supercomputer

简明释义

英[ˈsuːpərˌkɒmpjuter]美[ˈsuːpərˌkɒmpjuter]

n. [计] 巨型计算机，超级计算机

复 数 s u p e r c o m p u t e r s

英英释义

单词用法

同义词

反义词

例句

1.How fast is the new supercomputer at Oak Ridge National Laboratory?

橡树岭国家实验室的新一代超级计算机到底有多快？

2.It retained its speed crown until 1969, when Cray designed his next supercomputer.

CDC 6600的速度王冠一直保持到1969年克雷的下一个超级计算机的设计。

3.A supercomputer is defined as a cluster of eight or more nodes working together as a single high-performance machine.

超级计算机的定义是：由八个或更多的节点组成、作为单个高性能机器工作的集群。

4.Does somebody want a supercomputer at home?

有人想在家里放一台超级计算机吗？

5.The secondary cover line tells you that the coffee itself could be a supercomputer!

封面行第二行告诉我们，咖啡本身也可能就是一台微型计算机！

6.Microwulf’s inventors aren’t set on keeping their blueprints for the supercomputer a secret.

Microwulf的创造者并没有把他们的设计蓝图当成秘密。

7.The Jaguar supercomputer can process up to 2.3 quadrillion calculations per second.

这台美洲豹超级计算机能达到每秒计算23万亿次。

8.Unfortunately the publicity pictures (left) for the supercomputer have suggested a pretty good theory.

不幸的是，超级计算机的公开宣传图片已经提出了很好的解释。

9.Many universities have access to a supercomputer for complex data analysis.

许多大学可以使用一台超级计算机进行复杂的数据分析。

10.The supercomputer can perform trillions of calculations per second.

这台超级计算机每秒可以执行万亿次计算。

11.Weather forecasting has improved significantly thanks to supercomputers.

由于有了超级计算机，天气预报显著改善。

12.Pharmaceutical companies use supercomputers to model drug interactions.

制药公司使用超级计算机来模拟药物相互作用。

13.The research team used a supercomputer to simulate climate change over the next century.

研究团队使用了一台超级计算机来模拟未来一个世纪的气候变化。

作文

In today's rapidly advancing technological landscape, the term supercomputer refers to a class of extremely powerful computers that are capable of performing complex calculations at unprecedented speeds. These machines have become essential tools in various fields, including scientific research, climate modeling, and artificial intelligence. The development of supercomputers has revolutionized our ability to process vast amounts of data, enabling researchers and engineers to solve problems that were once thought to be insurmountable.One of the primary characteristics that define a supercomputer is its processing power. Unlike regular computers, which may operate at gigahertz speeds, supercomputers function at terahertz levels, allowing them to execute trillions of calculations per second. This extraordinary speed is achieved through parallel processing, where multiple processors work simultaneously on different parts of a problem. This capability makes supercomputers invaluable for tasks such as simulating nuclear reactions, predicting weather patterns, and analyzing genetic sequences.The architecture of a supercomputer is also distinct from that of traditional computers. They typically consist of thousands of interconnected processors, which can communicate with each other at high speeds. This design allows for efficient data sharing and processing, making it possible to tackle large-scale computations that would overwhelm standard computer systems. For instance, the use of supercomputers in climate science has led to more accurate weather forecasts and improved understanding of climate change phenomena.Moreover, supercomputers play a crucial role in advancing artificial intelligence (AI). Machine learning algorithms often require extensive computational resources to analyze large datasets and train models. By leveraging the immense power of supercomputers, researchers can develop more sophisticated AI systems that can perform tasks such as natural language processing, image recognition, and autonomous driving. The synergy between supercomputers and AI is poised to drive innovation across various industries, from healthcare to finance.Despite their many advantages, the development and maintenance of supercomputers come with significant challenges. The cost of building a supercomputer can reach hundreds of millions of dollars, and the energy consumption required to operate these machines is substantial. As a result, researchers are continually seeking ways to improve the energy efficiency of supercomputers while maintaining their performance capabilities. Innovations in cooling technologies, hardware design, and software optimization are critical to ensuring that supercomputers remain viable tools for future research.In conclusion, the advent of the supercomputer has transformed the landscape of computational science and engineering. These powerful machines enable us to tackle complex problems and make significant advancements in various fields. As technology continues to evolve, we can expect supercomputers to play an even more prominent role in shaping our understanding of the world and driving innovation. Whether in the realm of scientific discovery or technological advancement, the impact of supercomputers will undoubtedly be felt for years to come.

在当今快速发展的科技领域，术语超级计算机指的是一种极其强大的计算机类别，能够以空前的速度执行复杂的计算。这些机器已成为各个领域的重要工具，包括科学研究、气候建模和人工智能。超级计算机的发展彻底改变了我们处理大量数据的能力，使研究人员和工程师能够解决曾经被认为无法克服的问题。定义超级计算机的主要特征之一是其处理能力。与通常以千兆赫兹速度运行的普通计算机不同，超级计算机以太赫兹级别运作，允许它们每秒执行万亿次计算。这种非凡的速度通过并行处理实现，即多个处理器同时处理问题的不同部分。这一能力使得超级计算机在模拟核反应、预测天气模式和分析基因序列等任务中变得不可或缺。超级计算机的架构也与传统计算机不同。它们通常由成千上万的互联处理器组成，这些处理器能够以高速相互通信。这种设计允许高效的数据共享和处理，使得能够处理大规模计算任务，而这些任务会让标准计算机系统不堪重负。例如，超级计算机在气候科学中的应用已经导致更准确的天气预报，并提高了对气候变化现象的理解。此外，超级计算机在推动人工智能（AI）方面发挥着至关重要的作用。机器学习算法通常需要广泛的计算资源来分析大型数据集和训练模型。通过利用超级计算机的巨大计算能力，研究人员可以开发出更复杂的AI系统，可以执行自然语言处理、图像识别和自动驾驶等任务。超级计算机与AI之间的协同作用有望推动各个行业的创新，从医疗保健到金融。尽管有许多优势，超级计算机的开发和维护面临着重大挑战。建造一台超级计算机的成本可能达到数亿美元，操作这些机器所需的能源消耗也很可观。因此，研究人员不断寻求提高超级计算机能效的方法，同时保持其性能能力。冷却技术、硬件设计和软件优化方面的创新对于确保超级计算机继续作为未来研究的重要工具至关重要。总之，超级计算机的出现改变了计算科学和工程的格局。这些强大的机器使我们能够应对复杂问题，并在各个领域取得重大进展。随着技术的不断发展，我们可以预期超级计算机将在塑造我们对世界的理解和推动创新方面发挥更加突出的作用。无论是在科学发现还是技术进步的领域，超级计算机的影响无疑将在未来几年内显现出来。