BIOS

 

 

Intel® Server Board SE7501WV2 TPS

Call With

AH

= DAh

 

 

AL

= 12h

 

 

CL

= 0

Disable cache

 

 

= 1

Enable cache

 

 

= 2

Read cache status

 

 

= 3

Set Writeback Mode

Returns

AH, bit 0

 

 

 

 

= 0

Cache Disabled

 

AH, bit 1

= 1

Cache Enabled

 

 

 

 

 

= 0

Write-through Mode

 

 

= 1

Writeback Mode

 

CX, bit 15

 

 

 

= 0

Size information is invalid

 

 

= 1

Size information is valid

 

CX, bits 14:0

Size of L2 cache in 32KB blocks

 

CF

= 0

Success

=1 Function not support (if AH = 86h)

6.44.2Intel ID String

The Intel ID String sets the Intel ID string for the BIOS. The string may look similar to:

SWV20.86B.0001.P01.0006061355

Call With

AH

= DAh

 

 

AL

= 15h and 8Ch

 

ES:DI

= Points to 32-byte buffer to store results

Returns

CF

= 0

Success

 

 

= 1

Function not support (if AH = 86h)

The 32-byte ID is formatted as follows: 3-7-byte board ID, “SWV2”

1-byte board revision, starting from ‘0’

3-byte OEM ID, ‘86B’ for standard BIOS

4-byte build number

1 – 3 bytes describing build type (D for development, A for Alpha, B for Beta, Pxx for production version xx)

10-byte build date in yymmddtime format

The remaining bytes are reserved for future use

128

Revision 1.0

 

Intel reference number C25653-001

Page 128
Image 128
Intel SE7501WV2 manual Intel ID String, Revision Intel reference number C25653-001, Esdi

SE7501WV2 specifications

The Intel SE7501WV2 is a versatile server motherboard designed to meet the demanding needs of modern computing environments. Engineered with a focus on performance, reliability, and flexibility, this motherboard is tailored for a range of applications, from entry-level servers to high-performance computing tasks.

One of the main features of the SE7501WV2 is its support for Intel's Xeon processors, specifically those based on the Netburst architecture. This compatibility allows for powerful multi-threaded processing capabilities, making it ideal for businesses seeking to optimize their server performance. The motherboard supports dual CPU configurations, enabling up to two processors to work simultaneously, thereby increasing computational power and efficiency.

The motherboard incorporates Intel's advanced server management technologies such as Intel Active Monitoring Technology, which helps in monitoring system health and optimizing power usage. Additionally, it features Intel's I/O Acceleration Technology, which enhances data throughput and reduces latencies, ensuring that applications run smoothly and efficiently.

Another significant characteristic of the SE7501WV2 is the memory capacity it offers. With support for up to 16 GB of ECC (Error-Correcting Code) DDR SDRAM, the motherboard helps in maintaining system stability during high workloads. The ECC memory not only prevents data corruption but also significantly enhances the reliability of mission-critical applications.

For connectivity, the SE7501WV2 comes equipped with multiple PCI-X slots, enabling the addition of various expansion cards for network, storage, and graphic capabilities. This expandability is crucial for enterprises that need to adapt their server architecture to evolving workloads.

Moreover, the SE7501WV2 features integrated high-performance RAID support, improving data redundancy and performance. This feature is essential for organizations that prioritize data security and require robust backup solutions.

In terms of power management, the motherboard supports advanced power features that help reduce operational costs while maximizing performance. The design ensures efficient power consumption, allowing it to run cooler and quieter, which is particularly beneficial for noisy data center environments.

In conclusion, the Intel SE7501WV2 motherboard is designed for those who require robust performance, reliability, and flexibility in server applications. With its support for dual Xeon processors, extensive memory capabilities, advanced management technologies, and expandability, it stands out as a solid solution for many enterprise-level computing needs.