English

Machines as Programs: P $\neq$ NP

Computational Complexity 2021-09-23 v1 Logic in Computer Science Logic

Abstract

The Curry-Howard correspondence is often called the proofs-as-programs result. I offer a generalization of this result, something which may be called machines as programs. Utilizing this insight, I introduce two new Turing Machines called "Ceiling Machines." The formal ingredients of these two machines are nearly identical. But there are crucial differences, splitting the two into a "Higher Ceiling Machine" and a "Lower Ceiling Machine." A potential graph of state transitions of the Higher Ceiling Machine is then offered. This graph is termed the "canonically nondeterministic solution" or CNDS, whose accompanying problem is its own replication, i.e., the problem, "Replicate CNDS" (whose accompanying algorithm is cast in Martin-L\"of type theory). I then show that while this graph can be replicated (solved) in polynomial time by a nondeterministic machine -- of which the Higher Ceiling Machine is a canonical example -- it cannot be solved in polynomial time by a deterministic machine, of which the Lower Ceiling Machine is also canonical. It is consequently proven that P \neq NP.

Keywords

Cite

@article{arxiv.2109.10670,
  title  = {Machines as Programs: P $\neq$ NP},
  author = {Jonathan J. Mize},
  journal= {arXiv preprint arXiv:2109.10670},
  year   = {2021}
}

Comments

23 pages, 2 figures

R2 v1 2026-06-24T06:12:50.691Z