A short note on graphs with long Thomason chains

“…A specific algorithm that has been frequently studied in this light is Thomasen's lollipop algorithm for finding a second Hamiltonian cycle in an (explicit) cubic graph by following a path in a much larger implicit graph defined from the given graph [50]. Although some inputs cause this algorithm to take exponential time [6,7,58] the complexity of finding a second Hamiltonian cycle in a different way is unknown, and was one of the motivating problems for the definition of PPA [44]. We formulate the same question in a different way, asking how hard it is to find the same cycle that Thomasen's algorithm finds, but again the complexity of this problem remains unknown.…”

The Complexity of Iterated Reversible Computation

“…A specific algorithm that has been frequently studied in this light is Thomasen's lollipop algorithm for finding a second Hamiltonian cycle in an (explicit) cubic graph by following a path in a much larger implicit graph defined from the given graph [50]. Although some inputs cause this algorithm to take exponential time [6,7,58] the complexity of finding a second Hamiltonian cycle in a different way is unknown, and was one of the motivating problems for the definition of PPA [44]. We formulate the same question in a different way, asking how hard it is to find the same cycle that Thomasen's algorithm finds, but again the complexity of this problem remains unknown.…”

The Complexity of Iterated Reversible Computation

“…A specific algorithm that has been frequently studied in this light is Thomasen's lollipop algorithm for finding a second Hamiltonian cycle in an (explicit) cubic graph by following a path in a much larger implicit graph defined from the given graph [42]. Although some inputs cause this algorithm to take exponential time [4,5,50] the complexity of finding a second Hamiltonian cycle in a different way is unknown, and was one of the motivating problems for the definition of PPA [35]. We formulate the same question in a different way, asking how hard it is to find the same cycle that Thomasen's algorithm finds, but again the complexity of this problem remains unknown.…”

“…This is an instance of the second leaf problem, in an implicit graph of maximum degree two (not necessarily a linear forest). It is known that some instances may cause Thomason's lollipop algorithm to take an exponential number of steps [4,5,26,50], but while this settles the complexity of this specific algorithm, it leaves open the complexity of the functional problem solved by the algorithm.…”

The Complexity of Iterated Reversible Computation