Installing the PCI-X* Riser Card

1.Observe the safety and ESD precautions at the beginning of this book. See “Safety Information”.

2.Power down the server and unplug all peripheral devices and the AC power cable.

3.Remove the server system cover. For instructions, see “Removing the Chassis Cover”.

4.Remove the processor air duct. For instructions, see “Removing the Processor Air Duct”.

5.Disconnect any cables attached to any add-in cards.

6.Remove the PCI riser assembly. For instructions, see “Removing the PCI Riser Assembly”.

7.Remove any add-in cards from the PCI riser connector. For instructions, see “Removing a PCI Add-in Card”.

8.Press the hold the blue riser locking lever (see letter “A” in the figure below).

9.Place riser connector onto retention pins (see letter “B” in the figure below).

10.Slide the riser connector to the left of the riser module to lock it into place (see letter “C” in the figure below).

B

A

C

TP02239

Figure 38. Installing the PCI-X* Riser Card into the Server System

11.Release the blue locking lever.

12.Install the PCI add-in card(s) if desired. For instructions, see “Installing a PCI Add- in Card”.

13.Install the PCI riser assembly into the server system. For instructions, see “Installing the PCI Riser Assembly”.

14.Connect any cables to add-in cards that require them. See your add-in card documentation for information and add-in card requirements.

15.Re-install the processor air duct. For instructions, see “Installing the Processor Air Duct”.

16.Install the server system cover. For instructions, see “Installing the Server System Cover”.

Intel® Server System SR1550AL/SR1550ALSAS User’s Guide

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Intel SR1550ALSAS manual Installing the PCI-X* Riser Card into the Server System

SR1550AL, SR1550ALSAS specifications

The Intel SR1550ALSAS and SR1550AL servers are designed to provide reliable and high-performing solutions for various enterprise applications. Built on Intel's robust architecture, these server systems cater to businesses seeking efficient data management, scalable infrastructure, and effective virtualization support.

One of the main features of the SR1550 series is its dual-socket capability, accommodating Intel Xeon processors, which deliver exceptional multi-threaded performance. This allows organizations to enhance processing power to handle demanding workloads effectively, such as databases, transactional applications, and virtualization tasks. The server can support a significant amount of RAM, typically up to 512 GB of DDR3 memory, ensuring ample resources for modern applications requiring substantial memory bandwidth.

The SR1550 model comes equipped with various storage options to support large data sets. With support for multiple SATA and SAS drives, users can configure the server to meet their performance needs, whether it is for fast access speeds or high-capacity storage requirements. Hot-swap drive bays improve maintenance efficiency, allowing administrators to replace drives without downtime.

In terms of connectivity, the SR1550 servers feature multiple Ethernet ports and expansion slots, providing flexibility for network configurations and the integration of additional components. The server supports PCIe slots for adding GPUs, RAID controllers, or additional network interfaces, enhancing versatility and performance for various use cases.

The SR1550 series also incorporates advanced management features to simplify administration. The Intel Integrated Lights Out Manager (ILOM) allows remote monitoring and management, which is crucial for maintaining uptime and performing troubleshooting without physical access to the hardware.

Another significant characteristic is the design's attention to energy efficiency. Intel's architecture optimizes power consumption, and advanced cooling techniques ensure that the system operates under thermal thresholds, thus maximizing performance while managing energy usage effectively.

In summary, the Intel SR1550ALSAS and SR1550AL servers combine a powerful processor architecture, scalability, extensive storage options, comprehensive management features, and energy efficiency. These characteristics make them suitable for diverse applications, ensuring that businesses can meet their performance and reliability needs in an ever-evolving IT landscape.