D Wave Quantum Inc (QBTS) 옵션

: New research initiative to push forward emerging quantum technologies.

Nividia - 

https://www.msn.com/en-us/money/markets/d-wave-stock-is-falling-why-nvidia-s-quantum-computing-event-hurt-the-shares/ar-AA1Bn4Lq?ocid=hpmsn&cvid=2a90c52b455f4cc8d30bbc1510a659d0&ei=45

couldnt have been very positive

They Posted a Positive 8-K Today

This is a nice read along with a huge sell of shares at 12.25 per share https://www.msn.com/en-us/money/companies/quantum-computing-inc-qubt-one-of-the-best-quantum-computing-stocks-to-buy-right-now/ar-AA1B6kUJ?ocid=hpmsn&cvid=7e31e2f3d8fc4825f29a4d00139c4c51&ei=12

From this article, I gather there are quite a few short shares being held: https://in.benzinga.com/insights/short-sellers/25/03/44363385/peering-into-d-wave-quantums-recent-short-interest.
Does anyone have an opinion as to whether we might see a short squeeze if the share price continues to rise quickly?

https://www.msn.com/en-us/money/topstocks/we-asked-retail-traders-their-top-quantum-stock-d-wave-leads-the-pack-followed-by-rigetti/ar-AA1B3tnG?ocid=hpmsn&cvid=e37a959150664d90f48333908a1fc083&ei=59

D-Wave Deep Dive: A Look at The Quantum Advantage Findings — And The Questions That Remain
Matt Swayne
March 13, 2025

D-Wave researchers reported that superconducting quantum annealers have demonstrated superior accuracy and efficiency over leading classical methods in solving specific quantum dynamics problems, suggesting practical quantum advantage beyond random circuit sampling.
The study compared quantum annealers against classical techniques such as matrix product states (MPS), projected entangled-pair states (PEPS), and neural quantum states (NQS), finding that classical methods struggle with scalability but remain competitive in certain problem instances.
Critics argue that properly configured classical simulations can reproduce or even surpass quantum annealer performance in some cases, with competing research from EPFL and the Flatiron Institute showing that time-dependent variational Monte Carlo (t-VMC) and belief propagation offer alternative paths to solving these problems efficiently.

D-Wave researchers reported that superconducting quantum annealers have demonstrated the ability to solve certain problems with greater accuracy and efficiency than leading classical methods, according to their study published in Science. The findings provide evidence that quantum processors can outperform classical computers in practical applications beyond tasks like boson sampling and random circuit sampling, tasks that have been used in past claims of quantum advantage.

However, some scientists aren’t sure the results are an unambiguous display of quantum supremacy, citing research that suggests properly configured classical approaches can compete with quantum in similar tasks.

Breaking It Down
In D-Wave’s paper, researchers showed that quantum annealers can rapidly generate samples that closely match solutions derived from the Schrödinger equation. This equation is the fundamental equation of quantum mechanics, describing how the quantum state of a system evolves over time.

The study examined the performance of superconducting quantum annealing processors when simulating quantum dynamics in spin glass models, a class of problems relevant to materials science, condensed matter physics and artificial intelligence. These systems are known for their complex energy landscapes, making them difficult for classical computers to simulate efficiently.

The results suggest that quantum annealers provide a computational advantage over tensor network and neural network-based classical simulation techniques in certain tasks. Unlike previous demonstrations of quantum supremacy, which focused on tasks like generating random numbers in ways that are difficult for classical systems to replicate, this study targets a problem with practical significance. The team’s findings offer evidence that quantum annealers can model real-world quantum systems more effectively than classical approximation techniques.

“The ability of superconducting QA processors to solve this simulation problem with high accuracy has been established for 1D chains and small spin glasses,” the authors write. “Here we simulate large programmable topologies of varying dimension.”

By demonstrating that quantum annealers can solve these complex problems with greater efficiency than classical alternatives, the study could strengthen the case for their utility in scientific and industrial applications. This includes fields such as drug discovery, materials science and machine learning, where quantum systems play a fundamental role.

