24FH-E and 88-LC1-52Y8H-EM line cards support these PTP telecom profiles:
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| PTP on Cisco 8608 Router |
Introduced in this release on: Centralized Systems (8600) Based on the IEEE 1588-2008 standard, Precision Time Protocol (PTP) is a protocol that defines a method to synchronize clocks in a network for networked measurement and control systems. With this release, support for PTP telecom profiles G.8265.1, G.8275.2 and BITs are extended to the following hardware modules: |
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Licensing |
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Introduced in this release on: Modular Systems (8800 [LC ASIC: P100]) Cisco Smart Licensing Using Policy (SLP) is an enhancement to the existing Cisco Smart Licensing model. It streamlines the licensing process for Cisco IOS XR products by introducing a more flexible and automated approach. With SLP, you no longer need to register your device during installation, and there is no evaluation license state or period. This simplifies the licensing process and reduces complexity. To use SLP, your devices must establish trust and send the initial license usage report within 90 days. Support for Smart Licensing using Policy is now extended to the hardware:
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Support for Smart Licensing using Policy on the 8212-48FH-M and 8711-32FH-M |
Introduced in this release on: Fixed Systems (8200, 8700) (select variants only*) Cisco Smart Licensing Using Policy (SLP) is an enhancement to the existing Cisco Smart Licensing model. It streamlines the licensing process for Cisco IOS XR products by introducing a more flexible and automated approach. With SLP, you no longer need to register your device during installation, and there is no evaluation license state or period. This simplifies the licensing process and reduces complexity. To use SLP, your devices must establish trust and send the initial license usage report within 90 days. *Support for Smart Licensing using Policy is now extended to the hardware:
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Support for Smart Licensing using Policy on the Cisco 8608 Router |
Introduced in this release on: Centralized Systems (8600) Cisco Smart Licensing Using Policy (SLP) is an enhancement to the existing Cisco Smart Licensing model. It streamlines the licensing process for Cisco IOS XR products by introducing a more flexible and automated approach. With SLP, you no longer need to register your device during installation, and there is no evaluation license state or period. This simplifies the licensing process and reduces complexity. To use SLP, your devices must establish trust and send the initial license usage report within 90 days. Support for Smart Licensing using Policy is now extended to the Cisco 8608 router. |
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Introduced in this release on: Fixed Systems (8200, 8700)(select variants only*); Centralized Systems (8600); Modular Systems (8800 [LC ASIC: P100]) The Flexible Consumption Model (FCM) provides the capability and flexibility to purchase software capacity as needed. This release introduces the FCM Model 2 that offers Essentials, Advantage, and Premier license suites. Premier license suite offers additional licenses that are required on top of Advantage licenses for high scale services. FCM Model 1 offers Essentials and Advantage license suites. *These Cisco 8000 router variants and line cards support FCM Model 2.
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YANG Data Models Introduced and Enhanced
This release introduces or enhances the following data models. For detailed information about the supported and unsupported sensor paths of all the data models, see the Github repository. To get a comprehensive list of the data models supported in a release, navigate to the Available-Content.md file for the release in the Github repository. The unsupported sensor paths are documented as deviations. For example, openconfig-acl.yang provides details about the supported sensor paths, whereas cisco-xr-openconfig-acl-deviations.yang provides the unsupported sensor paths for openconfig-acl.yang on Cisco IOS XR routers.
You can also view the data model definitions using the YANG Data Models Navigator tool. This GUI-based and easy-to-use tool helps you explore the nuances of the data model and view the dependencies between various containers in the model. You can view the list of models supported across Cisco IOS XR releases and platforms, locate a specific model, view the containers and their respective lists, leaves, and leaf lists presentedvisually in a tree structure.
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Programmability |
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Cisco-IOS-XR-openconfig-system-fpd-ext.yang Version 0.1.0 |
This data model, an extension by Cisco to the existing openconfig-system data model, allows you to enable or disable FPD auto-upgrade for PSU firmware using these leaves:
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openconfig-platform.yang Version 0.24.0 |
The OpenConfig data model has been updated from version 0.22.0 to 0.24.0, introducing the following enhancements to the component container
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openconfig-keychain.yang Version 0.4.0 |
Cisco IOS-XR now supports the openconfig-keychain.yang data model, version 0.4.0, offering a standardized method for key management on network devices. This model introduces a keychain container for managing cryptographic keys, each with defined lifetimes and algorithms. Keys with a key-id string containing any characters from [a-fA-F] are considered MACsec keys and keys with a key-id as an integer are treated as NON-MACsec keys. The key-chains container from the previous version has been removed. |
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openconfig-macsec.yang Version 1.0.0 |
Cisco IOS-XR now supports the openconfig-keychain.yang data model, version 0.4.0. This model provides a standardized approach to key management on network devices by introducing a keychain container for managing cryptographic keys, each with specified lifetimes and algorithms. Key Identification - Keys are identified based on the key-id string:
MACsec Key Requirements - For MACsec keys, the secret-key/key-string must adhere to the following requirements:
This mapping is assumed because the openconfig-keychain model does not include AES-128-CMAC and AES-256-CMAC crypto-type enums. |
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openconfig-isis.yang Version 1.6.0 |
The openconfig-isis.yang data model has been updated to version 1.6.0. The model now supports additional isis configuration paths, that includes:
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opeconfig-lacp.yang version 2.0.0 |
The openconfig-lacp.yang data model has been updated to version 2.0.0.
