DE19704855A1 - System for establishment and operation of a data processing system - Google Patents

Abstract

The data processing system has a flexible structure in which a multiplicity of modules can be functionally coupled and changed to suit an application . The process requires the initialisation of the modules through defining interfaces. This is followed by definition of all possible functional elements together with a tree structure for management of the element.

Description

The invention relates to a method for operating data processing plants according to the preamble of the claim 1.

The methods of linking available so far of modules are based on the following options. On the one hand the modules can be linked statically. This can either by a hardware-technical link (fe wiring, chip technology) or by a Link in the form of a compiled program. On the at a command code with an interpreter for the Be made available from the general instructions created the desired link.

So far, there are no techniques in which the modules use ei gene names are managed.

The object of the invention is a method of e. G. Kind of like that to design that links between the modules effec done more easily and the modules can be accessed more easily can.

This task is solved by the characteristics of the Pa tent claims 1. The sub-claims describe advantageous Refinements of the process.

The particular advantages of the invention are that the provided on a data processing system Modules linked together with a simple command code can be. This saves processing times when processing data processing systems where changes are frequently made Need to become. The modules are by the freely selectable name, which is contained in the command code, addressable. In this way can be easily accessed without further In  formation about the linking of the different modules under each other is necessary. The developer also needs from the underlying technology, d. H. from linking the Mon Do not know anything to use the procedure. This leads to the fact that the frequency of errors in the development is clear diminishes.

The invention is explained below with reference to two examples of execution with the help of the figures. The Figures 1 2 and 3 each shows. A general tree structure and the Fig., A data processing system having hardware elements, which is operated with the described technique.

The aim of the process is to link given, executable modules that work independently in each other can engage if they have their predefined cut have been linked together. Modules can Ge advise together with their interfaces or hardware components with their interfaces or compiled software construction stones with their interfaces.

By defining link elements, e.g. B. in the form of hardware, modules can be linked together that they interact with each other in their predefined way engage. The use of the link elements enables it to address the individual modules with a name and them link together according to the established principles allow. This way, the links can be made through standardized commands can be controlled. This will make it possible, links detached from the hardware Opportunities to change and shape.

First, a storage structure for managing Spei caching explained using names.  

A word (name) is a sequence of individual memory locations, in which a character is entered (in general 8-bit characters). The storage structure (tree structure) serves to to refer to a memory location with the help of a word save so that by the word on the storage space can be accessed again. Here you can also do simple Use lists of storage locations. With these lists must but you generally know in advance how many entries should be entered to the size of the required to determine the storage space. At the featured tree this is not necessary structurally. It is also particularly ef Efficiently designed for the use of words.

In Fig. 1 a tree is shown with 8 nodes. He knows z. B. the words AXYA, AXYB etc.

• - The tree structure is a framework of storage spaces (Kno ten) related to each other.
• - The storage space is sufficient to store one word at a time Reference to another storage location and a node link save. Using the node list, you can click on a Successor nodes are accessed, with a character as Index is used.
• - At the beginning the tree consists of only one node (the Wur zel).
• - If the first element is entered, then a new button is created ten is generated, the associated word is down to the last Characters stored in the root's word memory and the reference to the new node is made using the last one Character entered in the node list.
• - For each additional element that entered in the tree is started again at the root. The new word  is shown with the words in the nodes and the characters in the Compare node lists until a difference occurs. In the rest of the new word, the ver points to the new node and the included reference registered.
• - The tree structure contains the words used and he knows no other words.
  If a node is searched for a name, then as many nodes as possible are examined as long as the examined name is long. This means that the length of the name determines the duration of the search. If many of the names have the same beginning, they have the same nodes in common. This saves storage space.

Entry of the link elements

A linking element (VE) is a memory area in which Information can be filed. After this information the above modules can be identified linked together according to specified procedures (rules) will. The procedures are identified by special commands graces.

• - In the tree above all VE are under their one clear names filed, so that at a given Na can be checked whether a VE exists for this, and if yes, the reference to the storage location will be returned.
• - If a VE is created (storage location allocation), then it is immediately checked whether it is connected to another VE shall be. This means that under the specified Na the other VE is searched for and then the other VE one Reference to the first VE received. About this entry later the crucial links were established. Wei  Furthermore, the necessary information (parameters) are given at the new VE registered.
• - One of the parameters that are entered is the type of Modules to be generated by the VE. Farther additional parameters are entered that the module change. These parameters make one out of several predefined operating states of the corresponding module allocated. This can be the case with the user interface be forms of z. B. Size, position, color of the user surface elements, or activation, deactivation, Delay in time for peripheral devices (printer, fax, Mon the).
• - One of the VE is by its name unique as the start element predefined.
• - By entering all VE the interactions between determined the VE, d. H. the functionality of the VE is set, d. H. the functionality of the entire ver ties.
• - The start element is searched for when the computer is started and starts executing its links. This means, that the module of the starting element and all modules that are on the starting element are bound to be generated.

