system performance criterion

简明释义

系统性能判据

英英释义

例句

1.During the testing phase, we will measure the application against the system performance criterion 系统性能标准.

在测试阶段，我们将应用与系统性能标准进行测量。

2.The system performance criterion 系统性能标准 includes response time and throughput metrics.

该系统性能标准包括响应时间和吞吐量指标。

3.The team established a system performance criterion 系统性能标准 to evaluate the software's efficiency.

团队建立了一个系统性能标准来评估软件的效率。

4.In order to meet the project deadline, we must adhere to the system performance criterion 系统性能标准 set by the client.

为了满足项目截止日期，我们必须遵守客户设定的系统性能标准。

5.Our engineers are currently reviewing the system performance criterion 系统性能标准 to ensure optimal performance.

我们的工程师正在审查系统性能标准以确保最佳性能。

作文

In the realm of technology and engineering, the term system performance criterion plays a crucial role in determining the effectiveness and efficiency of various systems. A system performance criterion refers to a set of measurable standards or benchmarks that are used to evaluate the performance of a system. These criteria can include factors such as speed, accuracy, reliability, and resource utilization. By establishing clear system performance criteria, engineers and developers can ensure that their systems meet the necessary requirements and function optimally under various conditions.For instance, consider a software application designed for data processing. The system performance criterion for this application might include processing speed, which measures how quickly the application can handle and analyze large datasets. Another important criterion could be the accuracy of the data processing, ensuring that the results produced by the application are correct and reliable. Additionally, resource utilization is also a key aspect; it refers to how efficiently the application uses system resources such as CPU and memory.By applying these system performance criteria, developers can identify potential bottlenecks and areas for improvement within the application. For example, if the processing speed is slower than the established benchmark, developers can investigate the underlying code, optimize algorithms, or enhance hardware capabilities to improve performance. Similarly, if accuracy levels fall below acceptable thresholds, they can implement additional validation checks or refine the data input methods.The importance of system performance criteria extends beyond software applications. In hardware design, these criteria are equally vital. For example, in the development of a new smartphone, manufacturers must establish system performance criteria related to battery life, processing power, and durability. Battery life is critical for user satisfaction, as consumers expect their devices to last throughout the day without frequent recharging. Processing power is essential for running applications smoothly, while durability ensures that the device can withstand everyday wear and tear.Moreover, system performance criteria are not static; they evolve as technology advances and user expectations change. As new technologies emerge, such as artificial intelligence and machine learning, the benchmarks for performance may shift significantly. Developers must continuously reassess and update their system performance criteria to remain competitive in the market and meet the demands of users.In conclusion, understanding and implementing system performance criteria is fundamental for the success of any technological system. These criteria serve as a roadmap for engineers and developers, guiding them in the design, evaluation, and improvement of systems across various domains. By adhering to well-defined system performance criteria, organizations can enhance the quality and reliability of their products, ultimately leading to greater user satisfaction and market success.

在技术和工程领域，术语系统性能标准在确定各种系统的有效性和效率方面发挥着至关重要的作用。系统性能标准是指用于评估系统性能的一组可测量的标准或基准。这些标准可以包括速度、准确性、可靠性和资源利用等因素。通过建立清晰的系统性能标准，工程师和开发人员可以确保他们的系统满足必要的要求，并在各种条件下最佳运行。例如，考虑一个用于数据处理的软件应用程序。该应用程序的系统性能标准可能包括处理速度，它衡量应用程序处理和分析大型数据集的速度。另一个重要标准可能是数据处理的准确性，确保应用程序生成的结果是正确和可靠的。此外，资源利用也是一个关键方面；它指的是应用程序如何有效地使用系统资源，如CPU和内存。通过应用这些系统性能标准，开发人员可以识别潜在的瓶颈和改进领域。例如，如果处理速度低于既定基准，开发人员可以调查底层代码，优化算法或增强硬件能力来提高性能。同样，如果准确性水平低于可接受的阈值，他们可以实施额外的验证检查或改进数据输入方法。系统性能标准的重要性不仅限于软件应用。在硬件设计中，这些标准同样至关重要。例如，在开发新智能手机时，制造商必须建立与电池寿命、处理能力和耐用性相关的系统性能标准。电池寿命对用户满意度至关重要，因为消费者希望他们的设备在一天内不需要频繁充电。处理能力对于平稳运行应用程序至关重要，而耐用性则确保设备能够承受日常磨损。此外，系统性能标准并不是静态的；随着技术的进步和用户期望的变化，它们会不断演变。随着人工智能和机器学习等新技术的出现，性能基准可能会发生重大变化。开发人员必须持续重新评估和更新他们的系统性能标准，以在市场上保持竞争力并满足用户的需求。总之，理解和实施系统性能标准对于任何技术系统的成功都是基础。这些标准为工程师和开发人员提供了一条路线图，指导他们在各个领域的系统设计、评估和改进。通过遵循明确的系统性能标准，组织可以提高其产品的质量和可靠性，从而最终实现更高的用户满意度和市场成功。