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openconfig-if-ip.yang Version 3.5.0 |
The openconfig-if-ip.yang data model has been updated to version 3.5.0 for Interfaces. The new address/state/type leaf allows you to set both link-local and regular addresses. If you explicitly configure the LINK_LOCAL address, then in the GET request and telemetry, the configured LINK_LOCAL address details are populated. However, if you explicitly did not configure the LINK_LOCAL address then the default LINK_LOCAL address details are populated. |
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openconfig-transport-types.yang Version 0.21.0 |
The OpenConfig data model is revised from version 0.18.1 to 0.21.0. to introduce the following new types corresponding to form factor:
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openconfig-system.yang Version 0.17.1 |
The OpenConfig data model is revised from version 0.16.1 to 0.17.1, introducing two new leaves in the NTP container:
In the current OpenConfig system hierarchy, the NTP server or peer's IP address is the container, with the network instance as its leaf. Therefore, this feature comes with the following restrictions:
Due to these limitations, we recommend using the corresponding CLI commands for the NTP functionalities. |
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Cisco-IOS-XR-ztp-cfg.yang |
The Cisco-IOS-XR-ztp-cfg data model is revised from version 1.0.0 to 1.1.0. This model now supports the Bootz server configuration CLI for dynamically inserted standby cards or line cards. |
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Cisco-IOS-XR-ptp-cfg.yang |
The Cisco-IOS-XR-ptp-cfg.yang data model has been updated to version 3.2.0 for Interfaces. The new virtual port gm-threshold-breach leaf allows you to configure the value at which a bi-state alarm is triggered when the virtual port Time of Day (ToD) offset from the TimeTransmitter exceeds the threshold in nanoseconds. |
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Cisco-IOS-XR-um-ptp-cfg.yang |
The Cisco-IOS-XR-um-ptp-cfg.yang data model has been updated to version 2.0.0 for Interfaces. The model now supports container performance-monitoring that allows you to enable performance-monitoring globally. |
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Cisco-IOS-XR-ptp-oper.yang |
The Cisco-IOS-XR-ptp-oper.yang data model has been updated to version 2.3.0. The container performance-monitoring-dses and container performance-monitoring-port-dses, allows you to collect PTP performance monitor statistics for the full dataset and this is the only way to access records for ports. |
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Cisco-IOS-XR-um-cont-optics-fec-threshold-cfg.yang |
This Unified Yang data model is enhanced for existing Media container with the addition of new containers link-down and prefec-degrade for enabling Media linkdown preFEC degrade. |
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Cisco-IOS-XR-controller-optics-oper.yang |
The Cisco-IOS-XR-controller-optics-oper yang data model is enhanced with media-linkdown-prefec-degrade leaf to identify if the Media linkdown preFEC degrade has been enabled or not. |
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Cisco-IOS-XR-qos-ma-oper.yang |
This native data model is modified to add support to configure QoS on pseudowire headend (PWHE) interfaces and subinterfaces. |
Hardware Introduced
For a complete list of supported hardware and ordering information, see the Cisco 8000 Series Data Sheet.
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Cisco 8711-32FH-M |
The Cisco 8711-32FH-M router offers 12.8 Tbps of network bandwidth. This P100 silicon chip-based fixed-port router fits into a 1 RU form factor and features 32 QSFP56-DD 400GbE ports. The Cisco 8711-32FH-M router includes HBM/2.5D for advanced performance, and supports Cisco 400GbE Digital Coherent Optical Modules on all the ports. |
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PSU3KW-DCPI Power Supply Unit for the Cisco 8202-32FH-M and Cisco 8212-48FH-M Routers |
We are now introducing a high wattage direct current (DC) power supply unit, PSU3KW-DCPI, that accepts DC power to operate the Cisco 8202-32FH-M and Cisco 8212-48FH-M routers in the port side intake configuration. The PSU3KW-DCPI power supply unit has a maximum power of 3000 watts. The benefits of the PSU3KW-DCPI power supply unit are:
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Cisco 8212-48FH-M Router |
The Cisco 8212-48FH-M Router offers 19.2 Tbps of network bandwidth, enhancing data throughput significantly. This high-density, P100 silicon chip-based fixed-port router fits into a 2 RU form factor and features 24 QSFP56-DD ports and 24 QSFP-DD800 ports. It includes HBM/2.5D and MACsec for advanced security and performance. |
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88-LC1-52Y8H-EM Line Card based on P100 Silicon Chip |
This release introduces the P100 silicon chip-based 88-LC1-52Y8H-EM line card with these highlights:
