Chinese academia has proven itself to be generally unreliable in its factual accuracy
Chinese scientists claim record smashing quantum computing breakthrough
Submitted 1 year ago by ooli@lemmy.world to technology@lemmy.world
Comments
sin_free_for_00_days@sopuli.xyz 1 year ago
Didn’t they claim something about superconductivity the other week? I’m going to claim the ability to levitate my own body. Lifting myself by my own bootstraps, so to speak, and other lies.
just_another_person@lemmy.world 1 year ago
I think you’re referring to LK-99 which was from South Korea.
Edgelord_Of_Tomorrow@lemmy.world 1 year ago
It’s a shame the LK-99 hype has lead to LK-99 backlash because influencers couldn’t make it in their backyard.
LK-99 isn’t “the one” but most signs show it’s on the right track and if we can work out the manufacturing technique for this class of materials it will change everything.
sin_free_for_00_days@sopuli.xyz 1 year ago
Ah, yes, you are correct. I was mistaken. I was thinking of the levitating video that claimed to support the claim.
grabyourmotherskeys@lemmy.world 1 year ago
All I have to say is:
- “Whose baby is that?”
- “What’s your angle?”
- “I’ll buy that”.
RubberElectrons@lemmy.world 1 year ago
I wish I understood this comment.
A_A@lemmy.world 1 year ago
I read about it here :
en.m.wikipedia.org/…/Jiuzhang_(quantum_computer) because there is nothing interesting in that scmp article.How is it valid to call this a computer ? Seems like if I said : I am making fluid flow calculations by using a pipe and water. Do get it right ? These are not calculations ; these are experiments.
JGrffn@lemmy.world 1 year ago
To be fair, there’s no real constraint to what a computer should look like, as long as it computes. You can build the foundational circuits of modern CPUs using dominos, and if you had the space you could build a one time use adder. It would compute the sum of two numbers, so it’s technically a computer. Your pipe and water example is technically also a valid computer if built as such.
A_A@lemmy.world 1 year ago
I understand your statement here and I agree with it. Yet I guess both you and the other user here (@cyd@lemmy.world) are missing what I am trying to describe. Maybe my explanation is not accurate and my understanding is not well developed.
Let me illustrate with an example : we can study new planes models :
a)- in a wind tunnel equipped with instrumentation (camera, smoke trail and so on), or
b)- with numerical simulations on a computer.One method (a) is very specific to a very precise problem, it cannot be (easily) adapted to calculate various random problems. The other (b) is meant to be a versatile programmable computer and so can switch to a completely different problem in one microsecond.
For what I understand so-called quantum computers (of today) are more like option (a).
Does this makes sense to you ?
cyd@lemmy.world 1 year ago
These are not calculations ; these are experiments
Alan Turing discovered, long ago, that calculations can be phrased as physical experiments. It’s the basic idea behind the whole field…
A_A@lemmy.world 1 year ago
I understand your statement here and I agree with it. Can you say the same about my previous comment ?
naticus@lemmy.world 1 year ago
Half expected the title to be “my solar eclipse pic”.
Treczoks@lemmy.world 1 year ago
I’ll still hold back any enthusiasm for this stuff until a quantum computer can actually solve a real problem and not just a quantum computer benchmark.
turbo_snail@lemmy.world 1 year ago
The only real problem I am aware of is breaking some types of public key encryption. Which is kinda bad because post quantum encryption is still in its infancy.
echo64@lemmy.world 1 year ago
There’s a lot you aren’t aware of then. There’s a lot of uses in biology and pharmacy, as well as physics research, machine learning, and weather predictions, just to name a few. (I know weather predictions doesn’t sound sexy but it might be the most important one in the list)