Cisco 8100, 8200, 8600, and 8800 Series Routers
What's New in Cisco IOS XR Release 24.1.1
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.
| Feature | Description |
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Licensing |
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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. Starting with this release, cslu is the default communication transport mode. The feature introduces these changes: YANG Data Models:
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Application Hosting |
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We have now moved DDoS protection to the network edge, ensuring you can mitigate any DDoS attacks at the ingress points and minimize the impact of such attacks on your network and applications running on it. This solution deploys a centralized controller application that manages a distributed network of edge detectors that analyze and mitigate threats across networks. |
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This feature enables you to configure Docker runtime options during the launch of the container. This allows you to overwrite default configurations for parameters such as CPU usage, security settings, health checks, and more. Multiple Docker runtime options are supported, providing users with the flexibility to customize container behavior based on specific requirements. |
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| To address TPA packet drops caused by traffic congestion and manage TPA traffic, this release enhances the existing LPTS-based traffic prioritization for TPAs hosted in the sandbox. Instead of a single flow for all traffic, this feature allows you to configure three new LPTS traffic flows (high, medium, low), punting the traffic accordingly. Achieving traffic prioritization involves providing a higher policer rate based on the priority. | |
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Programmability |
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You can now specify a common-name for the certificate generated by the router while using gRPC dial-in. Earlier, the common-name in the certificate was fixed as ems.cisco.com and was not configurable. Using a specified common-name avoids potential certification failures where you may specify a hostname different from the fixed common name to connect to the router. The feature introduces these changes: CLI: YANG Data Model:
(see GitHub, YANG Data Models Navigator) |
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You can now efficiently manage and customize port assignments for gNMI, gRIBI, and P4RT services without port conflicts. This is possible because Cisco IOS XR now supports the Internet Assigned Numbers Authority (IANA)-assigned specific ports for P4RT (Port 9559), gRIBI (Port 9340), and gNMI (Port 9339). You can now use both IANA-assigned and user-specified ports for these gRPC services across any specified IPv4 or IPv6 addresses. As part of this support, a new submode for gNMI in gRPC is introduced. This feature introduces the following changes:
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Instead of using multiple RPCs, Certz.proto provides a bidirectional Rotate RPC to replace, revoke, or load a certificate. It also provides additional APIs to install Public Key Infrastructure (PKI) entities such as like identity certificates, trust-bundles, and Certificate Revocation Lists (CRLs) for a gRPC Server. This feature introduces the following changes: CLI: Yang Data Models:
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To limit the load on XR gRPC server and to minimize the risk of a vulnerability attack, you can set the limit on the concurrent streams per gRPC connection. This feature enables you to specify a limit on the number of concurrent streams per gRPC connection to be applied on the server. The feature introduces the following commands: CLI YANG Data Models:
(see GitHub, YANG Data Models Navigator) |
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OpenConfig infrastructure now provides an operational data YANG model, |
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Segment Routing |
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Identical Route Distinguisher (RD) for Interworking Gateways between MPLS and SRv6 Domains |
You can now configure the same Route Distinguisher (RD) for interworking gateways catering to both MPLS and SRv6 domains that help conserve hardware resources, reduce the BGP table scale and minimize the processing load on routers. At the same time, it ensures seamless connectivity across SRv6 and MPLS L3 EVPN domains, thus promoting interoperability and efficiency in modern network environments. Previously, a unique RD was required to extend L3 services between MPLS and SRv6 domains resulting in higher router load and resource consumption, which could have affected performance. |
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You can measure and monitor the packet loss information when one SRv6-enabled router sends an oversized packet to another. This functionality enables a router to send an ICMP error message to the source in such cases, prompting the sender to resend a packet whose size is within the MTU value, thus ensuring the packet moves ahead. The feature is critical for SRv6-enabled routers as these routers do not support packet fragmentation. Previously, a router dropped oversized packets without notifying the source, resulting in packet loss. The hw-module configuration is not required, this feature is enabled by default. |
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You can now measure the Hop-by-Hop delay, trace the path in the network, collect egress interface load information and interface ID, and store them for both Source and Sink nodes. You can now gain visibility into the Path Tracing Source and Sink nodes, which handle IPv6 transit in Path Tracing and full characterization of the packet delivery path. This characterization includes real-time information and checking the network's current status, such as if packets are diverted because of a breach, pinpointing the exact location of problems between routers, and checking that traffic flows per specified priority for Quality of Service (QoS) enforcement. This feature introduces a new behavior keyword utef under the router static command. |
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BGP- Link State (LS) is a mechanism by which LS and Traffic Engineering (TE) information can be collected from networks and shared with external components (such as, Segment Routing Path Computation Element (SR-PCE) or Crossword Optimization Engine (COE)) using the BGP routing protocol. You can gather the Traffic Engineering Policy information that is locally available in a node and advertise it into BGP-LS for SR-MPLS. The operators can now take informed decisions based on the information that is gathered on their network's path computation, reoptimization, service placement, network visualization, and so on. The feature introduces these changes: CLI: YANG Data Model:
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We have introduced the capability for SR Policy to support segment lists with IPv6 addresses, which can be either dynamically computed or explicitly set at the SRTE headend. |
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You can now proactively monitor and address potential network issues before they impact users by measuring key parameters everywhere, packet loss, and jitter. Using this information, you can plan network capacity optimally and ensure quality of service. Such proactive action is possible because this feature reports synthetic Two-Way Active Measurement Protocol (TWAMP) test packets deployed in delay-profile or delay measurement sessions. It also enables you to set the upper and lower limits and notifies when the synthetic packet loss metric is out of the set limit. The feature introduces these changes: CLI:
YANG Data Model
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Compute candidate paths and SR-TE policies with IP exclusion |
You can now exclude network resources using their IP addresses and enforce affinity for a group of candidate paths that belong to the same disjoint group. Also, for new services that use Pseudo-wire (PW) over SR-TE policies, you can calculate, customize, and preview candidate paths. Previously, affinity constraints and candidate path disjointness were mutually exclusive. The feature introduces these changes: CLI:
YANG Data Models:
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Interface and Hardware Component |
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We now ensure that you have accurate data to initiate proactive maintenance for non-critical FEC errors or take prompt action to prevent potential optical link data loss in your network. This is made possible because we've enabled the configuration of FEC (Forward Error Correction) Detected Degrade (FDD) alarm threshold values for non-critical FEC errors and FEC Excessive Degrade (FED) alarm threshold values for critical FEC errors. You can configure or clear these values for QDD-400G-ZR, QDD-400G-ZRP, and DP04QSDD-HE0 optical modules. Prior to this release, the router would automatically generate FEC alarms based on default threshold values. The feature introduces these changes:CLI: Modified the controller optics command by adding the following keywords:
The fec-thresholds keyword is added to the show controller optics command. YANG Data Model:
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In this release, we introduce enhanced alarm management that offers improved alarm prioritization, monitoring and management, as listed below:
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This release introduces support for the Cisco 400G QSFP-DD High-Power (Bright) Optical Module, Ethernet Variant on the following routers and line cards: Routers:
Line cards:
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We’ve now made it possible for you to decapsulate GUEv6 packets by adding an additional header to packets that identifies or authenticates the data by using User Datagram Protocol (UDP). In GUE, the payload is encapsulated in an IP packet that can be an IPv6 carrier. The UDP header is added to provide extra hashing parameters, and optional payload demultiplexing. At the decapsulation node, the Carrier IP and UDP headers are removed, and the packet is forwarded based on the inner payload. |
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The QDD Optical Line System (OLS) is a pluggable optical amplifier that provides a compact solution for amplification with extended reach. It also increases fiber bandwidth and lowers power dissipation, all of which is possible because it interconnects two routers or switches for transmitting traffic on a limited number of coherent optical channels over a single-span point-to-point link. The QDD OLS is supported on Cisco 8201, 8201-32FH, and 8201-24H8FH routers. This feature introduces the following:
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| You can now monitor the optical transceivers for proper functioning and identify the cause of any malfunction. This is made possible because the output of the show alarms command is now enhanced to display the additional media lane alarms for coherent optical transceivers. | |
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You can now monitor the overall functioning and status of the coherent optical transceiver. This is possible because you can now view the module state and data path state of the optical transceivers, which give you an insight into the current state of the optical transceiver. This feature modifies the output of the show controller optics command. |
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XR Interface Operational State in Linux Kernel |
You can now use the ifconfig command to determine the operational status of the XR interface in the Linux kernel when its line protocol is UP. The IFF-RUNNING (RUNNING) flag in ifconfig command indicates that the interface is ready for data transmission and reception. Earlier, you could see the XR interface status as UP or Down using the show interfaces command. |
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IP Addresses and Services |
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We've improved the memory utilization of the Longest Prefix Match (LPM) table, allowing you to accommodate more IPv6 routing prefixes with wider IPv6 prefix lengths by storing them as shorter routing prefixes. This approach conserves router resources by reducing the number of entries in the routing table and is particularly helpful in mitigating out-of-resource (OOR) situations. This feature is supported only on Cisco Silicon One Q200-based routers and line cards. This feature modifies the hw-module profile route scale command with the new lpm wide-entries shortened keyword. |
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L2VPN |
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Dot1Q Q-in-Q (0x8100/0x8100) Tunneling for VLAN Subinterface Encapsulation |
We have optimized VLAN implementation by enabling service providers to:
Such optimization is possible because this release supports Dot1Q Q-in-Q (0x8100/0x8100) encapsulation for VLAN subinterfaces. This involves configuring these subinterfaces to add an outer 802.1Q tag to packets that are already carrying an 802.1Q VLAN tag. The feature introduces these changes: CLI: New L2VPN commands YANG Data Model:
This feature is supported on Cisco 8000 series routers that are based on the Q200 silicon chip application-specific integrated circuit (ASIC). |
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EVPN |
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In a preference-based Designated Forwarder (DF) election, non-revertive mode prevents the traffic loss that occurs during the recovery of a node in a port-active multihoming network. While recovering from a link failure, an EVPN ethernet-segment (ES) performs DF re-election and re-carves the services among the multihomed nodes, which causes traffic interruption and interface flapping, leading to traffic loss. In the non-revertive mode, the EVPN ES remains in the same state after the recovery and does not re-carve the services, thus avoiding the traffic loss. The feature introduces these changes: CLI:
YANG Data Model:
(see GitHub, YANG Data Models Navigator) |
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MPLS |
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This release simplifies network operations and reduces the complexity of maintaining separate MPLS labels for IPv4 and IPv6 address families by enabling you to assign a single MPLS label to a Virtual Routing and Forwarding (VRF) instance common to both address families. You can allocate the label statically and dynamically. Previously, you could only allocate one label per address family. The feature introduces these changes: CLI:
YANG Data Models:
(see GitHub, YANG Data Models Navigator) |
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During Fast Reroute (FRR), an RSVP router sends multiple messages to neighbors. If a neighbor fails to acknowledge the messages due to an overload of RSVP message processing or a high frequency of failures, RSVP retransmits the messages, which can result in network congestion. You can now set a longer RSVP message retransmission interval to provide sufficient processing time for neighbors, reduce signaling overhead, and prevent network congestion. You can set this interval for all directly connected neighbors at once or remote neighbors connected through backup tunnels. Previously, you could only enable this option per interface. The feature introduces these changes: CLI: signalling refresh reduction reliable retransmit-time YANG Data Model: |
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Modular QoS |
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Available Shared Memory System and High Bandwidth Memory Buffers |
You can now view buffer availability for Shared Memory System (SMS) and High Bandwidth Memory (HBM) with higher accuracy without any lag between the minimum and maximum watermark readings, especially when the packet buffers are used and released rapidly. This is possible because we’ve enabled the instantaneous display of available or free SMS and HBM. Previously, you could view details only for the highest watermark readings for SMS and HBM. You must configure PFC in the buffer-extended mode for this option, and this functionality is available only for Cisco Silicon One Q200-based routers and line cards. This functionality modifies the following:
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Multicast |
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MVPN Ingress replication over dynamic-TE tunnels enables the routing of multicast traffic through an MPLS network using RSVP-TE P2MP (point-to-multipoint) tunnels. The traffic is replicated by the ingress router before sending it to the destination devices through the TE tunnels which are created dynamically. When configured, this feature enables utilization of the TE tunnels for transmission of multicast traffic and ensures inter-operability with other devices that are configured with this feature in the network. The feature introduces these changes: CLI: The ingress replication keywords are introduced in the following commands:
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Profile 22 in MVPN over edge routers provides enhanced scalability by providing support for a large number of MVPNs and multicast groups. This improves the efficiency by delivering the multicast traffic to specific PE routers that have interested receivers, thereby improving operational performance by reducing the amount of replication and bandwidth required for multicast traffic. |
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NetFlow and sFlow |
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| This feature introduces monitoring Quality of Service (QoS) processing for Netflow and IPFIX by supporting the export of Post-QoS information-related Information Elements. These enhancements provide you with detailed information about QoS policies' impact at various stages, facilitating optimization of network performance based on QoS characteristics. | |
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This feature enhances Cisco routers by introducing support for egress interface flow monitoring. Egress flow monitoring prioritizes outbound traffic, delivering advanced visibility and control over data exiting the network. You can now monitor packets that are either encapsulated or decapsulated through egress NetFlow. |
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| This feature enhances BGP Information Elements in IPFIX records, specifically supporting the gathering of eight additional BGP fields in IPFIX MPLS IPv4/IPv6 records. This improves monitoring and congestion mitigation capabilities, particularly in core-edge link scenarios. | |
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System Security |
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We now prevent SSH client packet drops in the TCP connection (initial handshake) phase as they travel across transit routers in the network. This is because you can mark the DSCP values for SSH client packets in the TCP connection phase, which overrides the transit routers' policies to filter and drop packets with no DSCP value marked. Using a new command, you can also set the DSCP value from the TCP connection phase for SSH server packets. The feature introduces these changes: CLI: YANG Data Model:
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From this release, you can use the gRPC protocol to interact with MASA APIs in addition to the current HTTP protocols. Through structured serialization of data with gRPC's Protocol Buffers, the communication between services is made more efficient, type-safe, and consistent. |
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You can now deploy robust authentication mechanisms for SSH connections to your routers and reduce security risks due to compromised or weak passwords. We now support multi-factor authentication (MFA)—a secure access management solution that verifies the identity of a user using multiple verification factors—for SSH login on Cisco IOS XR routers. These verification factors include a combination of login credentials such as username and password and a token, a cryptographic device, or a mobile phone with MFA application installed. No new commands or data models were introduced or modified as part of this feature. |
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You can now pre-upload your Pinned-Domain Certificate (PDC) credentials before requesting OVs Ownership Vouchers (OVs) from the MASA server, thus making the voucher request process easier. |
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System Management |
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You can now prevent power module exhaustion or failure due to power redundancy issues in the power feeds with the help of alarms that warn that the total output power required by the router exceeds the total feed redundancy capacity. You can configure either single-fault protection or dual fault protection, depending on whether you want to trigger alarms during redundancy failures in the power supply feed, PSU redundancy, or both. The feature introduces these changes: CLI:
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System Monitoring |
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You can now set the tolerance to monitor packet drops in the Network Processing Unit (NPU) for three different NPU trap categories at a configurable cadence of your choice. When a NPU trap breaks the configured packet-drop tolerance for that trap category, the router alerts you with a system log message and you can monitor the trend using healthcheck show commands. This enables you to prioritize taking action depending on the trap category for which the router logs the message. In earlier releases, you could only monitor packet-drops globally for all NPU trap cateogories at a fixed cadence. This feature introduces these changes: CLI: The tolerance and window-size keywords are introduced in the use-case command. YANG Data Model: New xpaths for |
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You can quickly get notified about any traffic impacting errors within the router's Network Processing Unit (NPU). These notifications are error log messages on the router console for NPU interrupts that affect traffic. To diagnose traffic loss, follow the recommended actions in the log. Previously, the only way to identify NPU errors that impacted traffic was to run the show asic-error command. This feature introduces the following changes: CLI: This feature introduces the hw-module profile packet-loss-alert command. YANG Model: New xpaths for |
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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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openconfig-mpls-ldp.yang Version 3.1.0 |
This OpenConfig data model introduces the following changes:
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Cisco-IOS-XR-controller-ots-oper.yang |
This Cisco native data model is used to view the operational data of the OTS controller (QDD OLS pluggable). |
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Cisco-IOS-XR-pmengine-oper.yang |
This Cisco native data model is used to view the performance monitoring parameters of the OTS controller (QDD OLS pluggable). |
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Cisco-IOS-XR-controller-ots-cfg.yang |
Use this Cisco native data model to configure the QDD OLS pluggable within the optical transport section (OTS) controller mode. |
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Cisco-IOS-XR-pmengine-cfg.yang |
Use this Cisco native data model to configure the performance monitoring parameters of the QDD OLS pluggable. |
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Cisco-IOS-XR-pmengine-clear-act.yang |
Use this Cisco native data model to clear the performance monitoring statistics of the QDD OLS pluggable. |
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Cisco-IOS-XR-um-router-bgp-cfg.yang |
This yang model is enhanced with the addition of a new leaf node value, per-vrf-46. |
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Cisco-IOS-XR-npu-hw-profile-cfg.yang |
The latest update to the Cisco-IOS-XR-npu-hw-profile-cfg.yang native data model includes the addition of the npu-pktlosswin leaf. This new leaf configures the packet loss duration before the router raises a system log message. |
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Cisco-IOS-XR-healthcheck-cfg.yang |
The latest update to the Cisco-IOS-XR-healthcheck-cfg.yang native data model includes the following additions:
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Cisco-IOS-XR-evpn-oper.yang |
This YANG model is modified to enable non-revertive mode on preference based EVPN DF election. |
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Cisco-IOS-XR-l2vpn-cfg.yang |
This YANG model is modified to enable non-revertive mode on preference based EVPN DF election. |
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Cisco-IOS-XR-man-ems-cfg.yang |
This native data model has been enhanced to include the following:
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openconfig-platform.yang Version 0.22.0 |
The OpenConfig data model is revised from version 0.18.0 to 0.22.0 to introduce the following enhancements to the component container:
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Cisco-IOS-XR-show-fpd-loc-ng-oper.yang |
This Cisco native data model is enhanced to monitor the on-change notifications to track updates of Field Programmable Device (FPD) using status leaf. You can stream Event-driven telemetry (EDT) data. |
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Cisco-IOS-XR-sysmgr-oper.yang |
This Cisco native data model is enhanced to monitor the on-change notifications for different states of the process using state, last-started, and respawn-count leaves. You can stream Event-driven telemetry (EDT) data. |
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openconfig-ospfv2.yang Version 0.4.0 |
The OpenConfig data model is part of the openconfig-network-instance.yang data model and configures OSPF functionalities, such as multiple processes, areas, and interfaces. In this release, the OpenConfig data model supports streaming Model-driven telemetry (MDT)—both Cadence driven and Event-driven telemetry (EDT). EDT and MDT for all state leafs under the Link state database (LSDB) container are not supported. |
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openconfig-network-instance.yang |
This OpenConfig data model augments the Cisco-IOS-XR-openconfig-bgp-ext.yang and supports streaming Model-driven telemetry (MDT) for all the leaves. However, only the following leaves support both Event-driven telemetry (EDT) and Model-driven telemetry (MDT):
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Cisco-IOS-XR-crypto-ssh-cfg.yang |
This Cisco native data model is enhanced with a new leaf, set-dscp-connection-phase, to set the DSCP marking for the SSH packets starting from the TCP connection phase. |
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Cisco-IOS-XR-ip-rsvp-cfg.yang |
The Cisco-IOS-XR-ip-rsvp-cfg.yang data model’s global-refresh-reduction container is updated with the following: The global-retransmit-timer container and its two leaves are added to hold the global RSVP message retransmission interval parameters. The retransmit-time leaf holds the RSVP message retransmission interval. The global-retransmit-timer-option leaf either holds the all-option (if the interval is enabled for all RSVP interfaces) or the backup-option (if the interval is enabled only for backup tunnels). |
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Cisco-IOS-XR-man-ems-oper.yang |
This YANG model is modified to specify a limit on the number of concurrent streams per gRPC connection. |
Hardware Introduced
No new hardware introduced in this release.
For a complete list of supported hardware and ordering information, see the Cisco 8000 Series Data Sheet.