The 88-LC1-52Y8H-EM line card is supported on Cisco 8808 modular chassis with 8800-RP2 route processors and 8808-FC1 fabric cards. For more information on this line card, see the Cisco 8000 Series Routers Data Sheet. |
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88-LC1-12TH24FH-E Line Card based on P100 Silicon Chip |
This release introduces the P100 silicon chip-based 88-LC1-12TH24FH-E Line Card with these highlights:
The 88-LC1-12TH24FH-E Line Card is supported on Cisco 8808 modular chassis with 8800-RP2 route processors and 8808-FC1 fabric cards. For more information on this line card, see the Cisco 8000 Series Routers Data Sheet. |
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Optics |
This release launches the following new optics on selective hardware within the product portfolio. For details refer to the Transceiver Module Group (TMG) Compatibility Matrix. Cisco 400GBASE Quad Small Form-Factor Pluggable Double Density (QSFP-DD) Cisco 100GBASE Quad Small Form-Factor Pluggable Double Density (QSFP-DD) |
Release 24.3.1 Packages
The Cisco IOS XR software is composed of a base image (ISO) that provides the XR infrastructure. The ISO image is made up of a set of packages (also called RPMs). These packages are of three types:
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A mandatory package that is included in the ISO
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An optional package that is included in the ISO
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An optional package that is not included in the ISO
Visit the Cisco Software Download page to download the Cisco IOS XR software images.
To determine the Cisco IOS XR Software packages installed on your router, log in to the router and enter the show install active command:
RP/0/RP0/CPU0#show install active
Xr Package Version
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xr-8000-af-ea 24.3.1v1.0.0-1
xr-8000-aib 24.3.1v1.0.0-1
xr-8000-bfd 24.3.1v1.0.0-1
xr-8000-buffhdr-ea 24.3.1v1.0.0-1
xr-8000-bundles 24.3.1v1.0.0-1
xr-8000-card-support 24.3.1v1.0.0-1
xr-8000-cdp-ea 24.3.1v1.0.0-1
xr-8000-cem-driver 24.3.1v1.0.0-1
xr-8000-cfm 24.3.1v1.0.0-1
xr-8000-common-otn 24.3.1v1.0.0-1
xr-8000-core 24.3.1v1.0.0-1
xr-8000-cpa 24.3.1v1.0.0-1
xr-8000-cpa-devobj-gnss 24.3.1v1.0.0-1
xr-8000-cpa-devobj-misc 24.3.1v1.0.0-1
xr-8000-cpa-driver-fpgalib-kmod-oe 24.3.1v1.0.0-1
xr-8000-cpa-npu 24.3.1v1.0.0-1
xr-8000-cpa-sb-data 24.3.1v1.0.0-1
xr-8000-dot1x 24.3.1v1.0.0-1
xr-8000-dsm 24.3.1v1.0.0-1
xr-8000-dyinggasp-pd 24.3.1v1.0.0-1
xr-8000-edpl 24.3.1v1.0.0-1
xr-8000-encap-id 24.3.1v1.0.0-1
xr-8000-ether-ea 24.3.1v1.0.0-1
xr-8000-fabric 24.3.1v1.0.0-1
xr-8000-feat-mgr 24.3.1v1.0.0-1
xr-8000-fib-ea 24.3.1v1.0.0-1
xr-8000-forwarder 24.3.1v1.0.0-1
xr-8000-fpd 24.3.1v1.0.0-1
xr-8000-fwd-tools 24.3.1v1.0.0-1
xr-8000-fwdlib 24.3.1v1.0.0-1
xr-8000-gil-ea 24.3.1v1.0.0-1
xr-8000-host-core 24.3.1v1.0.0-1
xr-8000-hw-resmon 24.3.1v1.0.0-1
xr-8000-l2fib 24.3.1v1.0.0-1
xr-8000-l2mcast 24.3.1v1.0.0-1
xr-8000-leabaofa 24.3.1v1.0.0-1
xr-8000-libofaasync 24.3.1v1.0.0-1
xr-8000-lpts-ea 24.3.1v1.0.0-1
xr-8000-mcast 24.3.1v1.0.0-1
xr-8000-netflow 24.3.1v1.0.0-1
xr-8000-npu 24.3.1v1.0.0-1
xr-8000-oam 24.3.1v1.0.0-1
xr-8000-optics 24.3.1v1.0.0-1
xr-8000-os-oe 24.3.1v1.0.0-1
xr-8000-os-oe-extra 24.3.1v1.0.0-1
xr-8000-pbr 24.3.1v1.0.0-1
xr-8000-pd-port-mode 24.3.1v1.0.0-1
xr-8000-pfilter 24.3.1v1.0.0-1
xr-8000-pidb 24.3.1v1.0.0-1
xr-8000-pktio 24.3.1v1.0.0-1
xr-8000-ple-sdk 24.3.1v1.0.0-1
xr-8000-pm 24.3.1v1.0.0-1
xr-8000-port-mapper 24.3.1v1.0.0-1
xr-8000-ppinfo 24.3.1v1.0.0-1
xr-8000-pwhe-ea 24.3.1v1.0.0-1
xr-8000-qos-ea 24.3.1v1.0.0-1
xr-8000-ras 24.3.1v1.0.0-1
xr-8000-sat 24.3.1v1.0.0-1
xr-8000-span 24.3.1v1.0.0-1
xr-8000-spio 24.3.1v1.0.0-1
xr-8000-spp-ea 24.3.1v1.0.0-1
xr-8000-timing 24.3.1v1.0.0-1
xr-8000-tunnel-ip 24.3.1v1.0.0-1
xr-8000-utapp-blaze 24.3.1v1.0.0-1
xr-8000-vether 24.3.1v1.0.0-1
xr-8000-ztp-ea 24.3.1v1.0.0-1
xr-aaa 24.3.1v1.0.0-1
xr-acl 24.3.1v1.0.0-1
xr-apphosting 24.3.1v1.0.0-1
xr-appmgr 24.3.1v1.0.0-1
xr-bcdl 24.3.1v1.0.0-1
xr-bfd 24.3.1v1.0.0-1
xr-bgp 24.3.1v1.0.0-1
xr-bgputil 24.3.1v1.0.0-1
xr-bng-stubs 24.3.1v1.0.0-1
xr-bundles 24.3.1v1.0.0-1
xr-cal-pi 24.3.1v1.0.0-1
xr-cds 24.3.1v1.0.0-1
xr-cfgmgr 24.3.1v1.0.0-1
xr-cfm 24.3.1v1.0.0-1
xr-cofo 24.3.1v1.0.0-1
xr-core 24.3.1v1.0.0-1
xr-core-calv 24.3.1v1.0.0-1
xr-cpa-common 24.3.1v1.0.0-1
xr-cpa-common-optics 24.3.1v1.0.0-1
xr-cpa-common-psu 24.3.1v1.0.0-1
xr-cpa-driver-devobj-misc 24.3.1v1.0.0-1
xr-cpa-driver-devobj-npu 24.3.1v1.0.0-1
xr-cpa-driver-devobj-phy 24.3.1v1.0.0-1
xr-cpa-driver-devobj-sensors 24.3.1v1.0.0-1
xr-cpa-driver-devobj-storage 24.3.1v1.0.0-1
xr-cpa-driver-devobj-test 24.3.1v1.0.0-1
xr-cpa-driver-devobj-timing 24.3.1v1.0.0-1
xr-cpa-driver-fpgalib-access 24.3.1v1.0.0-1
xr-cpa-driver-fpgalib-common 24.3.1v1.0.0-1
xr-cpa-driver-fpgalib-infra 24.3.1v1.0.0-1
xr-cpa-driver-fpgalib-misc 24.3.1v1.0.0-1
xr-cpa-driver-fpgalib-optics 24.3.1v1.0.0-1
xr-cpa-driver-optics 24.3.1v1.0.0-1
xr-cpa-ethsw 24.3.1v1.0.0-1
xr-cpa-idprom 24.3.1v1.0.0-1
