tuned grid

简明释义

栅极回路调谐的

英英释义

例句

1.We used a tuned grid to refine our search parameters for better results.

我们使用调谐网格来细化搜索参数，以获得更好的结果。

2.The tuned grid allows for more efficient resource allocation in large-scale simulations.

调谐网格允许在大规模模拟中更有效地分配资源。

3.In machine learning, a tuned grid is essential for hyperparameter optimization.

在机器学习中，调谐网格对于超参数优化至关重要。

4.By implementing a tuned grid, we were able to enhance the accuracy of our predictive models.

通过实施调谐网格，我们能够提高预测模型的准确性。

5.The researchers developed a new algorithm to optimize the performance of the tuned grid.

研究人员开发了一种新算法，以优化调谐网格的性能。

作文

In recent years, the concept of a tuned grid has gained significant attention in various fields, particularly in telecommunications and data management. A tuned grid refers to a network or system that has been optimized to enhance performance, efficiency, and reliability. This optimization can involve adjusting parameters, refining algorithms, or restructuring data flows to ensure that the grid operates at its maximum potential. The idea is to create a framework where resources are allocated effectively, and the overall system functions seamlessly. One of the primary applications of a tuned grid can be found in the realm of smart grids. Smart grids utilize digital technology to monitor and manage the transport of electricity from all generation sources to meet the varying electricity demands of end users. By implementing a tuned grid, utility companies can optimize energy distribution, reduce waste, and improve the integration of renewable energy sources. For instance, when solar or wind energy production fluctuates, a tuned grid can quickly adjust to these changes, ensuring a stable supply of electricity. Moreover, the concept of a tuned grid extends beyond energy systems. In the field of data management, organizations are increasingly adopting tuned grids to handle large volumes of information efficiently. With the rise of big data, businesses need to process and analyze data rapidly to make informed decisions. A tuned grid in this context involves optimizing database queries, enhancing data retrieval processes, and ensuring that the infrastructure can handle peak loads without compromising performance. The benefits of implementing a tuned grid are manifold. Firstly, it leads to increased efficiency. By fine-tuning the operation of a system, organizations can minimize downtime and reduce operational costs. Secondly, a tuned grid enhances reliability. Systems that are well-optimized are less prone to failures, which is crucial for industries where continuous operation is essential. Finally, a tuned grid promotes sustainability. In energy systems, for example, optimizing resource use can lead to reduced carbon emissions and a smaller environmental footprint. However, achieving a tuned grid is not without challenges. It requires a deep understanding of the underlying systems and the ability to analyze performance metrics accurately. Organizations must invest in technology and training to develop the necessary expertise. Additionally, as systems become more complex, maintaining a tuned grid can require ongoing adjustments and monitoring to adapt to changing conditions. In conclusion, the concept of a tuned grid is pivotal in modernizing various sectors, from energy distribution to data management. By optimizing systems for better performance, organizations can enjoy increased efficiency, enhanced reliability, and greater sustainability. As technology continues to evolve, the importance of tuned grids will only grow, making it essential for businesses and utilities to embrace this approach for future success.

近年来，“调谐网格”的概念在各个领域，特别是在电信和数据管理中获得了显著关注。“调谐网格”是指一个经过优化的网络或系统，以增强性能、效率和可靠性。这种优化可能涉及调整参数、精炼算法或重构数据流，以确保网格以其最大潜力运作。其思想是创建一个有效分配资源的框架，使整个系统无缝运行。“调谐网格”的主要应用之一可以在智能电网领域找到。智能电网利用数字技术监测和管理从所有发电源到最终用户变化电力需求的电力传输。通过实施“调谐网格”，公用事业公司可以优化能源分配、减少浪费，并改善可再生能源的整合。例如，当太阳能或风能生产波动时，“调谐网格”可以迅速调整这些变化，确保电力供应的稳定。此外，“调谐网格”的概念超越了能源系统。在数据管理领域，组织越来越多地采用“调谐网格”来高效处理大量信息。随着大数据的兴起，企业需要快速处理和分析数据，以做出明智的决策。在这种情况下，“调谐网格”涉及优化数据库查询、增强数据检索过程，并确保基础设施能够在不妥协性能的情况下处理峰值负载。实施“调谐网格”的好处是多方面的。首先，它提高了效率。通过微调系统的操作，组织可以最小化停机时间并降低运营成本。其次，“调谐网格”增强了可靠性。经过良好优化的系统不易发生故障，这对于需要持续运行的行业至关重要。最后，“调谐网格”促进了可持续性。例如，在能源系统中，优化资源使用可以减少碳排放，减小环境足迹。然而，实现“调谐网格”并非没有挑战。这需要对基础系统有深刻理解，并能够准确分析性能指标。组织必须投资于技术和培训，以发展必要的专业知识。此外，随着系统变得越来越复杂，维护“调谐网格”可能需要持续的调整和监控，以适应变化的条件。总之，“调谐网格”的概念在现代化各个行业中至关重要，从能源分配到数据管理。通过优化系统以提高性能，组织可以享受更高的效率、增强的可靠性和更大的可持续性。随着技术的不断发展，“调谐网格”的重要性只会增加，使企业和公用事业必须接受这一方法以实现未来的成功。