high throughput system

简明释义

高生产能力系统

英英释义

例句

1.In bioinformatics, a high throughput system allows researchers to analyze thousands of genetic sequences simultaneously.

在生物信息学中，高吞吐量系统使研究人员能够同时分析数千个基因序列。

2.Our new cloud architecture is designed as a high throughput system to handle large volumes of data efficiently.

我们的新云架构被设计为一个高吞吐量系统，以高效处理大量数据。

3.The manufacturing plant upgraded to a high throughput system to increase production speed and reduce costs.

该制造厂升级到一个高吞吐量系统，以提高生产速度并降低成本。

4.A high throughput system is essential for processing transactions in real-time for online banking services.

对于在线银行服务来说，高吞吐量系统对于实时处理交易至关重要。

5.Our research lab utilizes a high throughput system to quickly screen potential drug candidates.

我们的研究实验室利用高吞吐量系统快速筛选潜在药物候选者。

作文

In today's fast-paced world, the demand for efficiency and speed has led to the development of various technological systems designed to optimize performance. One such innovation is the high throughput system, which refers to a system capable of processing a large amount of data or performing numerous tasks in a short period of time. This capability is crucial in many fields, including telecommunications, data analysis, and manufacturing. The essence of a high throughput system lies in its ability to maximize output while minimizing delays and bottlenecks.A practical example of a high throughput system can be found in modern data centers. These facilities are equipped with powerful servers and advanced networking technologies that allow them to handle vast amounts of data traffic. For instance, cloud computing services rely heavily on high throughput systems to deliver seamless experiences to users who expect quick access to information and applications. By employing parallel processing techniques, these systems can distribute workloads across multiple servers, significantly enhancing their overall performance.Moreover, in the realm of scientific research, high throughput systems have revolutionized the way experiments are conducted. In fields such as genomics and drug discovery, researchers utilize automated technologies to test thousands of compounds or genetic sequences simultaneously. This not only accelerates the pace of discovery but also reduces costs associated with manual testing methods. The integration of robotics and sophisticated software in these laboratories exemplifies how high throughput systems can lead to groundbreaking advancements in science and medicine.The benefits of implementing a high throughput system extend beyond mere speed. These systems often come with enhanced accuracy and reliability. For instance, in quality control processes within manufacturing, high throughput systems can conduct rapid inspections of products, ensuring that defects are identified and addressed promptly. This minimizes waste and improves customer satisfaction by delivering high-quality products consistently.However, it is essential to note that achieving high throughput is not solely about increasing speed; it also requires careful consideration of the underlying infrastructure. A well-designed high throughput system must incorporate robust data management practices, efficient algorithms, and scalable hardware. Organizations need to invest in training personnel to operate and maintain these systems effectively, as the complexity of managing high volumes of data can pose challenges.In conclusion, the concept of a high throughput system plays a vital role in various industries by enabling rapid processing and analysis of large datasets. Its applications range from data centers to scientific laboratories, illustrating its versatility and importance in contemporary society. As technology continues to evolve, the demand for high throughput systems will likely increase, driving further innovations that will shape the future of efficiency and productivity across multiple sectors.

在当今快节奏的世界中，对效率和速度的需求促使开发出各种旨在优化性能的技术系统。其中一种创新是高通量系统，指的是能够在短时间内处理大量数据或执行众多任务的系统。这种能力在许多领域至关重要，包括电信、数据分析和制造业。高通量系统的本质在于其最大化输出的能力，同时最小化延迟和瓶颈。现代数据中心就是高通量系统的一个实际例子。这些设施配备了强大的服务器和先进的网络技术，使它们能够处理大量的数据流量。例如，云计算服务在很大程度上依赖于高通量系统，为用户提供快速访问信息和应用程序的无缝体验。通过采用并行处理技术，这些系统可以将工作负载分配到多个服务器上，从而显著提高整体性能。此外，在科学研究领域，高通量系统彻底改变了实验的进行方式。在基因组学和药物发现等领域，研究人员利用自动化技术同时测试成千上万的化合物或基因序列。这不仅加快了发现的步伐，还降低了与手动测试方法相关的成本。这些实验室中机器人和复杂软件的集成，展示了高通量系统如何推动科学和医学的突破性进展。实施高通量系统的好处不仅仅在于速度。这些系统通常具有更高的准确性和可靠性。例如，在制造过程中的质量控制中，高通量系统可以快速检查产品，确保及时识别和解决缺陷。这减少了浪费，并通过持续提供高质量的产品来提高客户满意度。然而，必须注意的是，实现高通量不仅仅是提高速度；这还需要仔细考虑基础设施。一个设计良好的高通量系统必须纳入稳健的数据管理实践、高效的算法和可扩展的硬件。组织需要投资于培训人员，以有效地操作和维护这些系统，因为管理大量数据的复杂性可能会带来挑战。总之，高通量系统的概念在各个行业中发挥着至关重要的作用，使得快速处理和分析大数据集成为可能。它的应用范围从数据中心到科学实验室，展示了其多功能性和在当代社会中的重要性。随着技术的不断发展，对高通量系统的需求可能会增加，推动进一步的创新，塑造各个行业未来的效率和生产力。