xr-cpa-tamlib 24.3.1v1.0.0-1
xr-ctc 24.3.1v1.0.0-1
xr-debug 24.3.1v1.0.0-1
xr-dhcp 24.3.1v1.0.0-1
xr-diags 24.3.1v1.0.0-1
xr-diskboot 24.3.1v1.0.0-1
xr-drivers 24.3.1v1.0.0-1
xr-edpl 24.3.1v1.0.0-1
xr-eem 24.3.1v1.0.0-1
xr-elmi-stubs 24.3.1v1.0.0-1
xr-ema 24.3.1v1.0.0-1
xr-enhancedmanageability 24.3.1v1.0.0-1
xr-erp 24.3.1v1.0.0-1
xr-featurecapability 24.3.1v1.0.0-1
xr-fib 24.3.1v1.0.0-1
xr-filesysinv 24.3.1v1.0.0-1
xr-foundation-8000 24.3.1v1.0.0-1
xr-fpd 24.3.1v1.0.0-1
xr-gil 24.3.1v1.0.0-1
xr-ha-infra 24.3.1v1.0.0-1
xr-host-core 24.3.1v1.0.0-1
xr-httpclient 24.3.1v1.0.0-1
xr-icpe-eth 24.3.1v1.0.0-1
xr-icpe-opt 24.3.1v1.0.0-1
xr-identifier 24.3.1v1.0.0-1
xr-infra-sla 24.3.1v1.0.0-1
xr-install 24.3.1v1.0.0-1
xr-ip-apps 24.3.1v1.0.0-1
xr-ip-core 24.3.1v1.0.0-1
xr-ip-infra-vrf 24.3.1v1.0.0-1
xr-ip-mibs 24.3.1v1.0.0-1
xr-ip-static 24.3.1v1.0.0-1
xr-ipc 24.3.1v1.0.0-1
xr-ipsla 24.3.1v1.0.0-1
xr-is-is 24.3.1v1.0.0-1
xr-l2snooptransport 24.3.1v1.0.0-1
xr-l2vpn 24.3.1v1.0.0-1
xr-ldp 24.3.1v1.0.0-1
xr-licensing 24.3.1v1.0.0-1
xr-link-oam 24.3.1v1.0.0-1
xr-linuxnetworking 24.3.1v1.0.0-1
xr-linuxsecurity 24.3.1v1.0.0-1
xr-lldp 24.3.1v1.0.0-1
xr-lpts 24.3.1v1.0.0-1
xr-manageabilityxml 24.3.1v1.0.0-1
xr-mandatory 24.3.1v1.0.0-1
xr-mcast 24.3.1v1.0.0-1
xr-mcastl2snoop 24.3.1v1.0.0-1
xr-mda 24.3.1v1.0.0-1
xr-mpls 24.3.1v1.0.0-1
xr-mpls-oam 24.3.1v1.0.0-1
xr-mpls-oam-client 24.3.1v1.0.0-1
xr-mpls-static 24.3.1v1.0.0-1
xr-netflow 24.3.1v1.0.0-1
xr-networkboot 24.3.1v1.0.0-1
xr-nosi 24.3.1v1.0.0-1
xr-ntp 24.3.1v1.0.0-1
xr-ofa 24.3.1v1.0.0-1
xr-optics 24.3.1v1.0.0-1
xr-orrspf 24.3.1v1.0.0-1
xr-os-oe-apps 24.3.1v1.0.0-1
xr-os-oe-core 24.3.1v1.0.0-1
xr-os-oe-docker 24.3.1v1.0.0-1
xr-os-oe-hardware 24.3.1v1.0.0-1
xr-ospf 24.3.1v1.0.0-1
xr-p4rt 24.3.1v1.0.0-1
xr-perf-meas 24.3.1v1.0.0-1
xr-perfmgmt 24.3.1v1.0.0-1
xr-pfi 24.3.1v1.0.0-1
xr-pird-stubs 24.3.1v1.0.0-1
xr-pkt-trace 24.3.1v1.0.0-1
xr-pm-alarm 24.3.1v1.0.0-1
xr-portmode 24.3.1v1.0.0-1
xr-procmgr 24.3.1v1.0.0-1
xr-python 24.3.1v1.0.0-1
xr-qos 24.3.1v1.0.0-1
xr-rid-mgr 24.3.1v1.0.0-1
xr-routing 24.3.1v1.0.0-1
xr-rpl 24.3.1v1.0.0-1
xr-rsvp-te 24.3.1v1.0.0-1
xr-sanitizer-tools 24.3.1v1.0.0-1
xr-security 24.3.1v1.0.0-1
xr-security-tams 24.3.1v1.0.0-1
xr-secy-driver 24.3.1v1.0.0-1
xr-servicelayer 24.3.1v1.0.0-1
xr-snmp 24.3.1v1.0.0-1
xr-snmp-hw 24.3.1v1.0.0-1
xr-span 24.3.1v1.0.0-1
xr-spi-core 24.3.1v1.0.0-1
xr-spi-hw 24.3.1v1.0.0-1
xr-spp 24.3.1v1.0.0-1
xr-sr 24.3.1v1.0.0-1
xr-stats 24.3.1v1.0.0-1
xr-stp 24.3.1v1.0.0-1
xr-stubs 24.3.1v1.0.0-1
xr-sysdb 24.3.1v1.0.0-1
xr-syslog 24.3.1v1.0.0-1
xr-telemetry 24.3.1v1.0.0-1
xr-timing 24.3.1v1.0.0-1
xr-tmpdir-cleanup 24.3.1v1.0.0-1
xr-track 24.3.1v1.0.0-1
xr-transports 24.3.1v1.0.0-1
xr-tty 24.3.1v1.0.0-1
xr-tunnel-ip 24.3.1v1.0.0-1
xr-tunnel-nve 24.3.1v1.0.0-1
xr-upgradematrix 24.3.1v1.0.0-1
xr-utils 24.3.1v1.0.0-1
xr-vether 24.3.1v1.0.0-1
xr-vpnmib 24.3.1v1.0.0-1
xr-xmlinfra 24.3.1v1.0.0-1
xr-xrlibcurl 24.3.1v1.0.0-1
xr-ztp 24.3.1v1.0.0-1To know about all the RPMs installed including XR, OS and other components use the show install active all command.
The software modularity approach provides a flexible model that allows you to install a subset of IOS XR packages on devices based on your individual requirements. All critical components are modularized as packages so that you can select the features that you want to run on your router.
 Note |
The above show command output displays mandatory packages that are installed on the router. To view the optional and bug fix RPM packages, first install the package and use the show install active summary command. |
Caveats
|
Bug ID |
Headline |
|---|---|
|
OC terminal-device target-output-power units/definition interpretation is wrong |
|
|
P100 - Policer drops traffic in the non congestion scenario |
|
|
P100 - Reduction in ingress policy-map scale |
|
|
SRTE with autoroute - After adding policy ISIS routes flapping between ISIS and SRTE |
|
|
DSCP/PREC bits are not preserved after applying egress marking policy-map - P100 ASIC |
|
|
Multicast shaper not working for P100 ASIC based line cards and routers |
Behavior Changes
-
The hw-module multicast route scale command is supported only on modular systems and not on fixed/centralized systems.
-
Two new MPLS OAM commands, address-family ipv4 reply and address-family ipv6 reply ,are implemented in Cisco IOS XR Release 24.3.1. Use the keyword ip-header-source in either of these commands if an explicit source IP is required in the MPLS OAM reply packets when route policies block packets with non-routed source addresses. By default, the MPLS OAM packets use the local interface address as the source.
-
Starting from Cisco IOS XR Release 24.3.1, the reverse keyword in show reboot command is deprecated and will not be supported in future releases. Hence the show reboot history reverse location command is also not supported.
Determine Software Version
Log in to the router and enter the show version command:
RP/0/RP0/CPU0# show version
Cisco IOS XR Software, Version 24.3.1 LNT
Copyright (c) 2013-2024 by Cisco Systems, Inc.
