computer hardware description language

简明释义

计算机硬件描述语言

英英释义

例句

1.Learning a computer hardware description language is essential for engineers working in digital design.

学习计算机硬件描述语言对从事数字设计的工程师至关重要。

2.A good grasp of computer hardware description language can significantly enhance your career prospects in electronics.

对计算机硬件描述语言的良好掌握可以显著提升您在电子领域的职业前景。

3.With computer hardware description language, you can simulate how circuits will behave before physical implementation.

使用计算机硬件描述语言，您可以在物理实现之前模拟电路的行为。

4.Many FPGA designs are implemented using computer hardware description language like VHDL or Verilog.

许多FPGA设计使用计算机硬件描述语言如VHDL或Verilog实现。

5.The design team used a computer hardware description language to model the new processor architecture.

设计团队使用计算机硬件描述语言来建模新的处理器架构。

作文

In the realm of computer engineering, understanding the intricacies of design and functionality is crucial. One essential component that plays a vital role in this field is known as computer hardware description language. This term refers to a specialized programming language used to describe the structure and behavior of electronic circuits and systems. Unlike traditional programming languages that are primarily focused on software development, computer hardware description language serves a unique purpose by enabling engineers to model and simulate hardware designs before they are physically built.The significance of computer hardware description language can be observed in various aspects of hardware design. For instance, it allows designers to create high-level abstractions of their circuits, which can then be synthesized into actual hardware components. This process not only streamlines the design workflow but also helps in identifying potential issues early in the development phase. By utilizing computer hardware description language, engineers can efficiently test and validate their designs through simulation, ensuring that the final product meets the desired specifications.There are several popular computer hardware description languages that have been developed over the years, with VHDL (VHSIC Hardware Description Language) and Verilog being the most widely used. VHDL is particularly favored in Europe and is known for its strong typing and verbosity, which can enhance readability and maintainability. On the other hand, Verilog is more commonly used in the United States and is appreciated for its simplicity and ease of use.The choice between these two languages often depends on the specific requirements of a project and the preferences of the engineering team. Regardless of the language chosen, the underlying principles of computer hardware description language remain the same: to provide a clear and concise way to represent hardware designs.Moreover, the advent of modern tools and technologies has further enhanced the capabilities of computer hardware description language. With the integration of advanced simulation and synthesis tools, engineers can now visualize their designs in three-dimensional space, making it easier to comprehend complex systems. This visualization aids in better communication among team members and stakeholders, fostering collaboration and innovation.As technology continues to evolve, the importance of computer hardware description language will only increase. The rise of fields such as artificial intelligence, machine learning, and the Internet of Things (IoT) demands sophisticated hardware solutions that can support these advancements. Consequently, engineers must be well-versed in computer hardware description language to effectively contribute to the development of cutting-edge technologies.In conclusion, the role of computer hardware description language in the field of computer engineering cannot be overstated. It serves as a bridge between abstract design concepts and tangible hardware implementations, facilitating the entire design process. As the demand for innovative hardware solutions grows, so too does the need for skilled professionals who can leverage computer hardware description language to bring their ideas to life. Understanding and mastering this essential tool is imperative for anyone aspiring to excel in the dynamic world of computer engineering.

在计算机工程领域，理解设计和功能的复杂性至关重要。一个在该领域中发挥重要作用的基本组成部分被称为计算机硬件描述语言。这个术语指的是一种专门的编程语言，用于描述电子电路和系统的结构与行为。与主要关注软件开发的传统编程语言不同，计算机硬件描述语言具有独特的目的，使工程师能够在实际构建之前对硬件设计进行建模和仿真。计算机硬件描述语言的重要性可以在硬件设计的各个方面观察到。例如，它允许设计人员创建电路的高级抽象，然后将其综合成实际的硬件组件。这个过程不仅简化了设计工作流程，还帮助在开发阶段早期识别潜在问题。通过利用计算机硬件描述语言，工程师可以有效地测试和验证他们的设计，确保最终产品符合所需规格。多年来，已经开发出几种流行的计算机硬件描述语言，其中VHDL（VHSIC硬件描述语言）和Verilog是使用最广泛的。VHDL在欧洲特别受欢迎，以其强类型和冗长著称，这有助于提高可读性和可维护性。另一方面，Verilog在美国更常用，因其简单易用而受到赞赏。选择这两种语言之间的差异通常取决于项目的具体要求和工程团队的偏好。无论选择哪种语言，计算机硬件描述语言的基本原则保持不变：提供一种清晰简洁的方式来表示硬件设计。此外，现代工具和技术的出现进一步增强了计算机硬件描述语言的能力。随着先进的仿真和综合工具的集成，工程师现在可以在三维空间中可视化他们的设计，使理解复杂系统变得更加容易。这种可视化有助于团队成员和利益相关者之间更好的沟通，促进合作与创新。随着技术的不断发展，计算机硬件描述语言的重要性将只会增加。人工智能、机器学习和物联网（IoT）等领域的兴起需要能够支持这些进步的复杂硬件解决方案。因此，工程师必须精通计算机硬件描述语言，以有效地为尖端技术的发展做出贡献。总之，计算机硬件描述语言在计算机工程领域中的角色不可低估。它充当抽象设计概念与有形硬件实现之间的桥梁，促进整个设计过程。随着对创新硬件解决方案的需求不断增长，对能够利用计算机硬件描述语言实现创意的专业人才的需求也随之增长。理解和掌握这一基本工具对任何希望在动态计算机工程世界中脱颖而出的人来说都是至关重要的。