JPH0744479A - Processor - Google Patents

Abstract

PURPOSE:To provide a processor having a same function as a multiple address transmission having a transmittal confirmation function by eliminating a defect that loads of a processor of a sender source in individual transmission are concentrated in a bus type communication system where plural processors are bus-connected. CONSTITUTION:Each of plural processors in bus connection is provided with a processor number section 10, a processor availability list 30, a circulation transmission function section 40, and a reception processing section 50. Same data are given/received sequentially till a processor number of a transmission destination and that of a sender source are coincident by adding a sender processor number 21 and a circulation transmission request flag 22 to the transmission reception data 20 and the circulation function is provided to realize the similar effect to a multiple address transmission having the transmittal confirmation function.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plurality of processors, and more particularly, to a broadcast transmission in which an arbitrary processor transmits the same data to a plurality of processors in a data transmission system for transmitting data by bus connection.

[0002]

2. Description of the Related Art Generally, when the same data is transmitted to a plurality of processors, it is transmitted by using a broadcast transmission function, but since the transmission confirmation is not performed in the broadcast transmission, the data cannot be received due to a reception buffer busy or the like. Even if there was a processor, it could not be detected.

Therefore, in the case of transmitting data which is difficult to miss the reception to a plurality of processors, individual transmission with delivery confirmation is performed from one processor to all the processors.

[0004]

As described above, in the method of performing individual transmission with delivery confirmation from one processor to all the processors, the load is concentrated on the one processor, and the processor and the bus are not processed. Has the drawback that it cannot be used effectively.

It is an object of the present invention to provide a processor which eliminates the drawback that the load is concentrated on the originating processor and which can effectively utilize the bus connection.

[0006]

The processor of the present invention comprises:
A processor in a data communication system in which a plurality of processors, each of which is provided with an identification number in advance, are connected to a common bus and perform data communication with each other, and a table showing an available state of each of the plurality of processors, and a transmission A means for receiving the data to which the original identification number and the destination identification number are added to determine whether the source identification number and the own identification number match, and in the case of disagreement by this determination, refer to the table. , When its own identification number is the maximum, it sends the data to the available processor with the smallest identification number, and when it is not the maximum, it refers to the table and sends the data to the nearest processor in ascending order among the available processors. It is characterized by having a means for transmitting and a means for terminating the data transmission when the judgment means agrees.

[0007]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram of a bus-connected processor of the present invention. A plurality of processors 1 to n are buses 60
Connected by. It is assumed that all the processors 1 to n have the same configuration, and the processor number portion 10 is assigned with the processor numbers # 1 to #n for identification.

Each processor has a processor availability table 30 showing the availability of all processors.
Further, it has a circulation transmission function unit 40 and a data reception processing unit 50.

The data 20 flowing between the processors has a sender setting area 21 for setting the processor number of the sender.
And a circulation request flag 22 for setting data indicating a circulation transmission request.

The operation will be described below. The transmission source processor sets the transmission source processor number in the transmission source setting area 21 of the transmission data 20, and the circulation transmission request flag 22 is set with a flag indicating that this data 20 is the circulation transmission request data. It

The circulation transmission function unit 40 refers to the processor availability table 30, and when its own processor number is the maximum, it can be used to the processor with the smallest processor number among the available processors, and if it is not the maximum, it can be used. Among the various processors, the data is transmitted to the closest numbered processor in ascending order, and the receiving processor receives the data at the reception processing unit 50.

FIG. 2 is a flow chart showing the operation of the processor on the data receiving side. The operation will be described below with reference to FIG. The processor 1, which has received the data 20, checks the circulation transmission request flag 22 and determines whether the data is the circulation transmission request data (step 100). If it is not a circulation transmission request, the process is terminated as it is, and if it is a circulation transmission request, the processor number of the transmission source setting area 21 is compared with its own processor number (step 101).

If the comparison results match, the process is terminated, and if they do not match, the processor availability table 30 is referred to (step 102). If the self processor has the maximum processor number (step 103), it is available. Data to the processor having the smallest minimum processor number (step 104), and if not the maximum, the data is transmitted to the closest available processor in the ascending order (step 10).
5). Then, after the reception processing unit 50 receives the data (step 106), the data is transmitted to the next destination (step 107).

