Optimal Resources for Topological 2D Stabilizer Codes: Comparative Study
Abstract
We study the resources needed to construct topological 2D stabilizer codes as a way to estimate in part their efficiency and this leads us to perform a comparative study of surface codes and color codes. This study clarifies the similarities and differences between these two types of stabilizer codes. We compute the error correcting rate C:=n/d2 for surface codes Cs and color codes Cc in several instances. On the torus, typical values are Cs=2 and Cc=3/2, but we find that the optimal values are Cs=1 and Cc=9/8. For planar codes, a typical value is Cs=2, while we find that the optimal values are Cs=1 and Cc=3/4. In general, a color code encodes twice as much logical qubits as a surface code does.
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