JP3019573B2 - Synchronous method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a synchronization system for synchronizing a plurality of devices connected to a network.

[0002]

2. Description of the Related Art Conventionally, when synchronization is established between devices connected to a network, as shown in FIG.
In addition, a method using a network for transmitting a synchronization signal (conventional method 1) has been proposed.

In this system, a synchronization signal is output from each processor via one synchronization signal line 41, a logical product 43 of synchronization signals from all devices is calculated, and the value is transmitted to each device by another one. It is configured to return by the line 42. The device that has executed the synchronization command continues to supply the synchronization signal to the synchronization signal line 41 until synchronization is established.

In this method, establishment of synchronization is instantaneously transmitted to each device. However, since the synchronization signal is transmitted through a different network from the packet, the synchronization is established before the normal packet sent to the network 44 before the synchronization command reaches the destination device, that is, a phenomenon occurs in which the synchronization signal passes the normal packet. .

In order to avoid overtaking of the synchronization signal,
A method (conventional method 2) of transmitting a synchronization signal through the same network as a normal packet as shown in FIG. 4 has also been proposed.

In this method, when a synchronous instruction is executed,
The synchronization packet 53 is transmitted to one device 52. The destination device 52 of the synchronization packet 53 counts the number of the synchronization packets 53 that have arrived, and sends out the synchronization establishment packet 54 to all the devices when the synchronization packets 53 arrive from all the devices. Each device knows that synchronization has been established by the arrival of the synchronization establishment packet 54.

In this method, it takes extra time from the establishment of the synchronization to the transmission of the synchronization establishment packet 54 to each device.

[0008]

In the above-mentioned conventional method 1, since the synchronization signal and the packet pass through different paths,
The synchronization signal may overtake the packet, and the order relationship between the generation of the synchronization signal and the transmission of the packet is not maintained.

In the conventional method 2, the overtaking of the synchronization signal, which is a problem of the conventional method 1, can be avoided, but it takes time until the establishment of synchronization is transmitted to each device.

An object of the present invention is to transmit a synchronization signal while preserving the order relation between the synchronization signal and a packet, and to eliminate time for transmitting synchronization establishment to each device.

[0011]

A synchronization system according to the present invention is a synchronization system between devices connected to a multi-stage network composed of a plurality of switching units, and uses a synchronization signal as a synchronization packet and a normal packet. communicate using the same multi-stage network, in each of the switching units, for each input port, when the synchronization packet arrives at an input port, until the synchronization packet to all of the input ports of the switching unit arrives , Sync
The input port where the packet arrived does not accept the packet,
When a synchronization packet arrives at all input ports of the switching unit , the synchronization packet is output to all output ports of the switching unit .

[0012]

According to the present invention, the synchronization signal and the packet are communicated through the same multistage network, and the synchronization packet does not overtake the normal packet. Further, the establishment of synchronization can be notified by the arrival of the synchronization packet at the device.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing an embodiment in which eight devices 14 to 21 are connected in a multistage network using a switching unit 11 having two inputs and two outputs.

FIG. 2 is a diagram for explaining how to process a synchronization signal and a packet signal. First, FIG.
Is a synchronous packet (SYNC) 35 and a normal packet a (NORMa) 37 at an input port A31 of the two-input two-output switching unit 11, and a normal packet b (NORMb) 38 and a normal packet c (NO) at an input port B32.
RMc) 39 and the synchronization packet (SYNC) 36 arrive in order. In a normal case, a packet arriving at one of the two input ports is selected and processed by the switching unit 11.

FIG. 2B shows the switching unit 11 having two inputs and two outputs when the synchronization packet 35 of the input port A31 is selected and processed.

Switching unit 11 having two inputs and two outputs
Stores the arrival of the synchronization packet 35 from the input port A31, and stores the synchronization packet 3 from the input port B32.
Until packet 6 arrives, packets from input port A31 are not processed. The synchronization packet 35 is not output.

