TransWikia.com

Simulating QPE + Grover using Low-Rank Stabilizer Decomposition

Quantum Computing Asked on May 24, 2021

I want to simulate a 40-45 Qubit circuit that applies Grover + QPE.

I’ve tried running a simulation on qiskit but can’t really go past 18 qubits on my machine. As an alternative, I’ve been reading Bravyi’s work using a technique called Low-Rank Stabilizer decomposition, but I am confused as to where to start or how to translate everything into workable code.

Could you recommend me any references which could help me understand Bravyi’s work (or maybe some implemented code)?

One Answer

I agree that the Bravyi et al. paper is not easy to understand and they should have made some reference implementation available.

Without going into details, I don't think it is likely to get an improvement. For Grover alone, you need to do $O(2^{n/2})$ steps and in each step, you basically do a rotation. This rotation is very unlikely to be Clifford, thus you apply $O(2^{n/2})$ non-Clifford gates. Any stabiliser-based simulation method eventually scales exponentially with the number of non-Clifford gates. Thus, this should explode very fast.

(Well, this should hold for any simulation method in this context).

So as long as you don't find a smart recompilation which reduces the "magic" in the circuit (which is probably highly non-trivial), I would say that there is not much to gain.

Perhaps, you could have a look at the very recent paper by Hakop Pashayan et al. There is also a QIP talk on Youtube from last week.

Their technique is quite unique and might get you somewhere. So far, I cannot really judge how far, because I don't understand it well enough. But, they provide an implementation of their algorithm on github (Ref. [35] in their paper).

Correct answer by Markus Heinrich on May 24, 2021

Add your own answers!

Ask a Question

Get help from others!

© 2024 TransWikia.com. All rights reserved. Sites we Love: PCI Database, UKBizDB, Menu Kuliner, Sharing RPP