Build Information:
Built By : cisco
Built On : Sun Sep 01 03:41:27 UTC 2024
Build Host : iox-ucs-003
Workspace : /auto/srcarchive11/prod/24.3.1/8000-aarch64/ws/
Version : 24.3.1
Label : 24.3.1
cisco 8000 (CN9130H board )
cisco 8011-4G24Y4H-I (CN9130H board ) processor with 16GB of memory
8000-aarch64 uptime is 19 minutes
Cisco 8011 Series Fixed 1RU Router 4x100G, 24x1/10/25G, 4xCuDetermine Firmware Support
Log in to the router and enter show fpd package command:
Cisco 8200 Series Router
RP/0/RP0/CPU0# show fpd package
Field Programmable Device Package
================================================
Req SW Min Req Min Req
Card Type FPD Description Reload Ver SW Ver Board Ver
=================== ========================== ====== ======= ======== =========
--------------------------------------------------------------------------------
8201 Bios YES 1.36 1.36 0.0
BiosGolden YES 1.36 1.15 0.0
IoFpga YES 1.11 1.11 0.1
IoFpgaGolden YES 1.11 0.48 0.1
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.06 1.06 0.0
x86FpgaGolden YES 1.06 0.48 0.0
x86TamFw YES 5.13 5.13 0.0
x86TamFwGolden YES 5.13 5.05 0.0
--------------------------------------------------------------------------------
8201-ON Bios YES 1.208 1.208 0.0
BiosGolden YES 1.208 1.207 0.0
IoFpga YES 1.11 1.11 0.1
IoFpgaGolden YES 1.11 0.48 0.1
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.06 1.06 0.0
x86FpgaGolden YES 1.06 0.48 0.0
x86TamFw YES 5.13 5.13 0.0
x86TamFwGolden YES 5.13 5.05 0.0
--------------------------------------------------------------------------------
8201-SYS Bios YES 1.36 1.36 0.0
BiosGolden YES 1.36 1.15 0.0
IoFpga YES 1.11 1.11 0.1
IoFpgaGolden YES 1.11 0.48 0.1
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.06 1.06 0.0
x86FpgaGolden YES 1.06 0.48 0.0
x86TamFw YES 5.13 5.13 0.0
x86TamFwGolden YES 5.13 5.05 0.0
--------------------------------------------------------------------------------
8201-SYS-ON Bios YES 1.208 1.208 0.0
BiosGolden YES 1.208 1.207 0.0
IoFpga YES 1.11 1.11 0.1
IoFpgaGolden YES 1.11 0.48 0.1
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.06 1.06 0.0
x86FpgaGolden YES 1.06 0.48 0.0
x86TamFw YES 5.13 5.13 0.0
x86TamFwGolden YES 5.13 5.05 0.0
--------------------------------------------------------------------------------
PSU1.4KW-ACPE DT-PrimMCU NO 3.01 3.01 0.0
DT-SecMCU NO 2.02 2.02 0.0
QC-PrimMCU NO 1.00 1.00 0.0
QC-SecMCU NO 1.00 1.00 0.0
--------------------------------------------------------------------------------
PSU1.4KW-ACPI DT-PrimMCU NO 3.01 3.01 0.0
DT-SecMCU NO 2.02 2.02 0.0
QC-PrimMCU NO 1.00 1.00 0.0
QC-SecMCU NO 1.00 1.00 0.0
--------------------------------------------------------------------------------
PSU2KW-ACPE PO-PrimMCU NO 1.03 1.03 0.0
PO-SecMCU NO 1.06 1.06 0.0
QC-PrimMCU NO 1.01 1.01 0.0
QC-SecMCU NO 1.04 1.04 0.0
--------------------------------------------------------------------------------
PSU2KW-ACPI PO-PrimMCU NO 1.03 1.03 0.0
PO-SecMCU NO 1.08 1.08 0.0
QC-PrimMCU NO 1.01 1.01 0.0
QC-SecMCU NO 3.02 3.01 0.0
--------------------------------------------------------------------------------
PSU2KW-DCPE PO-PrimMCU NO 1.07 1.07 0.0
--------------------------------------------------------------------------------
PSU2KW-DCPI PO-PrimMCU NO 1.07 1.07 0.0
QC-PrimMCU NO 1.00 1.00 0.0
QC-SecMCU NO 1.00 1.00 0.0
--------------------------------------------------------------------------------
PSU2KW-HVPI PO-PrimMCU NO 1.09 1.09 0.0
PO-SecMCU NO 1.10 1.10 0.0
Cisco 8600 Series Router
RP/0/RP0/CPU0# show fpd package
Field Programmable Device Package
================================================
Req SW Min Req Min Req
Card Type FPD Description Reload Ver SW Ver Board Ver
=================== ========================== ====== ======= ======== =========
--------------------------------------------------------------------------------
86-3.2KW-AC EM-LogicMCU NO 0.10 0.10 0.0
EM-PrimMCU NO 0.02 0.02 0.0
EM-SecMCU NO 0.02 0.02 0.0
--------------------------------------------------------------------------------
86-3.2KW-DC EM-LogicMCU NO 0.11 0.11 0.0
EM-PrimMCU NO 0.04 0.04 0.0
EM-SecMCU NO 0.04 0.04 0.0
--------------------------------------------------------------------------------
86-MPA-14H2FH-M IoFpga YES 1.05 1.05 0.1
IoFpgaGolden NO 1.05 1.00 0.1
--------------------------------------------------------------------------------
86-MPA-24Z-M IoFpga YES 1.05 1.05 0.1
IoFpgaGolden NO 1.05 1.00 0.1
--------------------------------------------------------------------------------
86-MPA-4FH-M IoFpga YES 1.05 1.05 0.1
IoFpgaGolden NO 1.05 1.00 0.1
--------------------------------------------------------------------------------
8608-FS[FB] IoFpga NO 1.11 1.11 0.2
IoFpgaGolden NO 1.11 1.00 0.2
--------------------------------------------------------------------------------
8608-RP Bios YES 1.20 1.20 0.0
BiosGolden YES 1.20 1.01 0.0
IoFpga YES 1.10 1.10 0.0
IoFpgaGolden NO 1.10 1.01 0.0
SsdMicron7300M2 YES 2.60 2.60 0.0
SsdMicron7450M2 YES 11.00 11.00 0.0
SsdSRMP8N2 YES 14.38 14.38 0.0
x86Fpga YES 1.07 1.07 0.0
x86FpgaGolden YES 1.07 1.07 0.0
x86TamFw YES 7.12 7.12 0.0
x86TamFwGolden YES 7.12 7.12 0.0
--------------------------------------------------------------------------------
8608-SC0-128 IoFpga YES 1.01 1.01 0.0
IoFpgaGolden YES 1.01 1.01 0.0
