teraflops
简明释义
n. 浮点运算
英英释义
A teraflop is a measure of a computer's performance, equal to one trillion floating-point operations per second. | teraflop是计算机性能的一个度量,等于每秒一万亿次浮点运算。 |
单词用法
同义词
反义词
例句
1.The system is powered by 10 racks of IBM power 750 servers running Linux, and USES 15 terabytes of RAM, 2,880 processor cores and can operate at 80 teraflops.
整个系统由10台运行着Linux系统750的IBM服务器电源驱动,使用15万亿字节(约13970g)的内存,2880座处理器内核,可以在80万亿次浮点运算。
2.The IBM Roadrunner, the world's fastest computer, can run at 1, 105 teraflops with an efficiency level of 75.8%, and Germany's JUGENE runs at 82.3%.
IBM公司的被称为“走鹃”的世界上最快计算机,可以在74.8%的有效水平上达到每秒1105万亿次的运算,而德国的JUGENE超级计算机可以到达82.3%。
3.The system is powered by 10 racks of IBM POWER 750 servers running Linux, and uses 15 terabytes of RAM, 2, 880 processor cores and can operate at 80 teraflops.
整个系统由10台运行着Linux系统750的IBM服务器电源驱动,使用15万亿字节(约13970G)的内存,2880座处理器内核,可以在80万亿次浮点运算。
4.The Aquasar system achieves a performance of six Teraflops and has an energy efficiency of about 450 megaflops per watt.
a quasar系统的浮点运算能力可以达到6t,并且能源利用率高达每瓦特450 m次浮点运算。
5.Running at full processing capacity it should achieve a speed of 1.206 teraflops. Its actual score was just 563.1 teraflops
在其运行全部处理能力时,可以达到的速度为每秒1206万亿次,实际的处理能力为563.1万亿次。
6.The system is powered by 10 racks of IBM POWER 750 servers running Linux, and uses 15 terabytes of RAM, 2, 880 processor cores and can operate at 80 teraflops.
整个系统由10台运行着Linux系统750的IBM服务器电源驱动,使用15万亿字节(约13970G)的内存,2880座处理器内核,可以在80万亿次浮点运算。
7.Supercomputers are often rated in teraflops 万亿次浮点运算 to indicate their processing power.
超级计算机通常以teraflops万亿次浮点运算来评估其处理能力。
8.The new gaming console boasts a performance of over 12 teraflops 万亿次浮点运算, making it one of the most powerful on the market.
这款新游戏机的性能超过12teraflops万亿次浮点运算,使其成为市场上最强大的设备之一。
9.With a processing speed of 50 teraflops 万亿次浮点运算, this server can handle massive data analysis tasks efficiently.
这台服务器的处理速度为50teraflops万亿次浮点运算,可以高效地处理大规模数据分析任务。
10.Cloud computing services now offer virtual machines with up to 20 teraflops 万亿次浮点运算 of computational power.
云计算服务现在提供的虚拟机具备高达20teraflops万亿次浮点运算的计算能力。
11.The latest AI research requires computers that can perform calculations at speeds measured in teraflops 万亿次浮点运算.