Now, it is assumed that only the processor number # 5 cannot be used and the processor number # 2 transmits the circulation. The circulation transmission function 40 of the processor 2 sets its own processor number # 2 as a transmission source processor in the transmission source setting area 21, and also sets the circulation request flag 22.
The processor having the closest processor number # 3 in ascending order is selected as the destination processor and the data is transmitted. In this case, the data 20 has a destination setting area, and the destination number is set in this area.

The circulation transmission function 40 of the processor 3 identifies the circulation transmission request by looking at the circulation transmission request flag 22. Also, since it is not the transmission source processor by looking at the transmission source setting area 21, the processor availability table 30 is displayed. refer.

Next, the processor with the processor number # 4 to be transmitted is selected, and after receiving the data, the received data is transmitted as it is to the processor with the processor number # 4. Circulation transmission function 40 of the processor of processor number # 4
Similarly, the processor availability table 30 is similarly referred to, and the processor to which data is to be transmitted next is selected. However, the processor with the closest processor number # 5 in the ascending order is in an unusable state, and therefore the processor number # 6 is used. Select the processor and perform similar data transmission / reception.

In this manner, the circulation transmission is sequentially performed to the processor of the processor number #n, and the circulation transmission function 40 of the processor of the processor number #n selects the processor to which the data is transmitted next, but the availability table 30 is displayed. When it is referred to, since it is the highest processor number, the data is transmitted to the processor 1 having the lowest processor number (# 1) in the usable state.

Similarly to other processors, the circulation transmission function 40 of the processor with the processor number # 1 selects the processor with the processor number # 2 as the destination processor,
Send data. The circulation transmission function 40 of the processor number # 2, since the transmission source processor number of the transmission source setting area 21 of the received data 20 matches with its own processor number # 2, the data goes round and the circulation transmission is stopped.

[0020]

According to the present invention, since the same data is sequentially passed by each processor, the data is surely transmitted without concentrating the load on one processor as a transmission source.
The effect is that the bus can be used efficiently.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a bus-connected processor of the present invention.

FIG. 2 is a flowchart showing an operation of a data receiving side processor.

[Explanation of symbols]

 1 to n processor 10 processor number section 20 data 21 sender setting area 22 circulation transmission request flag 30 processor availability status 40 circulation transmission function section 50 reception processing section 60 bus

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[Procedure amendment]

[Submission date] January 10, 1994

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be amended] Claims

[Correction method] Change

[Correction content]

[Claims]

[Procedure Amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0006

[Correction method] Change

[Correction content]

[0006]

The processor of the present invention comprises:
Multiple processors, each with an identification number assigned in advance,
Data communication that is connected to a communication bus and performs data communication between
Is a processor in the communication system and the sender identification number is
Receive the assigned data and identify the sender identification number and self
Of the identification number of the
Transfers the data to the nearest processor when the results do not match
And a control means for ending the data transfer when they do not match.
It is characterized by including. Still another processor of the present invention
Is a processor in a data communication system in which a plurality of processors, to which identification numbers are respectively assigned in advance, are connected to a common bus and perform data communication with each other, and a table showing a usable state of each of the plurality of processors. A means for receiving data to which a source identification number and a destination identification number are added and determining whether the source identification number and its own identification number match, and if the determination results in no match, refer to the table Then, when the own identification number is the maximum, the data is transmitted to the available processor with the minimum identification number,
When it is not the maximum, the table is referred to, the means for transmitting the data to the nearest processor in ascending order among the usable processors, and the means for terminating the data transmission when the determination means match, are provided. To do.

[Procedure 3]

[Document name to be amended] Statement

[Name of item to be corrected] 0015

[Correction method] Change

[Correction content]

Now, it is assumed that the processor number # 2 performs circulation transmission with only the processor number # 5 being unusable . The circulation transmission function 40 of the processor 2 sets its own processor number # 2 in the transmission source setting area 21 as the transmission source processor, sets the circulation request flag 22 and the closest processor number # in ascending order as the transmission destination processor.
Select 3 processors to send data. in this case,
The data 20 has a destination setting area, and a destination number is set in this area.

Claims (1)

[Claims] 1. A processor in a data communication system in which a plurality of processors, each of which is provided with an identification number in advance, are connected to a common bus, and data communication is performed between the processors. A table shown, a means for receiving data to which a source identification number and a destination identification number are added and determining whether the source identification number and its own identification number match; Referring to the table, when the own identification number is the maximum, the data is transmitted to the available processor having the minimum identification number, and when it is not the maximum, the table is referred to, and the most recent available processor in the ascending order. A processor comprising means for transmitting the data to the processor and means for terminating the data transmission when the determination means matches.