Network Convergence System 5500 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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Introduced in this release on: NCS 5500 fixed port routers; NCS 5700 fixed port routers; NCS 5500 modular routers (NCS 5500 line cards; NCS 5700 line cards [Mode: Compatibility; Native]) 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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Support for Docker Application Management via AppMgr Commands |
Introduced in this release on: NCS 5500 fixed port routers; NCS 5700 fixed port routers; NCS 5500 modular routers (NCS 5500 line cards; NCS 5700 line cards [Mode: Compatibility; Native]) This feature enhances the integration of Docker containerized applications with the AppMgr infrastructure on IOS-XR software, enabling 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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Programmability |
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Introduced in this release on: NCS 5500 fixed port routers; NCS 5700 fixed port routers; NCS 5500 modular routers (NCS 5500 line cards; NCS 5700 line cards [Mode: Compatibility; Native]) You can now specify a common-name for the certificate generated by the router while using gRPC dial-in and avoid failure during certificate verification. Earlier, the common-name in the certificate was fixed. The feature introduces these changes: CLI: YANG Data Model:
(see GitHub, YANG Data Models Navigator) |
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Introduced in this release on: NCS 5500 fixed port routers; NCS 5700 fixed port routers; NCS 5500 modular routers (NCS 5500 line cards; NCS 5700 line cards [Mode: Compatibility; Native]). 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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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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Introduced in this release on: NCS 5500 fixed port routers; NCS 5700 fixed port routers; NCS 5500 modular routers (NCS 5500 line cards; NCS 5700 line cards [Mode: Compatibility; Native] OpenConfig infrastructure now provides an operational data YANG model, |
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Introduced in this release on: NCS 5500 fixed port routers; NCS 5700 fixed port routers; NCS 5500 modular routers (NCS 5500 line cards; NCS 5700 line cards [Mode: Compatibility; Native]) This feature lists the four types of authentication mechanisms for Extensible Manageability Services (EMS) to ensure the security and integrity of data exchange are: Metadata with TLS, Metadata without TLS, Metadata with Mutual TLS, and Certificate based. |
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Routing |
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| Introduced in this release on:NCS 5700 fixed port routers (NCS 5700 line cards [Mode: Native])
We've improved the ability to diagnose scenarios related to Bidirectional Forwarding Detection (BFD) sessions, enabling more effective troubleshooting and optimization by allowing detailed insights into the packets sent and received by hardware for transmission (Tx) and reception (Rx) per BFD. session. This feature is supported on both IPv4 and IPv6 networks. The feature introduces these changes: CLI: YANG Data Models:
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MPLS |
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Introduced in this release on: NCS 5500 fixed port routers; NCS 5700 fixed port routers; NCS 5500 modular routers (NCS 5500 line cards; NCS 5700 line cards [Mode: Compatibility; Native]) 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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Segment Routing |
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Introduced in the release on: NCS 5700 fixed port routers. The NCS-57C3-MOD fixed port routers now support the Two-Way Active Measurement Protocol (TWAMP) Light, which allows them to measure network delay metrics for links, IP Endpoints, and SR policy. These routers optimize forwarding capacity of up to 2.4 Terabits and are energy-efficient, enhancing network performance and reliability. By utilizing TWAMP Light, you can obtain detailed data for more precise and timely diagnosis of potential network issues, improving network performance and reliability. |
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Unequal-Cost Multiple Path (UCMP) support, present in ISIS for algorithm 0, permits the use of non-optimal paths to carry a part of the traffic. This is particularly beneficial in networks with redundancy where redundant links are not part of the Equal-Cost Multi-Path (ECMP) set and are not fully utilized. UCMP allows complete usage of these redundant network resources. When applied to Flex-Algo, UCMP provides similar functionality for algorithm-specific paths, ensuring compliance with the specific constraints of each algorithm. When UCMP is enabled at ISIS-AF level using the existing UCMP configuration, it is enabled for all the Flex-algos. You can use ucmp disable command under ISIS Flex-Algo sub-mode to disable UCMP for a specific Flex-Algo. This feature introduces the ucmp disable command. |
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Identical Route Distinguisher (RD) for Interworking Gateways between MPLS and SRv6 Domains |
Introduced in the release on: NCS 5500 fixed port routers; NCS 5700 fixed port routers; NCS 5500 modular routers (NCS 5500 line cards; NCS 5700 line cards [Mode: Compatibility; Native]). 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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Introduced in this release on: NCS 5500 fixed port routers; NCS 5700 fixed port routers; NCS 5500 modular routers (NCS 5500 line cards; NCS 5700 line cards [Mode: Compatibility; Native]) You can gather the Traffic Engineering Policy information that is locally available in a node and advertise it in BGP-LS for SRv6. Previous versions only supported SR-MPLS. There are no changes to the configuration procedures from previous releases and works on the same configuration as the SR-MPLS feature. |
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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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Introduced in this release on: NCS 5500 fixed port routersNCS 5500 modular routersNCS 5700 fixed port routersNCS 5500 line cardsNCS 5700 line cards [Mode: Native] 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 |
Introduced in this release on: NCS 5500 fixed port routers; NCS 5500 modular routers (NCS 5500 line cards) 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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Introduced in this release on: NCS 5500 fixed port routers (select variants only*); NCS 5500 modular routers (select variants only*) By activating Connectivity Fault Management (CFM) when using GRE tunnel as the underlying transport mechanism, you can now monitor and isolate faults within a maintenance domain. CFM is now available over static L2VPN and LSP with single-pass GRE tunnels on your PE routers. It helps check if L2VPN services are working and possibly take corrective actions if they aren't. This capability enhances tunnel health monitoring and fault identification across the pseudowire (PW) tunnel between edge routers. |
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XR Interface Operational State in Linux Kernel |
Introduced in this release on: NCS 5500 fixed port routers; NCS 5700 fixed port routers; NCS 5500 modular routers (NCS 5500 line cards; NCS 5700 line cards [Mode: Compatibility; Native]) 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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L2VPN and Ethernet Services |
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Introduced in this release on: NCS 5500 fixed port routers; NCS 5700 fixed port routers; NCS 5500 modular routers (NCS 5500 line cards; NCS 5700 line cards [Mode: Compatibility; Native]) In a preference-based Designated Forwarder (DF) election, non-revertive mode prevents the traffic disruption 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 does not re-carve the services after the recovery, thus avoiding the traffic disruption. The feature introduces these changes: CLI:
YANG Data Model:
(see GitHub, YANG Data Models Navigator) |
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| Introduced in this release on: NCS 5500 modular routers (NCS 5500 line cards)
You can now enhance the resilience of virtualized environments by hosting Virtual Network Functions (VNFs) for rapid failure detection via Bidirectional Forwarding Detection (BFD). You can set up BFD sessions between routers and VNFs. When BFD identifies a failure, you have the ability to quickly scale or migrate VNFs as required. The system facilitates the assignment of a Virtual IP address (VIP) to a service that spans multiple VNF instances, which permits the rerouting of traffic if a failure occurs. In the event of a VNF instance failure, traffic typically halts until the network's Address Resolution Protocol (ARP) processes the removal of the failed VNF's ARP entry. Activating BFD for VNFs accelerates the removal of ARP entries, leading to more rapid traffic rerouting to functioning VNFs and minimizing service downtime.. The feature introduces these changes: CLI:
YANG Data Model
(see GitHub, YANG Data Models Navigator) |
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Combined Frame Delay and Frame Loss Measurement for Y.1564 Service Activation Test |
Introduced in this release on: NCS 5500 fixed port routers; NCS 5700 fixed port routers We have enhanced the ITU-T Y.1564 Service Activation Testing (SAT) capabilities by enabling a comprehensive service quality measurement that includes network responsiveness, congestion, and other issues degrading network performance. This feature also allows a holistic testing of the QoS SLAs, which helps identify potential issues faster and troubleshoot effectively. This feature introduces the following change: CLI: The measurement combined keyword is added to the ethernet service-activation-test profile command. YANG DATA Model:
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Introduced in this release on: NCS 5500 fixed port routers; NCS 5700 fixed port routers This feature enables the redirection of test traffic from the destination router to the source router in loopback message (LBM) format. Loopback message enables the measurement of various parameters and performance metrics, such as frame delay, frame loss rates, and QoS settings, after the traffic has completed its round trip. Such comprehensive measurement helps identify issues within the network setup. You can also use it to ensure the service is running and meets the SLA. This feature introduces the following change: CLI: The packet-format lbm keyword is added to the ethernet service-activation-test profile command. YANG DATA Model: New XPaths for Cisco-IOS-XR-ethernet-sat-cfg.yang (see Github, YANG Data Models Navigator) |
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Optional Source MAC Address for Y.1564 Service Activation Test |
Introduced in this release on: NCS 5500 fixed port routers; NCS 5700 fixed port routers By specifying the source MAC address to the ITU-T Y.1564 SAT, you can ensure that the test results are relevant and applicable to the specific service configuration for use in production and before deployment for your customers. This feature introduces the following change: Modified CLI: The source keyword is added to the ethernet service-activation-test command. YANG DATA Model:
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Modular QoS |
