buffer layer

简明释义

缓冲层

英英释义

例句

1.The buffer layer is essential in preventing data loss during transmission.

在传输过程中，缓冲层 对防止数据丢失至关重要。

2.When printing, the buffer layer temporarily stores print jobs to ensure quality.

在打印时，缓冲层 暂时存储打印任务以确保质量。

3.In a computer network, the buffer layer helps manage data flow between devices.

在计算机网络中，缓冲层 有助于管理设备之间的数据流。

4.The use of a buffer layer can significantly reduce latency in video streaming.

使用缓冲层 可以显著减少视频流的延迟。

5.The buffer layer in our software architecture allows for smoother updates.

我们软件架构中的缓冲层 允许更顺利的更新。

作文

In the realm of materials science and engineering, the concept of a buffer layer plays a crucial role in enhancing the performance and durability of various systems. A buffer layer is essentially an intermediate layer that serves to absorb stress, reduce friction, and prevent direct contact between two surfaces or materials. This layer can significantly improve the overall functionality of devices, especially in electronic and optical applications. For instance, in photovoltaic cells, the use of a buffer layer can help optimize light absorption and energy conversion efficiency by providing a smoother interface for charge carriers. Moreover, in semiconductor manufacturing, a buffer layer is often employed to facilitate the growth of thin films. It acts as a transitional layer that helps to accommodate differences in lattice structure and thermal expansion between the substrate and the film being deposited. By doing so, it minimizes defects and enhances the quality of the final product. The significance of a buffer layer cannot be overstated, as it directly impacts the yield and reliability of semiconductor devices.In addition to its applications in electronics, the concept of a buffer layer can also be found in environmental science. For example, in the context of water management, a buffer layer refers to vegetative zones that are strategically placed near water bodies to filter pollutants and reduce runoff. These natural barriers not only protect aquatic ecosystems but also contribute to biodiversity by providing habitat for various species.Another important application of a buffer layer is in the field of construction and civil engineering. Here, it refers to layers of material used to mitigate the impact of vibrations and shocks in structures such as bridges and buildings. By incorporating a buffer layer, engineers can enhance the resilience and longevity of infrastructure, ensuring safety and stability over time.Furthermore, the concept of a buffer layer extends to data management and computer science as well. In computing, a buffer layer can refer to memory storage that temporarily holds data while it is being transferred between two locations. This is particularly useful in scenarios where there is a speed mismatch between the producer and consumer of data, allowing for smoother and more efficient processing.In conclusion, the concept of a buffer layer is multifaceted and spans across various disciplines. Whether it is in materials science, environmental protection, civil engineering, or computer science, the implementation of a buffer layer provides significant benefits by enhancing performance, reducing wear and tear, and protecting against adverse effects. Understanding the importance of a buffer layer allows us to innovate and improve existing technologies and practices, leading to more sustainable and efficient solutions in our daily lives.

在材料科学和工程领域，缓冲层的概念在提高各种系统的性能和耐用性方面起着至关重要的作用。缓冲层本质上是一个中间层，旨在吸收应力、减少摩擦，并防止两个表面或材料之间的直接接触。这个层可以显著改善设备的整体功能，尤其是在电子和光学应用中。例如，在光伏电池中，使用缓冲层可以通过提供更平滑的界面来优化光吸收和能量转换效率。此外，在半导体制造中，通常会使用缓冲层来促进薄膜的生长。它充当一个过渡层，帮助适应基材与所沉积薄膜之间的晶格结构和热膨胀差异。通过这样做，它最小化了缺陷并提高了最终产品的质量。缓冲层的重要性不容小觑，因为它直接影响半导体设备的产量和可靠性。除了在电子学中的应用外，缓冲层的概念也可以在环境科学中找到。例如，在水管理的背景下，缓冲层指的是战略性地放置在水体附近的植被区，以过滤污染物并减少径流。这些自然屏障不仅保护水生生态系统，还通过提供栖息地来促进生物多样性。缓冲层的另一个重要应用是在建筑和土木工程领域。在这里，它指的是用于减轻桥梁和建筑物等结构中振动和冲击影响的材料层。通过加入缓冲层，工程师可以增强基础设施的韧性和耐久性，确保安全和稳定。此外，缓冲层的概念也扩展到数据管理和计算机科学。在计算中，缓冲层可以指临时存储数据的内存存储器，而这些数据正在被传输到两个位置之间。这在生产者和消费者之间存在速度不匹配的情况下特别有用，可以实现更平滑和更高效的处理。总之，缓冲层的概念是多方面的，跨越多个学科。无论是在材料科学、环境保护、土木工程还是计算机科学中，实施缓冲层都通过提高性能、减少磨损和保护不良影响提供了显著的好处。理解缓冲层的重要性使我们能够创新和改进现有技术和实践，从而在日常生活中实现更可持续和高效的解决方案。