DE19625861C2 - Circuit arrangement for synchronizing redundantly transmitted message cell streams - Google Patents

Description

The invention relates to a circuit arrangement for synchronism of redundantly transmitted message cell streams according to the preamble of claim 1.

Such a procedure is already known from German Pa tent publication DE 44 16 720 known. There is a cell Tiert communication network in which two redundant message cell streams each transmitted via a pair of paths Control cells are inserted at specified intervals. The control cells each contain one of control cells Control cell continuously changing sequence number. At the end of the path pair, the occurrence of control cells is separated monitored for the two message cell streams. Doing so first on the basis of those occurring in the message cell streams trend sequence numbers determines which of the two messages cell currents is leading. The leading news cell lenstrom is then in until the occurrence of the same sequence numbers delayed the message cell streams. This is done by both message cell streams of a central synchronizer device are supplied. The message cell stream of the a path runs through a data switch and a buffer store while the other's message cell stream Paths the same data switch and then another Buffer memory runs through.

The disadvantage of this is that 2 buffer memories are required. Especially when there are extensive message cell streams the effort can be cached if it gets very big.

It is an object of the present invention to find a way show how a circuit arrangement according to the preamble of Claim 1 can be formed in relation to one the state of the art more optimal synchronization of night to be able to carry out target cell currents.

This task is solved with a procedure according to Oberbe handle of claim 1 by the in this patent circuit characteristics specified. The advantage of this Circuit arrangement consists in the relatively small circuitry complexity for a synchronization two message cell streams.

Further expedient refinements of the method according to the The present invention results from the patent claims 2 to 4.

In the following the present invention with reference to drawing for example, explained in more detail.

Fig. 1 shows in a block diagram detail of an ATM communications network in which the present invention is applied;

Fig. 2 shows the interaction of two coupling devices, which will be discussed in more detail below, and

FIG. 3 shows a detail of a possible structure of a central synchronizing device, which is shown only schematically in FIG. 1.

In Fig. 1 is a fragmentary illustrated according to an asynchronous transfer mode ( "Asynchronous Transfer Mode") working ATM communication network ATMN which may be formed of a plurality of coupling devices. Within this ATM communication network, virtual connections running in the same direction and established in a known manner are carried out, for example via so-called virtual paths, ie these virtual paths each carry a greater number of virtual connections. The coupling devices may be designed as so-called "cross connections", via which virtual paths are permanently established and remain in place for a long time. However, these coupling devices can also consist of switching devices via which virtual paths can be set up as part of a corresponding connection setup. Since such a virtual path can contain, for example, up to 65536 virtual connections and can also have a high total bit rate of, for example, up to 2.4 Gbyte / s, if necessary, such a virtual path must be switched as quickly as possible to an alternative path without loss of message cells. For this purpose, an alternative path is defined within the ATM communication network for each path, hereinafter referred to as the active path. The respective active path and the associated substitute path are referred to below as the path pair and run over separate paths. It should already be pointed out here that although the present invention is explained below using virtual paths set up within the ATM communication network, the invention can also be applied to individual virtual connections or path groups, each of which has an egg nem active path and a pair of paths formed can run ver.

In Fig. 1, a virtual path pair that can be set up between two coupling devices is schematically represented as representative of a multiplicity of virtual path pairs running within the ATM communication network ATMN. The coupling devices are designated CCa and CCb. The coupling device CCa represents the beginning of the virtual path pair and receives the message cells occurring within a feeder path VPC at an interface device R1. The active path designated AP runs from the coupling device CCa via an interface device T2 connected to it and two intermediate coupling devices designated CC to an interface device of the coupling device CCb designated R3. The associated replacement path EP, on the other hand, runs via an interface device T1 belonging to the coupling device CCa and an intermediate coupling device CC to an interface device R2 of the coupling device CCb. Normally, message cells may only be forwarded via the active path AP to an interface device T3 which represents an output of the coupling device CCb. Only upon an impulse is switched from the active path AP to the associated substitute path EP with the aid of a central synchronizing device AS "alignment server" assigned to the coupling device CCb, ie after the switchover, the message cells arriving via this substitute path are forwarded to the interface device T3 ,