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Introduced in this release on: NCS 5700 fixed port routers (select variants only*) This model enhances the egress queueing policy by making the feature-rich ingress pipeline available to the outgoing traffic. It also enables the scaling of egress QoS policies by limiting the usage of VOQ connectors on all ingress devices to only physical ports or main interfaces. *This feature is supported on NCS-57C3-MOD-SYS routers. |
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Selective Egress Policy-Based Queue Mapping on NCS-57C3-MOD-SYS Routers and NC57-18DD-SE Line Cards |
Introduced in this release on: NCS 5700 fixed port routers (select variants only*), NCS 5700 line cards [Mode: Compatibility; Native] (select variants only*) Based on specific customer service level agreements (SLAs), you can prioritize network traffic types by grouping egress traffic classes into priority queues. *This feature is supported on:
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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 Management |
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| NCS 5500 fixed port routers; NCS 5700 fixed port routers; NCS 5500 modular routers (NCS 5500 line cards; NCS 5700 line cards
[Mode: Compatibility; Native]) We have improved NTP synchronization and reliability to achieve nanosecond-level accuracy for applications that require high-precision timing. This is achieved by enabling NTP-PTP interworking which allows the use of PTP as the reference clock. As in previous releases, the NTP client continues to support polling NTP protocol-based external time servers to synchronize the local system clock and achieve accuracy within the millisecond range. |
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System Security |
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Introduced in this release on: NCS 5700 fixed port routers 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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| Introduced in this release on: NCS 5500 fixed port routers; NCS 5700 fixed port routers; NCS 5500 modular routers (NCS 5500
line cards; NCS 5700 line cards [Mode: Compatibility; Native]) 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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Introduced in this release on: NCS 5500 fixed port routers; NCS 5700 fixed port routers; NCS 5500 modular routers (NCS 5500 line cards; NCS 5700 line cards [Mode: Compatibility; Native]) 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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| Introduced in this release on: NCS 5500 fixed port routers; NCS 5700 fixed port routers; NCS 5500 modular routers (NCS 5500
line cards; NCS 5700 line cards [Mode: Compatibility; Native]) 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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MACsec capability for 1 GbE Optical SFPs on NCS 5700 fixed port routers |
Introduced in this release on: NCS 5700 fixed port routers (select variants only*) We now support MACcsec encryption on select 1 GbE optical SFP transceivers by encrypting Ethernet frames at the link layer to secure communication for all traffic in Ethernet-based networks. * This feature is supported on the following hardware:
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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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Feature |
Description |
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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-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-infra-xtc-agent-oper.yang |
This native data model is enhanced with a new container, excluded-resources to display associated resource lists for policies. |
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Cisco-IOS-XR-infra-xtc-oper.yang |
This native data model is enhanced with a new container, constraints-information, to exclude IP constraints for candidate paths and includes the shortest-path flag in the disjoint constraints. |
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Cisco-IOS-XR-infra-xtc-agent-cfg.yang |
This native data model is enhanced with a new container, resources, and a new leaf, exclude-resource-rule in the resources-rule-table container to configure and associate resource lists as constraints to policies. Additionally, new leaves such as shortest-path and fallback-disable are added in the disjoint-path container to extend the disjoint constraint configuration. |
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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-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-ethernet-sat-act.yang |
This Cisco native data model is enhanced with a new leaf, service-activation-test-start-source, to specify source MAC address for a service activation test. |
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Cisco-IOS-XR-ethernet-sat-cfg.yang |
This native data model has introduced the following leaves:
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Cisco-IOS-XR-um-grpc-cfg.yang |
This YANG model is modified to specify a common-name for the certificate generated by the router while using gRPC dial-in. |
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Cisco-IOS-XR-man-ems-cfg.yang |
This YANG model is modified to specify a common-name for the certificate generated by the router while using gRPC dial-in and to specify a limit on the number of concurrent streams per gRPC connection. |
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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-man-ems-oper.yang |
This YANG model is modified to specify a limit on the number of concurrent streams per gRPC connection. |
Hardware Introduced
| Hardware | Description |
|---|---|
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Cisco PON OLT SFP |
This release supports configuration and management of the Cisco PON 10G OLT SFP+ transceiver on the following Cisco NCS 5500 Series Routers:
The transceiver module plugs into the 10G port on the router. The combination of the transceiver, PON Manager, PON Controller, and the MongoDB creates a network management solution for monitoring and managing OLTs and ONU devices in the network. With the help of the transceiver, the router functions as an OLT, this removes the requirement of a separate OLT Chassis. For more information, refer to Release Notes for Cisco Routed PON, Cisco IOS XR Release 24.1.1. |
Features Supported on Cisco NC5700 Line Cards and NCS 5700 Fixed Port Routers
The following table lists the features supported on Cisco NC5700 line cards in compatibility mode (NC5700 line cards with previous generation NCS 5500 line cards in the same NCS 5500 modular routers) and native mode (NCS 5500 modular routers with only NCS 5700 line cards and NCS 5700 fixed port routers).
To enable the native mode on Cisco NCS 5500 series modular routers having Cisco NCS 5700 line cards, use the hw-module profile npu native-mode-enable command in the configuration mode. Ensure that you reload the router after configuring the native mode.
Features supported in the native mode are also available on Cisco NCS 5700 fixed port routers.
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Feature |
Compatible Mode |
Native Mode |
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Smart Licensing Using Policy |
✓ |
✓ |
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Support for Docker Application Management via AppMgr Commands |
✓ |
✓ |
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Certificate Common-Name For Dial-in Using gRPC Protocol |
✓ |
✓ |
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IANA Port Numbers For gRPC Services |
✓ |
✓ |
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Set Limit on Concurrent Streams for gRPC Server |
✓ |
✓ |
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View Inconsistent OpenConfig Configuration |
✓ |
✓ |
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gRPC Authentication Modes |
✓ |
✓ |
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Monitor the Per-Session BFD HW Offload Statistics |
✕ |
✓ |
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Set Global RSVP Message Retransmission Interval |
✓ |
✓ |
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Identical Route Distinguisher (RD) for Interworking Gateways between MPLS and SRv6 Domains |
✓ |
✓ |
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Reporting of SR-TE Policies Using BGP-Link State for SRv6 |
✕ |
✓ |
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Synthetic Loss Measurement |
✕ |
✓ |
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XR Interface Operational State in Linux Kernel |
✓ |
✓ |
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EVPN Non-Revertive Designated Forwarder (DF) Election |
✓ |
✓ |
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Selective Egress Policy-Based Queue Mapping on NCS-57C3-MOD-SYS Routers and NC57-18DD-SE Line Cards |
✓ |
✓ |
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PTP-NTP Interworking |
✓ |
✓ |
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MASA API integration with gRPC |
✓ |
✓ |
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Multi-Factor Authentication for SSH |
✓ |
✓ |
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Pre-upload Pinned-Domain Certificate |
✓ |
✓ |
For the complete list of features supported on Cisco NC57 line cards until Cisco IOS XR Release 24.1.1. see:
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Release Notes for Cisco NCS 5500 Series Routers, IOS XR Release 7.11.1
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Release Notes for Cisco NCS 5500 Series Routers, IOS XR Release 7.10.1
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Release Notes for Cisco NCS 5500 Series Routers, IOS XR Release 7.9.2
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Release Notes for Cisco NCS 5500 Series Routers, IOS XR Release 7.9.1
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Release Notes for Cisco NCS 5500 Series Routers, IOS XR Release 7.8.2
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Release Notes for Cisco NCS 5500 Series Routers, IOS XR Release 7.8.1
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Release Notes for Cisco NCS 5500 Series Routers, IOS XR Release 7.7.2
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Release Notes for Cisco NCS 5500 Series Routers, IOS XR Release 7.7.1
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Release Notes for Cisco NCS 5500 Series Routers, IOS XR Release 7.6.2
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Release Notes for Cisco NCS 5500 Series Routers, IOS XR Release 7.6.1
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Release Notes for Cisco NCS 5500 Series Routers, IOS XR Release 7.5.3
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Release Notes for Cisco NCS 5500 Series Routers, IOS XR Release 7.5.2
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Release Notes for Cisco NCS 5500 Series Routers, IOS XR Release 7.5.1
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Release Notes for Cisco NCS 5500 Series Routers, IOS XR Release 7.4.2
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Release Notes for Cisco NCS 5500 Series Routers, IOS XR Release 7.4.1
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Release Notes for Cisco NCS 5500 Series Routers, IOS XR Release 7.3.1
Caveats
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Bug ID |
Headline |
|---|---|
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The call-home configurations displayed in the show run call-home command are missing in the show running-config command output. |
Behavior Changes
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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.
