Accessing system board components and drives

To access some components on the system board such as memory, the battery, and the Clear CMOS/BIOS recovery jumper, it may be necessary to slide the diskette and CD drive tray outward to the front of the computer.

To access system board components or drives:

1.Turn off the computer.

2.Remove the cover. See “Removing the cover” on page 19.

3.Remove the screw securing the drive tray to the riser card support.

4.Press in on the drive tray buttons at each side as shown, and slide tray forward to access drives.

Notes:

a.It may be necessary to disconnect some cables attached to the drives to allow the drive tray to slide out far enough to access some system board components. To remove the drive tray completely, disconnect all the cables attached to the diskette and CD drives.

b.Make sure you note the location of any cables that you disconnect from the drives.

5.Slide the drive tray to the front just far enough to access the necessary system board component.

6.If any PCI adapters are installed, remove the PCI riser and adapter cards. Do not remove any adapters from the riser card.

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IBM 8319, 6826, 8317, 8318 manual Accessing system board components and drives
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8318, 8317, 6826, 8319 specifications

The IBM 6826, 8318, 8319, and 8317 are part of IBM's storied history in producing innovative computing systems, particularly in the context of enterprise solutions. These models represent a significant evolution in technology, showcasing IBM's commitment to high-performance computing, reliability, and scalability.

The IBM 6826, often recognized for its role in the midrange marketplace, provided businesses with powerful processing capabilities at a relatively affordable price. It was engineered to handle various workloads, from basic transaction processing to more complex applications. One of its key features was its ability to support multiple users simultaneously, making it suitable for medium-sized businesses that required robust computing power without the cost of larger mainframe systems.

Transitioning to the 8318, this model became notable for its advanced server capabilities, integrating improved processing power and memory options. The 8318 was instrumental in supporting critical business applications and offered enhanced reliability. Additionally, it featured new management interfaces that allowed for easier monitoring and maintenance of software and hardware components, which was especially valuable for enterprise environments.

The IBM 8319, a further enhancement, improved scalability and introduced cutting-edge technologies aimed at maximizing performance. This model allowed businesses to scale resources according to demand, making it particularly beneficial during peak operational periods. The 8319 was designed with built-in redundancy features, thereby minimizing downtime and ensuring continuous operations—a vital aspect in today's fast-paced business ecosystem.

Finally, the IBM 8317 served as a versatile solution that catered to various computing needs. It combined the strengths of its predecessors, delivering superior processing speed and excellent storage options. The 8317 was also equipped with advanced networking capabilities, supporting seamless integration within increasingly complex IT infrastructures.

Collectively, these IBM models underscore the company's dedication to technological progression tailored for enterprise requirements. They utilized multiple processing architectures, advanced memory management systems, and user-friendly administration tools, all contributing to their reputation as reliable and efficient computing solutions. As such, they played a critical role in not just shaping IBM’s product lineage but also in influencing the wider landscape of enterprise computing technology.
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