supercomputing

简明释义

[/ˌsuːpəˈkəm.pjuːtɪŋ/][/ˈsuːpərˌkəmˈpjuːtɪŋ/]

n. [计] 超级计算

英英释义

Supercomputing refers to the use of supercomputers to perform complex calculations at extremely high speeds, often for scientific and engineering applications.

超级计算是指使用超级计算机以极高的速度进行复杂计算,通常用于科学和工程应用。

单词用法

high-performance supercomputing

高性能超级计算

supercomputing power

超级计算能力

cloud-based supercomputing

基于云的超级计算

supercomputing clusters

超级计算集群

supercomputing environment

超级计算环境

engage in supercomputing

从事超级计算

leverage supercomputing

利用超级计算

advance supercomputing technology

推动超级计算技术

invest in supercomputing

投资于超级计算

develop supercomputing solutions

开发超级计算解决方案

同义词

high-performance computing

高性能计算

High-performance computing is essential for complex simulations in scientific research.

高性能计算对于科学研究中的复杂模拟至关重要。

parallel computing

并行计算

Parallel computing allows for the simultaneous processing of multiple tasks.

并行计算允许同时处理多个任务。

grid computing

网格计算

Grid computing enables resource sharing across multiple locations.

网格计算使得跨多个地点的资源共享成为可能。

cloud computing

云计算

Cloud computing provides on-demand resources over the internet.

云计算通过互联网提供按需资源。

反义词

ordinary computing

普通计算

Ordinary computing is sufficient for basic tasks like word processing and web browsing.

普通计算足以满足基本任务,如文字处理和网页浏览。

low-performance computing

低性能计算

Low-performance computing systems are often used in educational settings for learning programming.

低性能计算系统通常用于教育环境中学习编程。

例句

1.The demand for computational power in this field is so great that supercomputing resources are often leased for this work.

这个领域对于计算能力的需求是如此旺盛,以至于超级计算机大部分都是在处理这种工作。

2.Now, of course, at the core of lots of supercomputing has been the idea of modeling things computationally and doing that at a finer and finer level of detail.

现在,当然,在许多高速计算的核心是靠模切事物的主意计算的和在一件比较好的和比较好水平的细节做那。

3.The trend to use PC clusters to achieve supercomputing speed with an affordable budget has accelerated with the rising use of GNU/Linux.

随着对GNU/Linux使用的日益增加,以可接受的预算使用PC集群来获得超级计算速度正日趋主流。

4.This is not unlike how I had to consume supercomputing services back when I was in college.

这同我大学时不得不使用超级计算设备时的处境没什么两样。

5."The Top 500 list definitely has an element of flag waving," said Dr Jon Lockley, manager of the Oxford Supercomputing Centre.

“500强名单肯定有一个挥舞着国旗元素”乔恩·洛克利博士说,他是牛津大学超级计算中心经理。

6.“We’re not trying to replace a supercomputer, ” Knezevic says. “This is a model of computation that works in conjunction with supercomputing.

“我们并没有尝试去替代一台超级计算机,”Knezevic说,“这是一个和超级计算协同工作的计算模型。

7.IBM produces the most powerful and energy efficient computers on the planet, according to the latest supercomputing Green500 list.

按照Green500的最新超级计算机排行榜,IBM生产的计算机性能最强、能效最高。

8.Oil and gas companies were early innovators in supercomputing and data visualization and analysis, which are crucial to today's oil and gas exploration efforts.

石油和天然气公司是超级计算机、数据可视化和分析行业的早期创新者,这些对今天的石油和天然气勘探成就至关重要。

9.In the field of genomics, supercomputing 超级计算 allows scientists to analyze vast amounts of genetic data quickly.

在基因组学领域,超级计算 超级计算使科学家能够快速分析大量的遗传数据。

10.Researchers in climate science often rely on supercomputing 超级计算 to model complex weather patterns.

气候科学的研究人员通常依赖于超级计算 超级计算来模拟复杂的天气模式。

11.Pharmaceutical companies use supercomputing 超级计算 to accelerate drug discovery processes.

制药公司利用超级计算 超级计算加速药物发现过程。

12.The latest advancements in supercomputing 超级计算 have significantly improved our ability to predict earthquakes.

最新的超级计算 超级计算进展显著提高了我们预测地震的能力。

13.The development of supercomputing 超级计算 technology has opened new frontiers in artificial intelligence research.