Release Package
This table lists the Cisco IOS XR Software feature set matrix (packages) with associated filenames.
Visit the Cisco Software Download page to download the Cisco IOS XR software images.
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Composite Package |
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Feature Set |
Filename |
Description |
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Cisco IOS XR IP Unicast Routing Core Bundle |
ncs5500-mini-x.iso |
Contains base image contents that includes:
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Individually-Installable Optional Packages |
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Feature Set |
Filename |
Description |
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Cisco IOS XR Manageability Package |
ncs5500-mgbl-3.0.0.0-r2411.x86_64.rpm |
Extensible Markup Language (XML) Parser, Telemetry, Netconf, gRPC and HTTP server packages. |
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Cisco IOS XR MPLS Package |
ncs5500-mpls-2.1.0.0-r2411.x86_64.rpm ncs5500-mpls-te-rsvp-2.2.0.0-r2411.x86_64.rpm |
MPLS and MPLS Traffic Engineering (MPLS-TE) RPM. |
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Cisco IOS XR Security Package |
ncs5500-k9sec-3.1.0.0-r2411.x86_64.rpm |
Support for Encryption, Decryption, Secure Shell (SSH), Secure Socket Layer (SSL), and Public-key infrastructure (PKI) |
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Cisco IOS XR ISIS package |
ncs5500-isis-1.2.0.0-r2411.x86_64.rpm |
Support ISIS |
|
Cisco IOS XR OSPF package |
ncs5500-ospf-2.0.0.0-r2411.x86_64.rpm |
Support OSPF |
|
Lawful Intercept (LI) Package |
ncs5500-li-1.0.0.0-r2411.x86_64.rpm |
Includes LI software images |
|
Multicast Package |
ncs5500-mcast-1.0.0.0-r2411.x86_64rpm |
Support Multicast |
|
EIGRP |
ncs5500-eigrp-1.0.0.0-r2411.x86_64.rpm |
Supports Enhanced Interior Gateway Routing Protocol |
|
Lawful Intercept Control |
ncs5500-lictrl-1.0.0.0-r2411x86_64.rpm |
Supports Lawful Intercept Control |
|
Healthcheck |
ncs5500-healthcheck-1.0.0.0-r2411.x86_64.rpm |
Supports System Health Check |
|
Feature Set |
Filename |
|
NCS 5500 IOS XR Software 3DES |
NCS5500-iosxr-k9-24.1.1.tar |
|
NCS 5500 IOS XR Software |
NCS5500-iosxr-24.1.1.tar |
|
NCS 5500 IOS XR Software |
NCS5500-docs-24.1.1.tar |
|
Feature Set |
Filename |
|
NCS 5700 IOS XR Software |
ncs5700-x64-24.1.1.iso |
|
NCS 5700 IOS XR Software (only k9 RPMs) |
ncs5700-k9sec-rpms.24.1.1.tar |
|
NCS 5700 IOS XR Software Optional Package |
NCS5700-optional-rpms.24.1.1.tar This TAR file contains the following RPMS:
|
Determine Software Version
To verify the software version running on the router, use show version command in the EXEC mode.
Router# show version
Cisco IOS XR Software, Version 24.1.1
Copyright (c) 2013-2024 by Cisco Systems, Inc.
Build Information:
Built By : swtools
Built On : Sun Mar 10 13:14:54 PDT 2024
Built Host : iox-ucs-046
Workspace : /auto/srcarchive15/prod/24.1.1/ncs5500/ws
Version : 24.1.1
Location : /opt/cisco/XR/packages/
Label : 24.1.1
cisco NCS-5500 () processor
System uptime is 3 hours 40 minutesDetermine Firmware Support
Use the show hw-module fpd command in EXEC and Admin mode to view the hardware components with their current FPD version and status. The status of the hardware must be CURRENT; Running and Programed version must be the same.
You can also use the show fpd package command in Admin mode to check the fpd versions.
NCS 5500 Fixed Port Routers
Router# show fpd package
===============================================================================
Field Programmable Device Package
================================================
Req SW Min Req Min Req
Card Type FPD Description Reload Ver SW Ver Board Ver
=================== ========================== ====== ======= ======== =========
--------------------------------------------------------------------------------
NC55-12X100G-SE-PR Bootloader(A) YES 1.20 1.20 0.0
IOFPGA(A) YES 0.12 0.12 0.0
MIFPGA YES 0.03 0.03 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-12X100GE-PROT Bootloader(A) YES 1.22 1.22 0.0
IOFPGA(A) YES 0.15 0.15 0.0
MIFPGA YES 0.09 0.09 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-18H18F Bootloader(A) YES 1.20 1.20 0.0
IOFPGA(A) YES 0.22 0.22 0.0
MIFPGA YES 0.03 0.03 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-24H12F-SE Bootloader(A) YES 1.20 1.20 0.0
IOFPGA(A) YES 0.09 0.09 0.0
MIFPGA YES 0.03 0.03 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-24X100G-SE Bootloader(A) YES 1.20 1.20 0.0
IOFPGA(A) YES 0.13 0.13 0.0
MIFPGA YES 0.03 0.03 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-32T16Q4H-A Bootloader(A) YES 0.05 0.05 0.0
DBFPGA(A) YES 0.14 0.14 0.0
IOFPGA(A) YES 0.93 0.93 0.0
MIFPGA YES 0.60 0.60 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
TimingIC-A YES 7.216 7.216 0.0
TimingIC-B YES 7.216 7.216 0.0
--------------------------------------------------------------------------------
NC55-32T16Q4H-AT Bootloader(A) YES 0.05 0.05 0.0
DBFPGA(A) YES 0.14 0.14 0.0
IOFPGA(A) YES 0.93 0.93 0.0
MIFPGA YES 0.60 0.60 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
TimingIC-A YES 7.216 7.216 0.0
TimingIC-B YES 7.216 7.216 0.0
--------------------------------------------------------------------------------
NC55-36X100G Bootloader(A) YES 1.22 1.22 0.0
IOFPGA(A) YES 0.15 0.15 0.0
MIFPGA YES 0.09 0.09 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-36X100G-A-SE Bootloader(A) YES 0.15 0.15 0.0
DBFPGA(A) YES 0.14 0.14 0.0
IOFPGA(A) YES 0.26 0.26 0.0
MIFPGA YES 0.03 0.03 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-36X100G-S Bootloader(A) YES 1.20 1.20 0.0
IOFPGA(A) YES 0.12 0.12 0.0
MIFPGA YES 0.07 0.07 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-5504-FC Bootloader(A) YES 1.75 1.75 0.0
IOFPGA(A) YES 0.10 0.10 0.0
--------------------------------------------------------------------------------
NC55-5504-FC2 Bootloader(A) YES 1.13 1.13 0.0
IOFPGA(A) YES 0.47 0.47 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-5508-FC Bootloader(A) YES 1.74 1.74 0.0
