CN211061974U

CN211061974U - High-performance server mainboard and computer based on X86 treater

Info

Publication number: CN211061974U
Application number: CN202020191575.7U
Authority: CN
Inventors: 张双朋; 耿士华; 李怀昊
Original assignee: Shandong Chaoyue CNC Electronics Co Ltd
Current assignee: Shandong Chaoyue CNC Electronics Co Ltd
Priority date: 2020-02-21
Filing date: 2020-02-21
Publication date: 2020-07-21
Anticipated expiration: 2030-02-21

Abstract

The utility model provides a high performance server mainboard and computer based on X86 treater, high performance server mainboard based on X86 treater, include: the system comprises a CPU module, a PCH module, an independent display card module, a network control module, an audio module, a serial port module and a power supply module; the CPU module is connected with the independent display card module and connected with the PCH module through the DMI bus, and the PCH module externally provides an SATA interface and a USB3.0 interface and is connected with the network control module, the audio module, the serial port module, the power supply module, the BIOS module and the EC chip.

Description

High-performance server mainboard and computer based on X86 treater

Technical Field

The utility model relates to a server mainboard and computer, concretely relates to high performance server mainboard and computer based on X86 treater belongs to computer technology field.

Background

The Intel processor is a mainstream CPU in the field of server mainboard processors, and the performance of the platform of the Intel sixth generation processor is still in the front in the layout of Intel products at present, so that the platform is a mainstream processor still adopted by various large server manufacturers.

The application of the graphic processing software requires a processor with higher main frequency, larger memory and video memory capacity, large storage space of a hard disk, and needs to have various requirements such as a high-definition display interface, a high-speed signal connection interface and the like.

Most of the existing CPCI mainboards adopt Intel three-generation processor platforms, the performance of the processors is low, the types of interfaces are few, and high-speed signal interfaces are not provided.

SUMMERY OF THE UTILITY MODEL

To the not enough of prior art existence, the utility model provides a high performance server mainboard and computer based on X86 treater.

The utility model discloses a realize above-mentioned purpose, realize through following technical scheme:

a high performance server motherboard based on an X86 processor, comprising: the system comprises a CPU module, a PCH module, an independent display card module, a network control module, an audio module, a serial port module and a power supply module; the CPU module is connected with the independent display card module and connected with the PCH module through the DMI bus, and the PCH module externally provides an SATA interface and a USB3.0 interface and is connected with the network control module, the audio module, the serial port module, the power supply module, the BIOS module and the EC chip.

In the preferable scheme of the high-performance server mainboard based on the X86 processor, the CPU module is an i7-6820HQ processor, and the CPU module is provided with 2 DDR4 memory channels and 16 PCIe channels.

In the preferred scheme of the high-performance server motherboard based on the X86 processor, the PCH module adopts a chipset QM170, and comprises 8 USB3.0 interfaces, 6 USB2.0 interfaces, and 4 SATA3.0 interfaces, and supports PCI-E3.0, and has 16 PCIe channels.

According to the preferable scheme of the high-performance server mainboard based on the X86 processor, the independent display card module adopts an E8860 chip and an MXM interface form, is interconnected with a CPU through PCIe X16, and provides a VGA interface and a DVI interface.

In the preferred scheme of the high-performance server mainboard based on the X86 processor, the network control module comprises a gigabit network chip and a gigabit network chip; the gigabit network chip selects Intel i350 and is interconnected with the PCH through PCIe X4; the ten-thousand million network chip selects Intel 82599 and is interconnected with the PCH through PCIe X4.

According to the optimized scheme of the high-performance server mainboard based on the X86 processor, the audio module is an REA L TEKA L C282 chip and is interconnected with the PCH through an HDA bus, and 1 path of audio signals are expanded.

According to the optimized scheme of the high-performance server mainboard based on the X86 processor, the serial port module adopts an NCT5104D chip and is interconnected with a PCH through a L PC bus, 4 paths of TT L signals are expanded, wherein the front 2 paths of TT L signals are converted into RS232 signals through a MAX3242 chip, 2 paths of RS232 serial port signals are led out, and in addition, the rear 2 paths of TT L signals are converted into RS422 signals through a MAX489 chip, and 2 paths of RS422 serial port signals are led out.

A computer comprises the high-performance server mainboard based on the X86 processor.

