Judging from the published data, compared with the previous generation of "Jiuzhang No.2", the speed of "Jiuzhang No.3" in processing Gaussian bose samples has increased by one million times. In addition, the "Nine Chapters No.3" also has extremely high computational efficiency, and can even calculate the complex samples that the world's fastest supercomputer "frontier" takes about 20 billion years to complete within 1 microsecond.
The "Nine Chapters No.3" algorithm is a new algorithm to deal with Gaussian Bose sampling, which is based on advanced computing framework and optimized mathematical model. The design idea of this algorithm is to accelerate the calculation speed of Gaussian Bose sampling to an unprecedented level through reasonable parallel calculation and efficient data management. Compared with the traditional algorithm, it significantly improves the computational complexity and efficiency.
In dealing with Gaussian bose sampling, "Jiuzhang No.3" has made an obvious breakthrough compared with its predecessor "Jiuzhang No.2". The first is the improvement of speed. The data show that the speed of "Jiuzhang No.3" in processing Gaussian bose samples is one million times that of "Jiuzhang No.2". This improvement stems from the optimization of parallel computing and data management by the new algorithm, which further improves the computing power. In addition, the new algorithm also shows better performance in terms of computational efficiency and accuracy.
The "Nine Chapters No.3" algorithm has made a breakthrough in the sampling speed of Gaussian Bose, mainly due to its unique processing method and optimized calculation flow. Through proper parallel computing and data management, the new algorithm can handle large-scale complex computing more efficiently and effectively reduce computing time. This enables Chapter 9 III to complete the previously unimaginable Gaussian Bose sampling task in a short time.
Not only has there been an obvious breakthrough in speed, but according to the research data, "Nine Chapters No.3" can also handle some extremely complicated samples. Take the world's fastest supercomputer "Frontier" as an example. It takes about 20 billion years to calculate some complex samples, but it only takes 1 microsecond for "Nine Chapters No.3" to complete the same calculation task. This shows the great potential and advantages of the new algorithm in dealing with Gaussian bose sampling tasks.