JPH03179850A - Common bus token control system - Google Patents

Abstract

PURPOSE:To improve the utilizing efficiency of a common bus by sending a transmission enable signal and a token reservation signal to two group token enable buses between a group arbiter circuit and a sub-arbiter circuit. CONSTITUTION:First and 2nd token enable buses GACKB1,GACKB2 are used for permission of token from a group arbiter circuit 1 to sub-arbiter circuits 11-1k, and one of the token enable buses is used to send a current token enable signal and the other is used to send a token reservation signal scheduled to give the token next. Then the sub-arbiter circuits 11-1k monitor a transmission status signal sent from subscriber circuits 111-1km acquiring a token for a common bus use period and the token enable is advanced next at the end of a transmission status signal. Thus, the interval of the use of the common bus is decreased, the utilizing efficiency of the common bus is improved and the processing capability of packet data exchange is improved.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a common bus transmission right control method when transmitting packet information via a common bus in a packet switching system.

[Conventional technology]

Conventionally, in this type of common bus transmission right control system, the system has been provided with one arbiter circuit, and all subscriber circuits and the arbiter circuit are connected one-to-one through transmission request lines and transmission right grant lines. Met. On the other hand, in order to solve the problem of the extremely large number of transmission request lines and transmission right grant lines mentioned above, the subscriber circuits are divided into multiple groups, and a sub-arbiter circuit is provided for each group. By providing one group arbiter circuit for arbitration, and by making the transmission request line and transmission right grant line between the group arbiter circuit and the sub-arbiter circuit, and between the sub-arbiter circuit and the subscriber circuit of its own group, respectively, time-division serial lines. , a configuration in which the number of signal lines is extremely reduced has been proposed (see Japanese Patent Application No. 192858/1999).

In these methods, when the arbiter or group arbiter circuit receives multiple transmission requests, it selects only one of them and grants the right to transmit, and the subscriber circuits that have been granted the right to transmit transmit through the common bus. The arbiter or group arbiter circuit continues to maintain the transmission request until the data transfer is completed, and when the data transfer is completed and the common bus can be released, the transmission request is stopped, and the arbiter or group arbiter circuit waits until the transmission request that granted the transmission right is completed. The next transmission right permission is granted to the transmission request that was previously sent.

[Problem to be solved by the invention]

In the conventional transmission right control method described above, when there are multiple transmission requests at the same time, the transmission right is granted to only one of them.
After the transmission request for which the transmission right was granted is completed, the next transmission right is granted, so the end of the transmission request is transmitted to the arbiter circuit after the subscriber circuit finishes using the common bus. For some time, no one uses the common bus, and the efficiency of using the common bus inevitably decreases. In particular, when the transmission request line and the transmission right grant line are configured as time-division serial buses, or when the distance becomes long, the efficiency of use of the common bus is significantly reduced, resulting in a significant reduction in packet exchange processing capacity.

[Means to solve the problem]

The common bus transmission right control system of the present invention divides a plurality of subscriber circuits for packet switching connected to a common bus into a plurality of groups, provides a sub-arbiter circuit for each group, and arbitrates between the sub-arbiter circuits. In a packet switching system that includes a group arbiter circuit, and exchanges packet information by determining permission to use the common bus by the sub-arbiter circuit and the group arbiter circuit; each of the sub-arbiter circuits is connected to the group arbiter circuit; group transmission request bus and the first
and a second group transmission right grant bus and a transmission right grant mode signal line; the group arbiter circuit controls one of the sub-arbiter circuits in response to a transmission request signal input via the group transmission request bus. and sends a transmission permission signal to either of the first and second group transmission right permission buses, and when a plurality of the transmission request signals are input, the first and second group transmission right permission buses A transmission right reservation signal is sent to the sub-arbiter circuit which is scheduled to next grant the transmission right to the remaining buses of the group, and a current transmission permission signal is sent to the first and second group transmission right permission buses by the transmission right permission mode signal. and transmission right reservation signal; any of the subscriber circuits to which transmission right permission has been granted is connected to the group arbiter circuit during the period when packet information is being transferred via the common bus. The group arbiter circuit sends a transmission status signal to the transmission status signal line indicating that the common bus is in use; after transmitting a transmission permission signal, the group arbiter circuit monitors the transmission status signal line and determines whether the use of the common bus is finished. When detected, the transmission right permission mode signal is switched to change the group transmission right permission bus, which has been on the transmission right reservation side, to the transmission right permission side, and change the group transmission right permission bus, which has been on the transmission right permission side, to the transmission right permission side. After the sub-arbiter circuit is given the transmission right reservation, it monitors the transmission right permission mode signal, and upon switching from the transmission right reservation side to the transmission right permission side, immediately sets the transmission right reservation side to the transmission right permission side. This configuration grants transmission rights to subscriber circuits.

〔Example〕

Next, embodiments of the present invention will be described with reference to the drawings.

