CHAPTER 629: CHAPTER 194 I AM HERE TO TEACH EVERYONE!_3

If we can prove this issue, we can introduce the Generalized Modal Axiomatic System into this work. As long as the theoretical proof is completed, we can start a project directly.

It would be a very large project.

The investment in quantum computer hardware research is enormous. Building a new supercomputing platform directly for quantum computing simulation implies investments of tens or even hundreds of billions from many technology companies.

Even if the research funds these professors have attracted aren’t much at this point, they still amount to two or three million, in US Dollars.

Of course, the investors behind the scenes won’t act without seeing results. To secure further investment, verifiable outcomes need to be quickly produced.

After over two hours of conversation, Qiao Yu had roughly understood the current progress. The main research process remained at the theoretical stage.

In terms of practical applications, it was even less advanced than IBM’s open-source Qiskit project. But then again, Qiskit mainly deals with visual quantum circuit design, simulating quantum circuits on classical computers.

The actual quantum hardware execution still requires using the platform provided by IBM to run quantum computing tasks on a quantum processor.

The distinction here is substantial, as these scientists’ idea is to have a classical supercomputing platform fully simulate quantum computing behavior.

Therefore, if successful, it would mean no dependency on quantum hardware, potentially revolutionizing the entire quantum computing industry.

Qiao Yu’s advantage with the Generalized Modal Axiomatic System is its ability to simulate complex quantum behavior more efficiently than traditional methods, optimizing storage and computation through dynamic mapping and compression in modal spaces.

Particularly by using the distributed computing architecture of modal spaces to achieve more efficient parallel computing.

Having understood enough, Qiao Yu pondered for a long time before deciding to give today’s scientists a lesson.

"Gentlemen, I have a fair understanding of your ideas and progress. I am optimistic about the prospects of this topic. If needed, perhaps I can mention it in tomorrow’s report.

However, I will not participate in your research! As I said earlier, I currently do not have the time and energy to dedicate to this direction that requires prolonged technical breakthroughs.

But I can assist with some theoretical issues. Hmm... I have a teacher named Xue Song, who is working on a generalized modal extension of group theory.

In my understanding of quantum computing, group theory is its core tool. Quantum states and specific quantum operations can all be described using group representations and structures.

Furthermore, when simulating quantum states, modal compression can also be implemented using related group theory tools, such as utilizing the symmetry of dynamic group representations to reduce storage needs.

Therefore, I can introduce him to you. Under Professor Xue’s assistance, you should be able to complete the theoretical derivation process quickly. As for me, I will not join this project."

Indeed, Qiao Yu did not intend to involve himself in these professors’ research. This way, after returning to Huaxia, he can confidently apply for this project’s research funding once the theoretical derivations are complete.

Are you kidding me?

If we truly manage to simulate quantum computing on a supercomputing platform, his Xi Yu Technology Service Platform could undergo a quantum leap in development.

Especially if we manage to solve the challenge of quantum factorization, enabling Shor’s algorithm to run efficiently on our platform, the previous BBC report would not only become a reality, but they might even call him the father...

After all, mainstream encryption protocols, encryption keys, and electronic signature technologies still rely on RSA or ECC these days.

If the simulated quantum computing platform can efficiently perform factorization, it means all these keys can be easily cracked.

This further implies that the entire industry’s security standards need to be redefined, and whoever can offer counter technology will dictate the future financial security standards.

By then, financial service providers worldwide would queue up to pay protection fees. The only issue is that this project isn’t something he can manage alone.

Nor could he execute it by casually assembling a team. So upon returning, he must apply for a national project.

After Zheng Xiweng gave him a lecture, Qiao Yu also realized that if such a project were successfully developed, it would undoubtedly require support from influential parties.

Of course, even if a perfect simulation of quantum computing is achieved, the financial security system would not be the only one severely impacted, as there are also positive implications.

After all, efficiently running the Shor algorithm implies efficient operation of the Grover algorithm as well. This means that once connected to the financial system, countless transaction paths could be rapidly identified.

In a sense, this represents the ability to monitor tens or hundreds of thousands of accounts simultaneously, clearly tracing every anomaly in fund flows while supporting real-time updates.

Actually, Zheng Xiweng didn’t even need to teach him; Qiao Yu now felt even with his toes that such a technology, potentially inciting a major nation to fight a war over it, couldn’t be in the hands of an individual.

At least not in his current hands, or else it would be courting death, the kind that not even Jesus can save him from.

The mathematicians who specially invited Qiao Yu over to chat were quite regretful about his decision.

But they couldn’t force Qiao Yu to work on their favored project. Honestly, despite the lively discussions at the recent seminar, no one was actually confident in the project’s success.

Frankly, if the methods used previously, such as sparse matrix, tensor network, Monte Carlo, low-rank approximation, variational quantum simulation, etc., hadn’t been ineffective, they wouldn’t have considered pulling Qiao Yu into the team.