CN107562387A - A kind of high density storage pool implementation method and its framework - Google Patents

Abstract

The invention discloses a kind of high density storage pool implementation method and its framework, belong to server storage field, the technical problem to be solved in the present invention for storage pool data capacity is small, density is low, it is impossible to meet the ever-increasing demand of data volume, the technical scheme used for：1., a kind of high density storage pool implementation method, it is characterised in that this method is by being distributed 4 layers of individual layer node board in 3OU Cubby, and every layer of individual layer node board is distributed 16 pieces of hard disks, supports 64 pieces of hard disks altogether；4 share one group of fan in individual layer node board, a fan wall are formed, so as to realize the high density of server storage node and low-power consumption.2., a kind of high density storage pool framework, it is characterized in that, the framework includes four individual layer node boards, 4 individual layer node boards are set in stepped construction and each individual layer node board independently plugs, individual layer node board includes Expander cards and Driver Board, 7 pieces of 3.5inch hard disks are provided with Expander cards, 9 pieces of 3.5inch hard disks are provided with Driver Board.

Description

A kind of high density storage pool implementation method and its framework

Technical field

The present invention relates to server storage field, specifically a kind of high density storage pool implementation method and its framework.

Background technology

Storage pool be DPM servers wherein stored copies, shadow copy and transmit daily record one group of disk, it is necessary to Storage pool, which adds at least one disk, could start to protect data, and the disk for being added to storage pool should be empty.For standard Standby data protection, DPM reformat any data on disk and erasing disk.DPM servers must install at least two Individual disk, one is exclusively used in activation system and DPM installation files, and another is exclusively used in storage pool.

Storage is the important component of current data storage, therewith information-based acceleration, it is necessary to data it is more and more, Requirement for storage also more and more higher.The use of the continuous increase of data volume and the distribution of storage for data all causes one Fixed influence.

Patent No. CN 104932837A patent document discloses a kind of storage pool framework, including server node, SAS Switch plates and memory node, the server node are used to deposit local computing resource, the SAS Switch plates For decoupling storage and computing resource, and realize and interconnected between memory node and server node, the memory node is storage Storage resource is gathered in pond, is freely distributed on server node by SAS Switch plates.But the technical scheme storage pool Density it is not big enough, it is impossible to meet the ever-increasing demand of data volume, and the distribution of storage resource and integrate it is not reasonable, can It can influence the use of data.

The content of the invention

The technical assignment of the present invention is to provide a kind of high density storage pool implementation method and its framework, to solve storage pool Data capacity is small, density is low, it is impossible to the problem of meeting data volume ever-increasing demand.

The technical assignment of the present invention realizes that a kind of high density storage pool implementation method, this method is in the following manner By being distributed 4 layers of individual layer node board in 3OU Cubby, every layer of individual layer node board is distributed 16 pieces of hard disks, supports 64 pieces altogether Hard disk, 4 share one group of fan in individual layer node board, a fan wall are formed, so as to realize the highly dense of server storage node Degree and low-power consumption.

Preferably, this method comprises the following steps that：

（1）, individual layer node board include Expander cards and Driver Board, by the direct-connected 7 pieces of hard disks of Expander cards, lead to 9 pieces of hard disks of Driver Board connections are crossed, so as to realize that individual layer node supports 16 pieces of 3.5inch hard disks；

（2）, be provided with a D/C power interface in each individual layer node board, each layer D/C power interface respectively with OCP V2 The direct-connected power taking of rack copper bar, ensure the stabilization of supply current and voltage；

（3）, be provided with 4 layers of individual layer node board in 3OU Cubby spaces and each individual layer node board independently plugs, realize The high density storage pool of 64 pieces of hard disks.

More preferably, the step（1）Middle Expander cards front end is provided with 3 Mini SAS HD and 2 redundancy RJ45 connect Mouthful；Wherein, Mini SAS HD cascade for system, and RJ45 interfaces are used for network data transmission.

More preferably, the Mini SAS HD and SAS Switch of each individual layer node board front end network exchange plate are carried out Connection, realize the cascade of storage hard disk, the pondization distribution of data.

More preferably, the step（3）Middle orlop individual layer node board is connected with fan control board, and fan control board is used for Fan is regulated and controled.

More preferably, the step（3）In 4 layers of individual layer node board share one group of fan, radiated using one group of fan System power dissipation can be greatly reduced.

