CN113982325A

CN113982325A - Efficient server system and server room

Info

Publication number: CN113982325A
Application number: CN202111349325.7A
Authority: CN
Inventors: 蔡坚毅; 吴伊妮
Original assignee: Guangdong Hongda Communication Co ltd
Current assignee: Guangdong Hongda Communication Co ltd
Priority date: 2021-11-15
Filing date: 2021-11-15
Publication date: 2022-01-28

Abstract

The invention discloses a high-efficiency server system and a server room, and relates to the technical field of servers, wherein the server room of the high-efficiency server system comprises a room, a shielding door is installed on one side of the room, a building frame is arranged on one side of the room, and an insulating bottom plate is arranged in the room; in the computer lab use, fix the insulating bottom plate, install the server body and place, prevent ground signal's interference, carry out better insulation, the long-term use of the server body of being convenient for, in addition, in server system use, processor module, operation module and storage module's setting to make server system in the operation process, efficiency obtains improving.

Description

Efficient server system and server room

Technical Field

The invention relates to the technical field of servers, in particular to a high-efficiency server system and a server room.

Background

The server system generally refers to an operating system installed on a large computer, is an infrastructure platform of an enterprise IT system, and is one of three types of operating systems divided according to application fields, and along with the frequent application of the server, the importance of information confidentiality is more important.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an efficient server system and a server room, and solves the problems in the background art.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a server room of high-efficient server system, includes the computer lab, the shield door is installed to one side of computer lab, one side of computer lab is provided with builds the frame, the inside of computer lab is provided with insulating bottom plate, the supporting legs is installed to insulating bottom plate's lower extreme, the inside upper end that is close to insulating bottom plate of computer lab is provided with the server body, the inside of computer lab is provided with the host computer.

As a further technical scheme, a hinge is arranged at the joint of the machine room and the shield door, the machine room and the shield door are in rotary connection through the hinge, and the cross sectional area of the shield door is smaller than that of the machine room.

As a further technical scheme, the building frame is fixedly connected with the machine room through bolts, the building frame is installed on the inner wall of the machine room, the side section of the building frame is of a C-shaped structure, the insulating bottom plates are of a rectangular structure, the number of the insulating bottom plates is a plurality of groups and are distributed in an array mode, the insulating bottom plates are fixedly connected with the supporting legs, and the supporting legs are fixedly connected with the machine room through bolts.

As a further technical scheme, the server bodies are three groups and distributed in an array mode, the server bodies are of a rectangular structure, the height of the server bodies is smaller than that of a machine room, the server bodies are in signal connection with the upper computers, and the upper computers are three groups and distributed in an array mode.

The invention also discloses an efficient server system which comprises a server system, wherein the server system comprises a processor module, an operation module and a storage module, the processor module comprises a CPU receiving module, a CPU conversion module, a CPU analysis module and a CPU sending module, the operation module comprises a main control chip module, a central parameter service module, a local parameter service module and a calculation unit module, and the storage module comprises a storage virtual module, a calculation node module, a cache layering module and a storage node module.

As a further technical scheme of the invention, the server system and the processor module are mutually connected, the server system and the operation module are mutually connected, the server system and the storage module are mutually connected, and the processor module, the operation module and the storage module are mutually in signal connection.

As a further technical scheme of the invention, the processor module and the CPU receiving module are mutually connected, the processor module and the CPU conversion module are mutually connected, the processor module and the CPU analysis module are mutually connected, the processor module and the CPU sending module are mutually connected, and the CPU receiving module, the CPU conversion module, the CPU analysis module and the CPU sending module are mutually in signal connection.

As a further technical solution of the present invention, the operation module and the main control chip module are connected to each other, the operation module and the central parameter service module are connected to each other, the operation module and the local parameter service module are connected to each other, the operation module and the calculation unit module are connected to each other, and the main control chip module, the central parameter service module, the local parameter service module and the calculation unit module are in signal connection with each other.

As a further technical solution of the present invention, the storage module and the storage virtual module are connected to each other, the storage module and the computing node module are connected to each other, the storage module and the cache hierarchy module are connected to each other, the storage module and the storage node module are connected to each other, and the storage virtual module, the computing node module, the cache hierarchy module and the storage node module are in signal connection with each other.

