WO2005116829A2 - Data processing device - Google Patents

Abstract

The invention relates to a device (1) and a method for data processing, comprising a transmitter and receiver device (3), which is connected to a data connection (2), for receiving assigned program data (5) that is provided with identification data (4) and for transmitting program data (5) that is provided with identification data (4) to other devices connected to the data connection (2) for data processing, a monitoring device (6) connected to the transmitter and receiver device (3), which has a system clock (7) for storing the time (8) of the system clock (7) depending on the program data (5) of the transmitter and the identification data (4) of the program data (5) in a monitoring memory (9), in addition to a readout stage (16) connected to the transmitter and receiver device (3) and the monitoring memory (9). In order to achieve advantageous monitoring conditions, the monitoring device (6) forms a counting stage (11) for common storage of the numerical value (12) of the time (8) and the identification data (4) in the monitoring storage (9), wherein the numerical value (12) of the counting stage (11) changes depending on the program data (5) of the transmitter and receiver device (3).

Description

Data processing device

Technical field

The invention relates to a device for data processing with a transmitting and receiving device connected to a data connection for receiving assigned program data provided with identification data and for sending program data provided with identification data to other devices for data processing connected to this data connection, with one with the Transmitting and receiving direction connected monitoring device, which has a system clock for storing the time of the system clock and the identification data of the program data depending on the program data of the sending and receiving direction in a monitoring memory, and with a readout level connected to the transmitting and receiving device and the monitoring memory ,

State of the art

In order to be able to track the processing sequence of program data, for example tasks or the results thereof, of devices which exchange program data via a data line, it is known from the prior art to provide a monitoring device in such a device, which monitors the data transfer via the respective transmission and Receiving device monitors or logs. Namely, in that when program data occurs, the identification data of the program data together with the system time of a system clock of the device are stored in a monitoring memory. In this way, it is possible to understand exactly when a device received the order to process program data or returned the results of such a process. For this purpose, such devices also have a readout level with which the data of the monitoring memory can be accessed. However, it has now been found that such monitoring only makes sense if the system clocks of the devices run the same. Differences in the time of the various system clocks lead to states in which the chronological sequence of data processing can no longer be conclusively established. For example, subsequent system clocks cause the received program data to be viewed as younger than it actually is. Therefore, complex procedures for synchronizing the system clocks have to be carried out in order to rule out deviations in the system clocks as well. However, deviations between the times of the synchronization cannot be ruled out, so that such devices are only suitable for monitoring program data to a limited extent. In addition, such devices have the disadvantage that such a comparison is comparatively complex in the case of a large number of devices connected to a network, which in particular affects the performance in the processing of program data.

Presentation of the invention

The invention is therefore based on the object to provide a structurally simple device for data processing and a method of the type described above, with or without which a system clock of the device has to be synchronized, a precise monitoring of the processing of program data can be ensured.

The invention achieves the stated object with regard to the device in that the monitoring device forms a counter stage for storing the numerical value in the monitoring memory together with the time and the identification data, the numerical value of the counter stage changing as a function of the program data of the send and receive direction.

The monitoring device forms a counter stage for storing the numerical value in the memory together with the time and the identification data Monitoring memory, the numerical value of the counter level changing depending on the program data of the send and receive direction, the sequence of data processing between the respective devices can be followed independently of the times of the system clocks. Compared to the prior art, the system clocks therefore do not have to be synchronized, which leads to higher performance, since no computing time has to be made available by the computing unit of the device. If the sequence has been created with the aid of the identification data and the numerical values from the monitoring memories of the devices, the associated times can be used to create a chronological sequence taking into account any deviations in the system clocks.

If, before the program data provided with identification data is sent by the transmitting and receiving device, the monitoring device is connected to the sending and receiving direction to supplement the identification data with the numerical value of the counting stage, the devices can be informed of the current numerical value. It is now also possible to adapt your own numerical value to the counter level when receiving program data. For this purpose, the monitoring device acts on the numerical value of the counting stage with the received numerical value as a function of the numerical value received with the identification data and the numerical value of the counting stage. This is necessary, for example, if the numerical value of the device is smaller than the received numerical value, which would otherwise disrupt the chronological sequence of the numerical values.