A kind of high density storage pool framework, the framework include four individual layer node boards, and 4 individual layer node boards are in stacking Structure setting and each individual layer node board independently plugs, individual layer node board includes Expander cards and Driver Board, 7 pieces of 3.5inch hard disks are provided with Expander cards, 9 pieces of 3.5inch hard disks are provided with Driver Board；Each individual layer Be provided with a D/C power interface in node board, each layer D/C power interface respectively with the direct-connected power taking of OCP V2 rack copper bars, Ensure the stabilization of supply current and voltage.

Preferably, the Expander cards front end is provided with 3 Mini SAS HD and 2 redundancy RJ45 interfaces；Its In, Mini SAS HD cascade for system, and RJ45 interfaces are used for network data transmission.

More preferably, the Mini SAS HD are connected with SAS Switch network exchange plate, realize the level of storage hard disk Connection, the pondization distribution of data.

More preferably, orlop individual layer node board is connected with fan control board, and fan control board is used to adjust fan Control.

A kind of high density storage pool implementation method and its framework of the present invention has advantages below compared with prior art：

（One）, scorpio specification SR whole machine cabinets depth be 1200mm, and the OCP whole machine cabinet depth based on OCP V2 specifications only has 1067mm, while built in fan, be distributed in each node, so as to relatively reduce server free space；This storage pool framework Design synthesis 1U storage organizations and whole machine cabinet fan wall design concept, 4 layers of individual layer node board are distributed in 3OU Cubby, altogether 64 pieces of 3.5inch HDD, and common fan are supported, a small fan wall is formed, so as to realize the height of server storage node Density and low-power consumption, solves the mass memory demand of client；

（Two）, part on fan, the node built-in fans framework that difference is commonly used with OCP, comprehensive scorpio specification SR whole machine cabinets Fan wall framework, 4 layers of individual layer node board share one group of fan and are radiated, and greatly reduce system power dissipation；

（Three）, the storage pool framework that uses of the present invention, storage resource can be integrated, the high density portion in limited space Administration, while fan power consumption can be reduced using fan wall framework, rapid deployment is carried out with reference to existing procucts SAS Switch, is realized Storage resource is shared, and rationally utilizes server storage；

（Four）, the brand-new 64 pieces of 3.5inch hard disc archetectures ponds of 3OU of the present invention, meet client's special demand, while increase OCP Product line configures, and lifts product competitiveness.

Brief description of the drawings

The present invention is further described below in conjunction with the accompanying drawings.

Accompanying drawing 1 is the structural representation of high density storage pool framework；

Accompanying drawing 2 is the distribution schematic diagram of individual layer node board in accompanying drawing 1；

Accompanying drawing 3 is the electrical schematic of individual layer node board in accompanying drawing 1.

In figure：1st, individual layer node board, 2, hard disk, 3, Expander cards, 4, Driver Board, 5, D/C power interface, 6th, Mini SAS HD, 7, RJ45 interfaces, 8, fan control board.

Embodiment

With reference to Figure of description and specific embodiment to a kind of high density storage pool implementation method and its framework of the invention It is described in detail below.

Embodiment 1：

The high density storage pool implementation method of the present invention, this method are by being distributed 4 layers of individual layer gusset plate in 3OU Cubby Card, every layer of individual layer node board are distributed 16 pieces of hard disks, support 64 pieces of hard disks altogether, and 4 share one group of fan, shape in individual layer node board Into a fan wall, so as to realize the high density of server storage node and low-power consumption.

Embodiment 2：

The high density storage pool implementation method of the present invention, this method comprise the following steps that：

（1）, individual layer node board include Expander cards and Driver Board, by the direct-connected 7 pieces of hard disks of Expander cards, lead to 9 pieces of hard disks of Driver Board connections are crossed, so as to realize that individual layer node supports 16 pieces of 3.5inch hard disks；Expander cards front end There are 3 Mini SAS HD and 2 redundancy RJ45 interfaces；Wherein, Mini SAS HD cascade for system, and RJ45 interfaces are used for net Network data transfer.

（2）, be provided with a D/C power interface in each individual layer node board, each layer D/C power interface respectively with OCP The direct-connected power taking of V2 rack copper bars, ensure the stabilization of supply current and voltage；

（3）, be provided with 4 layers of individual layer node board in 3OU Cubby spaces and each individual layer node board independently plugs, realize The high density storage pool of 64 pieces of hard disks；Pass through the Mini SAS HD and SAS Switch of each individual layer node board front end net Network power board is attached, and realizes the cascade of storage hard disk, the pondization distribution of data.Orlop individual layer node board and fan control Making sheet connects, and fan control board is used to regulate and control fan.4 layers of individual layer node board share one group of fan, using one group of wind Fan, which carries out radiating, can greatly reduce system power dissipation.