FIG. 2C is a diagram showing the 2-input 2-output switching unit 11 at the time when the normal packet b38 of the input port B32 is processed.

FIG. 2D is a diagram showing the 2-input 2-output switching unit 11 at the time when the normal packet c39 of the input port B32 is processed.

FIG. 2E shows the switching unit 11 having two inputs and two outputs at the time when the synchronization packet 36 of the input port B 32 is processed.

Since the synchronization packet 35 has already been input from the input port A31, the synchronization packets 35 and 36 have arrived from all the input ports, and all the output ports, that is, the output port A33 and the output port A33 have been received. The synchronization packets 35 and 36 are output to B34. The restriction that the packet of the input port A is not processed is also eliminated.

FIG. 2F is a diagram showing the two-input two-output switching unit 11 at the time when the normal packet a37 of the input port A31 is processed.

As described above, it is guaranteed that a normal packet arriving earlier than a synchronization packet for all input ports is always output earlier than a synchronization packet, regardless of which output port is output. However, the synchronization signal does not usually overtake the packet.

Further, since no synchronization packet is output until a synchronization packet is input from all input ports, synchronization is established between the synchronization packets input to the input ports.

By controlling the switching unit 11 in this manner, even in a multi-stage network constituted by a plurality of switching units 11, the normal packet input to the multi-stage network before the synchronization packet is transmitted to all the connected devices. The packet is guaranteed to arrive at the destination device before the synchronization packet.

Also, since the switching unit 11 is connected so that each input port 12 of the multistage network can access all output ports 12, a synchronization packet from any one device can be transmitted from all other devices. The synchronization packet is synchronized with one of the switching units 11. Therefore, the synchronization packet is output from the output port 1 of the multistage network.
3, the synchronization has been established, and each device may determine that the arrival of the synchronization packet has been established.

[0027]

According to the synchronization method of the present invention, unlike the conventional method 1, the synchronization signal does not overtake the normal packet transmitted earlier, and the synchronization is established when the synchronization packet arrives at the device. Thus, there is no need to send back a synchronization establishment packet as in the conventional method 2.

Therefore, it is possible to transmit the synchronization signal while preserving the order relationship between the synchronization signal and the packet, and to eliminate time for transmitting the establishment of synchronization to each device.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing an embodiment in a case where eight devices are connected in a multistage network using a two-input two-output switching unit.

FIG. 2 is a diagram illustrating a control method for realizing the synchronization system of the present invention in the 2-input / 2-output switching unit of the embodiment.

FIG. 3 is a diagram illustrating a conventional method 1.

FIG. 4 is a diagram illustrating a conventional method 2.

[Explanation of symbols]

 11 2 input 2 output switching unit 12 input port 13 output port 14 device 0 15 device 1 16 device 2 17 device 3 18 device 4 19 device 5 20 device 6 21 device 7 31 input port A 32 input port B 33 output port A 34 Output Port B 35 Synchronous Packet 36 Synchronous Packet 37 Normal Packet a 38 Normal Packet b 39 Normal Packet c 41 Synchronous Signal Line 42 Signal Line Notifying Synchronization 43 Logical AND 44 Network for Normal Packet Communication 51 Network 52 Synchronous Packet Destination Device 53 synchronization packet 54 synchronization establishment packet

Claims (1)

(57) [Claims] 1. A method of synchronizing devices connected to a multi-stage network comprising a plurality of switching units, wherein a communication is performed using a synchronizing signal as a synchronization packet using the same multi-stage network as a normal packet. in each, for each input port, when the synchronization packet arrives at an input port, the switching Uni
Tsu until the synchronization packet to all of the input ports of the bets arrives, an input port to which the synchronization packet has arrived will not accept packet, the switching at the time when the synchronization packet to all of the input ports of the switching unit has arrived
A synchronization method wherein a synchronization packet is output to all output ports of the unit .