bits
简明释义
abbr. 二进制数字(Binary digits);后台智能传输服务(Background Intelligent Transfer Service);建设集成时序供应(Building Integrated Timing Supply)
英英释义
某物的小块或部分。 | |
In computing, a basic unit of information that can be either a 0 or a 1. | 在计算机中,基本的信息单位,可以是0或1。 |
小量或数量。 |
单词用法
零碎东西 | |
每秒位数,位/秒 |
同义词
| 片段 | 我找到了一些可能对我们有帮助的信息片段。 | ||
| 部分 | 报告被分成几个部分以便于理解。 | ||
| 碎片 | 她收集了破碎花瓶的碎片。 | ||
| 片段 | 他在社交媒体上分享了他的写作片段。 | ||
| 块 | We need to analyze the data in chunks to make it manageable. | 我们需要将数据分块分析,以便于管理。 |
反义词
| 整体 | 她一个人吃掉了整个蛋糕。 | ||
| 全部 | We need to consider the entirety of the project before making a decision. | 在做决定之前,我们需要考虑项目的全部。 |
例句
1.Icebergs are ordinarily blue to white, although they sometimes appear dark or opaque because they carry gravel and bits of rock.
冰山一般是蓝色到白色,尽管有时因为携带了砾石和小岩石而变成黑色或者不透明。
2.We put an infrared microscope—a spectroscope—on tiny tiny bits of paint.
我们把红外线显微镜——一个分光镜——放在很少很少的一点颜料上。
3.They weren't worth four bits.
它们不值50美分了。
4.The drawers are full of bits and pieces of armour.
抽屉里满是零零碎碎的盔甲片。
5.It had a few interesting bits.
它有一些有趣的地方。
6.They keep out bits of wood or stone.
它们把木块或石块挡在外面。
7.The development of fiber-optic cables allowed for billions of bits of information to be received every minute.
光纤电缆的发展使得每分钟都有数十亿比特的信息被接收。
8.You use these people, and the bits of behavior or characteristics as a starting point as you begin to sketch out your characters.
你会以这些人物以及他们的行为、性格特征为出发点来勾画人物形象。
我非常爱我的孩子。
10.Can you send me the bits 细节 of the plan we discussed?
你能把我们讨论过的计划的bits 细节发给我吗?
11.She gave me the bits 要点 I needed for the presentation.
她给了我演示所需的bits 要点。
12.I found a few bits 小片 of information online that might help.
我在网上找到了一些可能有帮助的bits 小片信息。
13.I need to buy a few bits 小块 of fabric for my sewing project.
我需要买几块bits 小块布料来做我的缝纫项目。
14.He shared some interesting bits 信息 about the history of the city.
他分享了一些关于这座城市历史的有趣bits 信息。
作文
In our modern world, we are surrounded by technology that constantly generates and processes vast amounts of data. This data is often broken down into smaller units known as bits, which are the fundamental building blocks of digital information. A bit is the most basic unit of data in computing and can represent a value of either 0 or 1. Understanding how bits work is essential for anyone looking to grasp the fundamentals of computer science and digital communication.When we talk about bits, we often refer to them in the context of binary code, which is the language of computers. Every piece of information, whether it’s a text document, an image, or a video, is ultimately translated into a series of bits. For instance, a simple text file may contain thousands or even millions of bits that represent each character in the file. The way these bits are arranged and interpreted determines how the information is processed and displayed on our screens.Moreover, the concept of bits extends beyond just individual data points. In networking, for example, data is transmitted over the internet in packets, which are collections of bits. The speed at which these bits travel can significantly affect our online experiences, such as how quickly a webpage loads or how smoothly a video streams. Understanding the flow of bits in networks can help us appreciate the complexity behind our everyday digital interactions.In addition to their role in data representation and transmission, bits also play a crucial part in storage. Hard drives, solid-state drives, and memory chips store data in the form of bits. The capacity of these storage devices is often measured in gigabits or terabits, indicating how many bits they can hold. This measurement is important for consumers when deciding how much storage they need for their devices.Furthermore, the manipulation of bits is fundamental to programming and software development. Programmers often work directly with bits to create algorithms that can efficiently process data. For example, operations like shifting and masking involve moving bits around or hiding certain bits to achieve desired outcomes. This level of control allows developers to optimize performance and ensure that applications run smoothly.Lastly, the significance of bits transcends technical fields and reaches into everyday life. As we engage with various technologies, from smartphones to smart home devices, we are interacting with systems that rely on bits to function. Even simple tasks like sending a text message or making a phone call involve the transmission and processing of bits.In conclusion, bits are not just abstract concepts; they are integral to the functioning of our digital world. Whether we are aware of it or not, every action we take online involves bits in some form. By understanding the role of bits in data representation, transmission, storage, and processing, we can gain a deeper appreciation for the technology that shapes our lives. As we continue to advance into an increasingly digital future, the importance of bits will only grow, making it essential for everyone to have a basic understanding of this fundamental unit of information.
在我们现代的世界中,我们被不断生成和处理大量数据的技术所包围。这些数据通常被分解成更小的单元,称为位,它们是数字信息的基本构建块。位是计算中最基本的数据单位,可以表示值为0或1。理解位的工作原理对于任何想要掌握计算机科学和数字通信基础的人来说都是至关重要的。当我们谈论位时,我们通常在二进制代码的上下文中提及它,这就是计算机的语言。每一条信息,无论是文本文件、图像还是视频,最终都被转换为一系列位。例如,一个简单的文本文件可能包含成千上万甚至数百万个位,这些位代表文件中的每个字符。这些位的排列和解释方式决定了信息的处理和显示方式。此外,位的概念不仅仅局限于单个数据点。在网络中,例如,数据通过互联网以数据包的形式传输,这些数据包是位的集合。这些位的传输速度可以显著影响我们的在线体验,例如网页加载的速度或视频流的顺畅程度。理解网络中位的流动可以帮助我们欣赏日常数字互动背后的复杂性。除了在数据表示和传输中的作用外,位在存储中也扮演着至关重要的角色。硬盘、固态硬盘和内存芯片以位的形式存储数据。这些存储设备的容量通常以千兆位或太比特为单位进行测量,表明它们可以容纳多少位。这个测量对于消费者在决定他们设备需要多少存储时非常重要。此外,位的操作是编程和软件开发的基础。程序员经常直接处理位以创建能够有效处理数据的算法。例如,移位和掩码等操作涉及移动位或隐藏某些位以达到预期的结果。这种控制级别使开发人员能够优化性能,确保应用程序平稳运行。最后,位的重要性超越了技术领域,深入到日常生活中。当我们与各种技术互动时,从智能手机到智能家居设备,我们正在与依赖于位运作的系统进行交互。即使是发送短信或拨打电话这样的简单任务,也涉及到位的传输和处理。总之,位不仅仅是抽象概念;它们是我们数字世界运作的核心。无论我们是否意识到,我们在线上的每一个动作都以某种形式涉及到位。通过理解位在数据表示、传输、存储和处理中的作用,我们可以更深刻地欣赏塑造我们生活的技术。随着我们继续向越来越数字化的未来迈进,位的重要性只会增加,因此每个人都应对这一基本信息单位有一个基本的理解。
