BIOS Setup

Force Compliance Mode

This option allows user to function PCI-E Compliance mode by setting item to desired value.

Enabled

Enables PCI-E Force Compliance mode. (Default Value)

Disabled

Disables this function.

PCI-E portA Device 2

Force PCI Express v1.0 Compability Mode, this PCI-E port A by setting to desired value.

Force PCI Express 1.0

Force PCI Express v1.0 Compability Mode.

Enabled

Enables PCI-E port A Device2 (Default Value)

Disabled

Disables this function.

PCI-E port A1 Device 3

Force PCI Express v1.0 Compability Mode, this PCI-E port A1 by setting to desired value.

Force PCI Express 1.0

Force PCI Express v1.0 Compability Mode.

Enabled

Enables PCI-E port A1 Device3 (Default Value)

Disabled

Disables this function.

4GB PCI HoleGranularity

Select the granularity of PCI hole for PCI resource. If MTRRS are not enough, we may use this option to reduce the MTRR occupation.

128MB

Select 128MB as granularity of PCI hole. (Default value)

256MB

Select 256MB as granularity of PCI hole.

Data Parity Error Recovery

Enabled

Enable data parity error recovery function. (Default vaules)

Disabled

Disable this function.

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Intel GS-SR195V manual Force Compliance Mode, PCI-E portA Device, PCI-E port A1 Device, 4GB PCI HoleGranularity

GS-SR195V specifications

The Intel GS-SR195V is a powerful processor designed primarily for embedded systems and industrial applications. It leverages Intel's advanced architecture to deliver high-performance computing in a compact form factor. This processor is notable for its ability to handle complex tasks while maintaining energy efficiency, making it ideal for applications in robotics, IoT devices, and complex machinery.

One of the main features of the GS-SR195V is its multi-core architecture. With up to four cores, the processor is capable of executing multiple threads simultaneously, improving overall performance in parallel processing tasks. This makes it particularly beneficial in environments where multitasking is essential, such as in automation and control systems. The cores also support Intel Hyper-Threading technology, allowing for more efficient use of resources by enabling each core to handle two threads at once.

In addition to its robust processing capabilities, the GS-SR195V integrates advanced graphics processing features. Its integrated Intel HD Graphics allows for smooth rendering of visuals without the need for a dedicated graphics card. This is particularly advantageous in applications requiring visual interfaces or monitoring systems, where high-quality graphics output is a necessity.

The processor also includes support for Intel's security technologies, such as Intel Trusted Execution Technology (TXT) and Intel Software Guard Extensions (SGX). These features enhance data protection and help ensure secure operation in sensitive environments, thereby instilling confidence in users regarding data integrity and system security.

Energy efficiency is a cornerstone of the GS-SR195V's design. With a low thermal design power (TDP), it operates effectively in various thermal environments, reducing the need for intensive cooling solutions. This allows for smaller and more compact system designs, leading to cost savings and increased reliability.

The GS-SR195V is equipped with a range of connectivity options, supporting various interfaces such as USB, Ethernet, and serial communication, making it versatile for integration into existing systems. This flexibility enables developers to design solutions that meet specific application needs without extensive modifications.

In conclusion, the Intel GS-SR195V stands out as a highly capable processor for embedded applications, thanks to its robust performance, energy efficiency, and advanced security features. Its combination of multi-core processing, integrated graphics, and versatile connectivity makes it an ideal choice for businesses looking to implement powerful computing solutions in industrial and IoT environments.