Super God-Level Top Student

While Qiao Ze was still pondering whether he should leverage his influence to foster some currently unlikely collaborations, Dou Dou popped up another window.

"The tasks assigned to the three key laboratories have been completed ahead of schedule. The initial testing of the first large-scale complete RNA circuit board designed by the Human World has been completed. With the help of two other laboratories, it has accomplished multiple tasks including Boolean logic operations, multitasking parallel computing, simple program execution, and basic password replacement.

At the same time, initial tests on data storage density and access speed have been completed, and RNA sequences for data storage have been successfully designed, with their secondary structures validated. Originally, the final tests were scheduled to be conducted at the Changping Artificial Intelligence and Computational Biology Laboratory.

However, calculations showed that the dedicated space at the Huaqing University Bioelectronics Key Laboratory was more suitable for comprehensive testing, so the final decision was to conduct it at Huaqing University. Dad, would you like to check the laboratory test data now?"

Qiao Ze instinctively raised his hand to support his chin; this should count as extremely good news.

Artificial intelligence, the algorithms, software, and framework aspects are indeed important, but hardware is even more crucial.

Especially for something like bio-supercomputing, which can process complex AI algorithms and large-scale datasets through massive parallel computing capabilities. RNA molecules can self-assemble into complex networks, which is very beneficial for tasks requiring high parallel processing capabilities like deep learning and neural network training.

Moreover, chemical reactions of biomolecules can occur at normal temperature and pressure, avoiding the need for high-energy cooling systems and large-scale power supplies, completing the same tasks with lower energy consumption.

According to the initial design intent, the RNA design for bio-supercomputing, through the action of enzymes like RNA polymerase and reverse transcriptase, enables the self-replication and repair of RNA molecules. This characteristic gives RNA circuits high stability and durability, suitable for long-running AI tasks.

It's fair to say that the efficiency of these three bioinformatics laboratories is quite high.

"Let me take a look at the laboratory report first."

"Dad, don't you want to check out the current situation in the lab and share the joyful mood first?"

The next moment, before Qiao Ze could refuse, Dou Dou directly sent a snapshot. From the angle, it was evidently captured by an internal laboratory camera.

Apart from a few people still busy at their workstations, many were gathered together in celebration, looking quite joyful.

From those body gestures, Qiao Ze could judge that the test results were pretty good. However, he merely glanced at it, and soon his attention was drawn to the section of the laboratory report.

...

The results do indeed look quite good.

Considering these laboratory results were produced under Dou Dou's full participation and monitoring, there's no need to doubt their credibility.

As for the experimental process, including materials and equipment used, and sequence design, Qiao Ze didn't concern himself.

There are specialized fields.

Qiao Ze was well aware that he excelled in theory, but when it came to the hands-on skills required in the laboratory, not that he lacked them, but he hadn't been trained enough to compare with researchers who immersed themselves in the lab daily.

Of course, achieving results so quickly is certainly not solely due to Huaqing University's Bioelectronics Key Laboratory; the Changping Key Laboratory of Artificial Intelligence and Computational Biology and Nanhe University's Molecular and Bioelectronics Laboratory also handled many R&D tasks.

Though right now only a relatively simple RNA circuit design has been completed, this research itself involves many extremely important patents and scientific direction suggestions. Especially since the stability of the RNA chain has been verified, which absolutely offers a new idea for studying bio-computers.

Particularly when compared to the DNA chain, RNA's structure is relatively simpler and the molecular chain is shorter, allowing faster data processing, especially in sequence analysis and structural prediction. Plus, with its single-chain structure, RNA can form complex secondary and tertiary structures, providing multifunctionality and can adapt to different types of computational tasks as needed.

Now that the laboratory has solved the stability issue, they have another ace up their sleeve for whatever next steps they want to take.

When signing the contract, both parties had stipulated in advance that aside from the results, all research staff from the three participating laboratories can publish papers based on their respective research, but the patents on the achievements belong to the Xilin Mathematics Research Institute.

After skimming through the content of the laboratory report, Qiao Ze focused on the list Dou Dou had compiled after comparing with the world patent library, detailing patent-eligible content.

Methods for combining and modifying RNA molecules. The advanced methods involved in the laboratory include mRNA structural cap modifications and nucleotide modifications, for which two technical patents can be obtained.

Technology related to RNA folding. This mainly involves algorithms and structural prediction models, with a total of five patents can be applied.

Various electronic component designs based on RNA molecular computation, ranging from the basic logic gates to storage components and sensors, with this area offering close to a thousand patents, in addition to RNA-nanotechnology, RNA circuit board assembly technology, RNA mathematical processing, and analysis algorithms...

In total, this involves 1372 patents.

Aside from these, there are 18 technical details that Dou Dou had recommended for patent application abandonment. Sixteen of them are suggested to be included in the protection system of trade secrets under the "Anti-Unfair Competition Law," and two concerning encryption and decryption algorithms are recommended for inclusion in the national science and technology secret protection system.