Let G be a graph with connectivity κ(G). It follows from Menger''s Theorem that there are k vertex-disjoint paths joining any two distinct vertices when k ≦κ(G). A k -container C ( u, v) of a graph G is a set of k vertex-disjoint paths between u and v. A k-container is a k*-container if it contains all vertices of G . A graph G is k*-connected if there exists a k*-container between any two vertices. A graph G is super spanning connected if G is k*-connected for every 1 ≦ k ≦κ(G). However, we need some modification as we study bipartite k-connected graphs. A bipartite graph G is k*-laceable if there exists a k*-container between any two vertices from different partite sets. A bipartite graph G is super spanning laceable if G is k*-laceable for 1 ≦ k ≦ κ(G). A k*-container C ( u, v) ={ P1, … , Pk } is equitable if | | Pi | - | Pj | | ≦ 2, 1 ≦ i , j ≦ k. The hypercube Qn is one of the most popular networks. In this thesis, we will discuss that the spanning connectivity, the spanning laceability, and related problems of hypercube Qn, folded hypercube FQn, and enhanced hypercube Qn,m.