Data Centers have been steadily growing to commonly host tens of thousands of end points, or more, in a single network. Because of their topologies (traditional and emerging), traffic patterns, need for fast restoration, and for low human intervention, data center networks have a unique set of requirements that is resulting in the design of routing solutions specific to them. Clos and Fat-Tree topologies have gained popularity in data center networks as a result of a trend towards centralized data center network architectures that may deliver computation and storage services. The Routing in Fat Trees (RIFT) protocol addresses the demands of routing in Clos and Fat-Tree networks via a mixture of both link-state and distance-vector techniques colloquially described as 'link-state towards the spine and distance vector towards the leafs'. RIFT uses this hybrid approach to focus on networks with regular topologies with a high degree of connectivity, a defined directionality, and large scale. The RIFT WG has finished the base protocol specification (draft-ietf-rift-rift-20) and will continue to work on standards track specifications on the following: - Key-Value Data Store - Policy Guided Prefix - Segment Routing - RIFT extensions to support Segment Routing - Using RIFT Zero Touch Provisioning procedures (as the management plane) to carry attributes that allow provision and instantiation of other protocols, such as: - EVPN, by distributing EVPN attributes (defined in RFC7342) such as VNIs, RTs and RDs - IS-IS, by distributing Flood Reflection attributes (defined in RFC9377) such as Flood Reflection Cluster IDs and related IS-IS attributes - Multicast - RIFT extensions to allow building of multicast trees - Leaf ring topologies - RIFT extensions to build leaf ring topologies - Dragonfly topologies - RIFT extensions to build ToF ring topologies The RIFT WG will also explore the use and extensions of the RIFT protocol for the newer AI/ML Data Center architectures.