CN102594602A

CN102594602A - Location management design method of multi-node cloud computing server

Info

Publication number: CN102594602A
Application number: CN201210041439XA
Authority: CN
Inventors: 孙波
Original assignee: Inspur Electronic Information Industry Co Ltd
Current assignee: Inspur Electronic Information Industry Co Ltd
Priority date: 2012-02-23
Filing date: 2012-02-23
Publication date: 2012-07-18
Anticipated expiration: 2032-02-23
Also published as: CN102594602B

Abstract

The invention provides a location management design method of a multi-node cloud computing server, wherein the hardware comprises a server cabinet, a computing node slot, a 3+1 power module slot, a Gigabit switch extension reserving slot, a cable guide slot, a 3+1 power module slot, a Gigabit switch data network module slot, a RMC (rod memory computer) module slot, a Gigabit switch management network slot, a reserving power module function extension slot, a reserving power module function extension slot, a hot-plug fan module, middle node plates and a power strip, wherein in the server cabinet, 80 server nodes can be supported in a maximum manner, which can be divided into four layers from top to bottom; one middle node plate exists in each layer; power supplying and signal interconnection of 20 nodes in the layer can be achieved; each server node is connected with the middle node plate by a secondary power plate; an I2C link is reversed on each node and is connected with 20 golden finger connectors on the middle node plates by the secondary power plate; at least 20 server nodes can be supported by one middle node plate so that interconnection and power supplying of the nodes are achieved.

Description

A kind of multinode cloud computing server orientation management method for designing

Technical field

The present invention relates to a kind of computer server technical field, specifically a kind of multinode cloud computing server orientation management method for designing.

Summary of the invention

The purpose of this invention is to provide a kind of multinode cloud computing server orientation management method for designing.

The objective of the invention is to realize by following mode; Comprise server cabinet, computing node slot, 3+1 power module slot, gigabit switch expansion reservation slot, netting twine gathering sill, 3+1 power module slot, gigabit switched data network module slot, RMC module slot, gigabit exchange of management net slot, reserve power module function expansion slot, reserve plate, electric power plug socket in power module function expansion slot, hot-swappable fan module, the node; In server cabinet; 80 server nodes of maximum support; Being divided into from top to bottom is four layers, and every layer has plate in a slice node, realizes that the power supply and the signal of 20 node of this layer is interconnected; Each server node is interconnected through plate in secondary power supply plate and the node, all is reserved with the I2C link on each node, is connected in the node on 20 golden finger connectors on the plate through the secondary power supply plate; Plate is supported 20 server nodes at least in a slice node, is used to realize the interconnected of node and power supply;

Design procedure is following:

1) server cabinet four layers of design from the top down, each layer top is provided with the netting twine gathering sill, perpendicular slotting ten the computing node slots in left side, the 1st layer of right side is provided with a power module and reserves slot and a gigabit switch expansion reservation slot; The 2nd layer of right side is provided with a 3+1 power module slot and a gigabit switched data network module slot; Between the 3rd layer and the second layer two horizontal RMC module slot slots are set; The 4th layer of right side is provided with a 3+1 power module slot slot and a gigabit exchange of management net module slot; The 4th layer is that the basecoat right side is provided with a reservation gigabit switching network expansion slot and a reservation power module function expansion slot; The server cabinet rear portion is provided with four hot-swappable fan modules; Corresponding with the four-level space of server cabinet respectively; Between hot-swappable fan module and server cabinet, be horizontally arranged with plate in the node; The equipment that plate is provided with in data line interface and the server cabinet in the node is connected, and the server cabinet side also is provided with electric power plug socket enforcement centrally connected power supply; Through the centrally connected power supply of above-mentioned design implementation rack, concentrated heat radiation and centralized management, and then the work of simplification O&M is put, is disposed fast in the unification of realization multinode on the shelf;

2) each server node inside is combined into node unit the most basic in the multi node server through server master board, hard disk, internal memory, CPU basic module:

Based on I2C communication protocol; The GPIO signal of 20 golden finger connectors in the node on the plate through drawing on the RMC module; Realize unique address addressing; No matter server node is found on that golden finger connector like this, and the corresponding with it positioning function that realizes server node of unique address addressing is all arranged;

Based on I2C communication protocol; RMC module in the server cabinet is through the address strobe function of GPIO; Interconnected with the I2C link of 80 nodes; By means of IPMB standard agreement packet, the BMC of RMC module and each node carries out real time communication, obtains the assets information of each computing node, grasps the work state information of each sensor information, internal memory and the CPU of all nodes in real time.

The invention has the beneficial effects as follows: industry writes down the assets information and the placement location of server often through manual type for the server of newly putting on the shelf at present; When server failure; Need the artificial server apparatus placement location of searching corresponding assets information, bring and dispose the reduction of putting on the shelf, adopt this method with the O&M operating efficiency; Can simplify this type of work greatly, increase work efficiency.The application model of server apparatus is towards centralization, large-scale development, and how the location and the asset management of Rapid Realization server become following primary study content in the server admin field.

