The cost of universality: A comparative study of the overhead of state distillation and code switching with color codes

TL;DR

This paper compares the overhead of two fault-tolerance schemes for implementing the T gate in 2D color codes, finding that code switching offers no significant advantage over state distillation in practical regimes.

Contribution

It provides the first direct comparison of overheads between state distillation and code switching for T gate implementation in 2D color codes.

Findings

Code switching does not significantly reduce overhead compared to state distillation.

The optimized 2D color code achieves a circuit noise threshold of 0.37%.

The 3D color code with perfect measurements has a threshold of 0.80%.

Abstract

Estimating and reducing the overhead of fault tolerance (FT) schemes is a crucial step toward realizing scalable quantum computers. Of particular interest are schemes based on two-dimensional (2D) topological codes such as the surface and color codes which have high thresholds but lack a natural implementation of a non-Clifford gate. In this work, we directly compare two leading FT implementations of the T gate in 2D color codes under circuit noise across a wide range of parameters in regimes of practical interest. We report that implementing the T gate via code switching to a 3D color code does not offer substantial savings over state distillation in terms of either space or space-time overhead. We find a circuit noise threshold of 0.07(1)% for the T gate via code switching, almost an order of magnitude below that achievable by state distillation in the same setting. To arrive at these results, we provide and simulate an optimized code switching procedure, and bound the effect of various conceivable improvements. Many intermediate results in our analysis may be of independent interest. For example, we optimize the 2D color code for circuit noise yielding its largest threshold to date 0.37(1)%, and adapt and optimize the restriction decoder finding a threshold of 0.80(5)% for the 3D color code with perfect measurements under Z noise. Our work provides a much-needed direct comparison of the overhead of state distillation and code switching, and sheds light on the choice of future FT schemes and hardware designs.