The invention achieves the stated object with regard to the method in that the data packet is supplemented with a numerical value of the device in order to deduce a chronological processing sequence, the numerical value changing during the respective processing of program data.

By supplementing the data packet with a numerical value of the device, the data packet has two mutually independent variables, namely on the one hand data on the time and numerical value data. Position of all data packets with the same identification data, a processing sequence of program data can be produced in spite of unevenly running system clocks of the devices. It only has to be ensured that the numerical values also change each time program data is processed, so that there is an order with regard to the numerical values. The system clocks of the devices can thus differ from one another - a chronological sequence of processing the program data can nevertheless be created on the basis of the numerical values and the time of the data packets. The manner in which the numerical values are to be ranked according to their size is not relevant to the invention. It only has to be ensured that an order can be deduced by reading out the numerical values. It is irrelevant whether numerical values and / or other data are used, only a sequence needs to be known.

If a size comparison between the own numerical value and a received numerical value of the program data is carried out before the data packet is supplemented and, depending on this size comparison, the numerical value of the device is replaced with the numerical value of the received program data, the device's own numerical value can be adapted when receiving program data. This ensures that when program data is transmitted, the last numerical values matching the identification data are taken into account when creating further data packets. The sequence of the numerical values of the data packets is thus preserved even with different numerical values of the devices.

Brief description of the drawing

In the drawing, the subject matter of the invention is illustrated, for example, using an exemplary embodiment. Show it

Fig. 1 shows an inventive device for data processing in a schematic block diagram and FIG. 2 shows a time flow diagram of the monitoring of data processing between two devices designed according to FIG. 1 according to the invention.

Way of carrying out the invention

According to the device 1 for data processing according to the invention, for example shown in FIG. 1, the device 1 consists of a transmitting and receiving device 3 connected to a data connection 2. Via this transmitting and receiving device 3, the device 1 is processed, among other things, and with identification data 4 allocated program data 5, and this device 1 also sends program data 5 provided with identification data 4 to other devices 1 connected to this data connection 2. Furthermore, the device 1 has a monitoring device 6 connected to the transmission and reception direction 3. This monitoring device 6 is connected to a system clock 7, the time 8 of which is stored together with the identification data 4 in a monitoring memory 9 in the form of a data packet 10. In order to be able to neglect deviations of the system clocks 7 between the connected devices 1, the monitoring device 3 forms a counter stage 11 for storing the numerical value 12 in the monitoring memory 9 together with the time 8 and the identification data 4, the numerical value 12 of the counter stage 11 being different changed depending on the program data 5 via the send and receive direction 3. If program data 3 is now received or transmitted, the counter 11 increases its numerical value 12 by one, which can be seen in particular in FIG. 2.

2, the sequence of a data transmission between two devices 1, namely between I and II, or the method according to the invention is shown in simplified form. 2 shows that the device I with its send and receive direction 3 sends program data 5 to the device II at 11:00 a.m. according to its system clock 7. This event is recorded in the monitoring memory 9 of the device I as a data packet 10 from identification data ten 4 (CalMO), time 8 (11:00) and numerical value 12 (101) saved. Subsequently, a further event takes place in the device I via the send and receive direction 3, the numerical value 12 of the data packet 10 created thereby differing from the above data packet 10 by one. Device II receives the job from program data 5 with identification data 4 at time 8 (10:50) according to its following system clock 7 and enters this event into monitoring memory 9 with the aid of its monitoring device 6, similarly to device I. The relevant data packet 10 of the device II in the monitoring memory 9 thus consists of the identification data 4 from the device I, the time 8 of the device II and the numerical value 12 (1001) of the counter stage 11 of the device II, previously based on the event about the transmission and receiving device 3, the counter 11 increased the previous numerical value 12 by one. The control stage 13 of the device II, which can be seen in particular from FIG. 1, reads the program data 5 with the identification data 4 from the send and receive direction 3 and stores this data in a program memory 14 of the computing unit 15 of the device 1. Depending The control device 13 is then assigned the program data 5 one after the other to the computing unit 15 for processing. According to FIG. 2, the resulting program data 5 are available according to the system clock 7 of the device II at the time 8, namely at 11:30. This program data 5 resulting as a result of the program processing of the device II is then sent from the control stage 13 to the device I via the transmission and reception direction 3 of the device II. If one now wants to trace this sequence, the monitoring memories 9 of the devices I and II only have to be accessed via a read-out stage 16 and the data records 10 matching the identification data 4 have to be read out. The chronological sequence according to the time 8 shows that CalM O first occurred at 10:50 in the device II, which was caused by the subsequent system clock 7 in the device II. According to the prior art, a chronological sequence of program processing could therefore no longer be created. According to the invention, however, the sequence is created on the basis of the numerical values 12 of the data packets 10 of the monitoring memory 9, so that the time of day 8 to create the sequence of program processing can be omitted. However, the times 8 can be used to create the chronological sequence or to take account of deviations in the system clocks 7 when creating the chronological sequence. Compared to the prior art, the system clocks 7 of the devices 1 therefore do not have to be synchronized with one another, which allows particularly high processing speeds of program data. It only has to be ensured that the numerical value 12 of the counter stage 11 of the device II is always of higher value than the numerical value 12 of the counter stage 11 of the device I. Which can be made comparatively simple on the basis of a predetermined, high value difference.

However, in order to be able to ensure that the numerical values 12 of the various devices always form a chronological sequence with regard to specific identification data 4, the monitoring device 6 of the device II connects to the transmitting and receiving direction 3 for supplementing the identification data with the numerical value 12 of the counting stage 11. This, of course, before sending program data 5 to the device I connected to the data connection 2. The monitoring device 6 of the device I then only has to read out the received numerical value from the program data 5 of the transmission and reception direction 3 and by means of a comparison, for example via a comparison unit, the own numerical value 12 with the received numerical value uses the maximum of the two numerical values. In this case according to FIG. 2, the own numerical value 12 (102) is rejected and the received numerical value (1003) is used further, which in turn ensures a chronological sequence. However, the numerical value 12 must be increased by one by the event of receiving program data 5 before this numerical value 12 can be used further.

It is also conceivable to use a numerical value of a second counter instead of the time 8, which has a dependency on the time 8 of the system clock 7.

Claims

Patent claims

1. Device (1) for data processing with a transmitting and receiving device (3) connected to a data connection (2) for receiving assigned program data (5) provided with identification data (4) and for sending program data provided with identification data (4) (5) to other devices for data processing connected to the data connection (2), with a monitoring device (6) connected to the transmission and reception direction (3), which monitors a system clock (7) for one of the program data (5) of the transmission and receiving direction (3) dependent storage of the time (8) of the system clock (7) and the identification data (4) of the program data (5) in a monitoring memory (9), and with one with the transmitting and receiving device (3) and the Monitoring memory (9) connected reading stage (16), characterized in that the monitoring device (6) has a counter stage (11) for a with the time (8) and the identification data (4) joint storage of the numerical value (12) in the monitoring memory (9) forms, the numerical value (12) of the counter stage (11) depending on the program data (5) of the send and receive direction (3).

2. Device (1) according to claim 1, characterized in that before the transmission of the identification data (4) provided program data (5) by the transmitting and receiving device (3), the monitoring device (6) with the transmitting and receiving direction (3rd ) to supplement the identification data (4) with the numerical value (12) of the counter stage (11) and that the monitoring device as a function of the numerical value received with the identification data (4) and the numerical value (11) of the counter stage (12) ^■ -

Numerical value (11) of the counter stage (12) is acted upon by the received numerical value.

3. Method for monitoring the processing sequence of program data from at least two devices connected via the transmitting or receiving device, in each of which a data packet is created in the monitoring memory of the respective devices if this device processes one of its own program data or one of the program data received from other devices, wherein the data packet has identification data of the processed program data and a time of the system clock of the device, characterized in that the data packet (10) is supplemented with a numerical value (12) of the device for inferring a chronological processing sequence, the numerical value (12) being the respective one Processing of program data (5) changed.

4. The method according to claim 3, characterized in that before a supplement to the data packet (10) a size comparison between the own numerical value (12) and a received numerical value of the program data (5) is carried out, and that depending on this size comparison of the numerical value (12 ) the device is replaced with the numerical value of the received program data (5).