Embodiment 3：

As shown in accompanying drawing 1,2 and 3, high density storage pool framework of the invention, its structure includes four individual layer node board Isosorbide-5-Nitraes Individual layer node board 1 is set in stepped construction and the 1 independent plug of each individual layer node board, individual layer node board 1 include There are 7 pieces of 3.5inch hard disks 2 in Expander cards 3 and Driver Board 4, Expander card 3, set in Driver Board 4 It is equipped with 9 pieces of 3.5inch hard disks 2.The front end of Expander cards 3 is provided with 3 Mini SAS HD 6 and 2 redundancy RJ45 interfaces 7； Wherein, Mini SAS HD 6 cascade for system, and RJ45 interfaces 7 are used for network data transmission.Mini SAS HD 6 and SAS Switch network exchange plate connection, realize the cascade of storage hard disk, the pondization distribution of data.In each individual layer node board 1 There is a D/C power interface 5, each layer D/C power interface 5 with the direct-connected power taking of OCP V2 rack copper bars, ensures supply current respectively With the stabilization of voltage；Orlop individual layer node board 1 is connected with fan control board 8, and fan control board 8 is used to adjust fan Control.

By embodiment above, the those skilled in the art can readily realize the present invention.But should Work as understanding, the present invention is not limited to above-mentioned embodiment.On the basis of disclosed embodiment, the technical field Technical staff can be combined different technical characteristics, so as to realize different technical schemes.

It is the known technology of those skilled in the art in addition to the technical characteristic described in specification.

Claims (10)

1. a kind of high density storage pool implementation method, it is characterised in that this method is by being distributed 4 layers of list in 3OU Cubby Node layer board, every layer of individual layer node board are distributed 16 pieces of hard disks, support 64 pieces of hard disks altogether；4 share one in individual layer node board Group fan, forms a fan wall, so as to realize the high density of server storage node and low-power consumption.

2. high density storage pool implementation method according to claim 1, it is characterised in that this method comprises the following steps that：

（1）, individual layer node board include Expander cards and Driver Board, by the direct-connected 7 pieces of hard disks of Expander cards, lead to 9 pieces of hard disks of Driver Board connections are crossed, so as to realize that individual layer node supports 16 pieces of 3.5inch hard disks；

（2）, be provided with a D/C power interface in each individual layer node board, each layer D/C power interface respectively with OCP V2 The direct-connected power taking of rack copper bar, ensure the stabilization of supply current and voltage；

（3）, be provided with 4 layers of individual layer node board in 3OU Cubby spaces and each individual layer node board independently plugs, realize The high density storage pool of 64 pieces of hard disks.

3. high density storage pool implementation method according to claim 2, it is characterised in that the step（1）In Expander cards front end is provided with 3 Mini SAS HD and 2 redundancy RJ45 interfaces；Wherein, Mini SAS HD are used for system Cascade, RJ45 interfaces are used for network data transmission.

4. high density storage pool implementation method according to claim 3, it is characterised in that each individual layer node board front end Mini SAS HD and SAS Switch network exchange plate be attached, realize the cascade of storage hard disk, the Chi Huafen of data Match somebody with somebody.

5. the high density storage pool implementation method according to Claims 2 or 3 or 4, it is characterised in that the step（3）In Orlop individual layer node board is connected with fan control board, and fan control board is used to regulate and control fan.

6. high density storage pool implementation method according to claim 5, it is characterised in that the step（3）In 4 layers of individual layer Node board shares one group of fan, and system power dissipation can be greatly reduced by carrying out radiating using one group of fan.

7. a kind of high density storage pool framework, it is characterised in that the framework includes four individual layer node boards, 4 individual layer nodes Board is set in stepped construction and each individual layer node board independently plugs, individual layer node board including Expander cards and 7 pieces of 3.5inch hard disks are provided with Driver Board, Expander cards, 9 pieces of 3.5inch are provided with Driver Board Hard disk；Be provided with a D/C power interface in each individual layer node board, each layer D/C power interface respectively with OCP V2 racks The direct-connected power taking of copper bar.

8. high density storage pool framework according to claim 7, it is characterised in that the Expander cards front end is provided with 3 Mini SAS HD and 2 redundancy RJ45 interfaces；Wherein, Mini SAS HD cascade for system, and RJ45 interfaces are used for network Data transfer.

9. high density storage pool framework according to claim 8, it is characterised in that Mini the SAS HD and SAS Switch network exchange plate connection, realize the cascade of storage hard disk, the pondization distribution of data.

10. high density storage pool framework according to claim 9, it is characterised in that orlop individual layer node board and wind Control panel connection is fanned, fan control board is used to regulate and control fan.