Referring to FIG. 1 showing an embodiment of the present invention, subscriber circuits (PLC) 111 to lkm accommodating packet terminals are connected to a common bus (data bus) DBUS, and the bus DBUS is used to transfer packet data. This shows a case where an exchange is performed. All 110111~11m, 121~1
2 m, 1 to 1 km are connected to DBUS, which is a bidirectional bus, and are classified into groups with a maximum of m PLOs as one group, and each group has one sub-arbiter circuit (S-ARBT) 11. ~1k are set up. Between each 5-ARBT and the PLC of its own group, there are transmission request buses RQ1 to RQm and transmission right permission buses ACK1, respectively.
” A CK h and frame synchronization signal lines FSY, ~F
Connected by SYk. On the other hand, each 5-ARBT has a group arbiter circuit (group transmission request bus GRQB connected to G-ARBT>1, two group transmission right permission buses G A CK B 1. G A CK B
2, respectively connected to the transmission right permission mode signal line ACKM and the inter-arbiter frame synchronization signal line GFST.

Next, referring to FIG. 2, FIG. 2<a) shows each S-A
It shows the frame synchronization signals FSYI to FSYk given from RBY to the PLCs in its own group, and the time-divided transmission request bus RQ! These are time slot synchronization signals for ~RQk, transmission right grant bus ACK, and ~ACK h. FIG. 2(b) shows the time slot structure of the transmission request buses RQ1 to RQk, and shows that m time slots are allocated to each PLC. FIG. 2(C) shows that the transmission right permission buses ACK, . Figure 2(d) is G-A
Frame synchronization signal GFSY between RBT and each 5-ARBT
and a time-divided group transmission request bus GRQB and two group transmission right permission buses GACKB1. G.A.C.
This is the time slot synchronization signal of KB2. Note that one frame of the frame synchronization signal GFSY does not necessarily have to be the same as one frame of the frame synchronization signals FSY to FSYk shown in FIG. 2 (a). FIG. The time slot configuration is 1
Divide the frame into 5 time slots each.
- Indicates that it is assigned to ARBT. Figure 2 (f
), (g) are two group transmission right permission buses GACK.

This is the signal on GACK2, indicating that the 5-ARBT numbers for which the transmission right has been granted and for which the transmission right is next reserved are being sent in a time-division serial configuration. Also, Figure 2 (
b) is the transmission right permission mode signal ACKM, and when this signal is at high level, the group transmission right permission bus GACKB is
, is in the current transmission right permission state and the bus GACKB2
indicates that the transmission right is reserved, and vice versa when it is low level.

Figure 3 shows PLC1, which is a group of 5-ARBTI 1.
12 has acquired the transmission right, has finished transmitting data from the state in which it is transmitting data, and is in the transmission right reservation state.
12 is a time chart showing a process in which PLC 1k next acquires the transmission right and PLC 1k l starts data transmission using the common bus DBUS.

Next, an operation example of the PLC 11 of the 5-ARBTI 1 group will be explained with reference to FIGS. 1, 2, and 3.
PLClkl in the group of 2, 5-ARBTI k and PLO of some number in the group of 5-ARBTI3 each issue a transmission request, and first grants the transmission right to 5-ARBTI 1, and then sends the request to 5-ARBTlk. Assume that the rights are reserved and the 5-ARBT 13 is kept waiting as the next priority. As shown in Figure 3, PLC
112 sets a "1" signal indicating a transmission request to TS2, which is the self-assigned time slot of the transmission request bus RQt, and the same (PLClkl sets a "1" signal to TSI of the bus RQk).
1" signal is set.

5-ARBTI 1,5-ARBTlk and 5-ARB
Tl 3 sets a transmission request "1" to TSI, TSk, and TS3, which are self-assigned time slots of the group transmission request bus GRQB. Here, in a state where transmission permission is given to 5-ARBT1 and transmission right reservation is given to 5-ARBTlk, the number 5-ARBTII is assigned to the group transmission right permission bus GACKB, and the number 5-ARBTII is assigned to the group transmission right permission bus GACKB, and the number 5-ARBTII is assigned to the group transmission right permission bus GACKB.
G-ARBTI sends the number to ARBT1 and sets the mode signal ACKM to high level. 5-ARBTI 1 that has acquired the transmission right permission sends the number of PLC 112 to the transmission right permission bus ACK, and PLC 1 that detects this sends the number of PLC 112 to the transmission right permission bus ACK.
12 starts transmitting data using bus DBUS. At this time, the PLC 112 simultaneously sends out a transmission status signal ST indicating that the bus DBUS is in use.Next, when the data transmission using the bus DBUS is completed, the PLC 112 stops sending out the transmission status signal ST and uses the bus DBUS. Announce the opening.

Here, G-ARBTI monitors the signal ST, and when it detects the end of the signal ST, switches the mode signal ACKM from high level to low level and grants transmission right permission to the bus GACKB2 side, which has been in the reserved state until now. . On the other hand, 5-ARBTl, which had acquired this reservation, receives a signal ACKM.
changes to low level and detects that it has acquired transmission right permission, it immediately sends the number of PLClkl to bus ACKk and grants transmission right permission to PLClkl. P
After LClkl issues a transmission request to time slot TSI of bus RQk, it monitors bus ACKk, and when it detects its own PLO number, it starts data transmission using bus DBUS.