--------------------------------------------------------------------------------
8608-SC0-128[FB] IoFpga NO 1.11 1.11 0.2
IoFpgaGolden NO 1.11 1.00 0.2
--------------------------------------------------------------------------------
PSU4.3KW-HVPI DT-LogicMCU NO 2.05 2.05 0.0
DT-PrimMCU NO 1.08 1.08 0.0
DT-SecMCU NO 1.08 1.08 0.0
Cisco 8700 Series Router
RP/0/RP0/CPU0# show fpd package
Field Programmable Device Package
================================================
Req SW Min Req Min Req
Card Type FPD Description Reload Ver SW Ver Board Ver
=================== ========================== ====== ======= ======== =========
--------------------------------------------------------------------------------
8711-32FH-M Bios YES 5.05 5.05 0.0
BiosGolden YES 5.05 5.05 0.0
IoFpga YES 1.09 1.09 0.0
IoFpgaGolden YES 1.09 1.09 0.0
x86Fpga YES 2.11 2.11 0.0
x86FpgaGolden YES 2.11 2.11 0.0
x86TamFw YES 9.07 9.07 0.0
x86TamFwGolden YES 9.07 9.07 0.0
--------------------------------------------------------------------------------
8711-32FH-M[FB] IoFpga NO 1.10 1.10 0.0
IoFpgaGolden NO 1.10 1.00 0.0
--------------------------------------------------------------------------------
PSU2KW-ACPE PO-PrimMCU NO 1.03 1.03 0.0
PO-SecMCU NO 1.06 1.06 0.0
QC-PrimMCU NO 1.01 1.01 0.0
QC-SecMCU NO 1.04 1.04 0.0
--------------------------------------------------------------------------------
PSU2KW-ACPI PO-PrimMCU NO 1.03 1.03 0.0
PO-SecMCU NO 1.08 1.08 0.0
QC-PrimMCU NO 1.01 1.01 0.0
QC-SecMCU NO 3.02 3.01 0.0
--------------------------------------------------------------------------------
PSU2KW-DCPE PO-PrimMCU NO 1.07 1.07 0.0
--------------------------------------------------------------------------------
PSU2KW-DCPI PO-PrimMCU NO 1.07 1.07 0.0
QC-PrimMCU NO 1.00 1.00 0.0
QC-SecMCU NO 1.00 1.00 0.0
Cisco 8800 Series Router
RP/0/RP0/CPU0# show fpd package
Field Programmable Device Package
================================================
Req SW Min Req Min Req
Card Type FPD Description Reload Ver SW Ver Board Ver
=================== ========================== ====== ======= ======== =========
--------------------------------------------------------------------------------
88-LC0-34H14FH Bios YES 1.21 1.21 0.0
BiosGolden YES 1.21 0.13 0.0
EthSwitch YES 1.05 1.05 0.0
EthSwitchGolden YES 1.05 0.07 0.0
IoFpga YES 1.09 1.09 0.1
IoFpgaGolden YES 1.09 1.01 0.1
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 0.97 0.97 0.1
x86FpgaGolden YES 0.97 0.78 0.1
x86TamFw YES 6.18 6.18 0.1
x86TamFwGolden YES 6.18 6.10 0.1
--------------------------------------------------------------------------------
88-LC0-34H14FH-O Bios YES 0.241 0.241 0.0
BiosGolden YES 0.241 0.218 0.0
EthSwitch YES 1.05 1.05 0.0
EthSwitchGolden YES 1.05 0.07 0.0
IoFpga YES 1.09 1.09 0.1
IoFpgaGolden YES 1.09 1.01 0.1
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 0.97 0.97 0.1
x86FpgaGolden YES 0.97 0.78 0.1
x86TamFw YES 6.18 6.18 0.1
x86TamFwGolden YES 6.18 6.10 0.1
--------------------------------------------------------------------------------
88-LC0-36FH Bios YES 1.21 1.21 0.0
BiosGolden YES 1.21 0.13 0.0
EthSwitch YES 1.05 1.05 0.0
EthSwitchGolden YES 1.05 0.07 0.0
IoFpga YES 1.14 1.14 0.1
IoFpga YES 1.125 1.125 2.0
IoFpgaGolden YES 1.14 1.00 0.1
IoFpgaGolden YES 1.125 1.125 2.0
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.51 1.51 0.1
x86FpgaGolden YES 1.51 1.04 0.1
x86TamFw YES 6.19 6.19 0.1
x86TamFwGolden YES 6.19 6.05 0.1
--------------------------------------------------------------------------------
88-LC0-36FH-M Bios YES 1.21 1.21 0.0
BiosGolden YES 1.21 0.13 0.0
EthSwitch YES 1.05 1.05 0.0
EthSwitchGolden YES 1.05 0.07 0.0
IoFpga YES 1.14 1.14 0.1
IoFpga YES 1.125 1.125 2.0
IoFpgaGolden YES 1.14 1.00 0.1
IoFpgaGolden YES 1.125 1.125 2.0
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.51 1.51 0.1
x86FpgaGolden YES 1.51 1.04 0.1
x86TamFw YES 6.19 6.19 0.1
x86TamFwGolden YES 6.19 6.05 0.1
--------------------------------------------------------------------------------
88-LC0-36FH-MO Bios YES 0.241 0.241 0.0
BiosGolden YES 0.241 0.218 0.0
EthSwitch YES 1.05 1.05 0.0
EthSwitchGolden YES 1.05 0.07 0.0
IoFpga YES 1.14 1.14 0.1
IoFpga YES 1.125 1.125 2.0
IoFpgaGolden YES 1.14 1.00 0.1
IoFpgaGolden YES 1.125 1.125 2.0
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.51 1.51 0.1
x86FpgaGolden YES 1.51 1.04 0.1
x86TamFw YES 6.19 6.19 0.1
x86TamFwGolden YES 6.19 6.05 0.1
--------------------------------------------------------------------------------
88-LC0-36FH-O Bios YES 0.241 0.241 0.0
BiosGolden YES 0.241 0.218 0.0
EthSwitch YES 1.05 1.05 0.0
EthSwitchGolden YES 1.05 0.07 0.0
IoFpga YES 1.14 1.14 0.1
IoFpga YES 1.125 1.125 2.0
IoFpgaGolden YES 1.14 1.00 0.1
IoFpgaGolden YES 1.125 1.125 2.0
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.51 1.51 0.1
x86FpgaGolden YES 1.51 1.04 0.1
x86TamFw YES 6.19 6.19 0.1
x86TamFwGolden YES 6.19 6.05 0.1
--------------------------------------------------------------------------------
88-LC1-12TH24FH-E Bios YES 1.20 1.20 0.41
BiosGolden YES 1.20 1.01 0.41
EthSwitch YES 1.05 1.05 0.0
EthSwitchGolden YES 1.05 0.07 0.0
IoFpga YES 1.05 1.05 0.0
IoFpgaGolden YES 1.05 1.00 0.0
SsdMicron7300M2 YES 2.60 2.60 0.0
SsdMicron7450M2 YES 11.00 11.00 0.0
SsdSRMP8N2 YES 14.38 14.38 0.0
x86Fpga YES 1.04 1.04 0.31