IOFPGA(A) YES 0.16 0.16 0.0
--------------------------------------------------------------------------------
NC55-5508-FC2 Bootloader(A) YES 1.80 1.80 0.0
IOFPGA(A) YES 0.19 0.19 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-5516-FC Bootloader(A) YES 1.75 1.75 0.0
IOFPGA(A) YES 0.26 0.26 0.0
--------------------------------------------------------------------------------
NC55-5516-FC2 Bootloader(A) YES 1.80 1.80 0.0
IOFPGA(A) YES 0.24 0.24 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-6X100GE-PROT Bootloader(A) YES 1.22 1.22 0.0
IOFPGA(A) YES 0.15 0.15 0.0
MIFPGA YES 0.09 0.09 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-6X200-DWDM-S Bootloader(A) YES 1.20 1.20 0.0
CFP2_PORT_0 NO 5.56 5.56 2.1
CFP2_PORT_1 NO 5.56 5.56 2.1
CFP2_PORT_2 NO 5.56 5.56 2.1
CFP2_PORT_3 NO 5.56 5.56 2.1
CFP2_PORT_4 NO 5.56 5.56 2.1
CFP2_PORT_5 NO 5.56 5.56 2.1
DENALI0 NO 13.48 13.48 0.0
DENALI1 NO 13.48 13.48 0.0
DENALI2 NO 13.48 13.48 0.0
IOFPGA(A) YES 0.14 0.14 0.0
MORGOTH YES 5.26 5.26 0.0
MSFPGA0 YES 2.22 2.22 0.0
MSFPGA1 YES 2.22 2.22 0.0
MSFPGA2 YES 2.22 2.22 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-MOD-A-S Bootloader(A) YES 1.03 1.03 0.0
DBFPGA(A) YES 0.14 0.14 0.0
IOFPGA(A) YES 0.14 0.14 0.0
MIFPGA YES 0.16 0.16 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-MOD-A-SE-S Bootloader(A) YES 1.03 1.03 0.0
DBFPGA(A) YES 0.14 0.14 0.0
IOFPGA(A) YES 0.14 0.14 0.0
MIFPGA YES 0.16 0.16 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-MPA-12T-S MPAFPGA YES 0.28 0.28 0.0
--------------------------------------------------------------------------------
NC55-MPA-1TH2H-S CFP2-D-DCO_2 NO 38.27397 38.27397 0.1
CFP2-D10-DCO_2 NO 67.30726 67.30726 0.1
CFP2-D15-DCO_2 NO 67.30726 67.30726 0.1
CFP2-DE-DCO_2 NO 38.27397 38.27397 0.1
CFP2-DETS-DCO_2 NO 38.27397 38.27397 0.1
CFP2-DS-DCO_2 NO 38.27397 38.27397 0.1
CFP2-DS100-DCO_2 NO 38.27397 38.27397 0.1
MPAFPGA YES 0.54 0.54 0.0
--------------------------------------------------------------------------------
NC55-MPA-2TH-HX-S CFP2-D-DCO_0 NO 38.27397 38.27397 0.1
CFP2-D-DCO_1 NO 38.27397 38.27397 0.1
CFP2-D10-DCO_0 NO 67.30726 67.30726 0.1
CFP2-D10-DCO_1 NO 67.30726 67.30726 0.1
CFP2-D15-DCO_0 NO 67.30726 67.30726 0.1
CFP2-D15-DCO_1 NO 67.30726 67.30726 0.1
CFP2-DE-DCO_0 NO 38.27397 38.27397 0.1
CFP2-DE-DCO_1 NO 38.27397 38.27397 0.1
CFP2-DETS-DCO_0 NO 38.27397 38.27397 0.1
CFP2-DETS-DCO_1 NO 38.27397 38.27397 0.1
CFP2-DS-DCO_0 NO 38.27397 38.27397 0.1
CFP2-DS-DCO_1 NO 38.27397 38.27397 0.1
CFP2-DS100-DCO_0 NO 38.27397 38.27397 0.1
CFP2-DS100-DCO_1 NO 38.27397 38.27397 0.1
MPAFPGA YES 0.54 0.54 0.0
--------------------------------------------------------------------------------
NC55-MPA-2TH-S CFP2-D-DCO_0 NO 38.27397 38.27397 0.1
CFP2-D-DCO_1 NO 38.27397 38.27397 0.1
CFP2-D10-DCO_0 NO 67.30726 67.30726 0.1
CFP2-D10-DCO_1 NO 67.30726 67.30726 0.1
CFP2-D15-DCO_0 NO 67.30726 67.30726 0.1
CFP2-D15-DCO_1 NO 67.30726 67.30726 0.1
CFP2-DE-DCO_0 NO 38.27397 38.27397 0.1
CFP2-DE-DCO_1 NO 38.27397 38.27397 0.1
CFP2-DETS-DCO_0 NO 38.27397 38.27397 0.1
CFP2-DETS-DCO_1 NO 38.27397 38.27397 0.1
CFP2-DS-DCO_0 NO 38.27397 38.27397 0.1
CFP2-DS-DCO_1 NO 38.27397 38.27397 0.1
CFP2-DS100-DCO_0 NO 38.27397 38.27397 0.1
CFP2-DS100-DCO_1 NO 38.27397 38.27397 0.1
MPAFPGA YES 0.54 0.54 0.0
--------------------------------------------------------------------------------
NC55-MPA-4H-HD-S MPAFPGA YES 0.55 0.55 0.0
--------------------------------------------------------------------------------
NC55-MPA-4H-HX-S MPAFPGA YES 0.54 0.54 0.0
--------------------------------------------------------------------------------
NC55-MPA-4H-S MPAFPGA YES 0.54 0.54 0.0
--------------------------------------------------------------------------------
NC55-OIP-2 CPLD-MPAFPGA YES 2.00 2.00 0.0
MPAFPGA YES 4.09 4.09 0.0
--------------------------------------------------------------------------------
NC55-OIP-4 MPAFPGA YES 0.10 0.10 0.0
--------------------------------------------------------------------------------
NC55-PWR-3KW-2HV DT-LogicMCU(A) NO 3.01 3.01 0.2
DT-PriMCU(A) NO 3.00 3.00 0.2
DT-SecMCU(A) NO 3.01 3.01 0.2
--------------------------------------------------------------------------------
NC55-PWR-3KW-DC DT-SecMCU(A) NO 4.12 4.12 0.1
--------------------------------------------------------------------------------
NC55-PWR-4.4KW-DC QCS-LogicMCU(A) NO 3.00 3.00 0.1
QCS-PriMCU(A) NO 3.00 3.00 0.1
QCS-SecMCU(A) NO 3.00 3.00 0.1
--------------------------------------------------------------------------------
NC55-RP Bootloader(A) YES 9.31 9.31 0.0
IOFPGA(A) YES 0.09 0.09 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-RP-E Bootloader(A) YES 1.24 1.24 0.0
IOFPGA(A) YES 0.23 0.23 0.0
OMGFPGA(A) YES 0.61 0.61 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-RP-PROTO Bootloader(A) YES 9.31 9.31 0.0
IOFPGA(A) YES 0.06 0.06 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC55-RP2-E Bootloader(A) YES 0.09 0.09 0.0
IOFPGA(A) YES 0.50 0.50 0.0
OMGFPGA(A) YES 0.52 0.52 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
TimingIC-A YES 7.216 7.216 0.0
TimingIC-B-0 YES 7.216 7.216 0.0
TimingIC-B-1 YES 7.216 7.216 0.0
--------------------------------------------------------------------------------
NC55-SC Bootloader(A) YES 1.74 1.74 0.0
IOFPGA(A) YES 0.10 0.10 0.0
--------------------------------------------------------------------------------
NC57-1600W-ACFW PriMCU-ACFW(A) NO 1.02 1.02 0.0
SecMCU-ACFW(A) NO 1.07 1.07 0.0
--------------------------------------------------------------------------------
NC57-1600W-DCFW PriMCU-DCFW(A) NO 1.07 1.00 0.0
--------------------------------------------------------------------------------
NC57-18DD-SE Bootloader(A) YES 1.03 1.03 0.0
DBFPGA(A) YES 0.14 0.14 0.0
IOFPGA(A) YES 0.22 0.22 0.0
MIFPGA YES 0.11 0.11 0.0
