CN107391428B - Novel framework four-way server - Google Patents

Abstract

The invention discloses a novel architecture four-way server, which comprises a calculation module, a storage module, a power supply module and a fan module; the computing module comprises 4 computing units, which are used for processing core data and key instructions in the system and providing high-performance overall computing capacity. The storage module is used for storing data and data in the system, supporting RAID array technology and providing data-oriented read-write performance improvement and data safety redundancy strategy; the memory module consists of 4 sub-memory units. The power supply module and the fan module are arranged at the rear part of the system, the power supply of all the equipment is uniformly concentrated at the rear part of the cabinet, and the power supply is distributed to all the equipment by a Power Distribution Unit (PDU). The invention provides a novel architecture four-way server conforming to OCS specifications for the first time.

Description

Novel framework four-way server

Technical Field

The invention relates to the field of servers, in particular to a four-way server.

Background

OCS is a new server design specification proposed by microsoft corporation that requires that the I/O ports of all computer devices be focused on the front end of the device while specifying the physical size of the device. At present, only two paths of computer products conforming to OCS are available, and no products conforming to OCS specifications exist for four paths of products.

Disclosure of Invention

The present invention is directed to solving the above problems. Therefore, the invention provides a novel architecture four-way server, which has the advantages of supporting 4 physical computing units, providing stronger computing performance and flexible expansion capability.

In order to achieve the above purpose, the present invention adopts the following technical scheme.

A novel architecture four-way server comprises a calculation module, a storage module, a power module and a fan module;

the computing module comprises four computing units, which are used for processing core data and key instructions in the system and providing high-performance overall computing capacity. 2 PCIE 3.0x16 and 3 PCIE 3.0x24 are provided on the computing module, wherein the slot position of x24 can support a Riser expansion board, 1 PCIE 3.0x16 and 1 PCIE 3.0x8 physical slot position can be supported, the system can support 8 PCIE devices at maximum, all PCIE devices are arranged at the front part of the system, all device service ports are arranged at the front part, and a power supply port is arranged at the rear part, so that unified management of the devices is facilitated;

the storage module is used for storing data and data in the system, supporting RAID array technology and providing data-oriented read-write performance improvement and data safety redundancy strategy; the memory module consists of 4 sub-memory units, which may be one of 3.5 "hard disk media, NMVe or U.2 memory media.

The power supply module and the fan module are arranged at the rear part of the system, the power supply of all the equipment is uniformly concentrated at the rear part of the cabinet, and the power supply is distributed to all the equipment by a Power Distribution Unit (PDU).

Preferably, the storage medium is based on a PCIE3.0 bus. Compared with the traditional SATA transmission rate of 6-12 Gbps, the transmission rate can be improved to 32Gbps.

The invention has the beneficial effects that: the invention adopts a high-density design, supports 4 physical computing units in the same size space of the existing double-channel OCS computer product, provides stronger computing performance, adopts a flexible expansion mode at the front end of the computer system, can selectively support 5-11 expansion cards according to different application requirements, provides stronger expansibility, designs M.2 equipment supporting 8 PCIE 3.0x4 in a new architecture, has a single equipment data bandwidth of 32Gbps, and can be used as data acceleration of the system. All data I/O ports in the whole new architecture are designed at the front end of the equipment, the rear positions of a power supply and a fan meet the requirement of OCS specification, and a novel four-way server architecture design meeting the OCS specification is provided for the first time.

Drawings

Fig. 1 is a structural design diagram of a novel architecture four-way server of embodiment 1.

Fig. 2 is a schematic block diagram of a novel four-way computing node of embodiment 2.

Detailed Description

The invention will be further described with reference to the drawings and examples.

Example 1

As shown in FIG. 1, a novel architecture four-way server comprises a computing module, a storage module, a power module and a fan module;

the computing module comprises four computing units, which are used for processing core data and key instructions in the system and providing high-performance overall computing capacity. 2 PCIE 3.0x16 and 3 PCIE 3.0x24 are provided on the computing module, wherein the slot position of x24 can support a Riser expansion board, 1 PCIE 3.0x16 and 1 PCIE 3.0x8 physical slot position can be supported, the system can support 8 PCIE devices at maximum, all PCIE devices are arranged at the front part of the system, all device service ports are arranged at the front part, and a power supply port is arranged at the rear part, so that unified management of the devices is facilitated;

the storage module is used for storing data and data in the system, supporting RAID array technology and providing data-oriented read-write performance improvement and data safety redundancy strategy; the memory module consists of 4 sub-memory units, which may be one of 3.5 "hard disk media, NMVe or U.2 memory media. The storage medium is based on a PCIE3.0 bus.