Methodology
The researchers studied how quantum annealers performed when solving the transverse-field Ising model (TFIM), a widely used model in quantum computing and statistical mechanics. The simulations involved quenching — rapidly changing — an external field and observing how a quantum system evolves over time. The study tested two superconducting quantum processors: the Advantage system (ADV1) and a prototype of the next-generation Advantage2 system (ADV2).

To evaluate the accuracy of the quantum annealers, researchers compared their results with those produced by matrix product state (MPS) simulations run on the Summit and Frontier supercomputers at Oak Ridge National Laboratory. MPS techniques represent one of the best classical methods for approximating quantum dynamics but become increasingly expensive in terms of time and memory as system size increases.

The team writes: “On the largest problems, MPS would take millions of years on the Frontier supercomputer per input to match QPU quality. Memory requirements would exceed its storage, and electricity requirements would exceed annual global consumption. We emphasize that this scaling analysis applies to MPS — the only method with which we can match QPU quality for all considered quench times — and is not an intrinsic lower bound for all classical methods.”

The study also examined alternative classical approaches using projected entangled-pair states (PEPS) and neural quantum state (NQS) simulations, but these methods failed to match the accuracy of quantum annealers within feasible computational limits.

The quantum annealers generated at least 1,000 samples per second, allowing researchers to compare their output with classical methods over a range of different system sizes. The study also analyzed entanglement entropy, a key measure of quantum correlations, showing that the quantum processors exhibited an area-law scaling that classical methods struggled to replicate.

By analyzing spin-spin correlations and other statistical measures, the researchers confirmed that the quantum annealers provided results consistent with quantum mechanical predictions, even in regimes where classical methods struggled.

Limitations and Questions
Like other supremacy claims, D-Wave’s study is attracting scrutiny.

Science News points out that a preliminary draft of D-Wave’s study was posted on arXiv.org a year ago, allowing other researchers to examine the findings. Joseph Tindall, a quantum computer scientist at the Flatiron Institute in New York City, and colleagues developed a competing classical approach using belief propagation, an algorithm widely used in artificial intelligence, according to Science News. Their method, which repurposes a 40-year-old technique, produced more accurate results than the quantum annealer in certain cases involving two- and three-dimensional systems. Their findings, submitted to arXiv.org on March 7 but not yet peer-reviewed, challenge some of the conclusions of the quantum study.

“For the … spin glass problem at hand, our classical approach demonstrably outperforms other reported methods,” Tindall and his colleagues write, Science News reports. “In [two cases] we are also able to reach errors noticeably lower than the quantum annealing approach employed by the D-Wave Advantage2 system.”

However, the classical simulations focused on only a subset of the problems tested in the study, and there is ongoing debate over whether their method can match the quantum annealer across all scenarios. The researchers disagree on whether the classical technique can fully reproduce the quantum computer’s results, particularly for more complex three-dimensional systems.

While classical methods require fundamentally different approaches for infinite-dimensional systems, the study suggests that quantum annealers can efficiently generate samples in this context, an area where classical techniques remain underexplored., Science News article points out.

Monte Carlo Techniques
In another test of D-Wave’s claims, researchers at EPFL’s Institute of Physics and Center for Quantum Science and Engineering have pushed the boundaries of quantum advantage by demonstrating that large-scale classical simulations can match or even challenge the performance of quantum annealers. The study posted on the pre-print server arXiv, led by Linda Mauron and Giuseppe Carleo, employs time-dependent variational Monte Carlo (t-VMC) techniques to simulate the quantum annealing of spin glass models.

The findings question the assumption that quantum processors have an insurmountable edge in annealing-based simulations. Using a Jastrow-Feenberg wave function, the researchers efficiently modeled systems up to 128 spins on a three-dimensional diamond lattice, a scale previously deemed beyond classical feasibility. Their method achieves correlation errors below 7%, aligning with or surpassing the accuracy of D-Wave’s quantum annealers while requiring only polynomial computational resources — in contrast to tensor network methods, which scale exponentially, the researchers suggest.