QDD_BRT_FW_C0_P00 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P01 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P02 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P03 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P04 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P05 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P06 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P07 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P08 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P09 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P10 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P11 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P12 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P13 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P14 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P15 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P16 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P17 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P18 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P19 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P20 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P21 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P22 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P23 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P24 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P25 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P26 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P27 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P28 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P29 YES 70.130 70.130 0.0
QDD_FW_C0_P00 YES 61.23 61.23 0.0
QDD_FW_C0_P01 YES 61.23 61.23 0.0
QDD_FW_C0_P02 YES 61.23 61.23 0.0
QDD_FW_C0_P03 YES 61.23 61.23 0.0
QDD_FW_C0_P04 YES 61.23 61.23 0.0
QDD_FW_C0_P05 YES 61.23 61.23 0.0
QDD_FW_C0_P06 YES 61.23 61.23 0.0
QDD_FW_C0_P07 YES 61.23 61.23 0.0
QDD_FW_C0_P08 YES 61.23 61.23 0.0
QDD_FW_C0_P09 YES 61.23 61.23 0.0
QDD_FW_C0_P10 YES 61.23 61.23 0.0
QDD_FW_C0_P11 YES 61.23 61.23 0.0
QDD_FW_C0_P12 YES 61.23 61.23 0.0
QDD_FW_C0_P13 YES 61.23 61.23 0.0
QDD_FW_C0_P14 YES 61.23 61.23 0.0
QDD_FW_C0_P15 YES 61.23 61.23 0.0
QDD_FW_C0_P16 YES 61.23 61.23 0.0
QDD_FW_C0_P17 YES 61.23 61.23 0.0
QDD_FW_C0_P18 YES 61.23 61.23 0.0
QDD_FW_C0_P19 YES 61.23 61.23 0.0
QDD_FW_C0_P20 YES 61.23 61.23 0.0
QDD_FW_C0_P21 YES 61.23 61.23 0.0
QDD_FW_C0_P22 YES 61.23 61.23 0.0
QDD_FW_C0_P23 YES 61.23 61.23 0.0
QDD_FW_C0_P24 YES 61.23 61.23 0.0
QDD_FW_C0_P25 YES 61.23 61.23 0.0
QDD_FW_C0_P26 YES 61.23 61.23 0.0
QDD_FW_C0_P27 YES 61.23 61.23 0.0
QDD_FW_C0_P28 YES 61.23 61.23 0.0
QDD_FW_C0_P29 YES 61.23 61.23 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC57-24DD Bootloader(A) YES 1.03 1.03 0.0
DBFPGA(A) YES 0.14 0.14 0.0
IOFPGA(A) YES 0.23 0.23 0.0
MIFPGA YES 0.11 0.11 0.0
QDD_BRT_FW_C0_P00 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P01 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P02 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P03 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P04 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P05 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P06 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P07 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P08 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P09 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P10 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P11 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P12 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P13 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P14 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P15 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P16 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P17 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P18 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P19 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P20 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P21 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P22 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P23 YES 70.130 70.130 0.0
QDD_FW_C0_P00 YES 61.23 61.23 0.0
QDD_FW_C0_P01 YES 61.23 61.23 0.0
QDD_FW_C0_P02 YES 61.23 61.23 0.0
QDD_FW_C0_P03 YES 61.23 61.23 0.0
QDD_FW_C0_P04 YES 61.23 61.23 0.0
QDD_FW_C0_P05 YES 61.23 61.23 0.0
QDD_FW_C0_P06 YES 61.23 61.23 0.0
QDD_FW_C0_P07 YES 61.23 61.23 0.0
QDD_FW_C0_P08 YES 61.23 61.23 0.0
QDD_FW_C0_P09 YES 61.23 61.23 0.0
QDD_FW_C0_P10 YES 61.23 61.23 0.0
QDD_FW_C0_P11 YES 61.23 61.23 0.0
QDD_FW_C0_P12 YES 61.23 61.23 0.0
QDD_FW_C0_P13 YES 61.23 61.23 0.0
QDD_FW_C0_P14 YES 61.23 61.23 0.0
QDD_FW_C0_P15 YES 61.23 61.23 0.0
QDD_FW_C0_P16 YES 61.23 61.23 0.0
QDD_FW_C0_P17 YES 61.23 61.23 0.0
QDD_FW_C0_P18 YES 61.23 61.23 0.0
QDD_FW_C0_P19 YES 61.23 61.23 0.0
QDD_FW_C0_P20 YES 61.23 61.23 0.0
QDD_FW_C0_P21 YES 61.23 61.23 0.0
QDD_FW_C0_P22 YES 61.23 61.23 0.0
QDD_FW_C0_P23 YES 61.23 61.23 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC57-36H-SE Bootloader(A) YES 1.03 1.03 0.0
DBFPGA(A) YES 0.14 0.14 0.0
IOFPGA(A) YES 0.05 0.05 0.0
MIFPGA YES 0.03 0.03 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC57-36H6D-S Bootloader(A) YES 0.02 0.02 0.0
DBFPGA(A) YES 0.14 0.14 0.0
IOFPGA(A) YES 0.47 0.47 0.0
MIFPGA YES 0.40 0.40 0.0
QDD_BRT_FW_C0_P24 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P25 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P26 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P27 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P28 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P29 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P30 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P31 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P32 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P33 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P34 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P35 YES 70.130 70.130 0.0
QDD_FW_C0_P24 YES 61.23 61.23 0.0
QDD_FW_C0_P25 YES 61.23 61.23 0.0
QDD_FW_C0_P26 YES 61.23 61.23 0.0
QDD_FW_C0_P27 YES 61.23 61.23 0.0
QDD_FW_C0_P28 YES 61.23 61.23 0.0
QDD_FW_C0_P29 YES 61.23 61.23 0.0