Release 24.1.1 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
Software Hash: dd9bfca88ab7cd98368f46a1177193164edce28f57a4e667ce30c47301c4a8b6
Package Version
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xr-8000-af-ea 24.1.1v1.0.0-1
xr-8000-aib 24.1.1v1.0.0-1
xr-8000-bfd 24.1.1v1.0.0-1
xr-8000-buffhdr-ea 24.1.1v1.0.0-1
xr-8000-bundles 24.1.1v1.0.0-1
xr-8000-card-support 24.1.1v1.0.0-1
xr-8000-cdp-ea 24.1.1v1.0.0-1
xr-8000-cem-driver 24.1.1v1.0.0-1
xr-8000-cfm 24.1.1v1.0.0-1
xr-8000-common-otn 24.1.1v1.0.0-1
xr-8000-core 24.1.1v1.0.0-1
xr-8000-cpa 24.1.1v1.0.0-1
xr-8000-cpa-devobj-misc 24.1.1v1.0.0-1
xr-8000-cpa-npu 24.1.1v1.0.0-1
xr-8000-cpa-sb-data 24.1.1v1.0.0-1
xr-8000-dot1x 24.1.1v1.0.0-1
xr-8000-dsm 24.1.1v1.0.0-1
xr-8000-dyinggasp-pd 24.1.1v1.0.0-1
xr-8000-encap-id 24.1.1v1.0.0-1
xr-8000-ether-ea 24.1.1v1.0.0-1
xr-8000-fabric 24.1.1v1.0.0-1
xr-8000-feat-mgr 24.1.1v1.0.0-1
xr-8000-fib-ea 24.1.1v1.0.0-1
xr-8000-forwarder 24.1.1v1.0.0-1
xr-8000-fpd 24.1.1v1.0.0-1
xr-8000-fwd-tools 24.1.1v1.0.0-1
xr-8000-fwdlib 24.1.1v1.0.0-1
xr-8000-gil-ea 24.1.1v1.0.0-1
xr-8000-host-core 24.1.1v1.0.0-1
xr-8000-hw-resmon 24.1.1v1.0.0-1
xr-8000-l2fib 24.1.1v1.0.0-1
xr-8000-l2mcast 24.1.1v1.0.0-1
xr-8000-leabaofa 24.1.1v1.0.0-1
xr-8000-libofaasync 24.1.1v1.0.0-1
xr-8000-lpts-ea 24.1.1v1.0.0-1
xr-8000-mcast 24.1.1v1.0.0-1
xr-8000-netflow 24.1.1v1.0.0-1
xr-8000-npu 24.1.1v1.0.0-1
xr-8000-oam 24.1.1v1.0.0-1
xr-8000-optics 24.1.1v1.0.0-1
xr-8000-os-oe 24.1.1v1.0.0-1
xr-8000-os-oe-extra 24.1.1v1.0.0-1
xr-8000-pbr 24.1.1v1.0.0-1
xr-8000-pd-port-mode 24.1.1v1.0.0-1
xr-8000-pfilter 24.1.1v1.0.0-1
xr-8000-pidb 24.1.1v1.0.0-1
xr-8000-pktio 24.1.1v1.0.0-1
xr-8000-ple-sdk 24.1.1v1.0.0-1
xr-8000-pm 24.1.1v1.0.0-1
xr-8000-port-mapper 24.1.1v1.0.0-1
xr-8000-ppinfo 24.1.1v1.0.0-1
xr-8000-pwhe-ea 24.1.1v1.0.0-1
xr-8000-qos-ea 24.1.1v1.0.0-1
xr-8000-span 24.1.1v1.0.0-1
xr-8000-spio 24.1.1v1.0.0-1
xr-8000-spp-ea 24.1.1v1.0.0-1
xr-8000-timing 24.1.1v1.0.0-1
xr-8000-tunnel-ip 24.1.1v1.0.0-1
xr-8000-utapp-blaze 24.1.1v1.0.0-1
xr-8000-vether 24.1.1v1.0.0-1
xr-8000-ztp-ea 24.1.1v1.0.0-1
xr-aaa 24.1.1v1.0.0-1
xr-acl 24.1.1v1.0.0-1
xr-apphosting 24.1.1v1.0.0-1
xr-appmgr 24.1.1v1.0.0-1
xr-bcdl 24.1.1v1.0.0-1
xr-bfd 24.1.1v1.0.0-1
xr-bgp 24.1.1v1.0.0-1
xr-bgputil 24.1.1v1.0.0-1
xr-bng-stubs 24.1.1v1.0.0-1
xr-bundles 24.1.1v1.0.0-1
xr-cal-pi 24.1.1v1.0.0-1
xr-cdp 24.1.1v1.0.0-1
xr-cds 24.1.1v1.0.0-1
xr-cfgmgr 24.1.1v1.0.0-1
xr-cfm 24.1.1v1.0.0-1
xr-cofo 24.1.1v1.0.0-1
xr-core 24.1.1v1.0.0-1
xr-core-calv 24.1.1v1.0.0-1
xr-cpa-common 24.1.1v1.0.0-1
xr-cpa-common-optics 24.1.1v1.0.0-1
xr-cpa-common-psu 24.1.1v1.0.0-1
xr-cpa-driver-devobj-gnss 24.1.1v1.0.0-1
xr-cpa-driver-devobj-misc 24.1.1v1.0.0-1
xr-cpa-driver-devobj-npu 24.1.1v1.0.0-1
xr-cpa-driver-devobj-phy 24.1.1v1.0.0-1
xr-cpa-driver-devobj-sensors 24.1.1v1.0.0-1
xr-cpa-driver-devobj-storage 24.1.1v1.0.0-1
xr-cpa-driver-devobj-test 24.1.1v1.0.0-1
xr-cpa-driver-devobj-timing 24.1.1v1.0.0-1
xr-cpa-driver-fpgalib-access 24.1.1v1.0.0-1
xr-cpa-driver-fpgalib-common 24.1.1v1.0.0-1
xr-cpa-driver-fpgalib-infra 24.1.1v1.0.0-1
xr-cpa-driver-fpgalib-kmod-oe 24.1.1v1.0.0-1
xr-cpa-driver-fpgalib-misc 24.1.1v1.0.0-1
xr-cpa-driver-fpgalib-optics 24.1.1v1.0.0-1
xr-cpa-driver-optics 24.1.1v1.0.0-1
xr-cpa-ethsw 24.1.1v1.0.0-1
xr-cpa-idprom 24.1.1v1.0.0-1
xr-cpa-tamlib 24.1.1v1.0.0-1
xr-ctc 24.1.1v1.0.0-1
xr-debug 24.1.1v1.0.0-1
xr-dhcp 24.1.1v1.0.0-1
xr-diags 24.1.1v1.0.0-1
xr-diskboot 24.1.1v1.0.0-1
xr-drivers 24.1.1v1.0.0-1
xr-eem 24.1.1v1.0.0-1
xr-elmi-stubs 24.1.1v1.0.0-1
xr-ema 24.1.1v1.0.0-1
xr-enhancedmanageability 24.1.1v1.0.0-1
xr-erp 24.1.1v1.0.0-1
xr-featurecapability 24.1.1v1.0.0-1
xr-fib 24.1.1v1.0.0-1
xr-filesysinv 24.1.1v1.0.0-1
xr-foundation-8000 24.1.1v1.0.0-1
xr-fpd 24.1.1v1.0.0-1
xr-gil 24.1.1v1.0.0-1
xr-ha-infra 24.1.1v1.0.0-1
xr-healthcheck 24.1.1v1.0.0-1
xr-host-core 24.1.1v1.0.0-1
xr-httpclient 24.1.1v1.0.0-1
xr-icpe-eth 24.1.1v1.0.0-1
xr-icpe-opt 24.1.1v1.0.0-1
xr-identifier 24.1.1v1.0.0-1