It would seem, further, that the results would weaken the argument that infinite-dimensional systems inherently favor quantum annealers.

Other Limitations
The study acknowledges other limitations that point toward future work. The quantum annealers tested were not error-free and required careful calibration. Additionally, verifying quantum advantage in a meaningful way requires comparisons to the best available classical methods, which in turn demands significant computational resources.

For small-scale problems, classical methods can still reproduce quantum results with sufficient accuracy. However, as system sizes grow, classical simulations become exponentially more expensive. The study estimates that achieving the same accuracy as the quantum annealers on large problems using MPS methods would take millions of years on the Frontier supercomputer, at least for the specific problem instances studied. The memory requirements would exceed its entire storage capacity, and the energy consumption would surpass global annual electricity use.

The findings seem to show a fundamental difference between quantum and classical approaches. While classical methods rely on approximations and truncation techniques to manage computational complexity, quantum processors naturally encode and evolve the full quantum state. This allows quantum annealers to maintain accuracy even as system size and complexity increase.

However, quantum annealing is not a universal quantum computing technique. Unlike gate-based quantum computers, which can theoretically perform arbitrary computations, quantum annealers are specialized for optimization and sampling tasks. Their advantage is most pronounced in problems that involve simulating many-body quantum interactions, where classical methods scale poorly.

Future Directions
The study’s results suggest that quantum annealers could be applied to real-world scientific problems that are currently intractable for classical computers. Potential applications include optimizing complex networks, modeling new materials, and improving artificial intelligence algorithms.

Beyond direct applications, the findings could also influence the development of new classical algorithms. The authors note that their work could inspire classical simulation techniques that better approximate quantum behavior, advancing the broader field of computational physics. Improvements in hybrid quantum-classical algorithms may enable more efficient solutions for practical applications in the near term.

Future research will likely focus on extending these findings to larger and more diverse problem sets, improving quantum hardware stability, and refining methods for error correction. The researchers also emphasize the need for additional benchmarking studies to further validate quantum advantage across different types of problems.

The impracticability of classical simulation opens the door to quantum advantage in optimization and AI, addressing scientific questions that may otherwise remain unanswered, the study concludes.

As quantum hardware continues to improve, demonstrations like this may move quantum computing beyond theoretical promise and into practical utility for solving real-world problems. The next step will be scaling quantum annealers to larger qubit counts and refining control techniques to maximize their computational power. If successful, these advances could mark a turning point in the race to harness quantum computing for practical applications.

Broader View
One of the hot-button terms in the quantum industry is the idea of a “quantum horse race.” Many protest the term — usually leveled at the variety of competing modalities — as an unfair and inaccurate analogy.

But, the truth may be that the industry doesn’t really have a horse race. It has an entire Triple Crown horse race season. Quantum companies must show advantage in their own modalities. They even are entered in a race to prove not just quantum advantage, not just quantum supremacy, but, now, quantum advantage in real-world tasks.

Finally, a not-often mentioned long shot is in the race: classical computing innovation. Quantum companies must contend with the ever-advancing classical techniques to prove quantum advantage.

What this all means is that — and excuse yet another sports analogy — the finish line in the quantum horse race is constantly moving.

Institutions
The research involved multiple institutions spanning Canada, the United States and Switzerland. The majority of contributors are affiliated with D-Wave Quantum Inc. Additional institutional affiliations include the Department of Physics at Boston University in the United States, as well as the Computational Sciences and Engineering Division at Oak Ridge National Laboratory in Tennessee. In Canada, researchers are associated with the Department of Physics and Astronomy at the University of Waterloo, the Perimeter Institute for Theoretical Physics, and the Vector Institute in Toronto. Further international contributions come from the Institute for Theoretical Physics at ETH Zürich in Switzerland. The Department of Physics and Astronomy and Quantum Matter Institute at the University of British Columbia also played a role, along with Simon Fraser University’s Department of Physics in Burnaby, British Columbia.

