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After a lapse of 9 years, China's supercomputing returned to number one in the world! At the International Supercomputing Conference held recently, the Shenzhen National Supercomputing Center unveiled a new generation of the “Ling Sheng” supercomputing system. The measured continuous performance reached 2.19 EFLOPS, making it the world's first supercomputing system with continuous performance exceeding 2 EFLOPS. And “reaching the top” this time, after “The Light of Shenwei Taihu Lake” in 2017, China once again ranked first in the world in supercomputing. In the past, many key technology products in the field of supercomputing relied on the introduction, and the “stuck neck” problem limited the high-quality development of China's computing power field to a certain extent. The supercomputing system that “climbed to the top” has achieved full-stack localization of key components, marking the acceleration of China's supercomputing industry towards independent research and development, independent iteration, and independent leadership in development. Currently, global technology competition is becoming increasingly intense. Key core technologies cannot be bought, sought, or exchanged; only independent innovation can take control of development initiatives. This time, supercomputing has returned to the world's highest gold content, and is becoming more and more autonomous and controllable in the field of high technology.
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After a lapse of 9 years, China's supercomputing returned to number one in the world! At the International Supercomputing Conference held recently, the Shenzhen National Supercomputing Center unveiled a new generation of the “Ling Sheng” supercomputing system. The measured continuous performance reached 2.19 EFLOPS, making it the world's first supercomputing system with continuous performance exceeding 2 EFLOPS. And “reaching the top” this time, after “The Light of Shenwei Taihu Lake” in 2017, China once again ranked first in the world in supercomputing. In the past, many key technology products in the field of supercomputing relied on the introduction, and the “stuck neck” problem limited the high-quality development of China's computing power field to a certain extent. The supercomputing system that “climbed to the top” has achieved full-stack localization of key components, marking the acceleration of China's supercomputing industry towards independent research and development, independent iteration, and independent leadership in development. Currently, global technology competition is becoming increasingly intense. Key core technologies cannot be bought, sought, or exchanged; only independent innovation can take control of development initiatives. This time, supercomputing has returned to the world's highest gold content, and is becoming more and more autonomous and controllable in the field of high technology.
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