JPS63178367A - Distributed processing system - Google Patents

Abstract

PURPOSE:To shorten the holding time of a processing node in each processing unit by circulating node transition information and information relating to processing contents in each node as control information, and when each node ends the processing of the node itself specified in the control information, sending the control information to the succeeding node. CONSTITUTION:A service receiving node SN interprets a processing request outputted from a terminal T, determines the sort of a node to execute the processing of sequential data or address information and the processing content in each node and controls control information in the order of node transition. After completing the processing based upon the control information in the self-node, each node determines the sort of the node to be transferred to the next node or address information in accordance with the node transition order in the control information, transfers the control information to the next node together with data and executes the processing while using the function of each node in a dispersion processing system for executing dispersion processing. Since the control of processing is dispersed to respective processing nodes, the number of times transferring control signals between respective nodes can be reduced, the signal sending in a coupling mechanism can be reduced and the holding time of a specific node up to the end of the processing can be shortened.

Description

DETAILED DESCRIPTION OF THE INVENTION (1) Field of the Invention The present invention relates to a plurality of processing nodes having a single function and a connection having a data transfer function using a coaxial cable, optical fiber, etc. that connects these nodes. The present invention relates to a distributed processing method for realizing desirable data communication processing services in a distributed processing system that is loosely coupled to each other by mechanisms.

(2) Conventional technology Figure 4 is a diagram showing an example of the configuration of a distributed processing system using a conventional method, where CN is a control node, TN is a terminal procedure terminal node, DN is a data storage node, and FN is a data format conversion node. , B represents a coupling mechanism that connects processing nodes, L represents a communication line, and T represents a terminal.

FIG. 5 is a diagram showing an example of a sequence in which data is transferred between processing nodes when a processing request from terminal T is processed by a distributed processing system using a conventional method. It shows the operation of interpreting and processing using the functions of each node in the distributed processing system. The sequence example shown here is a sequence for once storing data received from terminal T within the distributed processing system, converting the data format, and then transmitting the converted data to terminal T again. Here is an example of the process.

After receiving the processing request signal from the terminal T, the terminal procedure terminal node TN sends a processing request acceptance signal to the control node CN and reports the processing request from the terminal T. The control node CN that receives the processing request acceptance signal decodes the contents of the processing request signal from the terminal procedure terminal node TN, stores the contents of the processing request from the terminal T in management information, and also stores various resources necessary for processing. After securing this, it sends an acceptance notification signal to the terminal procedure termination node TN. The terminal procedure terminal node TN, which has received the acceptance re-report signal from the control node CN, sends an acceptability signal to the terminal T. The terminal T that has received the acceptability signal sends a data transfer request signal to the terminal procedure terminal node TN. Terminal procedure When the terminal node TN receives a data transfer request signal from the terminal T, it transfers the data transfer request signal from the terminal T to the control node CN.
A data transfer request acceptance report signal is sent to. In order to store the transferred data, the control node CN that received the data transfer request acceptance report signal first sends a data storage request signal including stored data search information to the data storage node DN, and the data storage node DN stores the data. If storage is possible, a data storage re-report signal is sent to the control node CN. The control node CN that has received the data accumulation re-report signal sends a data transfer possible report signal to the terminal procedure termination node TN. When the terminal procedure terminal node TN receives the data transfer permission report signal, it sends a data transfer permission signal to the terminal T requesting data transmission. The terminal T that has received the data transfer enable signal transfers the data to be transmitted to the terminal procedure terminal node TH. The control node CN sends a data transfer request signal to the terminal procedure terminal node TN independently of the data reception operation from the terminal T.

The data transfer request signal also includes address information of the data transfer destination node address, that is, the data storage node DN. The terminal procedure terminal node TN transfers the transfer data from the terminal T to the data storage node DN according to the transfer destination address information. When data storage node DN completes data transfer from terminal procedure termination node TN, it sends a data transfer completion signal to terminal procedure termination node TH.

When the terminal procedure terminal node TN receives the data transfer completion signal, it sends a data transfer completion report signal to the control node CN. When the terminal T completes sending the data to be processed, it sends a processing end request signal to the terminal procedure terminal node TN. When the terminal procedure terminal node TN receives the processing end request signal from the terminal T, it sends a processing end request acceptance signal to the control node CN, and notifies the terminal operator of the end of the processing request. At the control node CN,
A termination re-request signal is sent to the terminal procedure termination node TN.

At the terminal procedure terminal node TN, the reception process from the terminal T is completed by a series of reception operation sequences from zero or more terminals T, which transmit a termination permission signal to the terminal T.

The control node CN converts the data received from the terminal into a data format in accordance with the processing request from the terminal T in the management information, and then performs a process of transmitting the data to the terminal T again. First, in the control node CN, for the data format conversion node FN,
Sends a data format conversion request signal. The data format conversion node FN that has received the data format conversion request signal secures resources necessary for data format conversion processing and sends a data format conversion re-report signal to the control node CN.

When the control node CN receives the data format changeable report signal from the data format conversion node FN, it sends a data transfer request signal to the data storage node DN. The data transfer request signal includes the transfer destination node address, in this case the address of the data format conversion node FN, and stored data search information. At the data storage node DN,
Upon receiving the data transfer request signal, it starts data transfer to the data format conversion node FN. When the data transfer is completed, the data format conversion node FN sends a data transfer completion signal to the data storage node DN. Subsequently, the data storage node DN sends a data transfer completion report to the control node CN. Data format conversion node F
When the data format conversion process is completed, N sends a data format conversion completion report signal to the control node CN. When the control node CN receives the data format conversion completion report signal from the data format conversion node FN, it transmits the data to the terminal T by transmitting the terminal procedure to the terminal node TN.
A terminal transmission request signal is sent to the terminal. Control node C
The terminal procedure terminal node TN, which has received the terminal transmission request signal from N, transmits a processing request signal to the terminal T, and if the terminal T can receive it, it sends an acceptability signal to the terminal procedure terminal node TN. Send. At the terminal procedure terminal node TN that has received the acceptability signal from the terminal T, the control node C
A terminal transmitting/receiving signal is sent to N. The control node CN, which has received the terminal transmission enable signal from the terminal procedure termination node TN, sends a data transfer request signal to the data format conversion node FN to transfer the data to the terminal procedure termination node TH. When the data format conversion node FN receives the data transfer request signal, it starts data transfer to the terminal procedure terminal node TN designated as the data transfer destination. When the terminal procedure terminal node TN completes data reception, it sends a data transfer completion signal to the data format conversion node FN.

Data format conversion node FN that received the data transfer completion signal
sends a data transfer completion report signal to the control node CN. Subsequently, the control node CN sends a data transmission request signal to the terminal procedure terminal node TN to request the terminal T to transmit data. At the terminal procedure terminal node TN that received the data transmission request signal from the control node CN,
A data transfer request signal is transmitted to terminal T. Terminal T
When the reception preparation is completed, the terminal transmits a data transfer enable signal to the terminal procedure terminal node TN. The terminal procedure terminal node TN that has received the data transfer enable signal starts data transfer to the terminal T. When all the data to be transmitted to the terminal T has been transferred, the terminal procedure terminal node TN sends a data transmission completion report signal to the control node CN. When the control node CN completes all processing requests from the terminal T, it sends a terminal processing termination request signal to the terminal procedure terminal node TH. The terminal procedure terminal node TN transmits a processing termination request signal to the terminal T in response to the terminal processing termination request signal from the control node CN. Terminal T
When receiving the process termination request signal, it transmits a termination permission signal to the terminal procedure termination node TN. Terminal procedure The terminal node TN receives a termination permission signal from the terminal T, and transmits a termination re-report signal to the control node CN.The distributed processing system processes the processing request from the terminal T by a series of zero or more sequences. end.

In this way, the processing request from the terminal T is processed by the control node CN.
In the conventional method, in which control signals between nodes always pass through the control node CN, (i) the signal transfer amount of the coupling mechanism is reduced. (ii) Since the control node CN is always involved in the processing of other nodes until the processing is completed,
It has the drawbacks that the holding time of the control node CN is long and the amount of processing is large.

(3) Purpose of the Invention The present invention provides that, when performing a series of processes in a distributed processing system, the number of transfers of control signals between nodes is large, the amount of signal transfer by coupling mechanisms is large, and the hold time of control nodes until processing is completed is The purpose of this is to provide a distributed processing method that solves the problem of long processing times.

(4) Structure of the invention (4-1) Differences between the characteristics of the invention and the conventional technology The present invention has the following features:
When receiving data from a sending terminal, the type or address information of the node that should sequentially process the data and the processing content at each node are determined, and the node transition order is managed using management information. When the processing based on the management information is completed, the type or address information of the next node to be transferred is determined according to the node transition order in the management information, and the most efficient method is to transfer the management information along with the data to the node and perform distributed processing. Main characteristics. What is conventional technology? When performing a series of processing in a distributed processing system, processing control is distributed to each processing node without being concentrated on a specific control node, the number of transfers of control signals between nodes is small, and a coupling mechanism is used. The difference is that the amount of signal transfer is small and the holding time of a specific node is not long until processing is completed.

(4-2) Embodiment FIG. 1 is an embodiment showing the configuration of a distributed processing system according to the present invention, where SN is a service reception node, TN is a terminal procedure terminal node, DN is a data storage node, and FN is a data storage node. B represents a format conversion node, B represents a coupling mechanism that connects processing nodes, L represents a communication line, and T represents a terminal.

FIG. 2 is a diagram showing the configuration of a processing node of a distributed processing system according to the present invention, in which 21 is a transceiver for interfacing with a coupling mechanism, 22 is a processing device for controlling devices within the node, and 23 is a transceiver. 31 is a communication line for connection with a terminal; 25 is a terminal procedure termination for terminating a transmission procedure with a terminal connected by communication line 31; Device,
26 is a data management information storage device that stores management information of data being processed within the node; 27 is a data storage device that stores data; 28 is a conversion processing device that converts the data format; 24 is the processing device 22 and the 25 mentioned above; The data channels 29 and 30 for transferring data between each device of ~28 are data receive lines and data transmit lines (g-lines) that are part of the respective coupling mechanisms.

Each processing node has a common device for transmitting and receiving [21,
It is composed of a processing device f22 and a data management information storage device 26. In addition, as a device unique to each processing node,
A terminal procedure termination device 25 is added to the terminal procedure termination node TN, a data storage device 27 is added to the data storage node DH, and a conversion processing device 2 is added to the data format conversion node FN.

FIG. 3 is a diagram showing a sequence of data transfer between processing nodes configuring a distributed processing system that implements the operation of the present invention.

The service reception node SN interprets the processing request from the terminal T, sequentially determines the type or address information of the node that should process the data, and the processing content at each node,
The node transition order is managed using management information, and when each node finishes processing based on the management information at its own node, it determines the type or address information of the next node to be transferred according to the node transition order in the management information. , which shows the operation of transferring management information along with data to the node and processing it while using the functions of each node in a distributed processing system that performs distributed processing. In the sequence example shown here, data received from terminal T is stored once within the distributed processing system, the data format is converted, and then the data after data format conversion is sent to terminal T again. Illustrate the process.

After receiving the processing request signal from the terminal T, the terminal procedure terminal node TN transmits a processing request acceptance signal to the service reception node SH to notify the processing request from the terminal T. In the service reception node SN that received the processing request reception signal,
Terminal procedure P: Decode the contents of the processing request signal from the end node TN, determine the processing node transition information in the distributed processing system and the processing contents of each processing node based on the contents of the processing request from the terminal T, and create management information. . Service reception node SN
sends the created management information to the terminal procedure terminal node TN as a management information sending signal. The terminal procedure terminal node TN that received the management information sending signal from the service reception node SN,
Sends an acceptability signal to terminal T. The terminal T that received the acceptability signal sends the data transfer request signal to the terminal procedure terminal node T.
Send to N. Terminal procedure When the terminal node TN receives a data transfer request signal from the terminal T, it sends a data storage request signal including stored data search information to the data storage node DN, and if the data storage node DN can store data, A data storage availability notification signal is sent to the terminal procedure terminal node TN.

Terminal procedure terminal node T that received the data accumulation re-report signal
N sends a data transfer enable signal to terminal T requesting data transmission. Terminal T that received the data transfer enable signal
forwards the data to be transmitted to the terminal procedure termination node TH. The terminal procedure terminal node TN transfers the transfer data from the terminal T to the data storage node DN. When data storage node DN completes data transfer from terminal procedure termination node TN, it sends a data transfer completion signal to terminal procedure termination node TN. At the terminal procedure terminal node TN, upon receiving the data transfer completion signal and receiving the processing termination request signal from the terminal T, a series of reception operation sequences from zero or more terminals T that sends a termination permission signal to the terminal T is performed. The reception process from terminal T ends.

The terminal procedure terminal node TN sends the management information in the form of a management information sending signal to the data format conversion node FN, which is the next node specified in the management information to be processed. The data format conversion node FN that has received the management information sending signal secures resources necessary for data format conversion processing and sends a data transfer request signal to the data storage node DN. The data transfer request signal includes the transfer destination node address, in this case the address of the data format conversion node FN, and stored data search information. Upon receiving the data transfer request signal, the data storage node DN starts transferring data to the data format conversion node FN. When the data transfer is completed, the data format conversion node FN sends a data transfer completion signal to the data storage node DN. When the data format conversion process is completed, the data format conversion node FN sends the management information as a management information sending signal to the terminal procedure terminal node TN, which is the next node specified in the management information to be processed. .

The terminal procedure terminal node TN that has received the management information sending signal from the data format conversion node FN transmits a processing request signal to the terminal T, and if the terminal T can receive it, the terminal procedure terminal node TN Sends a ready signal.

The terminal procedure termination node TN that has received the acceptability signal from the terminal T sends a data transfer request signal to the data format conversion node FN to request data transfer to the terminal procedure termination node TN. When the data format conversion node FN receives the data transfer request signal, it starts data transfer to the terminal procedure termination node TH designated as the data transfer destination. When the terminal procedure terminal node TN completes data reception, it sends a data transfer completion signal to the data format conversion node FN, and also sends a data transfer request signal to the terminal T. When the terminal T completes reception preparations, it transmits a data transfer enable signal to the terminal procedure termination node TN. The terminal procedure terminal node TN that has received the data transfer enable signal starts data transfer to the terminal T. When the transfer of all data to be sent to terminal T is completed, a processing end request signal is sent to terminal T. When the terminal T receives the process termination request signal, it transmits a termination possible signal to the terminal procedure termination node TN. The above sequence completes the processing of the distributed processing system in response to the processing request from terminal T.

(5) As described in the detailed explanation of the invention, when performing a series of processes in a distributed processing system, node transition is the type or address information of the nodes that should sequentially process data so as not to concentrate on the data processing control node. Information and information regarding the processing content at each node are passed around as management information, and each node can send the management information to the next node and complete the processing when the processing at its own node specified in the management information is completed. There is an advantage that the holding time of a processing node for each processing unit can be shortened.

In addition, since the control related to processing can be controlled by the own device, the number of times control signals are exchanged with other nodes can be reduced, the amount of signal transfer by the coupling mechanism is reduced, and the load on the control device for signal transmission can be reduced. There is.

[Brief explanation of the drawing]

FIG. 1 is an embodiment showing the configuration of a distributed processing system that implements the present invention, FIG. 2 is a diagram showing the configuration of a processing node of the distributed processing system according to the present invention, and FIG. 3 is a diagram that implements the operation of the present invention. A diagram showing a sequence of data transfer between processing nodes configuring a distributed processing system. FIG. 4 is a diagram showing an example of the configuration of a distributed processing system using a conventional method. FIG. 5 is a diagram showing a sequence of data transfer between processing nodes that constitute a distributed processing system. FIG. 2 is a diagram illustrating an example of a sequence of data transfer between processing nodes when processing is performed in a distributed processing system. In the figure, SN represents a service reception node, TN represents a terminal procedure terminal node, DN represents a data storage node, FN represents a data format conversion node, and T represents a terminal. '711 m fu 3 m 'Fi4 [fi

Claims (1)

[Claims] A processing service that has a connection function with a communication line, receives data from a terminal, stores the data, converts the data format according to the procedure attributes of the terminal, and sends it to the terminal. In a distributed processing method in which distributed processing is performed by multiple processing nodes with a single function, which are connected to each other by a coupling mechanism with a data transfer function, when one of the processing nodes receives data from a sending terminal, Determine the node type or address information that specifies the node transition order in which sequential data should be processed, and the processing content at each node, create management information that can extract them as management information in the node transition order, and A service reception node that transfers management information along with data is installed at the first node, and when each processing node finishes processing based on the management information at its own node, it transfers data to the next node according to the node transition order in the management information. A distributed processing method characterized by determining the type or address information of a node, and transferring management information together with data to the node for distributed processing.