KR20010060142A - Atm cell data tx/rx apparatus with cell available signal and physical fail signal - Google Patents

Abstract

The present invention relates to an asynchronous transmission mode cell transmission apparatus, and more particularly, to an asynchronous transmission mode cell transmission apparatus capable of minimizing cell loss in transmission of an asynchronous transmission mode cell through a utopia bus. The present invention relates to an asynchronous transmission mode cell transmission apparatus on a transmission side connected to a reception side in a multipath, wherein the storage of a cell transmitted to the reception side, a demux for selecting a transmission path, and generated from the reception side are provided. Asynchronous transmission further comprising a control unit for detecting whether the received cell-valid signal is active and controlling the transmission cell storage operation and the transmission path selection operation of the demux according to the detection result of the active state of the cell-valid signal. A mode cell transmission device; In the asynchronous transmission mode cell transmission apparatus of the receiving side connected to the transmitting side in a multipath, the transmitted cell is processed at the physical layer and outputs a first status signal according to whether the cell is capable of processing at the physical layer. As a result of the combination of the physical layer processing unit, the transmission cell receiving processing unit for outputting a second state signal according to whether or not the reception and processing of the cell transmitted from the transmitting side, and as a result of the combination of the first state signal and the second state signal And a cell-effective signal generator for outputting a cell-valid signal for determining whether to perform the cell transmission on the transmitting side to the transmitting side.

Description

Cell transfer device for asynchronous transmission mode over Utopia bus {ATM CELL DATA TX / RX APPARATUS WITH CELL AVAILABLE SIGNAL AND PHYSICAL FAIL SIGNAL}

The present invention relates to an asynchronous transmission mode cell transmission apparatus, and more particularly, to an asynchronous transmission mode cell transmission apparatus capable of minimizing cell loss in transmission of an asynchronous transmission mode cell through a utopia bus.

In general, a cell-available signal is defined at the UTOPIA level in ATM cell transmission, and from the transmitting side (Tx PBA) to the receiving side (Rx PBA) according to transmission of the defined cell-valid signal. Asynchronous transmission mode (ATM) cell transmission is performed.

A typical operation of a transmission device for transmitting an ATM cell at such a utopia level will be described with reference to FIG. 1, which also looks at the problems of the prior art.

First, when two PBAs 100 and 11 that are matched to a utopia bus transmit and receive an asynchronous transmission mode cell, a signal indicating that the receiver's first in first out (103) can always receive the cell, i.e., cell-valid The signal is transmitted to the transmitting side through the buffer 104. At this time, the PBA 110 of the transmitting side confirms whether the cell valid signal is active, and according to the result of the confirmation, the transmitting side 110 receives the receiving side ( 100) is transmitted to the cell. The use of the cell-valid signal is achieved when the transmitting side 110 transmits a cell in the absence of the cell-valid signal, and the receiving PBA 100 does not receive the cell. This is because cell loss is inevitable.

However, since the cell-valid signal is only a signal on the utopia level, the cell-valid signal is confirmed as active because it is a signal that the device at the utopia level can receive the cell in the PBA 100 receiving the ATM cell. Even if the device of the receiving physical layer-in the drawing, the E1 physical layer processing unit 101-fails, i.e., the cell reception is not possible on the physical layer, the cell-effective signal is confirmed to be active. This, in turn, causes a problem that a loss of the cell transmitted from the transmitting side 110 must occur. In other words, a cell is received up to the utopia level of the receiving side PBA 100, but a cell loss occurs due to a device failure in the physical layer. On the other hand, in the asynchronous transmission mode cell transmission apparatus, the receiving side 100 processes the cell transmitted from the transmitting side 110 through the FIFO 103, the demux 102, and the E1 physical layer processing unit, and the transmitting side In addition, the cell is transmitted through the demux 112 and the FIFO 113 according to the reception result of the cell-valid signal.