Description of drawings

Fig. 1 is the forward sight structural representation of rack;

Fig. 2 is the backsight structural representation of rack;

Fig. 3 is the backsight structural representation that rack removes fan board;

Fig. 4 is the server theory diagram.

Description of reference numerals: computing node slot 1,3+1 power module slot 2, gigabit switch expansion are reserved slot 3, netting twine gathering

sill

4,3+1 power module slot 5, gigabit switched data network module slot 6, RMC module slot 7, gigabit exchange of management net slot 8, reserve power module function expansion slot 9, are reserved plate 12, electric power plug socket 13, server cabinet 14, data line interface 15 in power module function expansion slot 10, hot-swappable fan module 11, the node.

Embodiment

Explanation at length below with reference to Figure of description method of the present invention being done.

Help weapon hardware to form by plate 12, electric power plug socket 13 in server cabinet 14, computing node slot 1,3+1 power module slot 2, gigabit switch expansion reservation slot 3, netting twine gathering

sill

4,3+1 power module slot 5, gigabit switched data network module slot 6, RMC module slot 7, gigabit exchange of management net slot 8, reservation power module function expansion slot 9, reservation power module function expansion slot 10, hot-swappable fan module 11, the node

1) server cabinet 14 four layers of design from the top down, each layer top is provided with netting twine gathering sill 4, and perpendicular 1, the 1 layer of right side of ten computing node slots of inserting, left side is provided with a power module reservation slot 2 and a gigabit switch expansion reservation slot 3; The 2nd layer of right side is provided with a 3+1 power module slot 5 and a gigabit switched data network module slot 6 respectively; Between the 3rd layer and the second layer two horizontal RMC module slot slots 7 are set; The 4th layer of right side is provided with a 3+1 power module slot slot 5 and a gigabit exchange of management net module slot 8; The 4th layer is that the basecoat right side is provided with a reservation gigabit switching network expansion slot 9 and a reservation power module function expansion slot 10; Server cabinet 14 rear portions are provided with four hot-swappable fan modules 11; Corresponding with the four-level space of server cabinet 14 respectively; Between hot-swappable fan module 11 and server cabinet 14, be horizontally arranged with plate 12 in the node; The equipment that plate 12 is provided with in data line interface 15 and the server cabinet 14 in the node are connected, and server cabinet 14 sides also are provided with electric power plug socket 13 enforcement centrally connected power supplies.

Embodiment

In Smart Rack, 80 server nodes of maximum support, being divided into from top to bottom is four layers, every layer has plate in a slice node, realizes that the power supply and the signal of 20 node of this layer is interconnected.

Shown in accompanying drawing, in server system, 80 server nodes of maximum support, being divided into from top to bottom is four layers, every layer has plate in a slice node, realizes that the power supply and the signal of 20 node of this layer is interconnected.

Each server node is interconnected through plate in the firm and hard existing and node of secondary power supply.All be reserved with the I2C link on each node, be connected to through the secondary power supply plate on the golden finger connector of plate in the node; And the plate maximum can be supported 20 server nodes in a slice node, and promptly the top has 20 golden finger connectors, is used to realize the interconnected of node and power supply.

The GPIO signal of 20 golden finger connectors in the node on the plate through drawing on the RMC; Realize unique address addressing; No matter server node is found on that golden finger connector like this, all has unique address addressing corresponding with it, so realizes the positioning function of server node;

RMC in the multi node server is through the address strobe function of GPIO; Interconnected with the I2C link of 80 nodes; By means of IPMB standard agreement packet; RMC can carry out real time communication with the BMC of each node, not only can obtain the assets information of each node, can also grasp each sensor information and the work state informations such as internal memory, CPU of all nodes in real time.

The present invention mainly is a kind of based on the automatic location of I2C communication protocol realization multiserver node and the method for asset management.

1) through the centralized management terminal, for example the RMC administration module of our exploitation through the GPIO signal, is to encode in the location groove position of 80 nodes, realizes the location of server;

2) through the I2C communication link, the gating function of collocation GPIO realizes the Card read/write of RMC to 80 nodes being attached thereto, thereby obtains the automatic summarizing and reporting of assets information of Servers-all node;

Except that the described technical characterictic of specification, be the known technology of those skilled in the art.

Claims

1. multinode cloud computing server orientation management method for designing; It is characterized in that hardware comprises server cabinet, computing node slot, 3+1 power module slot, gigabit switch expansion reservation slot, netting twine gathering sill, 3+1 power module slot, gigabit switched data network module slot, RMC module slot, gigabit exchange of management net slot, reserves power module function expansion slot, reserves plate, electric power plug socket in power module function expansion slot, hot-swappable fan module, the node; In server cabinet; 80 server nodes of maximum support; Be divided into from top to bottom is four layers; Every layer has plate in a slice node, realizes that the power supply and the signal of 20 node of this layer is interconnected; Each server node is interconnected through plate in secondary power supply plate and the node, all is reserved with the I2C link on each node, is connected in the node on 20 golden finger connectors on the plate through the secondary power supply plate; Plate is supported 20 server nodes at least in a slice node, is used to realize the interconnected of node and power supply; Design procedure is following: