| Popis: |
In this article, we establish a mathematical framework that utilizes concepts from graph theory to define the parity transformation as a mapping that encompasses all possible compiled hypergraphs, and investigate uniqueness properties of this mapping in more detail. By introducing so-called loop labelings, we derive an alternative expression of the preimage of any set of compiled hypergraphs under this encoding procedure when all equivalences classes of graphs are being considered. We then deduce equivalent conditions for the injectivity of the parity transformation on any subset of all equivalences classes of graphs. Moreover, we show concrete examples of optimization problems demonstrating that the parity transformation is not an injective mapping, and also introduce an important class of plaquette layouts and their corresponding set of constraints whose preimage is uniquely determined. In addition, we provide an algorithm which is based on classical algorithms from theoretical computer science and computes a compiled physical layout in this class in polynomial time. |