QDD_FW_C0_P30 YES 61.23 61.23 0.0
QDD_FW_C0_P31 YES 61.23 61.23 0.0
QDD_FW_C0_P32 YES 61.23 61.23 0.0
QDD_FW_C0_P33 YES 61.23 61.23 0.0
QDD_FW_C0_P34 YES 61.23 61.23 0.0
QDD_FW_C0_P35 YES 61.23 61.23 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
TimingIC-A YES 7.216 7.216 0.0
TimingIC-B YES 7.216 7.216 0.0
--------------------------------------------------------------------------------
NC57-48Q2D-S ALDRINFPGA(A) YES 1.06 1.06 0.0
Bootloader(A) YES 1.00 1.00 0.0
DBFPGA(A) YES 0.14 0.14 0.0
IOFPGA(A) YES 0.105 0.105 0.0
MIFPGA YES 0.21 0.21 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
TimingIC-A YES 7.216 7.216 0.0
TimingIC-B YES 7.216 7.216 0.0
--------------------------------------------------------------------------------
NC57-48Q2D-SE-S ALDRINFPGA(A) YES 1.06 1.06 0.0
Bootloader(A) YES 1.00 1.00 0.0
DBFPGA(A) YES 0.14 0.14 0.0
IOFPGA(A) YES 0.105 0.105 0.0
MIFPGA YES 0.21 0.21 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
TimingIC-A YES 7.216 7.216 0.0
TimingIC-B YES 7.216 7.216 0.0
--------------------------------------------------------------------------------
NC57-MOD-RP2-E Bootloader(A) YES 0.14 0.14 0.0
IOFPGA YES 0.51 0.51 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
--------------------------------------------------------------------------------
NC57-MOD-S Bootloader(A) YES 2.03 2.03 0.0
DBFPGA(A) YES 0.14 0.14 0.0
IOFPGA(A) YES 0.42 0.42 0.0
MIFPGA YES 0.18 0.18 0.0
QDD_BRT_FW_C0_P08 YES 70.130 70.130 0.0
QDD_BRT_FW_C0_P09 YES 70.130 70.130 0.0
QDD_FW_C0_P08 YES 61.23 61.23 0.0
QDD_FW_C0_P09 YES 61.23 61.23 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
TimingIC-A YES 7.216 7.216 0.0
TimingIC-B YES 7.216 7.216 0.0
--------------------------------------------------------------------------------
NC57-MPA-12L-S MPAFPGA YES 0.28 0.28 0.0
--------------------------------------------------------------------------------
NC57-MPA-1FH1D-S CFP2-M25-DCO_1 NO 67.30726 67.30726 0.1
MPAFPGA YES 0.80 0.80 0.0
QDD_BRT_FW_C1_P00 YES 70.130 70.130 0.0
QDD_BRT_FW_C2_P00 YES 70.130 70.130 0.0
QDD_BRT_FW_C3_P00 YES 70.130 70.130 0.0
QDD_FW_C1_P00 YES 61.23 61.23 0.0
QDD_FW_C2_P00 YES 61.23 61.23 0.0
QDD_FW_C3_P00 YES 61.23 61.23 0.0
--------------------------------------------------------------------------------
NC57-MPA-2D4H-S MPAFPGA YES 0.07 0.07 0.0
QDD_FW_C1_P00 YES 61.23 61.23 0.0
QDD_FW_C1_P01 YES 61.23 61.23 0.0
QDD_FW_C1_P02 YES 61.23 61.23 0.0
QDD_FW_C1_P03 YES 61.23 61.23 0.0
QDD_FW_C2_P00 YES 61.23 61.23 0.0
QDD_FW_C2_P01 YES 61.23 61.23 0.0
QDD_FW_C2_P02 YES 61.23 61.23 0.0
QDD_FW_C2_P03 YES 61.23 61.23 0.0
QDD_FW_C3_P00 YES 61.23 61.23 0.0
QDD_FW_C3_P01 YES 61.23 61.23 0.0
QDD_FW_C3_P02 YES 61.23 61.23 0.0
QDD_FW_C3_P03 YES 61.23 61.23 0.0
--------------------------------------------------------------------------------
NCS-57C3-MOD-SYS ALDRINFPGA(A) YES 1.04 1.04 0.0
Bootloader(A) YES 0.16 0.16 0.0
DBFPGA(A) YES 0.56 0.56 0.0
IOFPGA YES 0.101 0.101 0.0
MIFPGA YES 0.19 0.19 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
SSFP_E1F_0 NO 13.01 13.01 0.0
SSFP_E1F_1 NO 13.01 13.01 0.0
SSFP_E1F_10 NO 13.01 13.01 0.0
SSFP_E1F_11 NO 13.01 13.01 0.0
SSFP_E1F_12 NO 13.01 13.01 0.0
SSFP_E1F_13 NO 13.01 13.01 0.0
SSFP_E1F_14 NO 13.01 13.01 0.0
SSFP_E1F_15 NO 13.01 13.01 0.0
SSFP_E1F_16 NO 13.01 13.01 0.0
SSFP_E1F_17 NO 13.01 13.01 0.0
SSFP_E1F_18 NO 13.01 13.01 0.0
SSFP_E1F_19 NO 13.01 13.01 0.0
SSFP_E1F_2 NO 13.01 13.01 0.0
SSFP_E1F_20 NO 13.01 13.01 0.0
SSFP_E1F_21 NO 13.01 13.01 0.0
SSFP_E1F_22 NO 13.01 13.01 0.0
SSFP_E1F_23 NO 13.01 13.01 0.0
SSFP_E1F_24 NO 13.01 13.01 0.0
SSFP_E1F_25 NO 13.01 13.01 0.0
SSFP_E1F_26 NO 13.01 13.01 0.0
SSFP_E1F_27 NO 13.01 13.01 0.0
SSFP_E1F_28 NO 13.01 13.01 0.0
SSFP_E1F_29 NO 13.01 13.01 0.0
SSFP_E1F_3 NO 13.01 13.01 0.0
SSFP_E1F_30 NO 13.01 13.01 0.0
SSFP_E1F_31 NO 13.01 13.01 0.0
SSFP_E1F_32 NO 13.01 13.01 0.0
SSFP_E1F_33 NO 13.01 13.01 0.0
SSFP_E1F_34 NO 13.01 13.01 0.0
SSFP_E1F_35 NO 13.01 13.01 0.0
SSFP_E1F_36 NO 13.01 13.01 0.0
SSFP_E1F_37 NO 13.01 13.01 0.0
SSFP_E1F_38 NO 13.01 13.01 0.0
SSFP_E1F_39 NO 13.01 13.01 0.0
SSFP_E1F_4 NO 13.01 13.01 0.0
SSFP_E1F_40 NO 13.01 13.01 0.0
SSFP_E1F_41 NO 13.01 13.01 0.0
SSFP_E1F_42 NO 13.01 13.01 0.0
SSFP_E1F_43 NO 13.01 13.01 0.0
SSFP_E1F_44 NO 13.01 13.01 0.0
SSFP_E1F_45 NO 13.01 13.01 0.0
SSFP_E1F_46 NO 13.01 13.01 0.0
SSFP_E1F_47 NO 13.01 13.01 0.0
SSFP_E1F_5 NO 13.01 13.01 0.0
SSFP_E1F_6 NO 13.01 13.01 0.0
SSFP_E1F_7 NO 13.01 13.01 0.0
SSFP_E1F_8 NO 13.01 13.01 0.0
SSFP_E1F_9 NO 13.01 13.01 0.0
SSFP_OC3_STM1_0 NO 12.01 12.01 0.0
SSFP_OC3_STM1_1 NO 12.01 12.01 0.0
SSFP_OC3_STM1_10 NO 12.01 12.01 0.0
SSFP_OC3_STM1_11 NO 12.01 12.01 0.0
SSFP_OC3_STM1_12 NO 12.01 12.01 0.0
SSFP_OC3_STM1_13 NO 12.01 12.01 0.0
SSFP_OC3_STM1_14 NO 12.01 12.01 0.0
SSFP_OC3_STM1_15 NO 12.01 12.01 0.0
SSFP_OC3_STM1_16 NO 12.01 12.01 0.0
SSFP_OC3_STM1_17 NO 12.01 12.01 0.0
SSFP_OC3_STM1_18 NO 12.01 12.01 0.0
SSFP_OC3_STM1_19 NO 12.01 12.01 0.0
SSFP_OC3_STM1_2 NO 12.01 12.01 0.0
SSFP_OC3_STM1_20 NO 12.01 12.01 0.0
SSFP_OC3_STM1_21 NO 12.01 12.01 0.0
SSFP_OC3_STM1_22 NO 12.01 12.01 0.0
SSFP_OC3_STM1_23 NO 12.01 12.01 0.0
SSFP_OC3_STM1_24 NO 12.01 12.01 0.0
SSFP_OC3_STM1_25 NO 12.01 12.01 0.0
SSFP_OC3_STM1_26 NO 12.01 12.01 0.0
SSFP_OC3_STM1_27 NO 12.01 12.01 0.0
SSFP_OC3_STM1_28 NO 12.01 12.01 0.0
SSFP_OC3_STM1_29 NO 12.01 12.01 0.0
SSFP_OC3_STM1_3 NO 12.01 12.01 0.0
SSFP_OC3_STM1_30 NO 12.01 12.01 0.0
SSFP_OC3_STM1_31 NO 12.01 12.01 0.0
SSFP_OC3_STM1_32 NO 12.01 12.01 0.0
SSFP_OC3_STM1_33 NO 12.01 12.01 0.0
SSFP_OC3_STM1_34 NO 12.01 12.01 0.0
SSFP_OC3_STM1_35 NO 12.01 12.01 0.0
SSFP_OC3_STM1_36 NO 12.01 12.01 0.0
SSFP_OC3_STM1_37 NO 12.01 12.01 0.0
SSFP_OC3_STM1_38 NO 12.01 12.01 0.0
SSFP_OC3_STM1_39 NO 12.01 12.01 0.0
SSFP_OC3_STM1_4 NO 12.01 12.01 0.0
SSFP_OC3_STM1_40 NO 12.01 12.01 0.0
SSFP_OC3_STM1_41 NO 12.01 12.01 0.0
SSFP_OC3_STM1_42 NO 12.01 12.01 0.0
SSFP_OC3_STM1_43 NO 12.01 12.01 0.0
SSFP_OC3_STM1_44 NO 12.01 12.01 0.0
SSFP_OC3_STM1_45 NO 12.01 12.01 0.0
SSFP_OC3_STM1_46 NO 12.01 12.01 0.0