Advantageous effects

The invention provides an efficient server system and a server room. Compared with the prior art, the method has the following beneficial effects:

1. the utility model provides a server room of high-efficient server system, in the computer lab use, the shield door plays better shielding effect, wherein the server body is in the installation, at first, install the supporting legs inside the computer lab, be the array and arrange, after accomplishing the supporting legs is fixed, be connected insulating bottom plate and supporting legs, make insulating bottom build, make the top of supporting legs all be connected with insulating bottom plate's bottom corner, fix insulating bottom plate, install the server body and place, prevent ground signal's interference, carry out better insulation, be convenient for the long-term use of server body.

2. A high-efficiency server system, in the using process of the server system, the server system collects, operates and stores data through a processor module, an operation module and a storage module, wherein a CPU receiving module in the processor module receives the data, a CPU conversion module converts the data, a CPU analysis module analyzes the data and a CPU sending module sends the data, the data is operated through a main control chip module, a central parameter service module, a local parameter service module and a calculation unit module in the operation module, so that the local parameter service module downloads a calculation model from the central parameter service module according to a calculation period and distributes the calculation model to each calculation unit module, the calculation unit calculates according to the calculation model to obtain a corresponding calculation gradient and reports the calculation gradient to the local parameter service module, the data is stored through the storage virtual module, the computing node module, the cache layering module and the storage node module of the storage module, so that the efficiency of the server system is improved in the operation process.

Drawings

Fig. 1 is a schematic diagram of an overall structure of a server room of an efficient server system;

FIG. 2 is a schematic diagram of a partial structure of a server room of an efficient server system;

FIG. 3 is a schematic diagram of an internal structure of a server room of an efficient server system;

FIG. 4 is a system block diagram of a server system in an efficient server system;

FIG. 5 is a system block diagram of a processing module in an efficient server system;

FIG. 6 is a system diagram of an operational module in an efficient server system;

FIG. 7 is a system diagram of a storage module in an efficient server system.

In the figure: 1. a machine room; 2. a shield door; 3. building a frame; 4. an insulating base plate; 5. supporting legs; 6. a server body; 61. an upper computer; 7. a server system; 8. a processor module; 81. a CPU receiving module; 82. a CPU conversion module; 83. a CPU analysis module; 84. a CPU sending module; 9. an operation module; 91. a main control chip module; 92. a central parameter service module; 93. a local parameter service module; 94. a computing unit module; 10. a storage module; 101. storing the virtual module; 102. a compute node module; 103. a cache layering module; 104. and storing the node module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution for a high-efficiency server system and a server room: the utility model provides a server room 1 of high-efficient server system, includes computer lab 1, and shield door 2 is installed to one side of computer lab 1, and one side of computer lab 1 is provided with builds frame 3, and the inside of computer lab 1 is provided with insulating bottom plate 4, and supporting legs 5 are installed to the lower extreme of insulating bottom plate 4, and the inside upper end that is close to insulating bottom plate 4 of computer lab 1 is provided with server body 6, and the inside of computer lab 1 is provided with host computer 61.

Please refer to fig. 1-3, further, a hinge is disposed at a joint of the machine room 1 and the shield door 2, the machine room 1 and the shield door 2 are rotatably connected through the hinge, a cross-sectional area of the shield door 2 is smaller than that of the machine room 1, the building frame 3 and the machine room 1 are fixedly connected through bolts, an inner wall of the building frame 3 and the machine room 1 is installed, a side section of the building frame 3 is of a C-shaped structure, the insulating bottom plate 4 is of a rectangular structure, the number of the insulating bottom plates 4 is a plurality of groups and is in array distribution, the insulating bottom plate 4 is fixedly connected with the supporting legs 5, the supporting legs 5 are fixedly connected with the machine room 1 through bolts, the number of the server bodies 6 is three groups and is in array distribution, the server bodies 6 are of a rectangular structure, the height of the server bodies 6 is smaller than that of the machine room 1, the server bodies 6 are in signal connection with the upper computer 61, and the number of the upper computers 61 is three groups and is in array distribution.