xr-infra-sla 24.1.1v1.0.0-1
xr-install 24.1.1v1.0.0-1
xr-ip-apps 24.1.1v1.0.0-1
xr-ip-core 24.1.1v1.0.0-1
xr-ip-infra-vrf 24.1.1v1.0.0-1
xr-ip-mibs 24.1.1v1.0.0-1
xr-ip-static 24.1.1v1.0.0-1
xr-ipc 24.1.1v1.0.0-1
xr-ipsla 24.1.1v1.0.0-1
xr-is-is 24.1.1v1.0.0-1
xr-k9sec 24.1.1v1.0.0-1
xr-l2snooptransport 24.1.1v1.0.0-1
xr-l2vpn 24.1.1v1.0.0-1
xr-ldp 24.1.1v1.0.0-1
xr-licensing 24.1.1v1.0.0-1
xr-link-oam 24.1.1v1.0.0-1
xr-linuxnetworking 24.1.1v1.0.0-1
xr-linuxsecurity 24.1.1v1.0.0-1
xr-lldp 24.1.1v1.0.0-1
xr-lpts 24.1.1v1.0.0-1
xr-manageabilityxml 24.1.1v1.0.0-1
xr-mandatory 24.1.1v1.0.0-1
xr-mcast 24.1.1v1.0.0-1
xr-mcastl2snoop 24.1.1v1.0.0-1
xr-mda 24.1.1v1.0.0-1
xr-mpls 24.1.1v1.0.0-1
xr-mpls-oam 24.1.1v1.0.0-1
xr-mpls-oam-client 24.1.1v1.0.0-1
xr-mpls-static 24.1.1v1.0.0-1
xr-netflow 24.1.1v1.0.0-1
xr-networkboot 24.1.1v1.0.0-1
xr-nosi 24.1.1v1.0.0-1
xr-ntp 24.1.1v1.0.0-1
xr-ofa 24.1.1v1.0.0-1
xr-ops-script-repo 24.1.1v1.0.0-1
xr-optics 24.1.1v1.0.0-1
xr-orrspf 24.1.1v1.0.0-1
xr-os-oe-apps 24.1.1v1.0.0-1
xr-os-oe-core 24.1.1v1.0.0-1
xr-os-oe-hardware 24.1.1v1.0.0-1
xr-ospf 24.1.1v1.0.0-1
xr-p4rt 24.1.1v1.0.0-1
xr-perf-meas 24.1.1v1.0.0-1
xr-perfmgmt 24.1.1v1.0.0-1
xr-pfi 24.1.1v1.0.0-1
xr-pird-stubs 24.1.1v1.0.0-1
xr-pkt-trace 24.1.1v1.0.0-1
xr-platforms-ras 24.1.1v1.0.0-1
xr-pm-alarm 24.1.1v1.0.0-1
xr-portmode 24.1.1v1.0.0-1
xr-procmgr 24.1.1v1.0.0-1
xr-python 24.1.1v1.0.0-1
xr-qos 24.1.1v1.0.0-1
xr-rid-mgr 24.1.1v1.0.0-1
xr-routing 24.1.1v1.0.0-1
xr-rpl 24.1.1v1.0.0-1
xr-rsvp-te 24.1.1v1.0.0-1
xr-sanitizer-tools 24.1.1v1.0.0-1
xr-security 24.1.1v1.0.0-1
xr-security-tams 24.1.1v1.0.0-1
xr-secy-driver 24.1.1v1.0.0-1
xr-servicelayer 24.1.1v1.0.0-1
xr-snmp 24.1.1v1.0.0-1
xr-snmp-hw 24.1.1v1.0.0-1
xr-span 24.1.1v1.0.0-1
xr-spi-core 24.1.1v1.0.0-1
xr-spi-hw 24.1.1v1.0.0-1
xr-spp 24.1.1v1.0.0-1
xr-sr 24.1.1v1.0.0-1
xr-stats 24.1.1v1.0.0-1
xr-stp 24.1.1v1.0.0-1
xr-stubs 24.1.1v1.0.0-1
xr-sysdb 24.1.1v1.0.0-1
xr-syslog 24.1.1v1.0.0-1
xr-telemetry 24.1.1v1.0.0-1
xr-telnet 24.1.1v1.0.0-1
xr-timing 24.1.1v1.0.0-1
xr-tmpdir-cleanup 24.1.1v1.0.0-1
xr-track 24.1.1v1.0.0-1
xr-transports 24.1.1v1.0.0-1
xr-tty 24.1.1v1.0.0-1
xr-tunnel-ip 24.1.1v1.0.0-1
xr-tunnel-nve 24.1.1v1.0.0-1
xr-upgradematrix 24.1.1v1.0.0-1
xr-utils 24.1.1v1.0.0-1
xr-vether 24.1.1v1.0.0-1
xr-vpnmib 24.1.1v1.0.0-1
xr-xmlinfra 24.1.1v1.0.0-1
xr-xrlibcurl 24.1.1v1.0.0-1
xr-ztp 24.1.1v1.0.0-1
To 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 |
|---|---|
|
The call-home configurations displayed in the show run call-home command are missing in the show running-config command output. |
|
|
After reloading, a few interface ports fail to come up. |
|
|
For the 88-LC0-34H14FH line card, you must breakout only 3 ports instead of 4 ports to avoid the QOS-DPA_QOSEA-2-TMPORT_PROG_ERROR issue, which creates partial interfaces during configuration mode. |
Behavior Changes
-
From this release, the default order of authentication methods for SSH clients on Cisco IOS XR routers running Cisco IOS XR SSH is changed to: public-key, keyboard-interactive, and password.
Prior to this release, the default order was: public-key, password, and keyboard-interactive.
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 24.1.1 LNT
Copyright (c) 2013-2024 by Cisco Systems, Inc.
Build Information:
Built By : sajshah
Built On : Mon Mar 11 22:35:57 UTC 2024
Build Host : iox-ucs-077
Workspace : /auto/ioxdepot6/GISO/giso_build_lindt/giso_custom_create/ponaidu_2024-03-12_05-32-47_UTC
Version : 24.1.1
Label : 24.1.1-renumber_3
cisco 8000 (Intel(R) Xeon(R) CPU D-1530 @ 2.40GHz)
cisco 8101-32H (Intel(R) Xeon(R) CPU D-1530 @ 2.40GHz) processor with 16GB of memory
R2 uptime is 21 hours, 16 minutes
Cisco 8100 32x100G QSFP28 1RU Fixed System w/o HBMDetermine Firmware Support
Log in to the router and enter show fpd package command:
Cisco 8100 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
=================== ========================== ====== ======= ======== =========
--------------------------------------------------------------------------------