https://thequantuminsider.com/2025/03/13/d-wave-deep-dive-a-look-at-the-quantum-advantage-findings-and-the-questions-that-remain/?utm_source=resonance-newsletters.beehiiv.com&utm_medium=newsletter&utm_campaign=the-quantum-insider-weekly-d-wave-makes-waves-nist-s-back-up-algorithm-and-more-news&_bhlid=af32a4c05dbe1c9ffd6dbe500ba8ca7a24ce18a3

Look at this graph!
https://sherwood.news/markets/d-wave-quantum-leads-massive-rally-in-quantum-computing-stocks-as-its/

I have NVDA and QBTS, so I'm OK with that.

Wait until next week when Nvidia has its Quantum day, it will be fun!

What a HUGE DAY. Volume 259M, up 45%.

I’m holding my 6’s.

Got in 5's an 6's an boom! $$$$$ we may add more if a dip occurs again, could be stock of the year

D-Wave Stock Surges. Wall Street Says the Future Is Now for Quantum Computing.
By Mackenzie Tatananni
Updated March 14, 2025, 2:46 pm EDT / Original March 14, 2025, 12:29 pm EDT
https://www.barrons.com/articles/d-wave-rigetti-qbts-stock-price-quantum-computing-02b28153

If you put the two together you probably will get skynet

Just heard a great quote on Fox Bidness……..

Taylor Riggs just quoted a fund manager who basically said, if AI is in its infancy then quantum is still an embryo.

Interesting way to put it.

We'll see and I think that's fair........

I'm didn't trade it today, but I am long at $5.91 with a multi-year timeframe.

All I was saying is if the "imaginary" ST cup forms, that might be where I buy more.

No hurries, no worries.

Or I might buy more AFTER the big fall if it is an "imaginary "cup" I see.

And if it is, that means another big fall in price soon

This is such a short term trend that who the heck know?
I think calling this a "cup" is more wishful thinking than anything. And if it is, that means another big fall in price soon

My girl here is bringing home the rent…….

This pimp is happy.

It was pointed out there’s a short term cup being formed, so she could hit $10 today. The healthy thing would be to let the handle form next week. If it does, that might make for a good add and/or entry.

We might just be seeing a bear market rally, but this is my best girl at the moment.

I give you permission not to respond to this post. Ya' know, this isn't a private chat. Me posting my opinion of the stock doesn't mean I'm talking to you.

D-Wave Reports Fourth Quarter and Year-End 2024 Results
FY 2024 Bookings up 128% Year over Year
Q4 Bookings up 502% Year over Year
Current Cash Position Exceeds $300 Million
https://www.sec.gov/ix?doc=/Archives/edgar/data/0001907982/000190798225000058/qbts-20250313.htm

never thought you were talking about my waistline. I thought you were talking about your inflated head. now go talk to someone that actually cares about your babblings

I'll bet you meant to post that back in January.
Poor form to post it on the day its up 20%

QBTS...................................................a/h

thanks shorty

And don’t forget the tariffs, and the…….

Gubment shutdown, the castaways are still on Gilligan’s Island, and the price of eggs is still too high.

OMG, I’m jumping out the window of my ranch style house.

It’s too much!

#dramaqueen

Might want to wait till q1

Wow D-Wave is looking much worse than I thought it would be. Revenue is going down. Net loss is increasing. Shares are being diluted faster than expected. Total revenue for Q4 of 2023 was a paltry $2.9 million. And total revenue for Q4 2024 was even lower at $2.3 million, a decrease of $0.6 million, or 21%, from the fiscal 2023 fourth quarter revenue of $2.9 million. They should have revenue over $100 million by now.
Even adjusted net loss was miserable. Adjusted Net Loss for the Q4 2023 was $16.4 million (poor) but Adjusted net loss for Q4 2024 was even worse at $17.8 million, an increase of $1.5 million and a decrease of $0.03 per share. Shareholders continue to pay for the losses and it is getting worse. Shares are being printed more rapidly and diluting existing shareholder value at an even faster rate. QBTS is on the quick road to bankruptcy, common shareholders will get nothing.

