CN106301965A - A kind of network architecture calculating node server more - Google Patents

Abstract

The present invention be more particularly directed to a kind of network architecture calculating node server more.The network architecture of this many calculating node server, concentrates network exchange module including 2, and plate in multiple calculation server nodes and 1 network interconnection, described concentration network exchange module and calculation server node are all connected to plate in the network interconnection；In the described network interconnection, plate uses the passive design of high reliability, concentrates network exchange module and each calculation server node to provide network interconnection passage for 2；2 Port mouths of each calculation server node are connected respectively to 2 and concentrate network exchange module.The network architecture of this many calculating node server, provides a kind of novel network mode for data center, not only achieves the saving to Internet resources, also support network redundancy function, improve the stability of network, can be widely applied to calculate in node server more, suitable popularization and application.

Description

A Network Architecture of Multiple Computing Node Servers

technical field

The invention relates to the technical field of computer communication, in particular to a network framework of multi-computing node servers.

Background technique

With the advent of the era of big data computing, customers' business applications are becoming more and more extensive and diverse, followed by the expansion of the data center scale and the doubling of the number of servers. The low-power design of high-density servers can save a lot of energy and reduce energy consumption. It occupies a small space, and the high-density computing method effectively saves space, which undoubtedly saves a lot of space costs for enterprises with tight computer room space or server hosting. High-density servers use centralized network modules, which can simplify server management and reduce maintenance costs.

The network architecture design of high-density servers and the concept of centralized network switching modules are conducive to reducing the reduction of network equipment in the data center. The secondary switching network equipment is sent to the server system, using less network resources, and adding management nodes to realize the network. interconnected.

Based on this, the present invention proposes a network architecture of multi-computing node servers. It aims to provide a new type of network mode for the data center, so that it can be used in a wide range of multi-computing node servers to save network resources; it also supports network redundancy and improves network stability.

Contents of the invention

In order to make up for the defects of the prior art, the present invention provides a simple and efficient network framework of multi-computing node servers.

The present invention is achieved through the following technical solutions:

A network framework for multi-computing node servers, characterized in that it includes 2 centralized network switching modules, a plurality of computing server nodes and 1 network interconnection mid-board, and the network interconnection mid-board adopts a high-reliability passive design, Provide network interconnection channels for the two centralized network switching modules and each computing server node; each computing server node is connected to the centralized network switching module through the network interconnection midplane;

The centralized network switching module internally provides 8 gigabit interfaces for network interconnection, externally provides 10G SFP+ uplink interfaces, and is externally provided with a debugging port for debugging of network abnormal states;

Each computing server node is connected to 2 centralized network switching modules through 2 Port ports, so as to ensure that each computing server node has network communication to 2 centralized network switching modules, so as to realize the function of increasing bandwidth and network link redundancy.

The network interconnection middle board provides 10G internal links for the two centralized network switching modules, and is used for network communication of the two centralized network switching modules in the stacking function mode;

When the centralized network switching module is set to the stacking mode, the two ports on each computing server node can be connected to the upper layer switching network environment through the two centralized network switching modules.

The centralized network switching module adopts the network switching chip BCM56150, which has the function of a mature two-layer network switch, and has Gigabit and 10 Gigabit interfaces at the same time, and the function configuration of the switch can be performed through the switch management web interface.

Each computing server node has an independent network controller, and the computing server node adopts an IntelI350AM2 network chip and has two gigabit interfaces.

The beneficial effects of the present invention are: the network architecture of the multi-computing node server provides a new type of network mode for the data center, which not only realizes the saving of network resources, but also supports the network redundancy function and improves the stability of the network , can be widely used in multi-computing node servers, and is suitable for popularization and application.

Description of drawings

Accompanying drawing 1 is the schematic diagram of the network structure of multi-computing node server of the present invention.

detailed description

In order to make the technical problems, technical solutions and beneficial effects to be solved by the present invention clearer, the present invention will be described in detail below in conjunction with the accompanying drawings and embodiments. It should be noted that the specific embodiments described here are only used to explain the present invention, not to limit the present invention.

The network architecture of the multi-computing node server includes 2 centralized network switching modules, multiple computing server nodes and 1 network interconnection mid-plane. The switching module and each computing server node provide a network interconnection channel; each computing server node is connected to the centralized network switching module through the network interconnection midplane;

The centralized network switching module internally provides 8 gigabit interfaces for network interconnection, externally provides 10G SFP+ uplink interfaces, and is externally provided with a debugging port for debugging of network abnormal states;

Each computing server node is connected to 2 centralized network switching modules through 2 Port ports, so as to ensure that each computing server node has network communication to 2 centralized network switching modules, so as to realize the function of increasing bandwidth and network link redundancy.

The network interconnection middle board provides 10G internal links for the two centralized network switching modules, and is used for network communication of the two centralized network switching modules in the stacking function mode;

When the centralized network switching module is set to the stacking mode, the two ports on each computing server node can be connected to the upper layer switching network environment through the two centralized network switching modules.

The centralized network switching module adopts the network switching chip BCM56150, which has the function of a mature two-layer network switch, and has Gigabit and 10 Gigabit interfaces at the same time, and the function configuration of the switch can be performed through the switch management web interface.

Each computing server node has an independent network controller, and the computing server node uses an IntelI350AM2 network chip to connect to the centralized network switching module through the network interconnection board, and the two ports are all gigabit interfaces.

Taking 8 computing server nodes as an example, Figure 1 is a schematic diagram of the network architecture of multiple computing node servers. The network architecture of the multi-computing node server provides a new network mode for the data center, which not only realizes the saving of network resources, but also supports the network redundancy function, improves the stability of the network, and can be widely used in multi-computing In the node server, it is suitable for popularization and application.

Claims (4)

1. A network framework for multi-computing node servers, characterized in that: it comprises 2 centralized network switching modules, a plurality of computing server nodes and 1 network interconnection board, and the network interconnection board adopts a highly reliable passive Designed to provide network interconnection channels for two centralized network switching modules and each computing server node; each computing server node is connected to the centralized network switching module through the network interconnection midplane; The centralized network switching module internally provides 8 gigabit interfaces for network interconnection, externally provides 10G SFP+ uplink interfaces, and is externally provided with a debugging port for debugging of network abnormal states; Each computing server node is connected to 2 centralized network switching modules through 2 Port ports, so as to ensure that each computing server node has network communication to 2 centralized network switching modules, so as to realize the function of increasing bandwidth and network link redundancy. 2. The network architecture of multi-computing node servers according to claim 1, characterized in that: the network interconnection mid-board provides 10G internal links for two centralized network switching modules, which are used for two centralized networks in the stacking function mode Network communication of the switch module; When the centralized network switching module is set to the stacking mode, the two ports on each computing server node can be connected to the upper layer switching network environment through the two centralized network switching modules. 3. The network framework of multi-computing node server according to claim 1 or 2, characterized in that: the centralized network switching module adopts the network switching chip BCM56150, which has the function of a mature two-layer network switch and has gigabit and 10 Gigabit ports, you can configure the function of the switch through the switch management web interface. 4. according to the network framework of claim 1 or 2 described multi-computing node servers, it is characterized in that: each computing server node all has independent network controller, and described computing server node adopts Intel I350AM2 network chip to be interconnected by network The middle board is connected to the centralized network switching module, and the two ports are Gigabit interfaces.