processors
简明释义
n. (计)处理器,处理机;加工者,加工物(processor 的复数)
英英释义
单词用法
n. 信号处理机;讯息处理者 | |
数位讯号处理器 |
同义词
| 芯片 | 最新的芯片可以同时处理更多任务。 | ||
| 微处理器 | 微处理器是现代计算机的核心。 | ||
| 中央处理单元 | 中央处理单元对于运行软件应用程序至关重要。 | ||
| 计算单元 | Computational units are designed to optimize processing speed. | 计算单元旨在优化处理速度。 |
反义词
| 消费者 | 消费者通常依赖于设备中的处理器。 | ||
| 用户 | Users need to understand how processors work to optimize performance. | 用户需要了解处理器的工作原理,以优化性能。 |
例句
1.The number of processors to allocate to the partition.
分配给分区的处理器数量。
2.How many and what kind of processors will you need?
您需要多少个以及什么类型的处理器?
3.The new rule would also change how big processors operate.
新规则同样会改变大加工商的经营方式。
4.Native implementations by specific processors.
由特定处理器进行的本机实现。
5.It is not possible to disable interrupts across all processors.
禁止所有处理器的中断是不可能的。
6.Virtual processors can perform parallel processing.
虚拟处理器可以执行并行处理。
7.From here, you can see there are four processors to call upon.
在此示例中,您可以看到有四个处理器可供调用。
8.Are you concerned with interoperability across XSLT processors?
关心跨xslt处理程序的互操作性吗?
9.The performance of a video editing software largely depends on the speed of its processors (处理器).
视频编辑软件的性能在很大程度上取决于其处理器(处理器)的速度。
10.Cloud computing services rely on powerful processors (处理器) to handle large amounts of data.
云计算服务依赖强大的处理器(处理器)来处理大量数据。
11.Modern computers often have multiple processors (处理器) to handle complex tasks efficiently.
现代计算机通常有多个处理器(处理器)以高效处理复杂任务。
12.When building a PC, choosing the right processors (处理器) is crucial for achieving optimal performance.
在组装电脑时,选择合适的处理器(处理器)对实现最佳性能至关重要。
13.Some smartphones are equipped with advanced processors (处理器) that enhance gaming experiences.
一些智能手机配备了先进的处理器(处理器),提升了游戏体验。
作文
In the world of technology, few components are as crucial as the processors. A processor is essentially the brain of a computer, responsible for executing instructions and managing tasks. Without efficient processors, computers would struggle to perform even the most basic functions. The evolution of processors over the past few decades has been remarkable, leading to faster, more powerful, and energy-efficient devices that have transformed our daily lives.The first processors were simple and could only handle a limited number of tasks at a time. However, as technology advanced, we saw the introduction of multi-core processors, which allow computers to perform multiple operations simultaneously. This capability has made a significant difference in fields such as gaming, video editing, and data analysis, where speed and efficiency are paramount.Moreover, the rise of mobile devices has also influenced the design and functionality of processors. Manufacturers have developed specialized processors that are optimized for low power consumption, enabling smartphones and tablets to run complex applications without draining their batteries too quickly. This innovation has made it possible for users to enjoy high-performance computing on-the-go.The significance of processors extends beyond just personal computing. In the realm of artificial intelligence (AI) and machine learning, processors play a vital role in handling vast amounts of data and executing complex algorithms. AI processors are designed specifically to accelerate these computations, allowing for advancements in various industries, from healthcare to finance.Furthermore, the competition among tech companies to produce the best processors has led to rapid advancements in technology. Companies like Intel, AMD, and ARM are continually pushing the boundaries of what is possible, resulting in processors that are not only faster but also more capable of handling diverse tasks. This competitive environment fosters innovation and drives down costs, making high-performance computing accessible to a broader audience.However, with great power comes great responsibility. The increasing reliance on processors raises concerns about cybersecurity and privacy. As processors become more integrated into our lives, the potential for malicious attacks grows. Ensuring the security of processors and the systems they power is essential to protect sensitive information and maintain user trust.In conclusion, processors are a fundamental component of modern technology, impacting everything from personal devices to large-scale computing systems. Their evolution has shaped the way we interact with technology, making it faster, more efficient, and more accessible. As we look to the future, the ongoing development of processors will undoubtedly continue to drive innovation and transform our world in ways we cannot yet imagine. Understanding the importance of processors helps us appreciate the technological advancements that enhance our daily lives and the challenges that come with them.
在科技的世界里,处理器是至关重要的组件之一。处理器本质上是计算机的大脑,负责执行指令和管理任务。如果没有高效的处理器,计算机将难以完成即使是最基本的功能。在过去几十年中,处理器的演变令人瞩目,导致了更快、更强大和更节能的设备,这些设备改变了我们的日常生活。最早的处理器相对简单,只能处理有限数量的任务。然而,随着技术的发展,我们看到了多核处理器的引入,这使得计算机能够同时执行多个操作。这一能力在游戏、视频编辑和数据分析等领域产生了重大影响,因为这些领域对速度和效率的要求至关重要。此外,移动设备的兴起也影响了处理器的设计和功能。制造商开发了专门优化低功耗的处理器,使智能手机和平板电脑能够在不快速耗尽电池的情况下运行复杂的应用程序。这一创新使用户能够在移动中享受高性能计算。处理器的重要性不仅限于个人计算。在人工智能(AI)和机器学习领域,处理器在处理大量数据和执行复杂算法方面发挥着至关重要的作用。AI处理器专门设计用于加速这些计算,使得各个行业(从医疗保健到金融)都能取得进展。此外,科技公司之间对生产最佳处理器的竞争推动了技术的快速进步。英特尔、AMD和ARM等公司不断突破可能的界限,推出不仅更快,而且能够处理多样化任务的处理器。这种竞争环境促进了创新并降低了成本,使高性能计算对更广泛的受众变得可及。然而,强大的能力伴随着巨大的责任。对处理器的日益依赖引发了关于网络安全和隐私的担忧。随着处理器越来越多地融入我们的生活,恶意攻击的潜在风险也在增加。确保处理器及其所支持系统的安全性对于保护敏感信息和维护用户信任至关重要。总之,处理器是现代技术的基本组成部分,影响着从个人设备到大型计算系统的一切。它们的演变塑造了我们与技术的互动方式,使其更快、更高效、更易于获取。展望未来,处理器的持续发展无疑将继续推动创新,并以我们尚未想象的方式改变我们的世界。理解处理器的重要性有助于我们欣赏增强我们日常生活的技术进步及其带来的挑战。