x86FpgaGolden YES 1.04 1.00 0.31
x86TamFw YES 7.16 7.16 0.31
x86TamFwGolden YES 7.16 7.13 0.31
--------------------------------------------------------------------------------
88-LC1-36EH Bios YES 1.20 1.20 0.41
BiosGolden YES 1.20 1.01 0.41
EthSwitch YES 1.05 1.05 0.0
EthSwitchGolden YES 1.05 0.07 0.0
IoFpga YES 1.05 1.05 0.0
IoFpgaGolden YES 1.05 1.00 0.0
SsdMicron7300M2 YES 2.60 2.60 0.0
SsdMicron7450M2 YES 11.00 11.00 0.0
SsdSRMP8N2 YES 14.38 14.38 0.0
x86Fpga YES 1.04 1.04 0.31
x86FpgaGolden YES 1.04 1.00 0.31
x86TamFw YES 7.16 7.16 0.31
x86TamFwGolden YES 7.16 7.13 0.31
--------------------------------------------------------------------------------
88-LC1-52Y8H-EM Bios YES 1.20 1.20 0.0
BiosGolden YES 1.20 1.01 0.0
EthSwitch YES 1.05 1.05 0.0
EthSwitchGolden YES 1.05 0.07 0.0
IoFpga YES 1.00 1.00 0.1
IoFpgaGolden YES 1.00 1.00 0.1
SsdMicron7300M2 YES 2.60 2.60 0.0
SsdMicron7450M2 YES 11.00 11.00 0.0
SsdSRMP8N2 YES 14.38 14.38 0.0
x86Fpga YES 1.00 1.00 0.1
x86FpgaGolden YES 1.00 1.00 0.1
x86TamFw YES 9.05 9.05 0.1
x86TamFwGolden YES 9.05 9.05 0.1
--------------------------------------------------------------------------------
8800-LC-36FH Bios YES 1.36 1.36 0.0
BiosGolden YES 1.36 1.15 0.0
EthSwitch YES 1.05 1.05 0.0
EthSwitchGolden YES 1.05 0.07 0.0
IoFpga YES 1.39 1.39 0.0
IoFpgaGolden YES 1.39 0.08 0.0
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.56 1.56 0.0
x86FpgaGolden YES 1.56 0.33 0.0
x86TamFw YES 5.17 5.17 0.0
x86TamFwGolden YES 5.17 5.05 0.0
--------------------------------------------------------------------------------
8800-LC-36FH-O Bios YES 1.208 1.208 0.0
BiosGolden YES 1.208 1.207 0.0
EthSwitch YES 1.05 1.05 0.0
EthSwitchGolden YES 1.05 0.07 0.0
IoFpga YES 1.39 1.39 0.0
IoFpgaGolden YES 1.39 0.08 0.0
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.56 1.56 0.0
x86FpgaGolden YES 1.56 0.33 0.0
x86TamFw YES 5.17 5.17 0.0
x86TamFwGolden YES 5.17 5.05 0.0
--------------------------------------------------------------------------------
8800-LC-48H Bios YES 1.36 1.36 0.0
BiosGolden YES 1.36 1.15 0.0
EthSwitch YES 1.05 1.05 0.0
EthSwitchGolden YES 1.05 0.07 0.0
IoFpga YES 1.39 1.39 0.0
IoFpgaGolden YES 1.39 0.08 0.0
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.56 1.56 0.0
x86FpgaGolden YES 1.56 0.33 0.0
x86TamFw YES 5.17 5.17 0.0
x86TamFwGolden YES 5.17 5.05 0.0
--------------------------------------------------------------------------------
8800-LC-48H-O Bios YES 1.208 1.208 0.0
BiosGolden YES 1.208 1.207 0.0
EthSwitch YES 1.05 1.05 0.0
EthSwitchGolden YES 1.05 0.07 0.0
IoFpga YES 1.39 1.39 0.0
IoFpgaGolden YES 1.39 0.08 0.0
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.56 1.56 0.0
x86FpgaGolden YES 1.56 0.33 0.0
x86TamFw YES 5.17 5.17 0.0
x86TamFwGolden YES 5.17 5.05 0.0
--------------------------------------------------------------------------------
8800-RP Bios YES 1.36 1.36 0.0
BiosGolden YES 1.36 1.15 0.0
EthSwitch YES 1.03 1.03 0.0
EthSwitchGolden YES 1.03 0.07 0.0
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
TimingFpga YES 1.02 1.02 0.0
TimingFpgaGolden YES 1.02 0.11 0.0
x86Fpga YES 1.39 1.39 0.0
x86FpgaGolden YES 1.39 0.24 0.0
x86TamFw YES 5.19 5.19 0.0
x86TamFwGolden YES 5.19 5.05 0.0
--------------------------------------------------------------------------------
8800-RP-E Bios YES 1.36 1.36 0.0
BiosGolden YES 1.36 1.15 0.0
EthSwitch YES 1.03 1.03 0.0
EthSwitchGolden YES 1.03 0.07 0.0
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
TimingFpga YES 1.02 1.02 0.0
TimingFpgaGolden YES 1.02 0.11 0.0
x86Fpga YES 1.39 1.39 0.0
x86FpgaGolden YES 1.39 0.24 0.0
x86TamFw YES 5.19 5.19 0.0
x86TamFwGolden YES 5.19 5.05 0.0
--------------------------------------------------------------------------------
8800-RP-O Bios YES 1.208 1.208 0.0
BiosGolden YES 1.208 1.207 0.0
EthSwitch YES 1.03 1.03 0.0
EthSwitchGolden YES 1.03 0.07 0.0
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
TimingFpga YES 1.02 1.02 0.0
TimingFpgaGolden YES 1.02 0.11 0.0
x86Fpga YES 1.39 1.39 0.0
x86FpgaGolden YES 1.39 0.24 0.0
x86TamFw YES 5.19 5.19 0.0
x86TamFwGolden YES 5.19 5.05 0.0
--------------------------------------------------------------------------------
8800-RP2 Bios YES 1.20 1.20 0.3
BiosGolden YES 1.20 1.07 0.3
EthSwitch YES 1.03 1.03 0.0
EthSwitchGolden YES 1.03 0.07 0.0
PcieSwitch YES 120.14 120.14 0.7
SsdMicron7300M2 YES 2.60 2.60 0.0
SsdMicron7450M2 YES 11.00 11.00 0.0
SsdSRMP8N2 YES 14.38 14.38 0.0
TimingFpga YES 1.01 1.01 0.0
TimingFpgaGolden YES 1.01 1.00 0.0
x86Fpga YES 1.14 1.14 0.6
x86FpgaGolden YES 1.14 1.02 0.6
x86TamFw YES 7.18 7.18 0.6
x86TamFwGolden YES 7.18 7.13 0.6
--------------------------------------------------------------------------------
8800-RP2-O Bios YES 1.00 1.00 0.3
BiosGolden YES 1.00 1.00 0.3
EthSwitch YES 1.03 1.03 0.0
EthSwitchGolden YES 1.03 0.07 0.0
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
ssdIntelS4520 YES 1.11 1.11 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
TimingFpga YES 1.01 1.01 0.0
TimingFpgaGolden YES 1.01 1.00 0.0
x86Fpga YES 0.128 0.128 0.3
x86FpgaGolden YES 0.128 0.128 0.3
x86TamFw YES 7.12 7.12 0.3
x86TamFwGolden YES 7.12 7.12 0.3
--------------------------------------------------------------------------------
8804-FAN FtFpga NO 1.00 1.00 0.0
FtFpgaGolden NO 1.00 0.16 0.0