SSFP_OC3_STM1_47 NO 12.01 12.01 0.0
SSFP_OC3_STM1_5 NO 12.01 12.01 0.0
SSFP_OC3_STM1_6 NO 12.01 12.01 0.0
SSFP_OC3_STM1_7 NO 12.01 12.01 0.0
SSFP_OC3_STM1_8 NO 12.01 12.01 0.0
SSFP_OC3_STM1_9 NO 12.01 12.01 0.0
TimingIC-A YES 23.112 23.112 0.0
TimingIC-B YES 7.216 7.216 0.0
--------------------------------------------------------------------------------
NCS-57C3-MODS-SYS ALDRINFPGA(A) YES 1.04 1.04 0.0
Bootloader(A) YES 0.16 0.16 0.0
DBFPGA(A) YES 0.56 0.56 0.0
IOFPGA YES 0.101 0.101 0.0
MIFPGA YES 0.19 0.19 0.0
SATA-INTEL_240G(A) NO 1132.00 1132.00 0.0
SATA-INTEL_480G(A) NO 1132.00 1132.00 0.0
SATA-M500IT-MC(A) NO 3.00 3.00 0.0
SATA-M500IT-MU-A(A) NO 5.00 5.00 0.0
SATA-M500IT-MU-B(A) NO 4.00 4.00 0.0
SATA-M5100(A) NO 75.00 75.00 0.0
SATA-M600-MCT(A) NO 5.00 5.00 0.0
SATA-M600-MU(A) NO 6.00 6.00 0.0
SATA-Micron(A) NO 1.00 1.00 0.0
SATA-SMART-128G(A) NO 1241.00 1241.00 0.0
SSFP_E1F_0 NO 13.01 13.01 0.0
SSFP_E1F_1 NO 13.01 13.01 0.0
SSFP_E1F_10 NO 13.01 13.01 0.0
SSFP_E1F_11 NO 13.01 13.01 0.0
SSFP_E1F_12 NO 13.01 13.01 0.0
SSFP_E1F_13 NO 13.01 13.01 0.0
SSFP_E1F_14 NO 13.01 13.01 0.0
SSFP_E1F_15 NO 13.01 13.01 0.0
SSFP_E1F_16 NO 13.01 13.01 0.0
SSFP_E1F_17 NO 13.01 13.01 0.0
SSFP_E1F_18 NO 13.01 13.01 0.0
SSFP_E1F_19 NO 13.01 13.01 0.0
SSFP_E1F_2 NO 13.01 13.01 0.0
SSFP_E1F_20 NO 13.01 13.01 0.0
SSFP_E1F_21 NO 13.01 13.01 0.0
SSFP_E1F_22 NO 13.01 13.01 0.0
SSFP_E1F_23 NO 13.01 13.01 0.0
SSFP_E1F_24 NO 13.01 13.01 0.0
SSFP_E1F_25 NO 13.01 13.01 0.0
SSFP_E1F_26 NO 13.01 13.01 0.0
SSFP_E1F_27 NO 13.01 13.01 0.0
SSFP_E1F_28 NO 13.01 13.01 0.0
SSFP_E1F_29 NO 13.01 13.01 0.0
SSFP_E1F_3 NO 13.01 13.01 0.0
SSFP_E1F_30 NO 13.01 13.01 0.0
SSFP_E1F_31 NO 13.01 13.01 0.0
SSFP_E1F_32 NO 13.01 13.01 0.0
SSFP_E1F_33 NO 13.01 13.01 0.0
SSFP_E1F_34 NO 13.01 13.01 0.0
SSFP_E1F_35 NO 13.01 13.01 0.0
SSFP_E1F_36 NO 13.01 13.01 0.0
SSFP_E1F_37 NO 13.01 13.01 0.0
SSFP_E1F_38 NO 13.01 13.01 0.0
SSFP_E1F_39 NO 13.01 13.01 0.0
SSFP_E1F_4 NO 13.01 13.01 0.0
SSFP_E1F_40 NO 13.01 13.01 0.0
SSFP_E1F_41 NO 13.01 13.01 0.0
SSFP_E1F_42 NO 13.01 13.01 0.0
SSFP_E1F_43 NO 13.01 13.01 0.0
SSFP_E1F_44 NO 13.01 13.01 0.0
SSFP_E1F_45 NO 13.01 13.01 0.0
SSFP_E1F_46 NO 13.01 13.01 0.0
SSFP_E1F_47 NO 13.01 13.01 0.0
SSFP_E1F_5 NO 13.01 13.01 0.0
SSFP_E1F_6 NO 13.01 13.01 0.0
SSFP_E1F_7 NO 13.01 13.01 0.0
SSFP_E1F_8 NO 13.01 13.01 0.0
SSFP_E1F_9 NO 13.01 13.01 0.0
SSFP_OC3_STM1_0 NO 12.01 12.01 0.0
SSFP_OC3_STM1_1 NO 12.01 12.01 0.0
SSFP_OC3_STM1_10 NO 12.01 12.01 0.0
SSFP_OC3_STM1_11 NO 12.01 12.01 0.0
SSFP_OC3_STM1_12 NO 12.01 12.01 0.0
SSFP_OC3_STM1_13 NO 12.01 12.01 0.0
SSFP_OC3_STM1_14 NO 12.01 12.01 0.0
SSFP_OC3_STM1_15 NO 12.01 12.01 0.0
SSFP_OC3_STM1_16 NO 12.01 12.01 0.0
SSFP_OC3_STM1_17 NO 12.01 12.01 0.0
SSFP_OC3_STM1_18 NO 12.01 12.01 0.0
SSFP_OC3_STM1_19 NO 12.01 12.01 0.0
SSFP_OC3_STM1_2 NO 12.01 12.01 0.0
SSFP_OC3_STM1_20 NO 12.01 12.01 0.0
SSFP_OC3_STM1_21 NO 12.01 12.01 0.0
SSFP_OC3_STM1_22 NO 12.01 12.01 0.0
SSFP_OC3_STM1_23 NO 12.01 12.01 0.0
SSFP_OC3_STM1_24 NO 12.01 12.01 0.0
SSFP_OC3_STM1_25 NO 12.01 12.01 0.0
SSFP_OC3_STM1_26 NO 12.01 12.01 0.0
SSFP_OC3_STM1_27 NO 12.01 12.01 0.0
SSFP_OC3_STM1_28 NO 12.01 12.01 0.0
SSFP_OC3_STM1_29 NO 12.01 12.01 0.0
SSFP_OC3_STM1_3 NO 12.01 12.01 0.0
SSFP_OC3_STM1_30 NO 12.01 12.01 0.0
SSFP_OC3_STM1_31 NO 12.01 12.01 0.0
SSFP_OC3_STM1_32 NO 12.01 12.01 0.0
SSFP_OC3_STM1_33 NO 12.01 12.01 0.0
SSFP_OC3_STM1_34 NO 12.01 12.01 0.0
SSFP_OC3_STM1_35 NO 12.01 12.01 0.0
SSFP_OC3_STM1_36 NO 12.01 12.01 0.0
SSFP_OC3_STM1_37 NO 12.01 12.01 0.0
SSFP_OC3_STM1_38 NO 12.01 12.01 0.0
SSFP_OC3_STM1_39 NO 12.01 12.01 0.0
SSFP_OC3_STM1_4 NO 12.01 12.01 0.0
SSFP_OC3_STM1_40 NO 12.01 12.01 0.0
SSFP_OC3_STM1_41 NO 12.01 12.01 0.0
SSFP_OC3_STM1_42 NO 12.01 12.01 0.0
SSFP_OC3_STM1_43 NO 12.01 12.01 0.0
SSFP_OC3_STM1_44 NO 12.01 12.01 0.0
SSFP_OC3_STM1_45 NO 12.01 12.01 0.0
SSFP_OC3_STM1_46 NO 12.01 12.01 0.0
SSFP_OC3_STM1_47 NO 12.01 12.01 0.0
SSFP_OC3_STM1_5 NO 12.01 12.01 0.0
SSFP_OC3_STM1_6 NO 12.01 12.01 0.0
SSFP_OC3_STM1_7 NO 12.01 12.01 0.0
SSFP_OC3_STM1_8 NO 12.01 12.01 0.0
SSFP_OC3_STM1_9 NO 12.01 12.01 0.0
TimingIC-A YES 23.112 23.112 0.0
TimingIC-B YES 7.216 7.216 0.0 NCS 5700 Fixed Port Routers
Router# show fpd package
===============================================================================
Field Programmable Device Package
================================================
Req SW Min Req Min Req
Card Type FPD Description Reload Ver SW Ver Board Ver
=================== ========================== ====== ======= ======== =========
--------------------------------------------------------------------------------
NCS-57B1-5DSE-SYS ADM1_Config NO 0.50 0.50 0.0
ADM2_Config NO 0.50 0.50 0.0
ADM3_Config NO 0.50 0.50 0.0
IoFpga YES 0.09 0.09 0.0
IoFpgaGolden YES 0.09 0.08 0.0
Primary-BIOS YES 1.11 1.11 0.0
StdbyFpga YES 0.24 0.24 0.0
StdbyFpgaGolden YES 0.24 0.24 0.0
TamFw YES 6.05 6.05 0.0
TamFwGolden YES 6.05 6.05 0.0
--------------------------------------------------------------------------------
NCS-57B1-6D24-SYS ADM1_Config NO 0.94 0.94 0.0
ADM2_Config NO 0.94 0.94 0.0
ADM3_Config NO 0.94 0.94 0.0
IoFpga YES 0.09 0.09 0.0
IoFpgaGolden YES 0.09 0.08 0.0
Primary-BIOS YES 1.11 1.11 0.0
SsdIntelS4510 YES 11.20 11.20 0.0
SsdMicron5300 YES 0.01 0.01 0.0
StdbyFpga YES 0.24 0.24 0.0
StdbyFpgaGolden YES 0.24 0.24 0.0
TamFw YES 6.05 6.05 0.0
TamFwGolden YES 6.05 6.05 0.0
--------------------------------------------------------------------------------
NCS-57C1-48Q6-SYS ADM1_Config YES 0.07 0.07 0.0
ADM2_Config YES 0.07 0.07 0.0
IoFpga YES 0.47 0.47 0.0
IoFpgaGolden YES 0.47 0.47 0.0
Primary-BIOS YES 3.07 3.07 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
SsdMicron5300 YES 0.01 0.01 0.0
StdbyFpga YES 0.31 0.31 0.0
StdbyFpgaGolden YES 0.31 0.31 0.0
TamFw YES 7.10 7.10 0.0
TamFwGolden YES 7.10 7.10 0.0
--------------------------------------------------------------------------------
NCS-57D2-18DD-SYS ADM1-DBConfig YES 1.92 1.92 0.0
ADM2-DBConfig YES 1.92 1.92 0.0
ADM3-DBConfig YES 1.92 1.92 0.0
ADM4-MBConfig YES 1.92 1.92 0.0
ADM5-MBConfig YES 1.92 1.92 0.0
