The algorithm assumes the input is a n-qubit unitary and the output is a circuit with gates from a universal gate set consisting of Clifford+non-Clifford gates. It does not consider measurement or classical feedback in the generating set.
Does this algorithm consider circuits that use measurement and classical feedback? All the state of the art constructions make heavy use of that now. Eg. does the algorithm find the 4T CCZ, the 6T CCCZ, and the 4n+-O(1) 2s complement adder?
...(continued)Regarding the conjecture from the old [samizdat](https://arxiv.org/abs/1405.2390): It wasn't directly about the number of free parameters needed to write a fiducial vector, but rather about the number of simultaneous equations that need to be solved. [Our 2017 review](https://arxiv.org/abs/1703.0790
This idea has been popping up in the literature quite a bit, mostly as a first step in some iteratively grown ansatz. See e.g. 2008.08615, 2009.10095 or 2102.05566
Disclaimer: I'm a co-author of the last paper
...(continued)Previous work 2101.07267 has already introduced the single-qubit rotation ansatz for MaxCut and presented its connection to continuous MaxCut, which delivers the hardness of VQA optimization. Moreover, 2105.01114 has done an extended study on this ansatz for MaxCut.
**Just to clarify:** I am not
I believe that is correct.
Hi Xin! Just to check you don't need a quantum computer for this algorithm, right?
...(continued)Thank Sergio for your comments.
1. Google's output bit-strings have more 0 bits than 1, so do not pass the NIST random number tests (failure in frequency test, run test, template matching test, approximate entropy test, and cumulative sum test). In that sense, the word "Non-randomness" is used. If
...(continued)For anyone interested in playing around with tensor network decoding I recently released the TN contracting algorithm used as a stand-alone Julia package: [`SweepContractor.jl`][1]. Also [here][2] is a link my TQC talk on this work.
[1]: https://github.com/chubbc/SweepContractor.jl
[2]: h
...(continued)It is wrong to write that the Google experiment has “Non-Randomness”. What this paper says is that the experiment is not perfect, but that is not a requirement for the claim of beyond classical computation. Similar differences from the perfect distribution are documented in our paper, for instance F
...(continued)Perhaps it is worth elaborating upon this topic a little more. Here is what Di Biagio and Rovelli call a "proper reformulation" of Pienaar's fifth premise:
> **An interaction between two systems results in a correlation within the interactions
between these two systems and a third one.** With r
...(continued)I had hoped this would clarify things, but after reading it, I'm more confused about what RQM is supposed to be than ever before. Part of the trouble is passages that I just can't parse, like their replacement for Pienaar's fifth premise (it's important enough to be in bold):
> An interaction betwe
The URL in citation [47] should be https://github.com/sflammia/ACES.
It's been [a good couple weeks](https://scirate.com/arxiv/2109.13018) for the Hoggar SIC!
...(continued)Roberts' claims are in conflict with:
Shankland et al. (1955): https://doi.org/10.1103/RevModPhys.27.167
In their statistical analysis, they find a signal.Consoli et al. (2013): https://arxiv.org/abs/1302.3508
They point out an error in a method Roberts used.Pliet (2021): https://doi.or
Thanks for the comment Thomas! I must apologize, a few important words "X-type" and "Z-type" were missing. I have updated the draft, hopefully it is more clear now.
I've gotten much more feedback than I expected, so a v2 of this is in preparation.
Here's a short summary of the main points: https://arxiv.wiki/abs/2109.10833
Dear authors,
how does this paper relate to the results of Ouyang et al.:
https://arxiv.org/abs/1910.06255 ?
An implementation of this algorithm is now available here:
https://github.com/QAOAKit/QAOAKitExample use: https://github.com/QAOAKit/QAOAKit/blob/master/examples/classical_algorithms_vs_qaoa.py
This dataset is now available as a pandas DataFrame here: https://github.com/QAOAKit/QAOAKit
Example use: https://github.com/QAOAKit/QAOAKit/blob/master/examples/Tackling%20open%20problems.ipynb
This dataset is now available as a pandas DataFrame here:
https://github.com/QAOAKit/QAOAKitExample use:
https://github.com/QAOAKit/QAOAKit/blob/master/examples/Transferability%20to%20unseen%20instances.ipynb
I wrote a short summary on the arXiv wiki: https://arxiv.wiki/abs/2108.12477
Thank you very much for posting the code that goes along with this paper. In your "Code and Data" section, you link to https://github.com/LBNL-HEP-QIS/activereadouterrors when it should be https://github.com/LBNL-HEP-QIS/ReadoutErrors.