The power supply module and the fan module are arranged at the rear part of the system, the power supply of all the equipment is uniformly concentrated at the rear part of the cabinet, and the power supply is distributed to all the equipment by a Power Distribution Unit (PDU).

Example 2

A novel architecture four-way server, the whole computing node is composed of 4 independent computing units, and the computing units are designed based on Intel traditional x86 processors.

The computing unit 0 is connected with the centralized processing unit through PCIE 3.0x24 (x16+x8) and a DMI link and is responsible for communication between the computing unit and the centralized processing unit, and meanwhile, the Uplink link of x24 is used for supporting the data encryption/decryption technology inherited in the centralized processing unit; the computing unit 0 is connected with PCIE Slot3 through 1 group of PCIE 3.0x16 links, is used for supporting PCIE standard card equipment by matching with a Riser, and is used for improving PCIE expansion capacity of the whole system; computing unit 0 also supports 2 x4 bandwidth 110mm size m.2 devices over 1 set of PCIE3.0 x8 links, while 2 m.2 devices may build a RAID0 or RAID1 array through computing unit 0.

The calculation unit 1 is connected with PCIE Slot4 through 1 group of PCIE 3.0x24 (x16+x8) links, and 1 Riser can be matched on Slot4 to support 1 x16 and 1 x8 PCIE standard card devices; computing unit 1 also supports 2 x4 bandwidth 110mm size m.2 devices over 1 set of PCIE3.0 x8 links, while 2 m.2 devices may build a RAID0 or RAID1 array through computing unit 1; the computing unit 1 is also connected with an OCUlink connector through 2 groups of links of PCIE 3.0x8, and can be connected to a storage unit on a storage module as an extension of PCIE application to support storage media based on PCIE buses.

The computing unit 2 is connected with Slot1 and Slot2 by links of 2 groups of PCIE 3.0x16 respectively, and links of 1 group of PCIE 3.0x8 are connected to Slot3, and are used for supporting PCIE standard card equipment; computing unit 2 also supports 2 x4 bandwidth 110mm size m.2 devices over 1 set of PCIE3.0 x8 links, while 2 m.2 devices may build a RAID0 or RAID1 array through computing unit 2.

The calculation unit 3 is connected with PCIE Slot5 through 1 group of links of PCIE 3.0x24 (x16+x8), and 1 Riser can be matched on Slot5 to support 1 x16 and 1 x8 PCIE standard card devices; computing unit 3 supports 2 x4 bandwidth 110mm size m.2 devices over 1 set of PCIE3.0 x8 links, while 2 m.2 devices may build a RAID0 or RAID1 array through computing unit 3; the computing unit 3 is further connected with an OCUlink connector through 2 groups of links of PCIE 3.0x8, and can be connected to a storage unit on the storage module as an extension of PCIE application to support storage media based on PCIE buses.

Each computing unit is also connected to 12 DIMM slots, which can support 3072GB of data storage capacity.

While the foregoing description of the embodiments of the present invention has been presented in conjunction with the drawings, it should be understood that it is not intended to limit the scope of the invention, but rather, it is intended to cover all modifications or variations within the scope of the invention as defined by the claims of the present invention.

Claims (1)

1. A novel architecture four-way server is characterized in that,

comprises a calculation module, a storage module, a power module and a fan module;

the computing module comprises 4 computing units, is used for processing core data and key instructions in the system, and provides high-performance overall computing capacity; 2 PCIE 3.0x16 and 3 PCIE 3.0x24 are provided on the computing module, wherein the slot position of x24 can support a Riser expansion board, 1 PCIE 3.0x16 and 1 PCIE 3.0x8 physical slot position can be supported, the system can support 8 PCIE devices at maximum, all PCIE devices are arranged at the front part of the system, all device service ports are arranged at the front part, and a power supply port is arranged at the rear part, so that unified management of the devices is facilitated;

the storage module is used for storing data and data in the system, supporting RAID array technology and providing data-oriented read-write performance improvement and data safety redundancy strategy;

the storage module consists of 4 sub-storage units;

the power supply module and the fan module are arranged at the rear part of the system, the power supply of all the equipment is uniformly concentrated at the rear part of the cabinet, and the power supply is distributed to all the equipment by a Power Distribution Unit (PDU);

the sub storage unit may be one of a 3.5″ hard disk medium, NMVe or U.2 storage medium;

the storage medium is based on a PCIE3.0 bus.