Like blockchains, other than the few quantum algorithms available out there, are quantum computers/algorithms a solution looking for a problem?


Like Distributed Ledger Technologies (DLT) and Blockchain, other than the few quantum algorithms available out there, are quantum computers/algorithms a solution looking for a problem?

For one, I am ambivalent - with the scarcity of quantum algorithms, I am leaning towards "a solution looking for a problem" .

Nathan Aw

Posted 2020-03-12T15:58:35.200

Reputation: 213

Question was closed 2020-03-17T20:30:09.343

what do you mean by "a solution looking for a problem ?" – nathan raynal – 2020-03-12T16:15:45.593


Your question is rhetorical - it is wrong on all counts. First DLT and Blockchain are two different things - Second DLT and Blockchain are widely deployed. Third QC biggest promise is that it will help address NP complete problems. Start with this paper (yes it is dated 2008) and then please go do some search and casual reading.

– imabhi – 2020-03-12T16:19:12.563

I have read that paper when it was published. I been working on quantum technologies for more than 10 years. – Nathan Aw – 2020-03-14T04:05:28.773



I disagree. By no means is there a scarcity of quantum algorithms. Consider for example this review on Quantum Machine Learning. Therein the term qBLAS is contained for Quantum Linear Algebra Subroutines. This term describes all the quantum algorithms that exist for basic linear algebra tasks. Together with the (in)famous Grover Algorithm that gives a quadratic speedup for unstructured search problems and other quantum algorithms one has a large toolbox of generic quantum speedups at one's disposal.

As linear algebra tasks and search are basically used everywhere, quantum algorithms can yield generic speedups in nearly any field and will therefore be extremely important in the future.

But in the present NISQ era, we are indeed in a place where one can say that quantum computers are a "solution looking for a problem". Why is this the case? State-of-the-art quantum computers have few and noisy qubits, which means that none of the algorithms outlined above can be faithfully implemented.

Today's quantum computers can already outperform classical computers in very artifical and useless tasks. But people still hope that we can use those devices to do useful stuff. One major candidate are hybrid approaches like the Variational Quantum Eigensolver that can possibly aid quantum chemistry -- but while many such methods are proposed, no evidence exists that they are actually better than classical methods yet.

So while quantum computers in general are not a solution looking for a problem, today's NISQ devices, in a way, are.

Johannes Jakob Meyer

Posted 2020-03-12T15:58:35.200

Reputation: 416