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Quantum Algorithms
Ancilla-driven instantaneous quantum polynomial time circuit for quantum supremacy
arXiv
Authors: Yuki Takeuchi, Yasuhiro Takahashi
Year
2016
Paper ID
42617
Status
Preprint
Abstract Read
~2 min
Abstract Words
168
Citations
N/A
Abstract
Instantaneous quantum polynomial time (IQP) is a model of (probably) non-universal quantum computation. Since it has been proven that IQP circuits are unlikely to be simulated classically up to a multiplicative error and an error in the l1 norm, IQP is considered as one of the promising classes that demonstrates quantum supremacy. Although IQP circuits can be realized more easily than a universal quantum computer, demonstrating quantum supremacy is still difficult. It is therefore desired to find subclasses of IQP that are easy to implement. In this paper, by imposing some restrictions on IQP, we propose ancilla-driven IQP (ADIQP) as the subclass of commuting quantum computation suitable for many experimental settings. We show that even though ADIQP circuits are strictly weaker than IQP circuits in a sense, they are also hard to simulate classically up to a multiplicative error and an error in the l1 norm. Moreover, the properties of ADIQP make it easy to investigate the verifiability of ADIQP circuits and the difficulties in realizing ADIQP circuits.
Why This Paper Matters
- It adds a 2016 reference point for readers tracking recent quantum research.
- Instantaneous quantum polynomial time (IQP) is a model of (probably) non-universal quantum computation.
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