It should be explained, in the use of computer lab 1, install supporting legs 5 inside computer lab 1, be the array and arrange, accomplish the fixed back of accomplishing of supporting legs 5, be connected insulating bottom plate 4 with supporting legs 5, make insulating bottom build, make the top of supporting legs 5 all be connected with insulating bottom plate 4's bottom corner, fix insulating bottom plate 4, install server body 6 and place, prevent ground signal's interference, carry out better insulation, the long-term use of server body 6 of being convenient for.

Referring to fig. 4-7, the present invention further discloses an efficient server system, which includes a server system 7, wherein the server system 7 includes a processor module 8, an operation module 9 and a storage module 10, the processor module 8 includes a CPU receiving module 81, a CPU conversion module 82, a CPU analysis module 83 and a CPU sending module 84, the operation module 9 includes a main control chip module 91, a central parameter service module 92, a local parameter service module 93 and a computing unit module 94, and the storage module 10 includes a storage virtual module 101, a computing node module 102, a cache layering module 103 and a storage node module 104.

Referring to fig. 4-6, the server system 7 and the processor module 8 are connected to each other, the server system 7 and the operation module 9 are connected to each other, the server system 7 and the storage module 10 are connected to each other, the processor module 8, the operation module 9 and the storage module 10 are connected to each other by signals, the processor module 8 and the CPU receiving module 81 are connected to each other, the processor module 8 and the CPU converting module 82 are connected to each other, the processor module 8 and the CPU analyzing module 83 are connected to each other, the processor module 8 and the CPU sending module 84 are connected to each other, the CPU receiving module 81, the CPU converting module 82, the CPU analyzing module 83 and the CPU sending module 84 are connected to each other by signals, the operation module 9 and the main control chip module 91 are connected to each other, the operation module 9 and the central parameter service module 92 are connected to each other, the operation module 9 and the local parameter service module 93 are connected with each other, the operation module 9 and the calculation unit module 94 are connected with each other, and the main control chip module 91, the central parameter service module 92, the local parameter service module 93 and the calculation unit module 94 are in signal connection with each other.

It should be noted that, the server system 7 performs data acquisition, calculation and storage through the processor module 8, the calculation module 9 and the storage module 10, wherein, the CPU receiving module 81 in the processor module 8 receives data, the CPU converting module 82 converts data, the CPU analyzing module 83 analyzes data and the CPU sending module 84 sends data, the data is operated by the main control chip module 91, the central parameter service module 92, the local parameter service module 93 and the calculating unit module 94 in the operation module 9, so that the local parameter service module 93 downloads the calculation model from the central parameter service module 92 according to the calculation period, and distribute the calculation model to each calculation unit module 94, and the calculation unit calculates according to the calculation model to obtain a corresponding calculation gradient, and reports the calculation gradient to the local parameter service module 93.

Referring to fig. 7, the storage module 10 and the storage virtual module 101 are connected to each other, the storage module 10 and the computing node module 102 are connected to each other, the storage module 10 and the cache hierarchy module 103 are connected to each other, the storage module 10 and the storage node module 104 are connected to each other, the storage virtual module 101, the computing node module 102, the cache hierarchy module 103 and the storage node module 104 are connected to each other by signals, and the storage virtual module 101, the computing node module 102, the cache hierarchy module 103 and the storage node module 104 of the storage module 10 store data, so that the efficiency of the server system 7 is improved during the operation process.

The working principle of the invention is as follows: in the use of computer lab 1, shield door 2 plays better shielding effect, and wherein server body 6 is in the installation, with supporting legs 5 with be connected insulating bottom plate 4, fixes insulating bottom plate 4, installs server body 6 and places, prevents ground signal's interference, carries out better insulation, the long-term use of server body 6 of being convenient for.

