KR20110083184A - Mountable, small and self processing qos device - Google Patents

Abstract

PURPOSE: A device for controlling of quality of miniature embedded communication service with an independent processor is provided to additionally supply a QoS function to a device. CONSTITUTION: Policy applying object and an exclusion object are distinguished based on predefined policy targeting a packet inputted through marking process(52). Packet per predefined policy is distinguished in a classification process(53). Packet is transmitted by a buffer which acts as an buffer according to predefined bandwidth allocation in a transmitting process(54). An allocated amount according to a control policy is allocated by each data kind in a buffer process(55).

Description

Small, built-in communication quality of service control device with independent processor {Mountable, Small and Self Processing QoS Device}

The present invention relates to a small device that can be attached to an existing server, terminal, communication equipment to additionally provide a QoS function to the equipment.

In general, a data communication network such as an IP (Internet Protocol) network is configured such that a plurality of devices can transmit and receive various data through wired or wireless lines, and at this time, a part or the whole of the line is configured to share data with each device. . In such a shared circuit, there is a case where a QoS (Communication Service Quality Control) function is configured to selectively control transmission priority and transmission amount for a specific device, a device group, or data. In this case, the QoS function can be configured by installing an additional data relay device that provides the QoS function on the intermediate path of the circuit, or by adding software that provides the QoS function to the server or terminal generating the data. Doing.

As described above, the conventional QoS configuration is cumbersome to add a separate data relay equipment to the existing communication network. In addition, the method of installing the QoS function software in the server or the terminal also causes a problem that the quality of the service provided is deteriorated as the load of the packet marking, classification, delivery, and buffering function processing tasks is added to the server or the terminal.

Accordingly, an aspect of the present invention is to provide a compact device having an independent processor, a memory, and an input / output interface that may be additionally installed in an existing equipment and process a QoS function.

In order to achieve the above, the present invention consists of a small electronic circuit device that can be mounted on an existing server, terminal, communication equipment, the device is to improve the performance and capacity expansion of the existing equipment in order to minimize the mechanical change of the existing equipment It is configured to be mounted in a standard interface or slot provided for the purpose. The apparatus may be configured to have a processor, a memory, and an input / output interface capable of performing a QoS function by itself.

The present invention provides an advantage of reducing a QoS function configuration cost by providing a QoS function to a communication network and a data transmission / reception service by adding only a device to an existing device without configuring a separate QoS device.

The present invention provides an advantage of minimizing or eliminating data processing delays caused by additionally installing and operating QoS software in an existing server or terminal by providing a QoS function through an independent processor and memory.

1 is a configuration diagram providing a QoS function by mounting a small built-in QoS device according to the present invention to existing equipment.
2 is a flowchart of communication data processing in a small embedded QoS apparatus according to the present invention;

The present invention will now be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the embedded QoS device 21 is configured to be mounted in an expansion slot 13 or a free space provided by the existing equipment 1.

Existing equipment can be servers, desktop PCs, laptops, communication equipment, and industrial computing equipment with existing processors, memory, storage, and interfaces.

Built-in QoS device 21 is PCI Express, PCI, ISA, USB, VMEBus, CompactPCI, AdvancedMC, AdvancedTCA, VPX, etc. provided by general server, desktop PC, notebook, communication equipment, and industrial computing equipment for easy installation on existing equipment. It can be manufactured in a form that can be mounted on the same standard interface.

Before the embedded QoS device 21 is mounted, the existing device 11 is in communication with another device or the network 31 via the line 34 through its interface 12.

When the embedded QoS device 21 is mounted, the data transmitted from the existing equipment 11 passes through its own interface 12 and communication line 32 through the interface 23 of the embedded QoS device 21. Through the process of marking, classifying, forwarding, and buffering the traffic through the processor and the memory of 21), the data is transmitted to other equipment or the network 31 through the interface 22 of the embedded QoS device 21. Data received from existing equipment is transmitted in the reverse direction of the flow of transmitted data.

When the embedded QoS device 21 is mounted, another method of communication data processing is that data transmitted from the existing device 11 is transferred to the embedded QoS device 21 through the internal input / output 14 of the existing device, and the embedded QoS. Traffic marking, sorting, forwarding, and buffering are performed through the processor and memory of the device 21, and then through the circuit 23 through the internal interface 12 of the existing device through the internal input / output 14 of the existing device. Or transmitted over the network. The received data is processed in the reverse direction of the transmitted data.

The algorithm of the processed communication data processing processed in the embedded QoS apparatus is shown in FIG. Prior to input to the embedded QoS device, the packet transmit / receive amount 51 in the communication line is transmitted without the transmit / receive band being controlled. The embedded QoS device distinguishes between the policy application target and the exclusion target based on pre-defined policies based on the packet input through the marking process 52 for the input data. In the classification process 53, packets are classified according to predefined policy types. In the forwarding process 54, packets are delivered to buffers that serve as buffers according to predefined bandwidth allocation. In the buffering process 55, an amount allocated to each data type is allocated according to the control policy. The packet transmit / receive amount 56 output from the embedded QoS device is in a state where a predetermined bandwidth and priority are allocated for each data type.

11: Existing equipment such as server, desktop PC, laptop, communication equipment, industrial computer equipment
12: own interface of the existing equipment
13: expansion slot or free space provided by existing equipment
14: Internal I / O of existing equipment
21: small embedded QoS device
22: Interface of small embedded QoS device1
23: Interface of small embedded QoS device 2
31: other equipment or network
32, 33, 34: communication line
51: Packet transmission / reception amount in a communication line before being input into the small internal QoS device
52: Marking Process
53: classification process
54: delivery process
55: buffering process
56: Packet transmission / reception amount in communication line outputted to small built-in QoS device

Claims (4)

In the method of adding a Quality of Service (QoS) function to an existing network,
It provides a QoS function by installing a small device that provides QoS function with its own processor and memory in a free slot or space in a server, desktop PC, notebook, communication equipment, industrial computing equipment that transmits and receives data. A method of adding a QoS feature characterized by a method of installing a QoS device. In the small built-in QoS device of claim 1,
The device supports standard interfaces such as PCI Express, PCI, ISA, USB, PCMCIA, VMEBus, CompactPCI, AdvancedMC, AdvancedTCA and VPX for mounting in slots provided by existing servers, desktop PCs, notebooks, communications equipment and industrial computing equipment. Having system. In the small built-in QoS device of claim 1,
The device utilizes the processor, memory and interface in a small device without providing the processor and memory of the existing equipment in providing QoS functionality. In the small built-in QoS device of claim 1,
A device is a system that includes a program that performs packet marking, classification, forwarding, and buffering algorithms to provide a QoS function, and a program that monitors this performance and controls QoS policies.

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