JPH06326717A - Bus type communication equipment - Google Patents

Abstract

PURPOSE:To efficiently utilize a bus by reducing number of replies being the result of processing with respect to a processing request using multiple address communication. CONSTITUTION:When processing is requested for slave side processing result transmission functions 12-1-12-y, 22-1-22-y,..., x2-1-x2-y of slave processors 1-1-1-y, 2-1-2-y,..., x-1-x-y by multiple address transmission, the processing result is sent to master processors 1-0, 2-0,..., x-0. When processing is requested for master side processing result transmission functions 11, 21,..., x1 of the master processors 1-0, 2-0,..., x-0 in terms of multiple address transmission, they edit the processing result and the processing result received from the slave processors 1-1-1-y, 2-1-2-y,..., x-1-x-y. Then they send the picture results to a request source processor after awaiting a time obtained based on a group number.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bus type communication device,
Particularly in a data transmission device that transmits data by connecting multiple processors to a bus, the response of the processing result to the broadcast transmission when an arbitrary processor requests the processing using the broadcast transmission to the multiple processors The present invention relates to a collision control method.

[0002]

2. Description of the Related Art Conventionally, in this kind of collision control method, waiting of the transmission timing of a response signal for confirmation of delivery in response to broadcast transmission is performed by various methods. That is, in the operation of transmitting the response signal for delivery confirmation, waiting is performed by various methods to avoid collision of the response signal for delivery confirmation on the bus.

On the other hand, when the processor which receives the broadcast transmission performs some processing on the broadcast transmission and returns the processing result, the processing result of the processing requested by the broadcast transmission is returned. The data is sent to the processor of the broadcast transmission source as it is without any waiting.

[0004]

In the conventional collision control method described above, the response signal for confirming the delivery to the broadcast transmission does not collide on the bus, but the processing required for the broadcast transmission is executed. In the case of returning the processing result by the above method, the returning timing of the processing result is almost the same.

For this reason, the response signal of the processing result concentrates on the processor of the broadcast transmission source, the receiving buffer of the processor becomes busy, and the reception signal becomes unreceivable and the response signal of the processing result is received. Disappear. Since the processor that has become unreceivable executes the retransmission of the response signal of the processing result until it is accepted, there is a problem that the bus cannot be used effectively.

Therefore, an object of the present invention is to solve the above-mentioned problems and to reduce the number of processing result responses to a processing request using broadcast transmission to avoid collision of processing result responses on the bus. Another object of the present invention is to provide a bus type communication device which can be used efficiently.

[0007]

A bus type communication apparatus according to the present invention includes a plurality of processor groups each including a preset parent processor and a plurality of child processors belonging to the same group as the parent processor; Means for transmitting to the parent processor the processing result for the processing required by the broadcast transmission, which is provided in each processor; and the processing result from the child processor, which is provided in each of the parent processors, and requested by the broadcast transmission. Means for transmitting the processing result of the own device for the processing to the transmission source of the broadcast transmission.

[0008]

An embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention. In the figure, processors 1-0 to xy
Are connected to each other by a bus 100, and each processor 1-0 to x-y has an independent processor number 1
0-0 to 10-y, 20-0 to 20-y, ..., x0-
0 to x0-y are assigned.

Each of the processors 1-0 to xy is classified into groups 1 to x, and the preset processors 1-0, 2-0, ... Processors 1-1 to 1-y, 2-1 to 2-y,
.., x-1 to xy are child processors.

Child processors 1-1 to 1-y, 2-1 to 2
-Y, ..., X-1 to XY, when processing is requested by the broadcast transmission, the processing result is sent to the parent processors 1-0, 2
-0, ..., X-0, child side processing result transmission function 1
2-1 to 12-y, 22-1 to 22-y, ..., x2-
1 to x2-y.

The parent processors 1-0, 2-0, ...
..., x-0, when processing is requested by the broadcast transmission, the processing result and the child processors 1-1 to 1-y, 2-1 to 2
, Y, ..., X-1 to x-y and the parent side processing result transmission function 11, 21, ..., X1 for editing and transmitting the processing results to the requesting processor.

This parent side processing result transmission function 11, 21, ...
.., x1 is provided with a function of obtaining a waiting time by a group number determined from the processor number and waiting for the waiting time and then transmitting the processing result.

FIG. 2 shows the child side processing result transmission function 12- of FIG.
1-12-y, 22-1-22-y, ..., x2-1
3 is a flowchart showing a processing operation of x2-y, and FIG.
Are parent side processing result transmission functions 11, 21, ..., X1 in FIG.
3 is a flowchart showing the processing operation of FIG. These Figure 1
The operation of the embodiment of the present invention will be described with reference to FIG.

Now, when the processor 1-0 outputs a processing request to each of the processors 1-1 to xy using the broadcast transmission,
The processing corresponding to the processing request is executed in each of the processors 1-1 to xy.

When the processing is completed, the child side processing result transmission functions 12-1 to 12-y of the child processors 1-1 to 1-y determine whether or not the processing is a request by broadcast transmission (step in FIG. 2). 31). Child processing result transmission function 12-1 to 12-
When y determines that it is a request by broadcast transmission, it obtains a parent processor from the processor number of its own processor (step 32 in FIG. 2) and sends the processing result to each parent processor 1-0 (step 33 in FIG. 2).

Similarly, the child processors 2-1 to 2-y, ...
..., child side processing result transmission functions 22-1 to 22-1 of x-1 to x-y
22-y, ..., X2-1 to x2-y are also determined to be requests by the broadcast transmission, the parent processor is obtained from the processor number of the own processor, and the processing result is sent to the parent processor 2-.
0, ..., x-0 are transmitted respectively.