As described above, in the conventional cell transmission apparatus, according to the conventional technology of cell transmission, the PBA transmits an ATM cell only by looking at a Utopia level cell use signal even in the case of a physical layer device failure or other various failure situations. There is more room for cell loss, leading to problems with the operational reliability of the device.

Accordingly, an object of the present invention is to provide an asynchronous transmission mode cell transmission apparatus over a utopia bus that prevents cell loss by preventing ATM cells from being transmitted to lower PBAs on a utopia level when a failure of a physical layer device occurs. In providing.

In addition, an object of the present invention, when forming a cell path between the PBA connected to the multi-path, asynchronous transmission through the utopia bus to form the cell path by interworking not only at the ATM level but also the physical layer state The present invention provides a mode cell transmission apparatus.

In order to achieve the above objects, the present invention provides a non-transmission mode cell transmission apparatus of a transmitting side connected to a receiving side in a multipath, comprising: a demux for storing a cell transmitted to the receiving side, and selecting a transmission path; And a control unit for detecting whether an active state of a cell-effective signal generated and received from a receiver and controlling a transmission cell storing operation and a transmission path selection operation of the demux according to a detection result of the active state of the cell-effective signal is further included. An asynchronous transmission mode cell transmission device provided; In the asynchronous transmission mode cell transmission apparatus of the receiving side connected to the transmitting side in a multipath, the transmitted cell is processed at the physical layer and outputs a first status signal according to whether the cell is capable of processing at the physical layer. As a result of the combination of the physical layer processing unit, the transmission cell receiving processing unit for outputting a second state signal according to whether or not the reception and processing of the cell transmitted from the transmitting side, and as a result of the combination of the first state signal and the second state signal And a cell-effective signal generator for outputting a cell-valid signal for determining whether to perform the cell transmission on the transmitting side to the transmitting side.

1 is a block diagram of an asynchronous transmission mode cell transmission apparatus through a utopia bus according to the prior art.

2 is an internal configuration diagram of an asynchronous transmission mode cell transmission apparatus through a utopia bus according to a preferred embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals have the same reference numerals as much as possible even if displayed on different drawings. Also, in the following description, many specific details such as components of specific circuits are shown, which are provided to help a more general understanding of the present invention, and the present invention may be practiced without these specific details. It is self-evident to those of ordinary knowledge in Esau. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

2 is a diagram illustrating an internal configuration of the transmitting side 200 and the receiving side 210 of the asynchronous transmission mode cell transmission apparatus according to the preferred embodiment of the present invention. In particular, in FIG. It is an internal configuration diagram of a transmission device matched with a physical layer processing unit.

Referring to this, in the receiving PBA 200 which is a lower board, the cell-valid signal and the function failure signal in the E1 physical layer are grouped by AND gate 205 and de-flip-flop (DFF) 204. When transmitting to the transmit PBA 210, which is a higher board, the transmit PBA 210 recognizes the integrated signal as a cell-valid signal and transmits the corresponding cell to be transmitted through the demux 212 and the FIFO 213. Done. The cell-valid signal is always detected by the controller 214, but if the cell-valid signal becomes invalid, the path for a time sufficient for the demux 212 of the transmitting PBA 210 to store. Do not change. The demux 212 of the transmitting PBA 210 then stores the cell until the cell-valid signal becomes active again. However, if the cell-valid signal remains active in a state longer than the storage capacity of the transmitting side PBA 210 demux 212, the control unit 214 has another path (the path in which the cell valid signal is active). The demux 212 is set to go to the cell. Of course, this structure is limited to the case where the receiving side PBA side 200 is interconnected in multiple paths.

In summary, the demux 212 of the transmitting PBA 210 sees the cell-valid signal coming from the receiving PBA 200 and transmits the cell, at which point the cell-valid signal is de-asserted. ), Nothing changes at first. In this case, the demux 212 transmits the cell transmission path according to the cell-validated signal as a destination only, and the cell entered using the cell-validated signal de-asserted as the destination. Do not send them, but keep them in storage. However, when the storage capacity increases, the next incoming cell is stored in a state in which the existing cell is overlaid. Thus, the controller 214 calculates a time when the cell-valid signal becomes de-assert and adjusts the storage capacity. If the destination is switched to a path according to the cell-valid signal when the cell-valid signal is de-asserted immediately before the transfer, the stored cells are transmitted without loss.