At this time, a transmission status signal ST indicating that the bus DBUS is in use is similarly sent out. In addition, the number 5-ARBTI 3 is output to the bus G ACK B 1 on the reservation side, and when PLClkl finishes transmitting data using the bus DBUS, G-ABTI transmits the signal ACKM due to the end of the signal ST. Switch to high level again, 5
- Grant transmit right to ARBTI 3.

Note that G-ARBTl selects one 5-ARBT from among transmission requests from multiple 5-ARBTs, and
- To select one PLO from a plurality of PLOs in ARBT, a conventional selection method such as a fixed priority selection method or a rotating priority selection method may be used. Further, in this embodiment, the case where the transmission request bus and the transmission right permission bus have a time-division serial bus configuration is shown, but the present invention is not limited to this, and a star type bus configuration or the like can be similarly implemented. Also,
As shown using the symbol "*" in Figure 3, when the subscriber circuit that has acquired the transmission right completes data transfer, it stops sending requests, and the arbiter circuit recognizes the completion of data transfer, and then It is clear that if the conventional process were to proceed with the granting of transmission rights to the PLClkl, it would be considerably late for the PLClkl to be able to start transmitting data.

〔Effect of the invention〕

As explained above, according to the present invention, in a switching system in which packet information is transmitted via a common bus and transmission right control of this common bus is performed using a two-stage arbiter configuration including a group arbiter circuit and a sub-arbiter circuit, first and second transmission right grant buses are used for granting the transmission right from the arbiter circuit to the sub-arbiter circuit; one of these transmission right grant buses is used to transmit the current transmission right grant signal; The other one is used to send out a transmission right reservation signal that is scheduled to grant the next transmission right, and the group arbiter circuit monitors the transmission status signal sent by the subscriber circuit that has acquired the transmission right during the common bus use period. However, by proceeding to the next transmission right grant upon completion of this transmission status signal, the interval between uses of the common bus can be shortened. As a result, the usage efficiency of the common bus can be improved, and the throughput of packet data exchange can be significantly increased.

[BRIEF DESCRIPTION OF THE DRAWINGS] Fig. 1 is a diagram showing the constituent countries of an embodiment of the present invention, Fig. 2 is a diagram showing a signal configuration in the embodiment, and Fig. 3 is a timing chart explaining the operation of the embodiment. It is. 1... Group arbiter circuit (G-ARBT), 11
．． 12~1k...Sub-arbiter circuit (S-ARBT)
, 111-11m, 121-12m, 1 to 1k
m-subscriber circuit (PLC), GRQB...Group transmission request bus, GACKBl, GACKB2...Group transmission right permission bus, ACKM...Transmission right permission mode signal line, GFSY...Inter-arbiter frame synchronization signal lines, RQ1, RQ2, RQb...Transmission request bus, ACKl, ACK2, ACKb...Transmission right permission bus, FSYl, FSY2, FSYk...Frame synchronization signal line, DBUS...Common data bus, ST ...Transmission status signal line.

Claims (1)

[Claims] A plurality of subscriber circuits for packet switching connected to a common bus are divided into a plurality of groups, a sub-arbiter circuit is provided for each group, and a group arbiter circuit is provided for arbitration between the sub-arbiter circuits, and the common bus is used. In a packet switching system in which permission is determined by the sub-arbiter circuit and the group arbiter circuit to exchange packet information; is connected to a group transmission right permission bus and a transmission right permission mode signal line; the group arbiter circuit selects one of the sub-arbiter circuits in response to a transmission request signal inputted via the group transmission request bus; When a transmission permission signal is sent to either of the first and second group transmission right permission buses and a plurality of the transmission request signals are input, the remaining transmission permission signals of the first and second group transmission right permission buses are sent. A transmission right reservation signal is sent to the sub-arbiter circuit that is scheduled to next grant the transmission right to the bus, and the first
and indicates whether the current transmission permission signal or transmission right reservation signal is being sent to the second group transmission right permission bus; While transferring packet information, a transmission status signal indicating that the common bus is in use is sent to the transmission status signal line connected to the group arbiter circuit; after the group arbiter circuit sends a transmission permission signal, The transmission status signal line is monitored, and when the end of use of the common bus is detected, the transmission right permission mode signal is switched to change the group transmission right permission bus, which has been on the transmission right reservation side, to the transmission right permission side. The group transmission right permission bus, which had been on the transmission right granting side until now, is set to the transmission right reservation side; after the sub-arbiter circuit is given the transmission right reservation, it monitors the transmitter permission mode signal, and sets the transmission right reservation side. A common bus transmission right control system characterized in that transmitter permission is immediately given to the subscriber circuit within the own group by switching from the transmission right permission side to the transmission right permission side.