DE3112766A1 - Computer system - Google Patents

Abstract

Computer system consisting of at least one work station computer and at least one data computer connected thereto and also of at least one memory unit connected to the latter. Between the work station computer and the data computer, at least one link computer is connected which is permanently connected to a particular number of work station computers, a separate input and output buffer in each case being allocated to each work station computer and the data computer being connected via an output of the link computer.

Description

Computer system

The present invention relates to a computer system consisting of at least one workstation computer and at least one connected to it Data computer and at least one storage unit connected to it.

Computer systems of the type described above are already known. In these systems, the workstation computer has its own intelligence, the means that it has storage capacity and is built using microprocessor technology, so that this workstation computer already has its own program control and in this respect represents a relief for the central data computer. However, remain the central data computer still has a large number of functions, such as the line control when connecting a larger one Number of workstation computers, creating the queue, searching for and storing program blocks or Information modules. Should still be acceptable in such a known system Editing resp.

Waiting times for the respective workplace must be achieved very powerful, large and therefore very expensive central data computers are used which are also maintenance-intensive and no longer controllable for the user will. In addition, they have the disadvantage that if the central Data computer the entire system is no longer ready for use, so that it is necessary i # t to connect another expensive central data computer in parallel, if the risk of failure is to be kept low.

The present invention is now based on the object of a computer system of the type described at the outset in such a way that without reducing the availability of data high reliability with reduced system costs and a large variety of systems, combined with very fast processing times.

According to the invention this is achieved in that between the workstation computer and the data computer is connected to at least one connection computer which is connected to a certain number of workstation computers is permanently connected, with each workstation computer a separate input and output memory is assigned to each and the data computer is connected via an output of the connection computer. By this invention System structure will deal with tasks that previously fell to the central data computer the connection computer with its own intelligence, i.e. memory space and microprocessor control, in particular the line control and if the output is expediently buffered. This results from the interposition surprisingly no longer computer times with an additional computer level, because due to the input and output memory per workstation connection parallel data processing in relation to the workstation computer on the connection computer is possible, so that there are practically no waiting times. This effect was but not to be expected without further ado, because basically every additional Computer between workstation computer and data computer increase the computer time. Farther becomes a further possibility which is not readily apparent to the person skilled in the art created, namely that of building a so-called twin system, that is, the possibility of parallel connection of connection computers and / or data computers, This ensures a high level of failure safety both in the connection computer level and in the data computer level is achieved and also the possibility of practically any extension is given with the same system modules, so that there is a modular principle. This, however, opens up the possibility of variation significantly improved, with significantly reduced investment costs. Because Inexpensive small individual modules can be used in the connection computer level and the data computer level can be used. Due to the system-related division and parallel Processing of the flow of information from the workstation computer to the data computer and back there are no additional waiting times.

Advantageous embodiments of the invention are set out in the subclaims contain. On the basis of the exemplary embodiments shown in the accompanying drawings the invention is explained in more detail. They show: FIG. 1 a basic view of the structure of a computer system according to the invention, FIG. 2 shows a basic representation of the structure a connection computer according to the invention, FIG. 3 shows an expansion stage of the computer system according to FIG. 1, FIG. 4 a further expansion stage of the computer system according to FIG. 1.

As can be seen from FIG. 1, there is a computer system according to the invention from a variety of workstation computers 1, 1a, 1b, 1c, 1d .... The number of Workstation computer 1 ... is practically arbitrary because the system according to the invention is modularly expandable. The workstation computers 1, 1a, 1b are with a own storage equipped with a preferred storage volume of 64 to 80 rpyte and are equipped with so-called CPUs (central processing units), the microprocessors include. As shown in Fig. 3, these workstation computers 1, 1a ... for example part of a screen terminal 2, 2a, 2b, 2c ... with an input keyboard be.

The outputs of the workstation computers 1, 1a ... are with the inputs connected by so-called connection computers 3, 3a, 3b, 3c ... The connection the workstation computer 1 with the connection computers 3 is a parallel connection at a maximum distance of 60 m between workstation computers and connection computer or designed as a serial connection for longer distances. However, it can also be a mixed system of parallel and serial connections being constructed. The connection computers 3 are distinguished by their own intelligence the end. They in turn contain so-called CPUs. From Fig. 2 the more precise results Construction principle of the connection computer 3 according to the invention. These consist of the central computer unit 4, each of which has four input memories on the input side 5 and output memory 6, each with the output of the assigned workstation computer 1 are connected. In the illustrated embodiment of the invention are each four workstation computers 1 connected to a connection computer 3 accordingly. This ensures a high transmission speed. The storage capacity the input and output memory 5, 6 is 4 Kbytes. Through the input and output memory 5, 6 it is achieved that an extremely fast data transfer in both directions, d. H. from and to the workstation computer, so that practical at the workstation computer there are no waiting times. The outputs 7 of the connection computer 3 are buffered, d. H. they have a buffer memory with a storage capacity of 4 bytes. The connection computer according to the invention thus essentially takes over the function line control and buffering. The respective Order checked by the workstation computer in terms of hardware and software (double security). In addition, the required central data and information computer is selected and controlled. The transfer of an order from the workstation computer is monitored. at a failure of the data computer will affect the workplace communicated.