Otherwise, the replacement path EP can, depending on the interpretation of the ATM communication network either only to the named To arrives in accordance with the network utilization and the required Transmission capacity to be determined or already out be clearly set the way, then for the Er sentence path only after a push on one of the transmission kapa corresponding transmission capacity to the active path is requested. The requested transfer box capacity up to a kick for a low priority message traffic can be used.

With reference to FIG. 2 will be discussed in more detail from the active path to the alternate path AP EP following circuit to the method of order.

In Fig. 2 of the Koppeleinrich lines shown in Fig. 1, only the two coupling devices CCa and CCb are shown. It is assumed that message cells arriving via the feeder path VPC are first transmitted exclusively from the interface device R1 of the coupling device CCa via the active path AP to the interface device T3 of the switching device CCb. For this purpose, the message cells may be forwarded within the coupling devices CCa and CCb, for example according to the so-called "self-routing" principle, by each message cell depending on the external cell header ("header") that is present in each case when one enters the respective switching device an internal "self-routing" cell header is prepended. This internal cell header is provided in the course of setting up the virtual path, for example by a control device STa, STb assigned to the respective coupling device, and contains all path information for the forwarding of the message cells belonging to the virtual path within the respective coupling device. In the case of the coupling device CCa, this is information for the transmission of message cells between the interface device R1 and the interface device T2. In contrast, the internal cell header provided in the coupling device CCb for the virtual path contains information for the transmission of message cells from the interface device R3 to the interface device T3. The respective internal cell head is stored in the interface device R1 or R3 and in corresponding interface devices of the other coupling devices of the communication network ATMN included in the virtual path.

Otherwise, instead of the "self-routing" principle, al Alternatively, the so-called conversion principle for forwarding of message cells within the respective coupling device  be used, according to which only that of the respective Modified external cell header associated with the message cell becomes.

On a reversal signal, for example from a zen central network control device NST forth in the form of at least one a control cell ("Operation, Administration and Maintenance" - Cell), hereinafter referred to as the OAM cell, the control unit direction Sta, STb one of the coupling devices CCa and CCb is supplied, a switchover of the virtual path AP initiated on the replacement path EP. With such an order Control signal receiving control device may there for example, assigned to the coupling device CCb Act nete control device STb. This control device then provides a new internal cell header that Contains route information to the relevant virtual Path AP associated message cells from the interfaces device R3 forth to an interface device T4 to which the central synchronizer already mentioned siereinrichtung AS is connected on the input side. This Interface device R3 becomes the new internal cell header fed and there instead of the previously for the virtual Path stored internal cell header saved. In order to incoming message cells of the virtu Path AP no longer directly the interface device device T3, but first the central synchronization device device AS supplied via one in the coupling device CCb established control channel also supplied the OAM cell leads receives.

The central synchronization device AS is on the output side connected to an interface device R4, in which an internal cell header is stored, which this central synchronizing messages running through cells for forwarding to the interface device T3 is prefixed. This is the central synchronization device  in the transmission of over the active path AP incoming message cells included.

