emulators

简明释义

英[ˈɛm.jʊ.leɪ.təz]美[ˈɛm.jəˌleɪ.tərz]

n. 模拟器；[自]仿真器（emulator 的复数形式）

英英释义

单词用法

同义词

反义词

例句

1.Mined relies on X-based terminal emulators, like xterm in UTF-8 mode, rvxt-unicode, or the Linux console to detect UTF-8 encodings.

Mined依赖于基于x的终端模拟器来检测utf - 8编码，这些终端模拟器包括UTF - 8模式的xterm、rvxt - unicode或者Linux控制台。

2.Manual emulators will pause for you to enter emulation data.

在输入模拟数据时，手动模拟器将暂停。

3.Delete unwanted emulators from the integration test client configuration.

从集成测试客户端配置删除不需要的模拟器。

4.Multiple device control: The monkeyrunner API can apply one or more test suites across multiple devices or emulators.

多设备控制：monkeyrunnerAPI可以跨多个设备或模拟器实施测试套件。

5.You can discover, run and schedule tests, as well as being able to define and enable human task emulators, as shown in Figure 6.

您可以发现、运行和计划安排测试，并且能够定义和启用人工任务模拟器，如图6所示。

6.Native apps have better debuggers and emulators.

原生应用有更好的调试工具和模拟器。

7.Many developers use emulators to test their apps on different devices without needing the physical hardware.

许多开发者使用仿真器来测试他们的应用程序，而无需实际硬件。

8.Game enthusiasts often rely on emulators to play classic games from older consoles on their computers.

游戏爱好者经常依赖仿真器在他们的计算机上玩来自旧游戏机的经典游戏。

9.The Android SDK includes several emulators for testing applications in different Android versions.

Android SDK包含多个仿真器，用于在不同的Android版本中测试应用程序。

10.Using emulators, you can simulate network conditions to see how your application performs under various scenarios.

通过使用仿真器，您可以模拟网络条件，以查看您的应用程序在各种场景下的表现。

11.Some emulators allow you to customize settings, such as screen resolution and memory allocation.

一些仿真器允许您自定义设置，例如屏幕分辨率和内存分配。

作文

In the world of technology, the term emulators refers to software or hardware that allows one computer system to behave like another. This capability is particularly useful in various fields, including software development, gaming, and even education. By using emulators (仿真器), developers can test their applications in environments that mimic different operating systems or hardware configurations without needing the physical devices. This not only saves time but also reduces costs associated with acquiring multiple systems for testing purposes. One of the most popular uses of emulators (仿真器) is in the gaming industry. Many classic video games were designed for specific consoles, and as technology has advanced, these consoles have become obsolete. However, thanks to emulators (仿真器), gamers can still enjoy these nostalgic titles on modern computers or mobile devices. For instance, programs like ZSNES and SNES9x allow players to run Super Nintendo games on their PCs, preserving the gaming experience while enhancing it with features like save states and improved graphics. Moreover, emulators (仿真器) play a crucial role in mobile application development. Developers often need to test their applications on various devices with different screen sizes and operating systems. Instead of purchasing an array of smartphones and tablets, they can use emulators (仿真器) that simulate these devices on their computers. This streamlines the development process, enabling developers to identify and fix issues before releasing their apps to the public. Education is another area where emulators (仿真器) have made a significant impact. In computer science courses, students can use emulators (仿真器) to learn about different operating systems and programming environments without needing access to various physical machines. For example, a student can use a Linux emulator (仿真器) on a Windows computer to practice coding in a Unix-like environment. This hands-on experience is invaluable for students, as it allows them to experiment and learn in a safe and controlled setting. While emulators (仿真器) offer many advantages, they also come with certain challenges. Performance can sometimes be an issue, as emulators (仿真器) may not perfectly replicate the speed and efficiency of the original hardware. Additionally, legal concerns arise around the use of emulators (仿真器), especially when it comes to proprietary software and games. Users must ensure that they are following copyright laws and not infringing on intellectual property rights when using emulators (仿真器). In conclusion, emulators (仿真器) are powerful tools that have transformed how we interact with technology. They enable developers to create and test applications more efficiently, allow gamers to relive classic experiences, and provide students with valuable learning opportunities. As technology continues to evolve, the importance and functionality of emulators (仿真器) are likely to grow, making them an essential part of the tech landscape. Understanding how to use emulators (仿真器) effectively can open up new possibilities for innovation and creativity in various fields.

在技术世界中，术语emulators（仿真器）指的是允许一个计算机系统表现得像另一个系统的软件或硬件。这种能力在多个领域中尤为实用，包括软件开发、游戏甚至教育。通过使用emulators（仿真器），开发人员可以在模拟不同操作系统或硬件配置的环境中测试他们的应用程序，而无需拥有物理设备。这不仅节省了时间，还减少了与获取多个测试系统相关的成本。 emulators（仿真器）在游戏行业中最常见的用途之一是许多经典视频游戏是为特定控制台设计的，随着技术的进步，这些控制台已经变得过时。然而，感谢emulators（仿真器），玩家仍然可以在现代计算机或移动设备上享受这些怀旧的标题。例如，像ZSNES和SNES9x这样的程序允许玩家在PC上运行超级任天堂游戏，保留了游戏体验，同时增强了保存状态和改进图形等功能。 此外，emulators（仿真器）在移动应用开发中也发挥着至关重要的作用。开发人员通常需要在不同屏幕大小和操作系统的各种设备上测试他们的应用程序。与其购买一系列智能手机和平板电脑，他们可以使用emulators（仿真器）在计算机上模拟这些设备。这简化了开发过程，使开发人员能够在将应用程序发布给公众之前识别和修复问题。 教育是另一个emulators（仿真器）产生重大影响的领域。在计算机科学课程中，学生可以使用emulators（仿真器）学习不同的操作系统和编程环境，而无需访问各种物理机器。例如，学生可以在Windows计算机上使用Linuxemulator（仿真器）来练习在类Unix环境中编码。这种实践经验对学生来说是无价的，因为它使他们能够在安全和受控的环境中进行实验和学习。 虽然emulators（仿真器）提供了许多优势，但它们也带来了一些挑战。性能有时可能是一个问题，因为emulators（仿真器）可能无法完美复制原始硬件的速度和效率。此外，关于使用emulators（仿真器）的法律问题也会出现，尤其是在涉及专有软件和游戏时。用户必须确保遵循版权法，并在使用emulators（仿真器）时不侵犯知识产权。 总之，emulators（仿真器）是强大的工具，改变了我们与技术互动的方式。它们使开发人员能够更高效地创建和测试应用程序，使玩家能够重温经典体验，并为学生提供宝贵的学习机会。随着技术的不断发展，emulators（仿真器）的重要性和功能可能会增长，使其成为技术领域的重要组成部分。有效理解如何使用emulators（仿真器）可以为各个领域的创新和创造力开辟新的可能性。