QBTS................................https://stockcharts.com/h-sc/ui?s=QBTS&p=W&b=5&g=0&id=p86431144783

Re. 'oldest' I don't know.
There are two approaches to exploiting quantum in computations.
D-Wave, at least 11 years ago, chose quantum annealing. I believe it is the natural and right choice.
Here's a young Eric Ladizinski giving his first introduction to D-Wave's approach.

Wasn't this the first one?

D-Wave released this video to go along with the 8k. All the other bullshit quantum computing companies rise with the tide.

LOL!!....well thanks for that!
Warren Buffet says buy what you understand, and reading that link tells me I haven't a clue what that all means.
What I do know is the first support is at $4.63 (which the stock dropped right to). The next support below that is at $3.61.
I don't own enough of this to matter much, but I bought it during the euphoria so am down. I'll either dump if it breaks support, or if ....well I don't know...there is no upside resistance as it ran too quickly.

https://www.dwavequantum.com/company/newsroom/press-release/beyond-classical-d-wave-first-to-demonstrate-quantum-supremacy-on-useful-real-world-problem/

Whatever it was was good news I guess

Good news came out.

Why is this halted?

Nice buying time at theses prices. Slowly building a stake here . GLTA

#6 - D-Wave Quantum (NYSE:QBTS)
D-Wave Quantum Inc. (NYSE: QBTS) is the last of the pure-play quantum computing stocks on this list. The company’s claim to fame is that it was the first to develop a working 28-bit quantum computer.

In 2011, D-Wave pioneered its quantum annealing technology, which led to the world’s first commercially available quantum computer system—priced at $10 million.

Unlike a traditional gate-based system, D-Wave's quantum annealing technology analyzes the qubit and finds its optimal state or “ground state” where it will be the most stable to perform the needed calculations. Today, the company offers this technology via cloud-based access or on-premise systems for enterprise customers.

Still, like the other pure-play quantum computing stocks on this list, D-Wave is a small company, with a market cap of around $1.4 billion. It has very little revenue coming in and is not profitable. Despite this, the stock has attracted significant analyst attention. Of the six analysts covering it, all have given QBTS sock a Strong Buy rating.

Again, your answers aren't making sense. It is no wonder you feel insulted often, you may not understand the conversation.
Now, what type of feel good story would you like about your stock that is down 33% year to date? Apparently you weren't able to understand the meaning of support levels as you seem to be insulted by them. Were you thinking I was talking about your waistline?

yep, that's where you belong on stocktwits. As far as posting on another board that is up to the individual or maybe you should go ask IHUB permission. What grade are you in that you think you have to see if IHUB would approve.

Insults?? Is English your primary language??
Why would you tell someone on one website to go post also on another? I'm not sure admin of IHUB would approve.

Yes this board and pretty much website isn't used as much as it use to be since stocktwits has been around.

Make up your mind as to what you want already.

very mature, maybe you should head over to the stocktwits board. they are full of people that hand out insults. good day

Your choice to do so, although the support and resistance lines are factual, not opinion.
Do you need someone to shoot rainbows up your..........nose?

Getting a bit of upside this morning as anticipated.

and i will take it as that, just an opinion

There is no news here and the stock is a gamble on AI. What is there to talk about? Everyone cheered when it ran to $11 and each proclaimed themselves stock market geniuses. Now, not so much.
The good news....the stock has two support levels it is approaching fast. One at $4.62, then the next at $3.52 currently. The stock may find support at either of these and bounce up. If not, this place will look like a ghost town.

Yes this board and pretty much website isn't used as much as it use to be since stocktwits has been around. can't stand that site as it is used to mostly let people bash stocks and call people names. i wish this site would come back but with twits being around and people being able to post about anything but stocks it lets the kids on keyboards that actually should be doing something constructive with there lives

Yes a very intereting buy , I thought this board was dead , noone talking about anything. Glad to hear someone is watching. New to the board and postion. GLTA