Jumpers and ConnectorsSTL2 Server Board TPS

Table 5-2. Jumper Block 5E1 Settings

Processor Frequency (

 

Jumper Settings

 

MHz)

 

 

 

 

 

 

 

 

 

 

1-2

3-4

5-6

7-8

 

 

 

 

 

667

Not Jumpered

Not Jumpered

Jumpered

Jumpered

 

 

 

 

 

733

Not Jumpered

Not Jumpered

Jumpered

Not Jumpered

 

 

 

 

 

800

Jumpered

Jumpered

Not Jumpered

Jumpered

 

 

 

 

 

867

Jumpered

Jumpered

Not Jumpered

Not Jumpered

 

 

 

 

 

933

Jumpered

Not Jumpered

Not Jumpered

Jumpered

 

 

 

 

 

1000

Jumpered

Not Jumpered

Not Jumpered

Not Jumpered

 

 

 

 

 

Set the processor frequency jumpers as follows.

1.Power off the system, unplug the power cord.

2.From the “Jumper Block 5E1 Settings” table, select the processor frequency matching the installed processor.

3.Move the jumpers to the settings shown in the “Jumper Block 5E1 Settings” table.

4.Reinstall the left panel, plug in the power cord(s), and power on the system.

The following table lists the factory default settings for jumper block 5E1, which are indicated in bold typeface.

Table 5-3. Jumper Block 1J15 Default Settings

Jumper Pin

Function

Jumper Position

What it does at system reset

 

Numbers

 

 

 

 

 

 

 

 

1

- 2

Processor Frequency Select

Open

 

 

 

 

 

 

3

- 4

Processor Frequency Select

Open

 

 

 

 

 

 

5

- 6

Processor Frequency Select

Open

 

 

 

 

 

 

7

- 8

Processor Frequency Select

Open

 

 

 

 

 

 

9

- 10

133 MHz FSB

Open, Enabled

Enables 133 MHz FSB

 

 

 

 

 

 

 

 

Closed, Disabled

Disables 133 MHz FSB

 

 

 

 

11 - 12

Spread Spectrum

Open, Disabled

Disables FCC (Spread Spectrum)

 

 

 

 

 

 

 

 

Closed, Enabled

Enables FCC (Spread Spectrum)

 

 

 

 

 

5.1.2Setting Configuration Jumper Block 1L4

Setting the jumpers on system board jumper block 1L4 enables the user to configure chassis intrusion sensors, or enable/disable BMC FRB (see the above figure for jumper block location). The following table lists the factory default settings for jumper block 1L4.

5-66

Page 74
Image 74
Intel STL2 manual Setting Configuration Jumper Block 1L4, Jumper Block 5E1 Settings, Jumper Block 1J15 Default Settings

STL2 specifications

The Intel STL2, known as the Intel Storage Technology Level 2, is a robust solution designed to elevate storage management and performance for enterprise-level applications. This next-generation system is specifically tailored for organizations that demand high reliability, scalability, and efficiency in their storage solutions.

One of the primary features of the Intel STL2 is its advanced data protection mechanisms. With integrated RAID (Redundant Array of Independent Disks) support, it ensures that data remains safe, even in the event of hardware failure. RAID configurations can be easily set up and managed, allowing businesses to choose the right balance between performance and redundancy based on their unique requirements.

In terms of performance, the STL2 leverages cutting-edge SSD (Solid State Drive) integration to provide high-speed data access and reduced latency. This capability is essential for modern applications that require quick retrieval of large volumes of data, making it suitable for environments like data analytics, AI, and cloud computing.

Scalability is another significant characteristic of the Intel STL2. It is designed to grow alongside an organization’s needs, supporting a diverse range of storage architectures. Whether a company is looking to expand its data center or transition to hybrid cloud solutions, the STL2 can accommodate additional storage resources effortlessly, ensuring that performance does not degrade as storage demands increase.

Moreover, the STL2 features advanced automation and management tools that simplify storage operations. The system allows for real-time monitoring and analytics, providing insights into storage health, performance metrics, and capacity forecasts. This level of visibility enables IT teams to optimize resource utilization and proactively address potential issues before they become critical.

Another notable technology integrated into the STL2 is Intel’s Open Storage Architecture, which promotes interoperability with various software and hardware platforms. This open approach facilitates seamless integrations with existing systems and enhances flexibility within dynamic IT environments.

Lastly, Intel STL2 prioritizes energy efficiency. Its design minimizes power consumption without sacrificing performance, helping organizations reduce their operational costs and carbon footprint.

In summary, the Intel STL2 stands out in the competitive landscape of storage solutions with its focus on data protection, high performance, scalability, advanced management features, open architecture compatibility, and energy efficiency. These characteristics make it an ideal choice for businesses looking to enhance their data storage capabilities in a rapidly evolving digital landscape.