8101-32H Bios YES 1.15 1.15 0.0
BiosGolden YES 1.15 1.13 0.0
IoFpga YES 1.04 1.04 0.0
IoFpgaGolden YES 1.04 1.04 0.0
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.88 1.88 0.0
x86FpgaGolden YES 1.88 1.06 0.0
x86TamFw YES 6.13 6.13 0.0
x86TamFwGolden YES 6.13 6.05 0.0
--------------------------------------------------------------------------------
8101-32H-O Bios YES 0.241 0.241 0.0
BiosGolden YES 0.241 0.218 0.0
IoFpga YES 1.04 1.04 0.0
IoFpgaGolden YES 1.04 1.04 0.0
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.88 1.88 0.0
x86FpgaGolden YES 1.88 1.06 0.0
x86TamFw YES 6.13 6.13 0.0
x86TamFwGolden YES 6.13 6.05 0.0
--------------------------------------------------------------------------------
PSU2KW-HVPI PO-PrimMCU NO 1.09 1.09 0.0
PO-SecMCU NO 1.10 1.10 0.0
--------------------------------------------------------------------------------
PSU650W-ACPE EM-PrimMCU NO 1.25 1.25 0.0
EM-SecMCU NO 1.49 1.49 0.0
LI-SecMCU NO 2.55 2.55 0.0
--------------------------------------------------------------------------------
PSU650W-ACPI EM-PrimMCU NO 1.25 1.25 0.0
EM-SecMCU NO 1.49 1.49 0.0
LI-SecMCU NO 2.54 2.54 0.0
--------------------------------------------------------------------------------
PSU930W-DCPE LI-SecMCU NO 2.03 2.03 0.0
--------------------------------------------------------------------------------
PSU930W-DCPI LI-SecMCU NO 3.03 3.03 0.0
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
=================== ========================== ====== ======= ======== =========
--------------------------------------------------------------------------------
8202 Bios YES 1.29 1.29 0.0
BiosGolden YES 1.29 1.15 0.0
IoFpga YES 1.03 1.03 0.0
IoFpgaGolden YES 1.03 0.33 0.0
MiFpga YES 1.00 1.00 0.0
MiFpgaGolden YES 1.00 0.02 0.0
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 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
--------------------------------------------------------------------------------
8202-O Bios YES 1.208 1.208 0.0
BiosGolden YES 1.208 1.207 0.0
IoFpga YES 1.03 1.03 0.0
IoFpgaGolden YES 1.03 0.33 0.0
MiFpga YES 1.00 1.00 0.0
MiFpgaGolden YES 1.00 0.02 0.0
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 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
--------------------------------------------------------------------------------
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
--------------------------------------------------------------------------------
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 1.03 1.03 0.1
IoFpgaGolden NO 1.03 1.00 0.1
--------------------------------------------------------------------------------
86-MPA-24Z-M IoFpga YES 1.03 1.03 0.1
IoFpgaGolden NO 1.03 1.00 0.1
--------------------------------------------------------------------------------
86-MPA-4FH-M IoFpga YES 1.03 1.03 0.1
IoFpgaGolden NO 1.03 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 1.09 1.09 0.0
BiosGolden YES 1.09 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
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 8.04 1.04 0.0
DT-PrimMCU NO 8.02 1.02 0.0
DT-SecMCU NO 8.02 1.02 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 1.15 1.15 0.0
BiosGolden YES 1.15 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
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
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 1.15 1.15 0.0
BiosGolden YES 1.15 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
IoFpgaGolden YES 1.14 1.00 0.1
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.48 1.48 0.1
x86FpgaGolden YES 1.48 1.04 0.1
x86TamFw YES 6.18 6.18 0.1
x86TamFwGolden YES 6.18 6.05 0.1
--------------------------------------------------------------------------------
88-LC0-36FH-M Bios YES 1.15 1.15 0.0
BiosGolden YES 1.15 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
IoFpgaGolden YES 1.14 1.00 0.1
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.48 1.48 0.1
x86FpgaGolden YES 1.48 1.04 0.1
x86TamFw YES 6.18 6.18 0.1