ADM6-MBConfig YES 1.92 1.92 0.0
FtFpga NO 0.20 0.20 0.0
FtFpgaGolden NO 0.20 0.00 0.0
IoFpga YES 0.06 0.06 0.0
IoFpgaDB YES 0.07 0.07 0.0
IoFpgaGolden YES 0.05 0.05 0.0
IoFpgaGoldenDB YES 0.05 0.05 0.0
Primary-BIOS YES 4.10 4.10 0.0
SsdIntelS4510 YES 11.32 11.32 0.0
SsdMicron5300 YES 0.01 0.01 0.0
StdbyFpga YES 0.96 0.96 0.0
StdbyFpgaGolden YES 0.83 0.83 0.0
TamFw YES 7.09 7.09 0.0
TamFwGolden YES 7.09 7.09 0.0
--------------------------------------------------------------------------------
PSU1100W-ACPI EM-PrimMCU NO 1.01 1.01 0.0
EM-SecMCU NO 1.05 1.05 0.0
--------------------------------------------------------------------------------
PSU2KW-ACPE PO-PrimMCU NO 17.56 17.56 0.0
--------------------------------------------------------------------------------
PSU2KW-ACPI PO-PrimMCU NO 1.03 1.03 0.0
PO-SecMCU NO 1.13 1.13 0.0
--------------------------------------------------------------------------------
PSU2KW-DCPE PO-PrimMCU NO 17.56 17.56 0.0
--------------------------------------------------------------------------------
PSU2KW-DCPI PO-PrimMCU NO 1.07 1.07 0.0
--------------------------------------------------------------------------------
PSU950W-DCPI EM-PrimMCU NO 1.00 1.00 0.0 This sample output is for show hw-module fpd command from the Admin mode:
sysadmin-vm:0_RP0# show hw-module fpd
FPD Versions
==============
Location Card type HWver FPD device ATR Status Run Programd
------------------------------------------------------------------------------------
0/0 NC57-48Q2D-SE-S 0.4 ALDRINFPGA CURRENT 1.06 1.06
0/0 NC57-48Q2D-SE-S 0.4 Bootloader CURRENT 1.00 1.00
0/0 NC57-48Q2D-SE-S 0.4 DBFPGA CURRENT 0.14 0.14
0/0 NC57-48Q2D-SE-S 0.4 IOFPGA CURRENT 0.105 0.105
0/0 NC57-48Q2D-SE-S 0.4 SATA-INTEL_240G CURRENT 1132.00 1132.00
0/1 NC57-18DD-SE 1.1 Bootloader CURRENT 1.03 1.03
0/1 NC57-18DD-SE 1.1 DBFPGA CURRENT 0.14 0.14
0/1 NC57-18DD-SE 1.1 IOFPGA CURRENT 0.22 0.22
0/1 NC57-18DD-SE 1.1 SATA-M5100 CURRENT 75.00 75.00
0/2 NC57-18DD-SE 1.1 Bootloader CURRENT 1.03 1.03
0/2 NC57-18DD-SE 1.1 DBFPGA CURRENT 0.14 0.14
0/2 NC57-18DD-SE 1.1 IOFPGA CURRENT 0.22 0.22
0/2 NC57-18DD-SE 1.1 SATA-M5100 CURRENT 75.00 75.00
0/3 NC57-18DD-SE 1.1 Bootloader CURRENT 1.03 1.03
0/3 NC57-18DD-SE 1.1 DBFPGA CURRENT 0.14 0.14
0/3 NC57-18DD-SE 1.1 IOFPGA CURRENT 0.22 0.22
0/3 NC57-18DD-SE 1.1 SATA-M5100 CURRENT 75.00 75.00
0/4 NC57-36H-SE 0.201 Bootloader CURRENT 1.03 1.03
0/4 NC57-36H-SE 0.201 DBFPGA CURRENT 0.14 0.14
0/4 NC57-36H-SE 0.201 IOFPGA CURRENT 0.05 0.05
0/4 NC57-36H-SE 0.201 SATA-M5100 CURRENT 75.00 75.00
0/5 NC57-18DD-SE 1.1 Bootloader CURRENT 1.03 1.03
0/5 NC57-18DD-SE 1.1 DBFPGA CURRENT 0.14 0.14
0/5 NC57-18DD-SE 1.1 IOFPGA CURRENT 0.22 0.22
0/5 NC57-18DD-SE 1.1 SATA-M5100 CURRENT 75.00 75.00
0/6 NC57-18DD-SE 1.1 Bootloader CURRENT 1.03 1.03
0/6 NC57-18DD-SE 1.1 DBFPGA CURRENT 0.14 0.14
0/6 NC57-18DD-SE 1.1 IOFPGA CURRENT 0.22 0.22
0/6 NC57-18DD-SE 1.1 SATA-M5100 CURRENT 75.00 75.00
0/7 NC57-36H-SE 1.0 Bootloader CURRENT 1.03 1.03
0/7 NC57-36H-SE 1.0 DBFPGA CURRENT 0.14 0.14
0/7 NC57-36H-SE 1.0 IOFPGA CURRENT 0.05 0.05
0/7 NC57-36H-SE 1.0 SATA-Micron CURRENT 1.00 1.00
0/RP0 NC55-RP2-E 1.0 Bootloader CURRENT 0.09 0.09
0/RP0 NC55-RP2-E 1.0 IOFPGA CURRENT 0.50 0.50
0/RP0 NC55-RP2-E 1.0 OMGFPGA CURRENT 0.52 0.52
0/RP0 NC55-RP2-E 1.0 SATA-M5100 CURRENT 75.00 75.00
0/RP1 NC55-RP2-E 1.0 Bootloader CURRENT 0.09 0.09
0/RP1 NC55-RP2-E 1.0 IOFPGA CURRENT 0.50 0.50
0/RP1 NC55-RP2-E 1.0 OMGFPGA CURRENT 0.52 0.52
0/RP1 NC55-RP2-E 1.0 SATA-M5100 CURRENT 75.00 75.00
0/FC0 NC55-5508-FC2 1.0 Bootloader CURRENT 1.80 1.80
0/FC0 NC55-5508-FC2 1.0 IOFPGA CURRENT 0.19 0.19
0/FC0 NC55-5508-FC2 1.0 SATA-M5100 CURRENT 75.00 75.00
0/FC1 NC55-5508-FC2 1.0 Bootloader CURRENT 1.80 1.80
0/FC1 NC55-5508-FC2 1.0 IOFPGA CURRENT 0.19 0.19
0/FC1 NC55-5508-FC2 1.0 SATA-M5100 CURRENT 75.00 75.00
0/FC2 NC55-5508-FC2 1.0 Bootloader CURRENT 1.80 1.80
0/FC2 NC55-5508-FC2 1.0 IOFPGA CURRENT 0.19 0.19
0/FC2 NC55-5508-FC2 1.0 SATA-M5100 CURRENT 75.00 75.00
0/FC3 NC55-5508-FC2 1.0 Bootloader CURRENT 1.80 1.80
0/FC3 NC55-5508-FC2 1.0 IOFPGA CURRENT 0.19 0.19
0/FC3 NC55-5508-FC2 1.0 SATA-M5100 CURRENT 75.00 75.00
0/FC4 NC55-5508-FC2 1.0 Bootloader CURRENT 1.80 1.80
0/FC4 NC55-5508-FC2 1.0 IOFPGA CURRENT 0.19 0.19
0/FC4 NC55-5508-FC2 1.0 SATA-M5100 CURRENT 75.00 75.00
0/FC5 NC55-5508-FC2 1.0 Bootloader CURRENT 1.80 1.80
0/FC5 NC55-5508-FC2 1.0 IOFPGA CURRENT 0.19 0.19
0/FC5 NC55-5508-FC2 1.0 SATA-M5100 CURRENT 75.00 75.00
0/SC0 NC55-SC 1.4 Bootloader CURRENT 1.74 1.74
0/SC0 NC55-SC 1.4 IOFPGA CURRENT 0.10 0.10
0/SC1 NC55-SC 1.4 Bootloader CURRENT 1.74 1.74
0/SC1 NC55-SC 1.4 IOFPGA CURRENT 0.10 0.10 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 total number of bridge-domains (2*BDs) and GRE tunnels put together should not exceed 1518. Here the number 1518 represents the multi-dimensional scale value.
-
The offline diagnostics functionality is not supported in NCS 5500 platform. Therefore, the hw-module service offline location command will not work. However, you can use the (sysadmin)# hw-module shutdown location command to bring down the LC.
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.
Upgrading Cisco IOS XR Software
Cisco IOS XR Software is installed and activated from modular packages, allowing specific features or software patches to be installed, upgraded, or downgraded without affecting unrelated processes. Software packages can be upgraded or downgraded on all supported card types, or on a single card (node).
Before starting the software upgrade, use the show install health command in the admin mode. This command validates if the statuses of all relevant parameters of the system are ready for the software upgrade without interrupting the system.
Note |
You can ignore these messages and proceed with the installation operation.
|
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.
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 NCS 5500 router documentation is located at the following URL:
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