The buffered outputs 7, FIG. 1, are connected to a data computer 8 connected in a direct computer connection, which does not affect the data transfer by the connection itself and thus the transmission speed of the Computer speed.

Computers with a working memory are preferably used as the data computer 8 from 64 to 80 KByte used with CPU units in microprocessor technology. These Data computers 8 take over the formation of the queue and contain the programs for example for loading, processing and saving the data or data blocks. The data computer 8 can be used in a known manner to store the data, for example Disks, floppy disks, or tape units.

As can be seen from Fig. 2, it can be useful if a connection computer 3 is connected with its outputs 7 to separate different data computers.

This is recommended when certain data are required for security reasons are to be saved twice (redundantly). This can be the second or third data computer 8 on the storage media of the other, first data computer or second data computer and vice versa. With simple programming This can mean orders that are faulty or defective by a data computer have not been carried out, can be done automatically by the second data computer.

Instead of a second and / or third data computer 8, a central printing computer 8a can also be connected. This can do all printouts and save lists that are output centrally by the workstation computer 1. On the screen of the operator who is responsible for the central print output is then displayed which lists, on which paper, with how many copies, with which priority and with which print format should be output. Simultaneously the operator is informed to whom the printed forms and lists are sent Must and may be handed over (data protection).

A computer 8b can also be connected.

This is for central communication with computers from other hardware manufacturers intended.

As shown in Fig. 3, the present invention also allows a so-called Twin operation in the connection computer level, so that two connection computers 3, 3a operated in parallel for a certain number of workstation computers 1, la, 1b, 1c be, that is, each workstation computer 1 is each with two connection computers 3 connected, so that if one connection computer fails, its function of can be taken over by the second backup connection computer connected in parallel. This second replacement connection computer is on the output side with the same data computers connected like the first connection computer.

4 shows a further embodiment of the computer system according to the invention shown. This enables practically any expansion of the Storage units, Disk storage or the like, formed storage volume. It is provided that that at one of the outputs 7 of the connection computer 3, another connection computer 11 is connected, its outputs 7 like the outputs 7 of the connection computer 3 each connected to separate data computers and connected storage units are. By connecting a further connection computer to the connection computer 11 12 and to this in turn a further connection computer 13 etc. connected accordingly the storage capacity of the data memory can be almost arbitrarily in the simple The modular principle can be expanded without affecting the computer and access times change.

The advantages of the computer system according to the invention therefore exist in the fact that this system ranges from a single-user system to a large-scale computer system Any size and storage capacity can be expanded in one simple modular construction principle, which in addition to extremely low investment costs a maximum of flexibility can also be achieved. In addition, one Extension of the system, no hardware change and no software change either necessary.

Claims (10)

Requirements: flechnersystem, consisting of at least one workstation computer and at least one data computer connected to it and at least one memory unit connected to this, d a u r c h g e n n n z e i c h n e t that between the workstation computer (1) and the data computer (8) at least a connection computer (3) is connected, which is connected to a certain number of workstation computers (1, ia, lb, lc ...) is permanently connected, with each workstation computer having a separate Input and output memory (5,6) is each assigned and the data computer (8) is connected via an output (7) of the connection computer (3). 2. Computer system according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that each connection computer (3) with four workstation computers (1,1a, lb, 1c) is connected and the output (7) has a buffer memory. 3. Computer system according to claim 1 or 2, d a d u r c h g e k e n n it is clear that each connection computer has several, in particular four, buffered Has outputs and each of these outputs (7) is connected to another data computer (8) is. 4. Computer system according to claim 1 or 2, d a d u r c h g e k e n n it is clear that each connection computer has several, in particular four, buffered Has outputs (7) and one of these outputs (7) with another connection computer is connected, at its buffered outputs data computer and / or connection computer are connected. 5. Computer system according to one or more of claims 1 to 4, d a d u r c h g e k e n n n z e i c h n e t that each connection computer (3) a replacement connection computer is connected in parallel with the same workstation computer and data computers such as the connection computer (3) is connected. 6. Computer system according to one or more of claims 1 to 5, d a d u r c h g e k e n n n z e i c h n e t that the workstation computer (1) at his Input is connected to a display device with an input keyboard. 7. Computer system according to one or more of claims 1 to 6, d a d u r c h g e k e n n n z e i c h n e that the workstation computer at its entrance connected to a cash register or optical reader. 8. Computer system according to one or more of claims 1 to 7, d a d u r c h e k e n n n z e i c h n e that the workstation computer has an 80 KByte Owns RAM. 9. Computer system according to one or more of claims 1 to 8, d a d u r c h g e k e n n n z e i c h n e that the workstation computer (1) with the connection computers (3) connected in parallel and / or in series. 10. Computer system according to one or more of claims 1 to 9, d u r c h e k e n n n z e i c h n e that the connection computer (3) with the data computer (8) are directly connected.