New Hardware Features for NCS 4206 and NCS 4216 in Cisco IOS XE Amsterdam 17.1.1a
There are no new hardware features for this release.
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This chapter describes the new hardware and software features supported on the Cisco NCS 4200 Series in this release.
There are no new hardware features for this release.
The transceiver module is a logical entity that represents a Transceiver equipment. The module can be created using a CLI command or created automatically when the Transceiver (pluggable) is inserted into a port. The transceiver connected to port supports the Auto In-Service State (AINS) functionality. For example, if an alarm is raised during the AINS state, then the alarm is not reported, and the syslog is not generated. You need to enable AINS under the alarms profile and the profile should be attached to the corresponding port.
For more information, see Auto In-Service States, Cisco IOS XE 17 (Cisco NCS 4200 Series).
The selective address tracking for Border Gateway Protocol (BGP) next hop fallover with maximum-metric can be enabled using the neighbor ip-address fall-over route-map command.
For more information on the command, see Cisco IOS IP Routing: BGP Command Reference.
The router supports electrical card protection feature with 1:1 protection, or during events such as when interface module stops responding, software stops responding, or issues in other hardware components.
For more information, see 48-Port T3/E3 CEM Interface Module Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).
The Differentiated Services Code Point (DSCP) value does not change on both the uniform and pipe modes.
For more information, see QoS: Classification Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).
The EVPN Single-Homing feature utilizes the functionality defined in RFC 7432 (BGP MPLS-based Ethernet VPN), to achieve single-homing between a Provider Edge (PE) and a Customer Edge (CE) device.
For more information, see the MPLS Layer 2 VPNs Configuration Guide, Cisco IOS XE 17 (NCS 4200 Series).
EVPN-VPWS single homing is a BGP control plane solution for point-to-point services. It has the ability to forward traffic from one network to another using Ethernet Segment without MAC lookup. EVPN-VPWS single homing works on both IP and SR core. IP core is used to support BGP while the SR core is used to switch packets between the endpoints.
For more information, see the Segment Routing Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).The routers report the protocol status using syslog or trap alarm notifications. Few syslogs and traps are not cleared when the router gets disconnected or reloaded. As a result, the alarms are not notified.
To avoid this, a new command, show facility protocol status, is introduced that displays the output of the following routing protocols status at any interval of time: IS-IS, OSPF, BGP, LDP, PTP, HSRP, BFD, TE tunnels, Bundles, pseudowires, EVPN pseudowires, CFM, SYncE, and sensor threshold violations.
For more information, see the see the Cisco NCS 4200 Series Software Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).
The IETF Two-Way Active Measurement Protocol (TWAMP) defines a standard for measuring round-trip network performance between any two devices that support the TWAMP protocols. The TWAMP control protocol is used to set up performance measurement sessions. It is also used to send and receive performance measurement probes.
For more information on TWAMP Responder, see the IP SLAs Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).
The Multilink Point-to-Point (MLPPP) interworking supports IPv4 Layer 2 VPN Interworking with T1 or E1 bundles on the Cisco RSP3 module. The MLPPP interworking enables service providers (offering relatively low-speed links) to use MLP and spread traffic across them in their MPLS networks. The MPLS Multilink PPP feature reduces the number of Interior Gateway Protocol (IGP) adjacencies and facilitates load sharing of traffic.
For more information, see 1 port OC-48/STM-16 or 4 port OC-12/OC-3 / STM-1/STM-4 + 12 port T1/E1 + 4 port T3/E3 CEM Interface Module Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).
The Multilink Point-to-Point (MLPPP) interworking supports IPv6 Layer 2 VPN Interworking with T1 or E1 bundles on the Cisco RSP3 module. The MLPPP interworking enables service providers (offering relatively low-speed links) to use MLP and spread traffic across them in their MPLS networks. The MPLS Multilink PPP feature reduces the number of Interior Gateway Protocol (IGP) adjacencies and facilitates load sharing of traffic.
For more information, see 1 port OC-48/STM-16 or 4 port OC-12/OC-3 / STM-1/STM-4 + 12 port T1/E1 + 4 port T3/E3 CEM Interface Module Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).
The IPv6 interworking is supported for Layer 2 VPN interworking mode. The IPv6 interworking is supported only for HDLC or PPP to Ethernet. Layer 3 termination is supported with serial interfaces with HDLC or PPP encapsulation.
For more information, see 1 port OC-48/STM-16 or 4 port OC-12/OC-3 / STM-1/STM-4 + 12 port T1/E1 + 4 port T3/E3 CEM Interface Module Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).
The IPv6 interworking is supported with ACR for Layer 2 VPN.
For more information, see 1 port OC-48/STM-16 or 4 port OC-12/OC-3 / STM-1/STM-4 + 12 port T1/E1 + 4 port T3/E3 CEM Interface Module Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).
