The puzzle consists of a set of disks of different sizes, placed in increasing order of size on a fixed set of towers. The Hanoi graph for a puzzle with disks on towers is denoted. Each state of the puzzle is determined by the choice of one tower for each disk, so the graph has vertices. In the moves of the puzzle, the smallest disk on one tower is moved either to an unoccupied tower or to a tower whose smallest disk is larger. If there are unoccupied towers, the number of allowable moves is which ranges from a maximum of to . Therefore, the degrees of the vertices in the Hanoi graph range from a maximum of to a minimum of. The total number of edges is For there is only one state of the puzzle and one vertex of the graph. For, the Hanoi graph can be decomposed into copies of the smaller Hanoi graph, one for each placement of the largest disk. These copies are connected to each other only at states where the largest disk is free to move: it is the only disk in its tower, and some other tower is unoccupied.
General properties
Every Hanoi graph contains a Hamiltonian cycle. The Hanoi graph is a complete graph on vertices. Because they contain complete graphs, all larger Hanoi graphs require at least colors in any graph coloring. They may be colored with exactly colors by summing the indexes of the towers containing each disk, and using the sum modulo as the color.
Three towers
A particular case of the Hanoi graphs that has been well studied since the work of is the case of the three-tower Hanoi graphs,. These graphs have Power of three| vertices. They are penny graphs, with an arrangement of disks that resembles the Sierpinski triangle. One way of constructing this arrangement is to arrange the numbers of Pascal's triangle on the points of a hexagonal lattice, with unit spacing, and place a unit disk on each point whose number is odd. The diameter of these graphs, and the length of the solution to the standard form of the Tower of Hanoi puzzle is.
More than three towers
For, the structure of the Hanoi graphs is not as well understood, and the diameter of these graphs is unknown. When and or when and, these graphs are nonplanar.