The utility model has the advantages that: the system can provide various high-speed signal interfaces, supports upgrading of components such as a CPU, an internal memory, a video memory, a storage and the like, provides abundant input and output signal interfaces, has high integration level and strong reliability, and meets various application scenes, especially scenes with graphic processing software application.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Fig. 1 is a schematic diagram of an architecture according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In this embodiment, the CPU module is an i7-6820HQ processor, and has 2 DDR4 memory channels and 16 PCIe channels, so that the maximum capacity can support 32GB, and the board card operation rate is effectively increased.

In this embodiment, the PCH module adopts a chipset QM170, which includes 8 USB3.0 interfaces, 6 USB2.0 interfaces, and 4 SATA3.0 interfaces, supports PCI-E3.0, and has 16 PCIe lanes.

In this embodiment, the independent graphics card module adopts an E8860 chip and an MXM interface form, is interconnected with the CPU through PCIe X16, and connects the VGA interface and the DVI interface, and is highly compatible, and supports subsequent upgrading according to the function requirement, and the AMD8860 video memory size is 2GB, and supports high-definition display output, thereby effectively improving the data processing capability.

The network control module comprises a gigabit network chip and a gigabit network chip; the gigabit network chip selects Inteli350 and is interconnected with the PCH through PCIe X4; the ten-thousand-megabyte network chip is connected with the PCH through the PCIe X4 by adopting Intel 82599, so that the network bandwidth is effectively improved.

In this embodiment, the audio module is an REA L TEK a L C282 chip, and is interconnected with the PCH through an HDA bus to expand 1-channel audio signals.

In this embodiment, the serial port module is interconnected with the PCH through a L PC bus by using an NCT5104D chip, and extends 4 paths of TT L signals, wherein the first 2 paths of TT L signals are converted into RS232 signals through a MAX3242 chip, and 2 paths of RS232 serial port signals are led out, and in addition, the second 2 paths of TT L signals are converted into RS422 signals through a MAX489 chip, and 2 paths of RS422 serial port signals are led out.

In the embodiment, the 6U CPCI framework is adopted, the reliability and maintainability of the board card can be effectively improved, the space is small, and the space and the weight of the whole machine are effectively reduced

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A high performance server motherboard based on an X86 processor, comprising: the system comprises a CPU module, a PCH module, an independent display card module, a network control module, an audio module, a serial port module and a power supply module; the CPU module is connected with the independent display card module and connected with the PCH module through the DMI bus, and the PCH module externally provides an SATA interface and a USB3.0 interface and is connected with the network control module, the audio module, the serial port module, the power supply module, the BIOS module and the EC chip.

2. A high performance server motherboard based on an X86 processor as recited in claim 1, wherein: the CPU module is an i7-6820HQ processor, and is provided with 2 DDR4 memory channels and 16 PCIe channels.

3. A high performance server motherboard based on an X86 processor as recited in claim 1, wherein: the PCH module adopts a chip set QM170, comprises 8 paths of USB3.0 interfaces, 6 paths of USB2.0 interfaces and 4 paths of SATA3.0 interfaces, supports PCI-E3.0 and is provided with 16 PCIe channels.

4. A high performance server motherboard based on an X86 processor as recited in claim 1, wherein: the independent display card module adopts an E8860 chip, adopts an MXM interface form, is interconnected with the CPU through PCIe X16, and provides a VGA interface and a DVI interface.

5. A high performance server motherboard based on an X86 processor as recited in claim 1, wherein: the network control module comprises a gigabit network chip and a gigabit network chip; the gigabit network chip selects Intel i350 and is interconnected with the PCH through PCIe X4; the ten-thousand million network chip selects Intel 82599 and is interconnected with the PCH through PCIe X4.

6. The high-performance server motherboard of claim 1 and based on X86 processor, wherein the audio module is REA L TEK A L C282 chip, and is interconnected with PCH via HDA bus to expand 1 audio signal.

7. The high-performance server mainboard based on the X86 processor, as claimed in claim 1, wherein the serial port module adopts NCT5104D chip, and is interconnected with PCH through L PC bus, and 4 paths of TT L signals are expanded, wherein the first 2 paths of TT L signals are converted into RS232 signals through MAX3242 chip, and 2 paths of RS232 serial port signals are led out, and the second 2 paths of TT L signals are converted into RS422 signals through MAX489 chip, and 2 paths of RS422 serial port signals are led out.

8. A computer, characterized by: a high performance server motherboard comprising the X86-based processor of any one of claims 1 to 7.