CHAPTER 4 M400A Main Cabinet

4.6 Installation

Notes on installation:

Do not block the ventilation slits.

Do not install the M400A main cabinet where it will be exposed to sunlight or sources of heat.

Do not install the M400A main cabinet in dusty places or places where it will be exposed to corrosive gas or sea breeze.

Keep the M400A main cabinet isolated from vibration. Install the M400A main cabinet on a level surface so that it does not tilt.

Make sure that the AC power supply source is grounded properly. Otherwise, the M400A main cabinet may malfunction.

Do not run a cable under a unit or allow a cable to become taut. Do not disconnect the power cable when the power is on.

Do not place anything on the M400A main cabinet. Do not use the cabinet of the M400A main cabinet as a work space.

In winter, to prevent condensation in the M400A main cabinet, do not raise the ambient temperature rapidly. Use the M400A main cabinet only after it has warmed up sufficiently.

Do not install the M400A main cabinet near a noise generating device such as a photocopier, air conditioner, or welder.

Take electrostatic prevention measures. Note that some carpets generates static electricity

￿easily and can cause the M400A main cabinet to malfunction.

When moving the M400A main cabinet, do not pull on the front cover. Otherwise, the main cabinet may be damaged.

IMPORTANT

If the above conditions are not satisfied, the M400A main cabinet may be damaged. Be sure to follow these precautions.

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Fujitsu M600R, M200R, GranPower7000 (GP 7000F), M400R, M400A manual Installation

M200, M400A, GranPower7000 (GP 7000F), M400R, M600 specifications

Fujitsu's M200R, M600R, M600, M400R, and GranPower 7000 (GP 7000F) models represent a suite of advanced computing solutions designed for various enterprise applications and high-performance tasks.

Starting with the M200R, this model is known for its robust performance in data-intensive environments. It is equipped with advanced multi-core processors that enhance processing speed and efficiency. The M200R also supports virtualization technologies, allowing businesses to maximize resource utilization by running multiple operating systems simultaneously.

The M600R further extends these capabilities with an emphasis on reliability and scalability. It features redundant power supplies and cooling systems, ensuring uninterrupted operation during critical tasks. The M600R is ideal for medium to large enterprises requiring a dependable infrastructure that can grow with their operations. Its high memory capacity supports large-scale applications and extensive data analysis tasks.

Complementing this is the M600 model, which focuses on a balance between performance and energy efficiency. It integrates innovative power management technologies that help reduce overall operational costs while maintaining high processing capabilities. The M600's modular design allows for easy upgrades and maintenance, making it a flexible choice for evolving business needs.

The M400R is specifically tailored for smaller organizations or those with less demanding workloads. Despite its compact size, it still features powerful processing capabilities and user-friendly management tools. The M400R’s cost-effectiveness and ease of deployment make it an attractive option for businesses looking to optimize their IT investments without compromising performance.

Finally, the GranPower 7000 (GP 7000F) stands out with its exceptional energy efficiency, providing an environmentally friendly solution for data centers. This model is notable for its advanced cooling technologies, which ensure optimal performance while minimizing energy consumption. The GP 7000F is particularly well-suited for high-density computing environments, offering enhanced security features and scalable architecture to accommodate future growth.

In summary, Fujitsu's M200R, M600R, M600, M400R, and GranPower 7000 are designed to meet diverse computing needs across different industries. Their main features include high-performance processors, scalability, energy efficiency, and advanced cooling technologies. By leveraging these sophisticated computing solutions, organizations can enhance their operational efficiency and better prepare for future challenges in an increasingly digital world.