Layer 3 VPN on multichassis LACP (mLACP) is supported in the Cisco RSP3 Module using the port-channel mc-lag command.
For more information on the mLACP support, see Ethernet Channel Configuration Guide Cisco IOS XE 17 (Cisco NCS 4200 Series).
The Lawful Intercept (LI) feature provides electronic surveillance as authorized by a judicial or administrative order for service provider routers. The Lawful Intercept is based on RFC3924 and Simple Network Management Protocol Version 3 (SNMPv3) provisioning architecture.
For more information on Lawful Intercept, see the System Security Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).
The Precision Time Protocol (PTP) is a protocol used to synchronize clocks throughout a network. The PTP Multiprofile support is configured on a PTP boundary clock by translating one PTP profile at PTP slave port to other PTP profile at PTP master port. To translate PTP properties from one profile to other, a special type of inter-op clock-port is introduced. This special clock-port is configured with the required profile and domain information.
For more information on PTP Multiprofile, see the Timing and Synchronization Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).
Egress packet classification is performed based on priority-based flow-control (PFC) to ensure that there are no drop in packets.
For more information on oversubscription, see Cisco NCS 4200 Router Series Configuration Guide, Cisco IOS XE 17.
This feature allows the advertisement and reception of the extended TE link delay metrics without any additional configuration required in IS-IS, OSPF or BGP-IS. When the link delay values are configured, they are flooded in the PCE topology and when the path computation is requested, these values are used for path calculation.
For more information, see the Segment Routing Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).
Network performance metrics such as packet loss, delay, delay variation, and bandwidth utilization is a critical measure for traffic engineering (TE) in service provider networks. These metrics provide network operators with information about characteristics of their networks for performance evaluation and helps to ensure compliance with service level agreements. The service-level agreements (SLAs) of service providers depend on the ability to measure and monitor these network performance metrics.
For more information, see the Segment Routing Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).
There are no new hardware features for this release.
The EVPN Single-Homing feature utilizes the functionality defined in RFC 7432 (BGP MPLS-based Ethernet VPN), to achieve single-homing between a Provider Edge (PE) and a Customer Edge (CE) device.
For more information, see the MPLS Layer 2 VPNs Configuration Guide, Cisco IOS XE 17 (NCS 4200 Series).
EVPN-VPWS single homing is a BGP control plane solution for point-to-point services. It has the ability to forward traffic from one network to another using Ethernet Segment without MAC lookup. EVPN-VPWS single homing works on both IP and SR core. IP core is used to support BGP while the SR core is used to switch packets between the endpoints.
For more information, see the Segment Routing Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).The following Programmability features are supported from this release:
gRPC Network Management Interface (gNMI)—Model-driven configuration and retrieval of operational data using the gNMI capabilities, GET and SET RPCs.
Model Driven Telemetry - gNMI Dial-In—Support for telemetry subscriptions and updates over a gRPC Network Management Interface (gNMI).
TLS for gRPC Dial-Out—Support for TLS for gRPC dial-out.
For more information, see the Programmability Guide, Cisco IOS XE Amsterdam 17.1.x.
FPGA measures parameters such as throughput, frame loss, jitter, and delay for SADT.
FPGA has the capability to generate and measure only 1 Gbps traffic rate and hence maximum throughput cannot be achieved.
To overcome this limitation, use the platform y1564 shadow-session-enable command to replicate the packets 10 times in FPGA.
For more information, see IP SLAs Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).
This feature allows the advertisement and reception of the extended TE link delay metrics without any additional configuration required in IS-IS, OSPF or BGP-IS. When the link delay values are configured, they are flooded in the PCE topology and when the path computation is requested, these values are used for path calculation.
For more information, see the Segment Routing Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).
Network performance metrics such as packet loss, delay, delay variation, and bandwidth utilization is a critical measure for traffic engineering (TE) in service provider networks. These metrics provide network operators with information about characteristics of their networks for performance evaluation and helps to ensure compliance with service level agreements. The service-level agreements (SLAs) of service providers depend on the ability to measure and monitor these network performance metrics.
For more information, see the Segment Routing Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).
The routers with Cisco RSP2 module support the newer segment routed Traffic Engineering (SR-TE) policy and you can enbale the policy using the segment-routing traffic-eng command.
For more information, see the Segment Routing Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).
The routers with Cisco RSP2 module support the color extended community with the following feature support:
An egress router adds the color extended community to the BGP updates that require a Traffic-Engineered path.
An SR-TE policy is created on the ingress router for the color-endpoint pair.
For more information, see the Segment Routing Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).
The VCoP smart SFP is now supported on DS1.
For more information on VCoP Smart SFP, see the Time Division Multiplexing Configuration Guide, Cisco IOS XE 17 (Cisco NCS 4200 Series).