diskless

简明释义

英[ˈdɪskləs]美[ˈdɪskləs]

adj. 无磁盘的

英英释义

单词用法

同义词

反义词

例句

1.Nowadays, diskless teaching network has been widely applied in a number of colleges and! universities for the lower costs, convenience of administration and maintenance.

无盘教学网因成本低、管理和维护方便被广泛用于各大专院校的教学。

2.The diskless method of provisioning the compute nodes is used, whereby the nodes boot from the management node.

对计算节点的供应采用的是无磁盘的方法，计算节点从管理节点引导。

3.Generate the root images for diskless boot.

为无磁盘引导生成根映像。

4.Nowadays, diskless teaching network has been widely applied in a number of colleges and! universities for the lower costs, convenience of administration and maintenance.

无盘教学网因成本低、管理和维护方便被广泛用于各大专院校的教学。

5.To create the root image for diskless provisioning.

要为无磁盘供应创建根映像。

6.Booting from SAN can also simplify data center administration, improve disaster tolerance, and reduce total cost of ownership (TCO) through diskless servers.

从SAN启动还可以简化数据中心的管理，提高灾难恢复能力，由于服务器没有磁盘，还降低了总拥有成本(TCO)。

7.Library, Diskless Workstation, Network, Reader Service.

图书馆，无盘工作站，网络，读者服务。

8.The IT department is implementing a diskless 无盘 environment to streamline operations.

IT部门正在实施无盘环境以简化操作。

9.Many schools are adopting diskless 无盘 workstations to reduce maintenance costs.

许多学校正在采用无盘工作站以降低维护成本。

10.The diskless 无盘 client connects to a central server for all its data needs.

无盘客户端通过中央服务器连接以满足所有数据需求。

11.The new server operates in a diskless 无盘 mode, allowing for faster boot times.

新服务器以无盘模式运行，从而加快了启动时间。

12.Using diskless 无盘 systems can enhance security by minimizing local data storage.

使用无盘系统可以通过最小化本地数据存储来增强安全性。

作文

In the realm of computer technology, the term diskless refers to systems or devices that do not rely on traditional hard drives or storage disks for their operation. This concept has gained traction over the years, particularly with the rise of cloud computing and networked environments. A diskless system typically utilizes alternative storage solutions, such as solid-state drives (SSDs) or network-attached storage (NAS), allowing for a more streamlined and efficient computing experience.The advantages of using diskless systems are numerous. Firstly, they often provide faster boot times and improved performance. Without the mechanical components associated with traditional hard drives, diskless systems can access data more quickly, resulting in a snappier user experience. This is particularly beneficial in environments where multiple users access shared resources, such as in schools or businesses.Secondly, diskless systems can enhance security. Since there are no physical disks that can be removed or tampered with, sensitive information is less likely to be compromised. This is crucial in today’s digital landscape, where data breaches and cyber threats are increasingly common. By utilizing a diskless setup, organizations can better protect their data and maintain compliance with regulations regarding data security.Furthermore, diskless systems can lead to significant cost savings. Traditional hard drives require regular maintenance and eventual replacement, which can add up over time. In contrast, diskless solutions often involve lower operational costs due to reduced hardware requirements and less energy consumption. For instance, many diskless systems operate on low-power components, making them environmentally friendly options for businesses looking to reduce their carbon footprint.One common application of diskless technology is in thin client computing. In this model, lightweight terminals connect to a central server where all processing and storage occur. Users can access applications and files remotely without needing local storage. This not only simplifies management but also allows for easier updates and maintenance, as changes can be made on the server side without affecting individual devices.Despite the benefits, there are also challenges associated with diskless systems. One notable drawback is the reliance on a stable network connection. Since data is often stored remotely, any disruptions in connectivity can hinder access to important files and applications. Additionally, users may experience latency issues if the network speed is insufficient, which can impact productivity.In conclusion, the concept of diskless computing represents a shift towards more efficient, secure, and cost-effective technology solutions. As organizations continue to embrace digital transformation, understanding the implications and benefits of diskless systems will be essential. Whether in educational institutions, corporate environments, or personal use, diskless technology is poised to play a significant role in shaping the future of computing. By adopting diskless solutions, users can enjoy enhanced performance and security while reducing their environmental impact and operational costs.

在计算机技术领域，术语diskless指的是不依赖传统硬盘或存储磁盘进行操作的系统或设备。随着云计算和网络环境的兴起，这一概念近年来得到了越来越多的关注。diskless系统通常利用替代存储解决方案，如固态驱动器（SSD）或网络附加存储（NAS），从而实现更简化和高效的计算体验。使用diskless系统的优点有很多。首先，它们通常提供更快的启动时间和更好的性能。由于没有与传统硬盘相关的机械部件，diskless系统可以更快速地访问数据，从而带来更流畅的用户体验。这在多个用户访问共享资源的环境中尤为重要，例如学校或企业。其次，diskless系统可以增强安全性。由于没有可以移除或篡改的物理磁盘，敏感信息不太可能被泄露。在当今数字化环境中，数据泄露和网络威胁日益普遍，因此这一点尤为重要。通过利用diskless设置，组织可以更好地保护其数据，并遵守有关数据安全的法规。此外，diskless系统还可以带来显著的成本节约。传统硬盘需要定期维护和最终更换，这些费用会随着时间的推移而增加。相比之下，diskless解决方案由于减少了硬件需求和较低的能耗，通常会导致较低的运营成本。例如，许多diskless系统在低功耗组件上运行，使它们成为希望减少碳足迹的企业的环保选择。diskless技术的一个常见应用是在瘦客户机计算中。在这种模式下，轻量级终端连接到中央服务器，所有处理和存储都在服务器上进行。用户可以远程访问应用程序和文件，而无需本地存储。这不仅简化了管理，还允许更容易的更新和维护，因为可以在服务器端进行更改，而不会影响单个设备。尽管有这些好处，但diskless系统也面临一些挑战。其中一个显著的缺点是依赖于稳定的网络连接。由于数据通常存储在远程位置，任何连接中断都可能妨碍对重要文件和应用程序的访问。此外，如果网络速度不足，用户可能会遇到延迟问题，这会影响生产力。总之，diskless计算的概念代表了向更高效、安全和经济的技术解决方案的转变。随着组织继续拥抱数字化转型，理解diskless系统的含义和好处将是至关重要的。无论是在教育机构、企业环境还是个人使用中，diskless技术都有望在塑造计算未来方面发挥重要作用。通过采用diskless解决方案，用户可以享受更好的性能和安全性，同时降低其环境影响和运营成本。