semicustom array

简明释义

半定制阵列

英英释义

例句

1.With the integration of a semicustom array, the server can handle more simultaneous connections.

通过集成一个半定制阵列，服务器可以处理更多的同时连接。

2.The semicustom array used in this smartphone allows for better battery management.

这款智能手机中使用的半定制阵列允许更好的电池管理。

3.Developers can leverage the semicustom array in their applications to optimize processing speed.

开发者可以利用应用中的半定制阵列来优化处理速度。

4.The new gaming console features a powerful semicustom array that enhances graphics performance.

这款新游戏机配备了强大的半定制阵列，提升了图形性能。

5.The design team chose a semicustom array to balance cost and performance in their new product line.

设计团队选择了一个半定制阵列来平衡新产品线的成本和性能。

作文

In the world of electronics and computer engineering, the term semicustom array is often used to describe a specific type of integrated circuit design that balances flexibility and efficiency. A semicustom array typically refers to a class of devices that are not fully custom-designed but allow for some degree of customization during the manufacturing process. This approach provides engineers with a unique opportunity to optimize their designs without the extensive costs and time associated with fully custom integrated circuits.One of the primary advantages of using a semicustom array is the ability to tailor the architecture to meet specific application requirements. For instance, in fields such as telecommunications, automotive systems, and consumer electronics, the need for specialized functions can vary greatly. By utilizing a semicustom array, designers can select from a range of pre-defined blocks or modules that can be configured to create a chip that meets their exact needs while still benefiting from the efficiencies of mass production.Furthermore, the design cycle for a semicustom array is significantly shorter than that of a fully custom chip. This is particularly important in industries where time-to-market is critical. Engineers can leverage existing designs and modify them to suit their purposes, reducing both development time and costs. This rapid prototyping capability allows companies to remain competitive in fast-paced markets.However, there are trade-offs to consider when opting for a semicustom array. While they provide greater flexibility than standard off-the-shelf components, they may not offer the same level of performance as a fully optimized custom solution. The inherent limitations of a semicustom array can lead to compromises in speed, power consumption, and overall efficiency. Therefore, engineers must carefully evaluate the requirements of their projects to determine whether a semicustom array is the right choice.Moreover, the use of semicustom arrays has become increasingly popular in the context of field-programmable gate arrays (FPGAs). FPGAs allow designers to reconfigure the hardware after manufacturing, providing a high degree of flexibility. However, semicustom arrays can offer a middle ground by providing some level of customization without the full programmability of FPGAs. This makes them an attractive option for applications that require a balance between fixed functionality and adaptability.In conclusion, the concept of semicustom array represents a significant advancement in integrated circuit design, providing a versatile solution for modern electronic applications. By allowing for a tailored approach to chip design, semicustom arrays enable engineers to create efficient and effective solutions that meet the demands of various industries. As technology continues to evolve, the role of semicustom arrays will likely grow, further bridging the gap between fully custom and off-the-shelf components. Understanding this term and its implications is essential for anyone involved in the fields of electronics and computer engineering.

在电子和计算机工程的世界中，术语半定制阵列通常用于描述一种集成电路设计的特定类型，它在灵活性和效率之间取得了平衡。半定制阵列通常指的是一种设备类别，这些设备并非完全定制设计，但在制造过程中允许一定程度的定制。这种方法为工程师提供了一个独特的机会，可以优化他们的设计，而无需承担与完全定制集成电路相关的高昂成本和时间。使用半定制阵列的主要优势之一是能够根据特定应用需求量身定制架构。例如，在电信、汽车系统和消费电子等领域，专用功能的需求可能会有很大差异。通过利用半定制阵列，设计师可以选择一系列预定义的模块或模块，这些模块可以配置以创建满足其确切需求的芯片，同时仍然受益于大规模生产的效率。此外，半定制阵列的设计周期显著短于完全定制芯片的设计周期。这在市场反应速度至关重要的行业中尤为重要。工程师可以利用现有设计并对其进行修改，以适应他们的目的，从而减少开发时间和成本。这种快速原型能力使公司能够在快速变化的市场中保持竞争力。然而，在选择半定制阵列时需要考虑权衡。虽然它们提供的灵活性超过了标准的现成组件，但它们可能无法提供与完全优化的定制解决方案相同水平的性能。半定制阵列的固有限制可能导致速度、功耗和整体效率的妥协。因此，工程师必须仔细评估项目的要求，以确定半定制阵列是否是正确的选择。此外，在现场可编程门阵列（FPGA）的背景下，使用半定制阵列变得越来越受欢迎。FPGA允许设计师在制造后重新配置硬件，提供高度的灵活性。然而，半定制阵列可以通过提供某种程度的定制而不具备FPGA的完全可编程性，从而提供一种折衷方案。这使得它们成为需要固定功能与适应性之间平衡的应用程序的有吸引力的选择。总之，半定制阵列的概念代表了集成电路设计的一项重大进展，为现代电子应用提供了一种多功能解决方案。通过允许量身定制的芯片设计方式，半定制阵列使工程师能够创建高效有效的解决方案，以满足各个行业的需求。随着技术的不断发展，半定制阵列的角色可能会进一步增长，进一步弥合完全定制和现成组件之间的差距。理解这个术语及其含义对于任何参与电子和计算机工程领域的人来说都是至关重要的。