...(continued)Indeed, thanks for clarifying this. Going a bit off-topic, let me briefly summarise the important points: Being a group is very restrictive for a unitary design, as e.g. there is a only one finite group $t$-design for $t\geq 4$ which is in dimension $d=2$ for $t=5$. For quantum info purposes, even $
...(continued)Thanks, Markus, for spreading the word about the Bannai et al. paper (I was very surprised by it when it was brought to my attention by Jonas Helsen). Just in case somebody reads this without having a look at one of the papers afterwards: Bannai et al. enumerate all t-designs **that are also finite
...(continued)Dear Markus,
Thank you for alerting us to Banai's work and your translation of the key implications for quantum information. We will modify the "folklore" statement in the introduction and add a statement that we provide an explicit, self-contained, and intuitive proof, which is useful because th
...(continued)As the authors point out, there is indeed some confusion in the community about why the distinction between prime and non-prime dimension is important when dealing with the Clifford group (and, in fact, the stabiliser formalism overall). In fact, one has to be very careful when dealing with the non-
Intriguing result! I'm curious as to the hint in the outline of the paper at the existence of a conclusion with "open research problems," but I can't seem to find it. Did it perhaps get left out? Or maybe the open questions got resolved by the final draft? :)
...(continued)Hi Wojciech! Thanks for the thoughtful comments.
I think both of the points you raise are valid. Regarding the first point, it might indeed be possible to escape my trilemma in IVC using an argument along the lines of the one you suggest. However, it raises the question of what it means to say "t
https://journals.aps.org/prapplied/abstract/10.1103/PhysRevApplied.15.044033
...(continued)Hi Igor,
I am not sure you or your coauthors will read this message. Anyway, very nice work!
I think I agree with all your arguments and your way of reasoning. In fact, considering also the thesis of Baym and Ozawa [10], we also did not claim that the Gedankenexperiment in our work [9] was a
This work is now published. https://iopscience.iop.org/article/10.1088/1367-2630/ac0755
Just before posting we realised Sandy Irani and Dorit Aharonov found similar results to ours independently. Their work is posted simultaneously here: https://scirate.com/arxiv/2107.06201
...(continued)There is a new version of this work in which we consider, additionally to the routing protocol, a BB84-like single qubit protocol for position verification and prove that it is secure under the same conditions as the routing protocol (Section 4). Both protocols have their pros and cons regarding app
...(continued)Dear Jacques,
It is - as usually - a huge and tasty piece of food for thought! As for now I have 2 comments I dare to leave here:
First, the line of reasoning from IVC seems misleading - or rather, it is not a dead-end corridor as you seem to picture it. Let me recapitulate IVC in the light o
...(continued)You have done some actions - and those had to be done *by yourself* - so now sth exists. Could this meet ,,one of the common [sic] definitions of solipsism''?
BTW, what if such things with arXiv are not just some trivial arXiv-engine bugs but a kind of truly profound glitches? Perhaps a sign that
...(continued)No, it'll surely fail to spot it. It isn't even capable to consistently spot arxiv citations in bibliographies. For instance, [arXiv:2006.02790][1] had cited [arXiv:1810.13401][2] and [arXiv:1912.07554][3] but Google Scholar didn't spot that.
[1]: https://arxiv.org/abs/2006.02790
[2]: http
This will be an interesting test case for Google Scholar: Will it be clever enough to spot the pointer to [arXiv:2107.00670](https://scirate.com/arxiv/2107.00670) that is given in the text but not the bibliography?
...(continued)Well, regarding the possibility we have become smarter I have plenty of evidence to the contrary (for both of us!)
Whats going on in terms of the explicit constructions we use is simple enough I'm reasonably sure its correct. But when I think of viewing this kind of computation from 30000 feet
But suppose that you have become even smarter in the last 15 years. Then your old conjecture was correct! Does this really prove "STP=BQP"? If so, amazing!
We've revisted this Matt and shown that even with only a source of maximally mixed single qubit states its possible to generate a resource sufficient for the rest of our construction to go through: https://scirate.com/arxiv/2107.03239
Sometimes, if you're quick, you can catch the paper before it's been compiled by arXiv (I think they do it at least partially on-demand); but I've never seen a true error before (pretty good comment on the arXiv's technical implementation, to be honest!)
I couldn't compile it from arXiv either, but arXiv vanity worked: https://arxiv-vanity.com/papers/2107.00670. Now the PDF works too! I think I might have seen this before but I forget when/where.
When I first tried to open this, the arXiv gave me a "could not compile the LaTeX" error message that I'd never seen before. I downloaded the source myself and compiled it to PDF without any trouble, and it seems to be working on the arXiv now too. Has anyone seen an error like that before?
...(continued)Hi Michal,
Thank you very much for sharing your great work, which we were unfortunately not aware of. The route you followed towards universality by studying fermionic linear optics + non-quadratic Hamiltonian is one we actually considered initially before deciding to shift strategies, so this is
...(continued)A very interesting work! I wanted to point out however that in
https://scirate.com/arxiv/1705.11188
we studied generic universal gate sets for particle-conserving fermionic unitaries. In particular, we classified all unitary transformations that promote the so-called passive fermionic linear
Braneshop, and
the US National Science Foundation.
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