超级计算 超级计算技术的发展为人工智能研究开辟了新领域。

作文

In today's fast-paced technological world, the term supercomputing refers to the use of extremely powerful computers to perform complex calculations at incredibly high speeds. These machines are designed to handle vast amounts of data and solve intricate problems that would be impossible for regular computers. The significance of supercomputing extends across various fields, including scientific research, climate modeling, and even financial forecasting.One of the most notable applications of supercomputing is in the field of climate science. Researchers utilize these powerful systems to create detailed models of the Earth's climate. By processing enormous datasets from satellites and ground stations, supercomputing allows scientists to simulate weather patterns and predict climate changes with greater accuracy. This capability is crucial for understanding global warming and its potential impacts on our planet.Moreover, supercomputing plays a vital role in medical research. For instance, researchers can analyze genetic information and simulate molecular interactions using these advanced systems. This has led to significant breakthroughs in drug discovery and personalized medicine, where treatments can be tailored to individual patients based on their genetic makeup. The speed and efficiency of supercomputing enable scientists to conduct experiments that would take years to complete using traditional methods.Another area where supercomputing shines is in astrophysics. Scientists use these powerful computers to simulate the formation of galaxies, stars, and even black holes. By running complex algorithms and processing massive datasets from telescopes, researchers can gain insights into the universe's origins and its fundamental laws. The ability to model such intricate phenomena is only possible through the capabilities offered by supercomputing.Furthermore, supercomputing is increasingly being utilized in the business sector. Companies leverage these powerful systems for big data analytics, allowing them to process and analyze customer behavior, market trends, and operational efficiencies. By harnessing the power of supercomputing, businesses can make informed decisions and stay competitive in a rapidly changing marketplace.Despite its many advantages, supercomputing also faces challenges. The cost of building and maintaining these systems is substantial, often requiring significant investment from governments and private sectors. Additionally, there is a constant need for skilled professionals who can operate and program these advanced machines. As technology continues to evolve, the demand for expertise in supercomputing will only increase.In conclusion, supercomputing is a transformative technology that has far-reaching implications across various disciplines. Its ability to process vast amounts of data at unprecedented speeds enables breakthroughs in science, medicine, and business. As we continue to explore the potential of supercomputing, it is essential to address the challenges it presents while maximizing its benefits for society. The future of supercomputing looks promising, and its role in shaping our understanding of the world cannot be underestimated.

在当今快速发展的科技世界中,术语超级计算指的是利用极其强大的计算机以惊人的速度执行复杂计算。这些机器旨在处理大量数据并解决常规计算机无法完成的复杂问题。超级计算的重要性遍及多个领域,包括科学研究、气候建模,甚至金融预测。超级计算最显著的应用之一是在气候科学领域。研究人员利用这些强大的系统创建地球气候的详细模型。通过处理来自卫星和地面站的大量数据集,超级计算使科学家能够更准确地模拟天气模式和预测气候变化。这种能力对于理解全球变暖及其对我们星球的潜在影响至关重要。此外,超级计算在医学研究中也发挥着重要作用。例如,研究人员可以利用这些先进系统分析遗传信息并模拟分子相互作用。这导致了药物发现和个性化医学方面的重大突破,在这些领域,治疗可以根据患者的遗传组成量身定制。超级计算的速度和效率使科学家能够进行传统方法需要数年才能完成的实验。超级计算的另一个亮点是在天体物理学中。科学家们利用这些强大的计算机模拟星系、恒星甚至黑洞的形成。通过运行复杂的算法并处理来自望远镜的大规模数据集,研究人员可以深入了解宇宙的起源及其基本法则。模拟如此复杂现象的能力仅通过超级计算所提供的能力才能实现。此外,超级计算在商业领域的应用也日益增多。公司利用这些强大的系统进行大数据分析,使他们能够处理和分析客户行为、市场趋势和运营效率。通过利用超级计算的力量,企业能够做出明智的决策,并在快速变化的市场中保持竞争力。尽管有许多优点,超级计算也面临挑战。构建和维护这些系统的成本非常高,通常需要政府和私营部门的重大投资。此外,对于能够操作和编程这些先进机器的专业人才的需求不断增加。随着技术的不断发展,超级计算领域的专业知识需求只会增加。总之,超级计算是一项变革性技术,在多个学科中具有深远的影响。它以空前的速度处理大量数据的能力使科学、医学和商业领域的突破成为可能。在我们继续探索超级计算的潜力时,必须解决其带来的挑战,同时最大限度地发挥其对社会的益处。超级计算的未来看起来充满希望,其在塑造我们对世界的理解中的作用不可低估。