--------------------------------------------------------------------------------
8804-FC0 IoFpga YES 1.00 1.00 0.0
IoFpga YES 1.125 1.125 2.0
IoFpgaGolden YES 1.00 0.16 0.0
IoFpgaGolden YES 1.125 1.125 2.0
--------------------------------------------------------------------------------
8804-FC1 IoFpga YES 1.03 1.03 0.0
IoFpgaGolden YES 1.03 1.03 0.0
--------------------------------------------------------------------------------
8808-FAN FtFpga NO 1.00 1.00 0.0
FtFpgaGolden NO 1.00 0.16 0.0
--------------------------------------------------------------------------------
8808-FAN-V2 FtFpga NO 1.00 1.00 0.0
FtFpgaGolden NO 1.00 0.16 0.0
--------------------------------------------------------------------------------
8808-FC IoFpga YES 1.02 1.02 0.0
IoFpgaGolden YES 1.02 0.05 0.0
--------------------------------------------------------------------------------
8808-FC0 IoFpga YES 1.00 1.00 0.0
IoFpga YES 1.125 1.125 2.0
IoFpgaGolden YES 1.00 0.16 0.0
IoFpgaGolden YES 1.125 1.125 2.0
--------------------------------------------------------------------------------
8808-FC1 IoFpga YES 1.03 1.03 0.0
IoFpgaGolden YES 1.03 1.03 0.0
--------------------------------------------------------------------------------
8808-FC1-G IoFpga YES 1.06 1.06 0.0
IoFpgaGolden YES 1.06 1.01 0.0
--------------------------------------------------------------------------------
8812-FAN FtFpga NO 1.00 1.00 0.0
FtFpgaGolden NO 1.00 0.16 0.0
--------------------------------------------------------------------------------
8812-FC IoFpga YES 1.02 1.02 0.0
IoFpgaGolden YES 1.02 0.05 0.0
Retimer YES 3.00 3.00 0.0
--------------------------------------------------------------------------------
8818-FAN FtFpga NO 1.00 1.00 0.0
FtFpgaGolden NO 1.00 0.16 0.0
--------------------------------------------------------------------------------
8818-FC IoFpga YES 1.02 1.02 0.0
IoFpgaGolden YES 1.02 0.05 0.0
Retimer YES 3.00 3.00 0.0
--------------------------------------------------------------------------------
8818-FC0 IoFpga YES 1.00 1.00 0.0
IoFpga YES 1.125 1.125 2.0
IoFpgaGolden YES 1.00 0.16 0.0
IoFpgaGolden YES 1.125 1.125 2.0
Retimer YES 3.00 3.00 0.0
--------------------------------------------------------------------------------
PSU4.8KW-DC100 PO-PrimMCU NO 51.85 51.85 0.0
PO-SecMCU NO 51.85 51.85 0.0
--------------------------------------------------------------------------------
PSU6.3KW-20A-HV DT-LogicMCU NO 1.00 1.00 0.0
DT-PrimMCU NO 1.00 1.00 0.0
DT-SecMCU NO 1.00 1.00 0.0
--------------------------------------------------------------------------------
PSU6.3KW-HV AB-LogicMCU NO 3.08 3.08 0.0
AB-PrimMCU NO 3.08 3.08 0.0
AB-SecMCU NO 3.06 3.06 0.0
DT-LogicMCU NO 4.11 4.11 0.0
DT-PrimMCU NO 4.01 4.01 0.0
DT-SecMCU NO 4.00 4.00 0.0
--------------------------------------------------------------------------------
PWR-4.4KW-DC-V3 DT-LogicMCU NO 3.02 3.02 0.0
DT-Prim1MCU NO 3.01 3.01 0.0
DT-Prim2MCU NO 3.01 3.01 0.0
DT-Sec1MCU NO 3.01 3.01 0.0
DT-Sec2MCU NO 3.01 3.01 0.0
Compatibility Matrix for EPNM and Crosswork with Cisco IOS XR Software
The compatibility matrix lists the version of EPNM and Crosswork that are supported with Cisco IOS XR Release in this release.
|
Cisco IOS XR |
Crosswork |
EPNM |
|---|---|---|
|
Release 24.3.1 |
Important Notes
-
The warning message that the smart licensing evaluation period has expired is displayed in the console every hour. There is, however, no functionality impact on the device. The issue is seen on routers that don’t have the Flexible Consumption licensing model enabled. To stop the repetitive messaging, register the device with the smart licensing server and enable the Flexible Consumption model. Later load a new registration token.
To register the device with the smart licensing server, see the Registering and Activating Your Router.
Licensing
Starting with Cisco IOS XR Release 24.1.1, Smart Licensing Using Policy (SLP) is the default Licensing model. When you upgrade to the Cisco IOS XR Release 24.1.1 release or later, the Smart Licensing Using Policy is enabled by default.
You can migrate your devices to Smart Licensing with Policy model, see Migrating from Smart Licensing to Smart Licensing Using Policy, Smart Licensing Using Policy on Cisco IOS XR Routers.
We recommend that you update to the latest version of SSM On-Prem or Cisco Smart Licensing Utility.
Note |
SSM On-Prem and CSSM both support SLP devices and SL devices. SLP devices and SL devices can coexist in a network. The Smart Licensing (SL) model is available in releases Cisco IOS XR Release 7.11.1 and earlier. |
Production 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.
Supported Transceiver Modules
To determine the transceivers that Cisco hardware device supports, refer to the Transceiver Module Group (TMG) Compatibility Matrix tool.
Cisco IOS XR Error messages
To view, search, compare, and download Cisco IOS XR Error Messages, refer to the Cisco IOS XR Error messages tool.
Cisco IOS XR MIBs
To determine the MIBs supported by platform and release, refer to the Cisco IOS XR MIBs tool.
Related Documentation
The most current Cisco 8000 router documentation is located at the following URL:
https://www.cisco.com/c/en/us/td/docs/iosxr/8000-series-routers.html
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