Chapter 12 StorNext Reports

The File System Client Report

Distributed LAN Servers: The names of the distributed LAN servers.

Distributed LAN Clients: The names of distributed LAN clients.

LAN Servers: The name of the distributed LAN server for which the subsequent details apply.

Listening IP:Port: The IP address and port number through which the distributed LAN server communicates with StorNext.

TCP Window Size: The TCP window size (in KB) used by the

distributed LAN server. (Default: 64)

Transfer Buffer Size: The transfer buffer size (in KB) used by the distributed LAN server. A larger buffer may increase performance for larger files. (Default: 256)

Transfer Buffer Count: The number of transfer buffers used by the distributed LAN server. This parameter is used only by Windows servers and clients. Linux servers pass the value of this parameter to Windows clients. (Default: 16)

Daemon Threads: The maximum number of daemon threads

used by the distributed LAN server. (Default: 8)

Luns: The disk name; physical device name; number of sectors; and sector size.

Use the following procedure to run the File System Client Statistics Report.

1Choose SNFS > Clients from the Reports menu. The File System Client Report screen appears.

StorNext User’s Guide

306

Page 328
Image 328
Quantum 6-01658-05 manual StorNext User’s Guide 306

6-01658-05 specifications

Quantum 6-01658-05 is an advanced technology system designed to optimize performance in various applications. This system is particularly notable for its innovative features that set it apart in the competitive tech landscape. One of its main characteristics is its robust processing capabilities, which are powered by a state-of-the-art quantum computing architecture. This enables rapid data processing and enhances the system’s problem-solving abilities, making it ideal for complex computations and large-scale data analysis.

One of the standout technologies integrated into Quantum 6-01658-05 is its adaptive algorithm framework. This feature allows the system to learn and evolve over time, optimizing its performance based on the tasks it encounters. Through machine learning techniques, the system can refine its processes and improve efficiency, ensuring that users benefit from continuous enhancements without requiring manual updates. This self-optimizing capability is a significant advancement for industries that demand versatility and rapid response to changing environments.

Another key aspect of Quantum 6-01658-05 is its enhanced connectivity options. With support for various communication protocols, including high-speed data transfer options, it ensures seamless integration with existing infrastructures. This feature is particularly valuable for organizations looking to enhance their data ecosystems while minimizing disruption to their current operations.

Additionally, the system boasts exceptional security measures, utilizing quantum encryption methods that safeguard sensitive data against potential breaches. This level of security is increasingly important in today's data-driven world, where cyber threats are prevalent and sophisticated.

In terms of scalability, Quantum 6-01658-05 is designed to accommodate growing demands effortlessly. Whether upgrading existing components or expanding the entire system, it can adapt to the evolving needs of businesses without compromising performance.

Overall, Quantum 6-01658-05 represents a leap forward in technology, combining advanced processing, adaptability, connectivity, security, and scalability. These features make it an attractive option for organizations seeking to leverage cutting-edge technology to gain a competitive edge in their respective fields. As industries continue to evolve, the Quantum 6-01658-05 is poised to play a pivotal role in driving innovation and efficiency.