distributed capacity

简明释义

分布电容

英英释义

例句

1.The network's distributed capacity allows for better performance and reliability.

网络的分布式容量使性能和可靠性更好。

2.The cloud service provider offers a model that optimizes distributed capacity for its users.

云服务提供商提供了一种优化分布式容量的模型供用户使用。

3.In our new system, distributed capacity is crucial for load balancing across servers.

在我们的新系统中，分布式容量对于服务器之间的负载均衡至关重要。

4.The energy grid uses distributed capacity to manage renewable energy sources effectively.

能源网利用分布式容量有效管理可再生能源。

5.By utilizing distributed capacity, the company can handle more transactions during peak hours.

通过利用分布式容量，公司可以在高峰时段处理更多交易。

作文

In the modern world, the concept of efficiency and resource management has become increasingly important. One term that has gained significant attention in various fields, including technology and energy, is distributed capacity. This term refers to the ability to distribute resources or capacities across multiple locations or systems rather than centralizing them in one place. The benefits of distributed capacity are numerous, particularly in enhancing resilience and optimizing performance.Firstly, let’s consider the implications of distributed capacity in the energy sector. Traditionally, power generation relied heavily on large, centralized plants. However, with the rise of renewable energy sources such as solar and wind, there has been a shift towards distributed capacity systems. These systems allow for energy generation at various sites, such as rooftops or small wind farms, which can feed power back into the grid. This decentralization not only improves energy security but also reduces transmission losses, making the overall system more efficient.Moreover, distributed capacity enhances the resilience of energy systems. In the event of a natural disaster or technical failure, a centralized system can be severely impacted, leading to widespread outages. In contrast, a system utilizing distributed capacity can continue to operate even if one part fails, as other sources can compensate for the loss. This decentralized approach allows communities to maintain some level of power, which is crucial during emergencies.Beyond energy, the concept of distributed capacity is also applicable in technology and computing. Cloud computing services often utilize distributed capacity to manage data and applications across multiple servers located in different geographical areas. This not only improves speed and accessibility but also enhances data security. By distributing data across various locations, companies can protect themselves against data loss due to hardware failures or cyber-attacks. Furthermore, this model allows for scalability, enabling businesses to adjust their resources according to demand without the need for significant upfront investment.Additionally, distributed capacity plays a vital role in supply chain management. Companies that adopt a distributed capacity approach can source materials from various suppliers, reducing dependency on a single source. This diversification helps mitigate risks associated with supply chain disruptions, whether due to political instability, natural disasters, or pandemics. By spreading out their resources, businesses can ensure continuity and adaptability in their operations.In conclusion, the concept of distributed capacity is essential in today's interconnected world. Whether in energy production, technology, or supply chain management, the ability to distribute resources effectively leads to increased efficiency, resilience, and security. As industries continue to evolve, embracing distributed capacity will be crucial for future growth and sustainability. Understanding and implementing this concept can provide significant advantages, allowing organizations to thrive in an ever-changing environment.

在现代世界中，效率和资源管理的概念变得越来越重要。一个在各个领域，包括技术和能源，受到广泛关注的术语是分布式容量。这个术语指的是将资源或能力分配到多个地点或系统中的能力，而不是集中在一个地方。分布式容量的好处是众多的，特别是在增强韧性和优化性能方面。首先，让我们考虑分布式容量在能源部门的影响。传统上，电力生产严重依赖大型集中式发电厂。然而，随着可再生能源如太阳能和风能的兴起，出现了向分布式容量系统的转变。这些系统允许在各个地点进行能源生产，例如屋顶或小型风电场，可以将电力反馈到电网中。这种去中心化不仅提高了能源安全性，还减少了传输损失，使整体系统更有效。此外，分布式容量增强了能源系统的韧性。在自然灾害或技术故障发生时，集中式系统可能会受到严重影响，导致大规模停电。相反，利用分布式容量的系统即使某一部分失败也能继续运行，因为其他来源可以补偿损失。这种去中心化的方法使社区能够在紧急情况下维持一定水平的电力，这在危机时刻至关重要。除了能源，分布式容量的概念在技术和计算中也适用。云计算服务通常利用分布式容量在不同地理区域的多个服务器之间管理数据和应用程序。这不仅提高了速度和可访问性，还增强了数据安全性。通过将数据分布在不同位置，公司可以保护自己免受硬件故障或网络攻击导致的数据丢失。此外，这种模式还允许可扩展性，使企业能够根据需求调整其资源，而无需大量前期投资。此外，分布式容量在供应链管理中也发挥着重要作用。采用分布式容量方法的公司可以从多个供应商处采购材料，从而减少对单一来源的依赖。这种多样化有助于减轻与供应链中断相关的风险，无论是由于政治不稳定、自然灾害还是疫情。通过分散其资源，企业可以确保运营的连续性和适应性。总之，在当今互联的世界中，分布式容量的概念至关重要。无论是在能源生产、技术还是供应链管理中，有效分配资源的能力都能提高效率、韧性和安全性。随着行业的不断发展，拥抱分布式容量对于未来的增长和可持续性至关重要。理解和实施这一概念可以提供显著的优势，使组织能够在不断变化的环境中蓬勃发展。