CN-224203654-U - Workstation mainboard and workstation equipment

Abstract

The embodiment of the application provides a workstation main board and workstation equipment, wherein the workstation main board comprises a bottom plate, a single-channel processor arranged on the bottom plate, a plurality of memory slots arranged on the bottom plate, a plurality of PCIe slots arranged on the bottom plate and having different bandwidths, and a plurality of PCIe slots arranged on the bottom plate and having different bandwidths, wherein the single-channel processor is arranged on the bottom plate, the memory slots are arranged in parallel and are positioned in a first plane direction, and the PCIe slots are arranged on the bottom plate and have a second plane direction, and the first plane direction and the second plane direction are perpendicular. The embodiment of the application improves the space utilization rate and design rationality of the workstation main board.

Inventors

• LI JINGJING
• XU BIN
• CHEN HUAYU
• SUN YINGQI
• QIAN XIAOFENG

Assignees

• 海光信息技术股份有限公司

Dates

Publication Date

20260505

Application Date

20250514

Claims (10)

1. 1. A workstation motherboard, comprising: A bottom plate; The single-path processor is arranged on the bottom plate; The memory slots are arranged on the bottom plate, are mutually parallel and are positioned in a first plane direction on the plane of the bottom plate; The PCIe slots are arranged in a plurality of PCIe slots with different bandwidths of the bottom plate, are mutually parallel and are positioned in a second plane direction on the plane of the bottom plate, and the first plane direction is perpendicular to the second plane direction.
2. 2. The workstation motherboard of claim 1, wherein said first planar direction is a horizontal direction of a plane of said backplane and said second planar direction is a vertical direction of a plane of said backplane.
3. 3. The workstation motherboard of claim 1, wherein said single-pass processor is located in a central region of said backplane; the memory slots are positioned in a memory slot area of the bottom plate, and the memory slot area is a bottom plate area which is opposite to the first lateral direction and the first vertical direction of the central area; The PCIe slots are located in PCIe slot areas of the chassis, the PCIe slot areas being second lateral and second vertical chassis areas relative to the central area; wherein the first and second lateral directions are opposite lateral directions, and the first and second vertical directions are opposite vertical directions.
4. 4. The workstation motherboard of claim 3, further comprising a plurality of in-board USB connectors located in a USB connector region of said backplane, said USB connector region being a first lateral direction relative to said central region and a second vertical backplane region relative to said memory slot region.
5. 5. The workstation motherboard of claim 3, further comprising a plurality of power input connectors disposed parallel to each other and positioned in a power input connector area of said backplane, said power input connector area being a corner area of said backplane corresponding to a first lateral direction and a first vertical direction of said center area and positioned in a first vertical direction relative to said memory slot area.
6. 6. The workstation motherboard of claim 1, further comprising a video graphics array interface, a board-side-C-type USB interface, a board-side-A-type USB interface, a network connector, and a board-side audio interface disposed in sequence along a horizontal direction at a lower edge of said backplane.
7. 7. The workstation motherboard of claim 1, wherein said single-pass processor comprises a first communication port having a plurality of communication bits supporting a PCIE protocol and a plurality of communication bits supporting a SATA protocol; The communication bits supporting the PCIE protocol are used for directly connecting with the PCIE slot, and the communication bits supporting the SATA protocol are used for directly connecting with the SATA slot.
8. 8. The workstation motherboard of any one of claims 1 to 7, further comprising at least one of: the device comprises SATA connectors, CPLD chips and BMC chips, wherein the number of the SATA connectors is a plurality of.
9. 9. A workstation master according to claim 3 wherein the first lateral direction is to the left of the central region and the second lateral direction is to the right of the central region relative to the central region of the floor, the first vertical direction being above the central region and the second vertical direction being below the central region.
10. 10. Workstation apparatus comprising a workstation motherboard according to any of claims 1 to 9.

Description

Workstation mainboard and workstation equipment Technical Field The embodiment of the application relates to the field of computers, in particular to a workstation mainboard and workstation equipment. Background The workstation equipment is a high-performance computer and is used for processing complex tasks such as engineering design, 3D rendering, scientific calculation, data analysis and the like. The workstation mainboard is one of core components of the workstation equipment, is the basis of the hardware architecture of the workstation equipment, and is used for connecting and coordinating hardware components such as a CPU, a memory, a storage device, a graphics card, an expansion card and the like in the workstation. A single-pass workstation motherboard refers to a workstation motherboard designed to mount a single processor, which may be a server-level processor or a high-performance processor designed specifically for workstation equipment. For a single-way workstation mainboard, how to consider the layout of the workstation mainboard, so as to adapt to workstation equipment, and the technical problem to be solved is achieved. Disclosure of utility model In view of this, the embodiment of the application provides a workstation motherboard and workstation equipment, optimizes the layout of the workstation motherboard, and improves the space utilization rate and design rationality of the workstation motherboard. To solve the above problem, in a first aspect, an embodiment of the present application provides a workstation motherboard, including: A bottom plate; The single-path processor is arranged on the bottom plate; The memory slots are arranged on the bottom plate, are mutually parallel and are positioned in a first plane direction on the plane of the bottom plate; The PCIe slots are arranged in a plurality of PCIe slots with different bandwidths of the bottom plate, are mutually parallel and are positioned in a second plane direction on the plane of the bottom plate, and the first plane direction is perpendicular to the second plane direction. Optionally, the first plane direction is a horizontal direction of the plane of the bottom plate, and the second plane direction is a vertical direction of the plane of the bottom plate. Optionally, the single-path processor is located in a central area of the bottom plate; the memory slots are positioned in a memory slot area of the bottom plate, and the memory slot area is a bottom plate area which is opposite to the first lateral direction and the first vertical direction of the central area; The PCIe slots are located in PCIe slot areas of the chassis, the PCIe slot areas being second lateral and second vertical chassis areas relative to the central area; wherein the first and second lateral directions are opposite lateral directions, and the first and second vertical directions are opposite vertical directions. Optionally, the memory card further comprises a plurality of in-board USB connectors located in a USB connector area of the backplane, the USB connector area being a first lateral direction with respect to the central area and a second vertical backplane area with respect to the memory slot area. The memory slot area comprises a base plate, a plurality of power input connectors, a memory slot area and a memory slot area, wherein the base plate is provided with a plurality of memory slots, the memory slot area is provided with a plurality of power input connectors, the power input connectors are arranged in parallel, and are positioned in the power input connector area of the base plate, and the power input connector area is a corner area corresponding to the first lateral direction and the first vertical direction of the base plate relative to the central area and is positioned in the first vertical direction relative to the memory slot area. Optionally, the device further comprises a video graphic array interface, a board C type USB interface, a board A type USB interface, a network connector and a board audio interface which are sequentially arranged along the horizontal direction at the lower edge of the bottom plate. Optionally, the single-path processor comprises a first communication port, a second communication port and a first control unit, wherein the first communication port is provided with a plurality of communication bits supporting PCIE protocol and a plurality of communication bits supporting SATA protocol; The communication bits supporting the PCIE protocol are used for directly connecting with the PCIE slot, and the communication bits supporting the SATA protocol are used for directly connecting with the SATA slot. Optionally, the device further comprises at least one of the following arranged on the bottom plate: the device comprises SATA connectors, CPLD chips and BMC chips, wherein the number of the SATA connectors is a plurality of. Optionally, the first lateral direction is a left side of the central region, the second late