UCMP Load Balancing

Table 1. Feature History

Feature Name

Release Information

Description

UCMP Load Balancing

Cisco IOS XE Dublin 17.12.1

This feature provides the capability to load balance traffic proportionally across multiple paths, with different cost.

Prior to this release, the higher bandwidth links used to carry the same traffic as the lower bandwidth links were underutilized.

Use the following new command to configure local Unequal Cost Multi Path (UCMP):

ucmp local prefix-list prefix-list-name

Cisco IOS XE Cupertino 17.8.1

Load balancing is a forwarding mechanism that distributes traffic over multiple links based on certain parameters. Prior to Cisco IOS XE Cupertino Release 17.8.1, the traffic with different bandwidths could not be load balanced. Configuring same metric would make higher bandwidth links carry the same traffic as the lower bandwidth links. Hence, the higher bandwidth links were underutilized.

Generally, higher bandwidth paths have lower Interior Gateway Protocol (IGP) metrics configured, so that they form the shortest IGP paths. Starting with Cisco IOS XE Cupertino Release 17.8.1, with the Unequal Cost Multi Path (UCMP) load balancing enabled, protocols can use even lower bandwidth paths or higher cost paths for traffic, and can install these paths to the Forwarding Information Base (FIB). This feature is only supported on Intermediate System to Intermediate System (IS-IS) protocol.

Starting with Cisco IOS XE Dublin 17.12.1, UCMP is supported on NCS 4201 and 4202 Series Routers.

Starting with Cisco IOS XE Cupertino 17.8.1, UCMP is supported on NCS 4206 and 4216 Series Routers.

Figure 1. Example 1: Topology for UCMP

Consider the above topology where there are nine 10G POS links from A1 to C1 and three 40G gigabit ethernet links from A1 to C2. If you want to load balance traffic from A1 to A2, across all the links from A1 to C1 and A1 to C2, you must configure equal metric on all the links. This will create Equal Cost Multipath (ECMP) paths. However, the higher bandwidth links will carry the same traffic as the lower bandwidth links and the higher bandwidth links are underutilized. More specifically, if 9X10G POS links together carry a load of 90 units, then the 3X40G links should also carry a “load” of 90 units, though they have a capability of carrying a total load of 120 units.

To avoid this problem, UCMP allows you configure all the links to distribute the traffic proportionately across the links based on bandwidth, even if the configured metrics on all links are the same. With the UCMP load-balancing enabled, the protocols still install multiple paths to the same destination in FIB, but each path will have a 'load metric/weight' associated with it. FIB uses this load metric/weight to decide the amount of traffic that needs to be sent on a higher bandwidth path and the amount of traffic that needs to be sent on a lower bandwidth path.

In the following example, there are three paths to reach Network X as follows:
Figure 2. Example 2: Topology for UCMP

Paths

Cost from Router E to Net -X

E-B-A

40

E-C-A

50

E-D-A

40

IGP selects the lowest path links, i.e E-B-A and E-D-A. The path E-C-A is not considered for load balancing because of higher cost. The lowest path link E-D (5) is not a tie breaker, as the end to end cost to the Network X is considered.

ECMP vs UCMP

Equal Cost Multi Path (ECMP) is a forwarding mechanism for routing packets along multiple paths of equal cost with the goal to achieve almost equally distributed link load sharing. This significantly impacts a router's next-hop (path) decision.

UCMP applies a weight to a path. The weight applied is static and is derived by the DMZ bandwidth extended community either assigned to a peer or as configured via the Route Policy Language (RPL) route manipulation functionality.

In local UCMP, the best paths have the same metric. Though the metrics are same, IGP calculates the 'load metric or weight' that is based on the bandwidth of each of the links. This information is passed on to FIB and FIB takes care of load balancing the traffic accordingly across the links.

Advantages of UCMP

  • This is a simple process.

  • No major changes are required in IGP other than obtaining the bandwidth of the links. You can calculate local UCMP weights based on bandwidths and pass the information to RIB or FIB.

Configure UCMP Load Balancing

To enable UCMP load balancing for IS-IS protocol per address family:

router isis
ucmp local prefix-list prefix-list-name

To enable local UCMP to calculate local weights based on bandwidths for IPv4 MT-0 routes:

router isis
  address-family ipv4 unicast
  ucmp prefix-list list1

To enable local UCMP for IPv6 address family:

router isis
  address-family ipv6 
    ucmp local prefix-list prefix-list-name

Verification of UCMP Configuration

Use show ip route to verify local UCMP configuration:

R1#show ip route 12.12.12.12
Routing entry for 12.12.12.12/32
  Known via "isis", distance 115, metric 60, type level-2
  Redistributing via isis 1
  Last update from 140.0.0.2 on BDI140, 00:00:09 ago
  Routing Descriptor Blocks:
  * 141.0.0.2, from 12.12.12.12, 00:00:09 ago, via BDI141, prefer-non-rib-labels, merge-labels
      Route metric is 60, traffic share count is 1
      MPLS label: 17012
      MPLS Flags: NSF
      Repair Path: 140.0.0.2, via BDI140
    140.0.0.2, from 12.12.12.12, 00:00:09 ago, via BDI140, prefer-non-rib-labels, merge-labels
      Route metric is 60, traffic share count is 10----UCMP Enabled,7:1 load share Expected
      MPLS label: 17012
      MPLS Flags: NSF
      Repair Path: 141.0.0.2, via BDI141