x86TamFwGolden YES 6.18 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
IoFpgaGolden YES 1.14 1.00 0.1
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.48 1.48 0.1
x86FpgaGolden YES 1.48 1.04 0.1
x86TamFw YES 6.18 6.18 0.1
x86TamFwGolden YES 6.18 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
IoFpgaGolden YES 1.14 1.00 0.1
SsdIntelS3520 YES 1.21 1.21 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
SsdMicron5100 YES 7.01 7.01 0.0
SsdMicron5300 YES 0.01 0.01 0.0
x86Fpga YES 1.48 1.48 0.1
x86FpgaGolden YES 1.48 1.04 0.1
x86TamFw YES 6.18 6.18 0.1
x86TamFwGolden YES 6.18 6.05 0.1
--------------------------------------------------------------------------------
88-LC1-12TH24FH-E Bios YES 1.09 1.09 0.41
BiosGolden YES 1.09 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
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 1.09 1.09 0.0
BiosGolden YES 1.09 1.01 0.0
EthSwitch YES 1.05 1.05 0.0
EthSwitchGolden YES 1.05 0.07 0.0
IoFpga YES 0.12 0.12 0.1
IoFpgaGolden YES 0.12 0.12 0.1
SsdMicron7300M2 YES 2.60 2.60 0.0
SsdMicron7450M2 YES 11.00 11.00 0.0
x86Fpga YES 0.05 0.05 0.1
x86FpgaGolden YES 0.05 0.05 0.1
x86TamFw YES 9.05 9.05 0.1
x86TamFwGolden YES 9.05 9.05 0.1
--------------------------------------------------------------------------------
8800-LC-36FH Bios YES 1.29 1.29 0.0
BiosGolden YES 1.29 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
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
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 1.29 1.29 0.0
BiosGolden YES 1.29 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
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
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 1.29 1.29 0.0
BiosGolden YES 1.29 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
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 1.38 1.38 0.0
x86FpgaGolden YES 1.38 0.24 0.0
x86TamFw YES 5.17 5.17 0.0
x86TamFwGolden YES 5.17 5.05 0.0
--------------------------------------------------------------------------------
8800-RP-E Bios YES 1.29 1.29 0.0
BiosGolden YES 1.29 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
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 1.38 1.38 0.0
x86FpgaGolden YES 1.38 0.24 0.0
x86TamFw YES 5.17 5.17 0.0
x86TamFwGolden YES 5.17 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
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 1.38 1.38 0.0
x86FpgaGolden YES 1.38 0.24 0.0
x86TamFw YES 5.17 5.17 0.0
x86TamFwGolden YES 5.17 5.05 0.0
--------------------------------------------------------------------------------
8800-RP2 Bios YES 1.09 1.09 0.3
BiosGolden YES 1.09 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
TimingFpga YES 1.01 1.01 0.0
TimingFpgaGolden YES 1.01 1.00 0.0
x86Fpga YES 1.11 1.11 0.6
x86FpgaGolden YES 1.11 1.02 0.6
x86TamFw YES 7.17 7.17 0.6
x86TamFwGolden YES 7.17 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
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
IoFpgaGolden YES 1.00 0.16 0.0
--------------------------------------------------------------------------------
8808-FAN 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
IoFpgaGolden YES 1.00 0.16 0.0
--------------------------------------------------------------------------------
8808-FC1 IoFpga YES 0.02 0.02 0.20
IoFpgaGolden YES 0.02 0.02 0.20
--------------------------------------------------------------------------------
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
IoFpgaGolden YES 1.00 0.16 0.0
Retimer YES 3.00 3.00 0.0
--------------------------------------------------------------------------------
PSU-4.8KW-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 24.1.1 |
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. |
Supported Transceiver Modules
To determine the transceivers that Cisco hardware device supports, refer to the Transceiver Module Group (TMG) Compatibility Matrix tool.
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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