After connecting the central synchronization device AS is either owned by this or the associated tax direction Sta, STb forth a control signal in the form at least an OAM cell indicating this switching to the control device STa of the coupling device CCa transmitted. For example, one can be between the two couplers directional virtual control channel used who the one assigned to the active path AP, for example neten, but set up in the opposite direction is. The occurrence of such an OAM cell then from the control device STa which was previously in the interface leneinrichtung R1 stored for the virtual path AP internal cell header modified so that subsequent night Target cells of the virtual path are duplicated and the resulting ones resulting, mutually associated message cells ge separates via the active path AP and the associated replacement path EP can be transferred. It is on switching on the central synchronization device AS under the control the control device STb in the interface device R2 an internal cell header is stored for this replacement path, through which the messages belonging to this replacement path cells also via the interface device T4 central synchronizing device AS are transmitted. From this, however, will initially begin in one now only the synchronization phase via the active path EP supplied message cells forwarded. During the Synchronization phase, which will be discussed in more detail below However, the active path AP and the Substitute path EP incoming message cell streams synchro nized by taking the appearing on these paths below different delay times can be compensated. kick a shorter delay time on the active path on than on the replacement path, so those over the active Path transmitted  Message cells are delayed to synchronize with to reach the message cells on the replacement path. experi on the other hand, the message cells on the substitute path are closed less delay than the associated message cells the active path, they are transferred via the replacement path gene cells delayed accordingly.

If synchronization is achieved as a result, the central synchronization device AS to the replacement path switched, d. H. from that point on, they are unmarried Lich the messages arriving via the replacement path cells to the interface device T3 transmitted. in the Following this, the associated control device STb Control signal, for example in the form of a switch confirmatory OAM cell. Thereupon under the Control of this control device in the interface direction R2 for the replacement path EP an internal cell header deposited by which the subsequent message cells transmitted directly to the interface device T3 become, d. H. the central synchronization device AS separated from the previous transmission path. There with this separation from the central synchronizing device tion AS forth message cells from the Replacement route fed directly to the interface device T3 Message cells can be overhauled is to take care of that carry that message cells in the right rows be forwarded. For example, a buffer memory present in the interface device T3 cher be used, through which the forwarded after straightening cells according to the required order be animals. In addition, the control device STa the coupling device CCa via the aforementioned Steuerka nal a control signal in the form of at least one switching to the OAM cell indicating the replacement path, whereupon under the control of the control device STa in the Interface device R1 internal cell header previously stored  is modified so that subsequent messages cells are only forwarded via the replacement path EP become.

Above it was assumed that the aforementioned change ersignal (OAM cell or OAM cells) of the control device STb have been supplied by the network control device NST is. Alternatively, this OAM cell or these can OAM cells also the control device STa of the coupling device device CCa be supplied. In this case, first of all the control device STa, for example via the active one Path AP a specified OAM cell to the controller STb transmitted to which in the control device STb and subsequently in the control device STa the previously explained control processes. That is, at times Transmission of message cells from the coupling device CCa ago both via the active path AP and via the Er sentence path EP and the subsequent exclusive transmission of message cells via the replacement path only take place after a from the coupling device CCb circuit of the central synchronizing device AS display OAM cell was released.

Is now chronisierverfahren to the previously mentioned Syn and discussed in greater detail a possible structure of the cen tral synchronizer AS reference to FIG. 3. For this central synchronization device, only the circuit parts relevant for understanding the present invention are listed. Thereafter, the central synchronization device AS on the input side has a data switch DW, which from the interface device T4 comes next to the message cell stream occurring via the active path AP and then additionally supplied during the synchronization phase in multiplex operation the message cell stream occurring via the replacement path EP. In the respective message cell stream, a specially marked OAM cell is inserted, for example by the coupling device CCa, at fixed time intervals. These OAM cells each have a sequence number that changes continuously from OAM cell to OAM cell. In the present exemplary embodiment, an OAM cell is inserted after every 256 message cells, delaying the respective message cell stream, and the respective sequence number is encoded by 8 bits. As an alternative to this, such an OAM cell can also replace an empty cell contained in the respective message cell stream, following the specified number of message cells. If such an empty cell does not occur within a set time, for example a time defined by 128 cells, an OAM cell is specifically inserted into the message cell stream, with a delay in the message cell stream. With this procedure, however, the specified intervals for inserting OAM cells should be observed on average.