As a result, when only the cell use signal is transmitted from the reception PBA 200 to the transmission PBA 210 which is the upper board, the reception of the cell is recognized as an acceptable state without considering the failure in the physical layer. Naturally, cell loss occurs when a failure occurs. Therefore, when the physical failure signal of the physical layer is logically multiplied with the existing cell-valid signal and transmitted, it is possible to prevent cell loss due to the physical layer failure. In addition, if the control unit 214 properly connects the cell paths to the demux 212 according to the active / inactive state of the cell-effective signal as in the embodiment of the present invention, the failure in the E1 physical layer processing unit 201 is performed. Can be avoided, which prevents cell loss. That is, the implementation of the present invention is a structure that allows data to be transmitted in the remaining redundant path when one place fails in the interconnection in a multipath (or redundant path). In addition, if a failure occurs momentarily, data loss can be prevented during that period.

As described above, the implementation of the present invention is an asynchronous transmission mode cell transmission device, there is an advantage to be able to transmit by minimizing the loss of the cell.

Claims (8)

In the asynchronous transmission mode cell transmission apparatus of the transmitting side connected to the receiving side in a multipath, A demux for storing the cell transmitted to the receiving side and selecting a transmission path; A control unit for detecting whether an active state of a cell-effective signal generated and received from the receiving side and controlling the transmission cell storing operation and transmission path selection operation of the demux according to a result of detecting the active state of the cell-effective signal is provided; Asynchronous transmission mode cell transmission device, characterized in that it further comprises. The method of claim 1, wherein the cell-valid signal received from the receiving side, On the receiving side, a first status signal for distinguishing whether or not a cell to be transmitted is processed in the physical layer and outputting the first status signal, and a second status signal of a utopia level generated according to whether the cell at the receiving side can be received And is a signal output in synchronization with the asynchronous transmission mode cell transmission clock. The method of claim 1, wherein the control unit, In the transmission cell storage operation of the demux, the cell is controlled to store the cell for a time sufficient for the demux to store the transmitted cell until the cell-valid signal is detected as an active state. Asynchronous transmission mode cell transmission device. The method of claim 3, wherein the control unit, In the transmission cell transmission path selection operation of the demux, the transmission path of the cell is not changed for a time sufficient for the demux to store the transmitted cell until the cell-valid signal is detected as active. Asynchronous transmission mode cell transmission apparatus, characterized in that the control. The method of claim 1, wherein the control unit, In the transmission cell storage and transmission path selection operation of the demux, if the cell-valid signal is not detected as an active state within a time enough for the demux to store, control to change the transmission path of the cell. Asynchronous transmission mode cell transmission device, characterized in that. In the asynchronous transmission mode cell transmission apparatus of the receiving side connected to the transmitting side in a multipath, A physical layer processing unit for processing the transmitted cell in the physical layer and outputting a first status signal according to whether the cell is processed in the physical layer; A transmission cell reception processor for outputting a second status signal according to whether the cell transmitted from the transmission side can be received and processed; And as a result of the combination of the first state signal and the second state signal, a cell-effective signal generator for outputting a cell-effective signal for determining whether to perform the cell transmission on the transmitting side to the transmitting side. Asynchronous transmission mode cell transmission device characterized in that. The method of claim 6, wherein the cell-effective signal generator, A logical AND gate for logically multiplying the first state signal and the second state signal and outputting the result; And a flip-flop for synchronizing the result of the logical multiplication with the asynchronous transmission mode cell transmission clock and outputting the result to the transmitting side. The method of claim 1, wherein the second state signal, Asynchronous transmission mode cell transmission apparatus, characterized in that the signal is output according to whether the reception and processing of the transmitted cell at the utopia level.