最新的人工智能研究需要能够以teraflops万亿次浮点运算的速度进行计算的计算机。
作文
In today's fast-paced technological world, the term teraflops (万亿次浮点运算) has become increasingly significant, especially in the fields of computing and data processing. A teraflop is a measure of a computer's performance, specifically its ability to perform one trillion floating-point operations per second. This metric is crucial for evaluating the capabilities of supercomputers and high-performance computing systems, which are essential for complex simulations, scientific research, and large-scale data analysis.The importance of teraflops cannot be overstated. For instance, in the realm of artificial intelligence (AI) and machine learning, algorithms often require vast amounts of computational power to process large datasets and perform intricate calculations. The more teraflops a system can deliver, the faster it can train AI models, leading to quicker insights and advancements in technology. For example, training a deep learning model for image recognition might take days or even weeks on a conventional computer, while a supercomputer with high teraflops capability could complete the same task in a matter of hours.Moreover, teraflops play a pivotal role in scientific research. Researchers in fields such as climate modeling, molecular dynamics, and astrophysics rely on powerful computing systems to simulate complex phenomena. These simulations often involve millions of variables and require extensive computations that can only be handled by systems capable of delivering high teraflops. For instance, predicting climate changes involves analyzing vast amounts of data from various sources, and only supercomputers with high teraflops can efficiently process this information to provide accurate forecasts.Additionally, in the gaming industry, teraflops have become a marketing tool for console manufacturers. Gamers often look for systems that can deliver high teraflops to ensure smooth graphics and immersive gameplay. The rise of virtual reality (VR) and augmented reality (AR) applications further emphasizes the need for high-performance computing, as these technologies require real-time processing of complex graphics and interactions. A gaming console boasting several teraflops can handle demanding games that feature detailed graphics and expansive open worlds, providing an enhanced gaming experience.However, it is essential to understand that while teraflops are a useful measure of performance, they do not tell the whole story. Other factors, such as memory bandwidth, architecture efficiency, and parallel processing capabilities, also significantly impact a system's overall performance. Therefore, when evaluating a computer or a supercomputer, it is crucial to consider the entire ecosystem, rather than relying solely on the teraflops rating.In conclusion, the term teraflops represents a critical benchmark in the world of computing, signifying a computer's ability to perform one trillion floating-point operations per second. Its relevance spans various domains, including artificial intelligence, scientific research, and gaming. As technology continues to evolve, the demand for higher teraflops will likely increase, pushing the boundaries of what is possible in computation and innovation. Understanding teraflops and their implications is essential for anyone interested in the future of technology and its applications in our daily lives.
在当今快节奏的科技世界中,术语teraflops(万亿次浮点运算)变得越来越重要,尤其是在计算和数据处理领域。teraflop是衡量计算机性能的一个指标,特别是其每秒执行一万亿个浮点运算的能力。这个指标对于评估超级计算机和高性能计算系统的能力至关重要,这些系统对复杂的模拟、科学研究和大规模数据分析是必不可少的。teraflops的重要性不容小觑。例如,在人工智能(AI)和机器学习领域,算法通常需要大量的计算能力来处理大型数据集并进行复杂的计算。一个系统能够提供的teraflops越多,它训练AI模型的速度就越快,从而导致更快的洞察和技术进步。例如,训练一个用于图像识别的深度学习模型可能在传统计算机上需要几天甚至几周的时间,而一台具有高teraflops能力的超级计算机可以在几个小时内完成同样的任务。此外,teraflops在科学研究中也发挥着关键作用。气候建模、分子动力学和天体物理学等领域的研究人员依赖强大的计算系统来模拟复杂现象。这些模拟通常涉及数百万个变量,并需要广泛的计算,只有能够提供高teraflops的系统才能有效处理这些信息。例如,预测气候变化涉及分析来自各种来源的大量数据,只有具有高teraflops的超级计算机才能高效处理这些信息,以提供准确的预测。此外,在游戏行业中,teraflops已成为控制台制造商的一种营销工具。玩家通常寻找能够提供高teraflops的系统,以确保流畅的图形和沉浸式的游戏体验。虚拟现实(VR)和增强现实(AR)应用的兴起进一步强调了对高性能计算的需求,因为这些技术需要实时处理复杂的图形和交互。拥有多个teraflops的游戏控制台可以处理具有详细图形和广阔开放世界的要求苛刻的游戏,从而提供增强的游戏体验。然而,重要的是要理解,虽然teraflops是性能的有用衡量标准,但它们并不能完全说明问题。其他因素,如内存带宽、架构效率和并行处理能力,也会显著影响系统的整体性能。因此,在评估计算机或超级计算机时,考虑整个生态系统至关重要,而不仅仅依赖于teraflops的评级。总之,术语teraflops代表了计算机世界中的一个关键基准,标志着计算机每秒执行一万亿个浮点运算的能力。其相关性跨越多个领域,包括人工智能、科学研究和游戏。随着技术的不断发展,对更高teraflops的需求可能会增加,推动计算和创新的可能性边界。理解teraflops及其影响对于任何对未来技术及其在我们日常生活中的应用感兴趣的人来说都是必不可少的。