Furthermore, the active path AP and the replacement path EP each via an evaluation device A to the output the switching device representing the synchronizing device AS device S2 led. Main component of the synchronization device device AS is a storage system SM that functions as a Has buffer memory. This is with a Switching device S1 and on the output side via another Evaluation device A connected to the switching device S2. The switching device S1 has the function of a data switch on. The facilities of the synchronization device AS are together with a control device C, which has a counter Z and for the control processes is responsible within the synchronization device AS.

In the present exemplary embodiment, it is assumed that that the data switch S1 is initially controlled such that the Message cell stream arriving via the active path AP  the storage system SM is fed. There they are in there contained message cells cached. Parallel this message cell stream is used for the evaluation direction A of the switching device S2 supplied, where he syn may leave chronising device AS. In the same way becomes the redundant message cell stream over the replacement path EP of the data switch S1 and the switching device S2 guided. Because of the switching status, the messages cells of the replacement path EP discarded.

In the following it is initially assumed that the over active path AP leading message cell stream leading compared to the redundantly transmitted message cell stream is. This is due to the off arranged in the active path AP evaluating device A determines these message cells current monitored on OAM cells. If an OAM cell is found, this is considered a preliminary criterion for the fact that this after straightening cell current is leading. In a first step the counter Z is started first. With every further message cell arriving via the active path AP the counter Z increments. Only when the EP arranged evaluation device A here an equivalent OAM Cell (with the same sequence number), this is considered to be end Valid criterion in the sense of confirmation that the Message cell stream transmitted over the active path AP leading compared to the one transmitted via the replacement path EP Message cell stream is. Furthermore, the counter Z now for every message arriving via the replacement path EP cell decremented by 1. If the value 0 is reached, data switch S1 and the switching device S2 on the Substitute path EP switched.

Furthermore, it should now be assumed that the over pre-transmitted message cell stream the substitute path EP is lend. In this case, the OAM cell is different from the one in the Er Record path EP integrated evaluation device A determined. This  is considered a preliminary criterion for the fact that this news cell current is leading. Furthermore, the data switch S1 switched from the active path AP to the replacement path EP, see above that the message cell stream supplied to the storage system SM leads. In the evaluations integrated in the replacement path EP Device A stores the determined OAM cell. The Evaluation device A arranged in the active path AP via now wakes up the message cell stream transmitted there the appearance of OAM cells. Is one identified and with the OAM cell stored in the evaluation device A. identical, the switching device S2 will be on the evaluation direction A of the memory SM switched and the memory sy stem SM with each received empty cell of the replacement path EP umn a message cell emptied until the memory SM empty is. In this case it can be assumed that the synchronicity is established and on the replacement path EP can be switched.

In general, of course, there is a risk that an OAM cell from Transmission errors such as bit errors from the in Question coming evaluation device A is not recognized. This case is also of the circuit according to the invention arrangement dealt with. To this end, it is initially assumed that an OAM cell of the evaluation arranged in the active path direction A falsified due to a transmission error was and therefore cannot be determined by the same can. Accordingly, an assessment is in the sense of the preliminary Criterion, which of the two message cell streams before in a hurry, not done. The one arranged in the replacement path EP Evaluation device A in turn now determines the equiva lente OAM cell and evaluates this as a preliminary criterion for this message cell stream to be leading. in the The data switch S1 thus follows the replacement path EP switched. The evaluation arranged in the active path AP Direction A now determines an OAM cell. Based the registered sequence number (e.g. <the sequence number of the  active path AP), however, it is determined that an error has occurred must lie, the provisional criterion will not be confirmed. The data switch S1 then opens again switched the active path AP back.

In the present embodiment, there is also Possibility in case that of the active path transmitted message cell stream is the leading one place an abrupt delay just explained perform gradual delay by this message cell current when passing through the buffer memory SM step as delayed under the control of the control device C. until two in the control device C at the same time sequence numbers are available. In a corresponding manner, a First, the delay gra to be realized for the replacement path duel after switching over again. This gradual change in the delay brings the Advantage with that delay time fluctuations within tolerable limits can be maintained. This is of particular importance when moving within the switching virtual path audio, video or multimedia Connections run, the guaranteed minimal delays time fluctuations. In addition, a such a gradual delay caused by the forwarding of Message cells caused limited burst size.