The child processors 1-1 to 1-y, 2-1
~ 2-y, ..., x-1 to x-y child side processing result transmission functions 12-1 to 12-y, 22-1 to 22-y, ..., x
When 2-1 to x2-y determine that the processing is not the request by the broadcast transmission, the processing result is transmitted to the request source processor (step 34 in FIG. 2).

Next, since the parent side processing result transmission function 11 of the parent processor 1-0 is the request source processor, the processing results of the child processors 1-1 to 1-y of the own group are collected and the parent processor of each group is also collected. Wait for the processing result signal from 2-0, ..., X-0.

On the other hand, the parent processors 2-0, ..., X-0
When the processing is completed, each of the parent side processing result transmission functions 21, ..., X1 determines whether or not the processing is a request by broadcast transmission (step 41 in FIG. 3).

When the parent side processing result transmitting function 21, ..., X1 determines that the request is a broadcast transmission, the processing result of the own processor and the child processors 2-1 to 2-y ,.
Edit the processing result received from -y (step 42 in FIG. 3).

After this, the parent side processing result transmission function 21, ...
, X1 calculates the waiting time from the processor number of its own processor (step 43 in FIG. 3), waits for the waiting time (step 44 in FIG. 3), and then edits the edited processing result to the request source processor 1-0. To each (Fig. 3
Step 45).

For example, the parent-side processing result transmission function 21 waits for 2 × n milliseconds from the group number “2” of its own processor and then edits the edited processing result to the requesting processor 1-.
Send to 0. Similarly, the parent-side processing result transmission function x1 waits for x × n milliseconds from the group number “x” of its own processor and then edits the edited processing result.
-Send to 0.

Therefore, the request source processor 1-0 has n
Since the processing result will be sent at millisecond intervals,
If the processing result reception processing is completed within n milliseconds, all the data sent can be received, and the processing results will not be retransmitted from the processor that did not receive the processing results.

When the parent side processing result transmission function 21, ..., X1 of the parent processor 2-0, ..., X-0 determines that the processing is not a request by the broadcast transmission, it requests the processing result. It is sent to the original processor (step 45 in FIG. 3).

In this way, each processor 1-0 to xy
Are respectively classified into groups 1 to x, and the processing results when the processing is requested by the broadcast transmission are the child processors 1-1 to 1-
y, 2-1 to 2-y, ..., X-l to x-y child side processing result transmission function 12-1 to 12-y, 22-1 to 22-
parent processor 1 by y, ..., X2-1 to x2-y
-0, 2-0, ..., X-0, respectively, and the processing result and the child processor 1 when the processing is requested by the broadcast transmission.
-1 to 1-y, 2-1 to 2-y, ..., x-1 to xy
And the processing result received from the parent processor 1-0, 2-
0, ..., X-0 parent side processing result transmission function 11,21
By editing with x1, and transmitting to the request source processor, the number of responses of the processing result to the processing request using the broadcast transmission can be reduced.

Therefore, it is possible to avoid the collision of the response of the processing result on the bus 100, that is, to prevent the receiving buffer of the requesting processor from becoming busy, and the bus 100 can be used efficiently. .

The parent processors 1-0, 2-0, ...
..., x-0 parent side processing result transmission function 11, 21, ...,
After waiting for the waiting time set for each group number by x1, the edited processing result is transmitted to the request source processor, whereby each parent processor 1-0, 2-
It is possible to prevent the processing results from 0, ..., X-0 from colliding on the bus 100, so that the bus 100 can be used efficiently.

[0029]

As described above, according to the bus type communication device of the present invention, in a plurality of processor groups each including a preset parent processor and a plurality of child processors belonging to the same group as the parent processor. , The processing result for the processing requested by the broadcast transmission is sent from the child processor to the parent processor, and then the processing result of the parent processor itself and the processing result from the child processor are edited and sent to the sender of the broadcast transmission. By doing so, it is possible to reduce the number of processing result responses to processing requests using broadcast transmission, avoid collision of processing result responses on the bus, and effectively use the bus. There is.

Further, according to another bus type communication device of the present invention, after the transmission of the processing result from the parent processor to the transmission source of the broadcast transmission is waited for a preset time with respect to its own group. By doing so, it is possible to avoid the collision of the response of the processing result on the bus, and it is possible to effectively use the bus.

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention.

FIG. 2 is a flowchart showing a processing operation of a child side processing result transmission function of FIG.

3 is a flowchart showing a processing operation of a parent side processing result transmission function of FIG.

[Explanation of symbols]

1-0, 2-0, x-0 Parent processor 1-1 to 1-y, 2-1 to 2-y, x-1 to xy Child processor 11, 21, x1 Parent side processing result transmission function 12 -1 to 12-y, 22-1 to 22-y, x2-1 to
x2-y Child side processing result transmission function 100 bus

Claims (2)

[Claims] 1. A plurality of processor groups each comprising a preset parent processor and a plurality of child processors belonging to the same group as the parent processor, and each of the child processors are provided and requested by broadcast transmission. Means for transmitting the processing result for the processing to the parent processor,
And a means provided in each of the parent processors, for transmitting the processing result from the child processor and the processing result of the own apparatus for the processing requested by the broadcast transmission to the sender of the broadcast transmission. Bus type communication device. 2. The bus type according to claim 1, further comprising means provided in each of the parent processors, for transmitting the processing result after waiting for a predetermined time with respect to its own group. Communication device.