single pass system
简明释义
单撂系统
英英释义
例句
1.The new scanner features a single pass system that captures images of both sides of a document simultaneously.
这款新扫描仪配备了一个单次通过系统,可以同时捕捉文件的两面图像。
2.The single pass system in this dishwasher allows for faster cleaning cycles.
这款洗碗机中的单次通过系统允许更快的清洗周期。
3.With a single pass system, the assembly line can produce more units per hour.
使用单次通过系统,生产线每小时可以生产更多的单位。
4.In a single pass system, data is processed in one go, which improves efficiency.
在单次通过系统中,数据一次性处理,提高了效率。
5.The printer uses a single pass system to quickly print double-sided documents.
这台打印机使用单次通过系统快速打印双面文件。
作文
In the world of technology and data processing, various systems are employed to enhance efficiency and optimize performance. One such system is the single pass system, which refers to a method where data is processed in one go without the need for multiple passes through the data set. This approach has significant implications in areas such as data analysis, computer graphics, and information retrieval. Understanding the single pass system can provide insights into its advantages and applications. The primary advantage of a single pass system is its efficiency. By processing data only once, it minimizes the time and resources needed to complete a task. For instance, in data analysis, when handling large datasets, a single pass system allows analysts to extract relevant information quickly without having to revisit the data multiple times. This is particularly beneficial in real-time applications where speed is crucial. Moreover, the single pass system reduces the complexity of data processing. Traditional methods often require multiple iterations, which can lead to increased chances of errors and inconsistencies. In contrast, a single pass system streamlines the workflow, making it easier for developers and analysts to manage and maintain their processes. This simplicity is especially valuable in environments where rapid decision-making is essential. Another significant application of the single pass system can be found in computer graphics. When rendering images, a single pass system can significantly improve performance by allowing the graphics processor to execute all necessary calculations in one traversal of the scene. This not only speeds up the rendering process but also enhances the overall quality of the output, as it allows for more detailed and complex scenes to be processed efficiently. Additionally, the single pass system is widely used in information retrieval systems, such as search engines. When a user inputs a query, the search engine can utilize a single pass system to quickly scan through vast amounts of data and return relevant results without the need for repeated searches. This capability is essential in providing users with timely and accurate information, thereby improving their overall experience. Despite its numerous benefits, it is essential to recognize that the single pass system may not be suitable for every scenario. In some cases, complex data relationships or dependencies may require multiple passes to ensure accuracy and completeness. Therefore, while the single pass system offers significant advantages, it is crucial to evaluate the specific requirements of each task before deciding on the most appropriate processing method. In conclusion, the single pass system is a powerful approach in data processing that enhances efficiency, reduces complexity, and improves performance across various applications. Its ability to process data in one go makes it an invaluable tool in fields such as data analysis, computer graphics, and information retrieval. As technology continues to evolve, understanding and effectively utilizing the single pass system will remain essential for professionals seeking to optimize their workflows and achieve better results.
在科技和数据处理的世界中,各种系统被用来提高效率和优化性能。其中一种系统是单遍处理系统,指的是一种方法,在这种方法中,数据在一次性处理时,无需对数据集进行多次遍历。这种方法在数据分析、计算机图形学和信息检索等领域具有重要意义。理解单遍处理系统可以提供对其优势和应用的深入见解。单遍处理系统的主要优点是其效率。通过仅对数据进行一次处理,它最小化了完成任务所需的时间和资源。例如,在数据分析中,当处理大型数据集时,单遍处理系统允许分析师快速提取相关信息,而无需多次回访数据。这在实时应用中尤为有利,因为速度至关重要。此外,单遍处理系统降低了数据处理的复杂性。传统方法通常需要多次迭代,这可能导致错误和不一致性的增加。相比之下,单遍处理系统简化了工作流程,使开发人员和分析师更容易管理和维护他们的过程。这种简单性在快速决策至关重要的环境中尤其有价值。单遍处理系统的另一个重要应用可以在计算机图形学中找到。在渲染图像时,单遍处理系统可以通过允许图形处理器在场景的一次遍历中执行所有必要的计算,从而显著提高性能。这不仅加快了渲染过程,还增强了输出的整体质量,因为它允许更详细和复杂的场景高效处理。此外,单遍处理系统在信息检索系统(如搜索引擎)中广泛使用。当用户输入查询时,搜索引擎可以利用单遍处理系统快速扫描大量数据并返回相关结果,而无需重复搜索。这种能力对于及时和准确地向用户提供信息至关重要,从而改善他们的整体体验。尽管有许多好处,但必须认识到单遍处理系统可能并不适合每种情况。在某些情况下,复杂的数据关系或依赖性可能需要多次遍历,以确保准确性和完整性。因此,虽然单遍处理系统提供了显著的优势,但在决定最合适的处理方法之前,评估每个任务的具体要求至关重要。总之,单遍处理系统是一种强大的数据处理方法,可以提高效率、减少复杂性并改善各种应用中的性能。它一次性处理数据的能力使其成为数据分析、计算机图形学和信息检索等领域中不可或缺的工具。随着技术的不断发展,理解和有效利用单遍处理系统将始终是寻求优化工作流程和取得更好结果的专业人士的重要任务。