In the above, the case was considered only as an example that a single active path using a central syn chronizing device on an assigned replacement path can be switched. Such a central synchronization direction can also be used in multiplexing a plurality of virtual paths if assigned sequentially an assigned replacement path must be switched. At a required simultaneous switching of virtual paths can one of the number of virtual paths to be switched simultaneously  corresponding number of central synchronization devices be provided.

In addition, it should be noted that the first existing procedures for switching virtual paths to Er sentence paths can also be modified so that the Kop peleinrichtung CCa forth a supplied message cell stream by duplicating constantly over both an active path and is also transmitted via an assigned replacement path and the resulting two message cell streams of the supplied to the respective central synchronization device AS are. A synchro as explained above takes place continuously in this nization in order to remain on one of the routes in the event of failure to switch the way.

Finally, it should be noted that the above Synchronizing principle according to the present invention single Lich as an example in connection with switching one virtual path has been described on a replacement path is. However, the invention is not in this application limited. Rather, this synchronization principle is also for example applicable when individual virtual connections gen or a path comprising a plurality of virtual paths groups from an active transmission path to an alternative path are to be switched. In addition, the synchronization is zip not only in ATM communication networks, but in general applicable in cell-oriented communication networks if message cell streams within these communication networks are to be synchronized, for example message cells currents free of interference, d. H. without cell loss, without duplication cells without loss of information in the individual Cells and by following the cell order, by one redirect active route to an alternative route. It can Synchronization principle deviates from that previously described Embodiment not only with the help of a central syn chronizing device, but also with the help of decentralized  Synchronizing devices in the coupling devices Communication network can be realized.

Claims (4)

1. Circuit arrangement for synchronizing via a path pair (EP, AP) redundantly transmitted message cell streams in a cell-oriented communication network (ATMN) having a plurality of coupling devices (Cca, CCb, CC), in particular in an ATM operating according to an asynchronous transfer mode. Communication network, with the help of the control cells inserted in the message cell streams, with the help of a coupling device (Cca) located at the beginning of the pair of paths (EP, AP), which is designed in such a way that a supplied message cell stream is duplicated on the one hand and the resulting one resulting identical two message cell streams are forwarded separately via two routes (EP or AP) belonging to the pair of routes (EP, AP) and, on the other hand, a control cell is inserted into the two message cell streams at fixed time intervals and the respective control cell continues from one control cell to another leads continuously changing sequence number, and with the help of a at the end of the pair of paths (EP, AP) lying coupling device (Ccb), which is assigned at least one Synchroni siereinrichtung (AS), which are supplied to the two After cell currents and which forms such that this monitors the occurrence of control cells separately for the two message cell streams, and that the leading message cell stream is determined on the basis of the sequence numbers occurring in the two message cell streams and is delayed until the occurrence of the same sequence number in the two message cell streams, characterized in that the synchronization device (AS) is designed such that it comprises a single memory device (SM) which is connected on the input side only to the single output of a switching device (S1), the first input of which on one path (EP) and the second input of which on the other path (AP) of the pair of paths ( EP, AP) is connected. 2. Circuit arrangement according to claim 1, characterized, that the synchronization device (AS) the path pair (EP, AP) via the switching device (S1) and another Schaltvor direction (S2) merges. 3. Circuit arrangement according to claim 1 or 2, characterized, that in the branches of the pair of paths (EP, AP) and in Ver binding section between the storage device (SM) and an evaluation for each of the further switching devices (S2) direction (A) is inserted. 4. Circuit arrangement according to one of the preceding claims che, characterized, that the evaluation device (A) and the switching device gene (S1, S2) controlled by a central control device (C) be recognized.