It should be noted that, in the using process of the server system 7, the server system 7 performs data acquisition operation and storage, wherein the processor module 8 performs data reception, conversion, analysis and transmission, the data is operated by the operation module 9, so that the local parameter service module 93 downloads the calculation model from the central parameter service module 92 according to the calculation period, and distributes the calculation model to each calculation unit module 94, the calculation unit performs calculation according to the calculation model to obtain a corresponding calculation gradient, and reports the calculation gradient to the local parameter service module 93, and the storage module 10 performs data storage, so that the efficiency of the system is improved in the operating process of the server system 7.

Claims

1. The utility model provides a server room of high-efficient server system, includes computer lab (1), its characterized in that, shield door (2) are installed to one side of computer lab (1), one side of computer lab (1) is provided with builds frame (3), the inside of computer lab (1) is provided with insulating bottom plate (4), supporting legs (5) are installed to the lower extreme of insulating bottom plate (4), the inside upper end that is close to insulating bottom plate (4) of computer lab (1) is provided with server body (6), the inside of computer lab (1) is provided with host computer (61).

2. The server room of the efficient server system according to claim 1, wherein a hinge is provided at a joint of the server room (1) and the shield door (2), the server room (1) and the shield door (2) are rotatably connected through the hinge, and a cross-sectional area of the shield door (2) is smaller than that of the server room (1).

3. The server room of the high-efficiency server system according to claim 1, wherein the building frame (3) is fixedly connected with the server room (1) through bolts, the building frame (3) is installed on the inner wall of the server room (1), the side section of the building frame (3) is in a C-shaped structure, the insulating base plates (4) are in a rectangular structure, the number of the insulating base plates (4) is a plurality of groups and distributed in an array, the insulating base plates (4) are fixedly connected with the supporting legs (5), and the supporting legs (5) are fixedly connected with the server room (1) through bolts.

4. The server room of the efficient server system according to claim 1, wherein the number of the server bodies (6) is three groups and distributed in an array, the server bodies (6) are rectangular, the height of the server bodies (6) is smaller than that of the server room (1), the server bodies (6) are in signal connection with the upper computer (61), and the number of the upper computers (61) is three groups and distributed in an array.

5. An efficient server system, the server room of the efficient server system according to any one of claims 1 to 4, comprising a server system (7), wherein the server system (7) comprises a processor module (8), an operation module (9) and a storage module (10), the processor module (8) comprises a CPU receiving module (81), a CPU conversion module (82), a CPU analysis module (83) and a CPU sending module (84), the operation module (9) comprises a main control chip module (91), a central parameter service module (92), a local parameter service module (93) and a computing unit module (94), and the storage module (10) comprises a storage virtual module (101), a computing node module (102), a cache hierarchical module (103) and a storage node module (104).

6. A high-efficiency server system as claimed in claim 5, wherein the server system (7) and the processor module (8) are connected to each other, the server system (7) and the operation module (9) are connected to each other, the server system (7) and the storage module (10) are connected to each other, and the processor module (8), the operation module (9) and the storage module (10) are connected to each other by signals.

7. The efficient server system according to claim 5, wherein the processor module (8) and the CPU receiving module (81) are connected with each other, the processor module (8) and the CPU conversion module (82) are connected with each other, the processor module (8) and the CPU analysis module (83) are connected with each other, the processor module (8) and the CPU sending module (84) are connected with each other, and the CPU receiving module (81), the CPU conversion module (82), the CPU analysis module (83) and the CPU sending module (84) are connected with each other through signals.

8. The efficient server system according to claim 5, wherein the computing module (9) and the main control chip module (91) are connected to each other, the computing module (9) and the central parameter service module (92) are connected to each other, the computing module (9) and the local parameter service module (93) are connected to each other, the computing module (9) and the computing unit module (94) are connected to each other, and the main control chip module (91), the central parameter service module (92), the local parameter service module (93) and the computing unit module (94) are connected to each other by signals.

9. The efficient server system according to claim 5, wherein the storage module (10) and the storage virtual module (101) are connected to each other, the storage module (10) and the compute node module (102) are connected to each other, the storage module (10) and the cache hierarchical module (103) are connected to each other, the storage module (10) and the storage node module (104) are connected to each other, and the storage virtual module (101), the compute node module (102), the cache hierarchical module (103) and the storage node module (104) are connected to each other by signals.