The SD-Access control-plane node maintains the endpoint database and resolves mappings between endpoints and the fabric edge nodes where those endpoints are located. Cisco SD-Access uses LISP in the fabric control plane. Edge nodes register endpoint identifiers with the control-plane node, and other fabric nodes query the control plane when they need to locate a destination endpoint. This control-plane function is commonly described through LISP Map-Server and Map-Resolver behavior. Option B is not correct because endpoint detection occurs at the edge node, not at the control-plane node. The edge is the device connected to users, access points, or endpoint-facing networks, so it learns local endpoint presence and registers that information. Option C refers to authentication and identity, which is integrated with Cisco ISE. Option D describes the border-node role, because border nodes connect the fabric to external networks. The corrected answer is therefore A. A stable SD-Access design must provide redundant control-plane reachability and scale the control-plane role according to fabric size, mobility, and endpoint churn. Reference topics: SD-Access control plane, LISP Map-Server, LISP Map-Resolver, endpoint-to-location mapping.