Transfer of the command sequence into the VE

• - The command sequence consists of individual command lines.
• - Each command line is converted into a VE.
• - Each command line consists of the following entries
  A unique name is given. This name is used to uniquely identify the associated VE, ie to enter the VE in the tree so that it can be found there again. A module identification code is given, which indicates for the VE which module it should create. At least one parameter is specified which determines the link to another module. This is done by specifying the corresponding name of the associated VE. If this VE exists in the tree structure under the specified name, then the new VE is registered with the old VE. The additional parameters that change the design of the module are transferred to the VE.

Activation of the VE and start

• - The start element is created under the predefined name is looking for.
• - The start element creates the associated module.
• - The VE is searched for, which is entered in the start element are d. H. their modules with the module of the start element tes should be linked.
• - These VE in turn generate their own modules that are connected to the Start element to be passed.
• - The modules are available as compiled interfaces Available (e.g. in ROM).
• - The module belonging to the start element is on finally activated.

Unlike an interpreter solution, the verbin elements connected only once and then to be activated. The modules created interact from then on independently with each other.  

example 1 Operating a data processing system with predefined User interface primitives to create a user surface

User interface primitives must be provided that do the following:
They must have an external appearance, ie an expansion and a frame that is displayed on a screen. Interactions require primitives that can also change their appearance or are available in different appearances that can be interchanged. This includes that these primitives can send out a signal each time they change their state (their appearance). The change in status should be triggered by an input device (e.g. signals from the keyboard).

A main primitive that sends signals is also required and can receive. It should be noted that from the main pri mitiv only those signals are received by primitives that are linked to the main primitive. A designated primary primitive takes over the receipt of one Start and end signals and is the top primitive Available.

According to FIG. 2 reveals the following:

• - The tree structure is hardware implemented.
• - The modules are individual, executable window primitives. she have a type specifier (Id), a shape and one Functionality (type 1, 2, 3,...).  
• - On the one hand, the command text is on a permanent storage medium and secondly, control software that executes the command text reads in and creates and starts in the link elements.
• - The operating system is loaded into the main memory and the control software after starting the operating system.
• - After starting the control software, the command code becomes line read for line and vice versa in the link elements sets that are managed via the tree structure.
• - Starting with the start element, the first window primer tiv (= main primitive) and the dependent modules.
• - The start module is then activated.
• - Should build a window primitive that has not been used before , this is done by being on by his name Shortcut element is accessed, and then the window is generated primitively.

Through the above procedure, the primitives become linked to their main primitive and then continue to interact through their signal exchange. After creating the link the interactions are fixed without the Be bad code needs to be accessed.

If signals from the primitives over the main primitive to Starting implemented routines can result in selectable names of the primitives will. The state can be queried and u. May have changed will.  

Example 2 Operating a data processing system with predefined Memory buffers and functionalities applicable to them, e.g. B. for signal processing or for input-output control

Data modules are provided that have a memory display area of predefined size. Continue to stand Function modules available to which at least one data mo can be bound. The function module has a certain one Functionality (e.g. filtering, Fourier transformation, etc.) and can send out a signal. A main module can receive signals from the function modules receive and receive the start and the End signal.

According to FIG. 3 reveals the following:

• - The tree structure is hardware implemented.
• - The modules are individual, executable function modules: main module, output to the screen, output to the printer, FFT, filter 1, 2,
• - On the one hand, the command text is on a permanent storage medium and secondly, control software that executes the command text reads in and creates the link elements and starts.
• - The operating system is loaded into the main memory and the control software after starting the operating system.
• - After starting the control software, the command code becomes line read for line and vice versa in the link elements sets that are managed via the tree structure.
• - Starting with the starting element, the main module and the dependent modules are generated.  
• - The main module is then activated.

Analogous to example 1, the different modules can be combined which can be linked and implemented as part of Routines are controlled and u. U. be modified.

Claims (3)

1. Method for operating data processing systems in which a large number of modules interact with one another and can be variably linked, characterized by the following method steps:

• a) Provision of the modules by defining interfaces,
• b) defining all possible linking elements that can run without further compilation and that can link the modules together,
• c) Defining a tree structure for managing the link elements, each link element being clearly assigned an element of the tree,
• d) Creating a command sequence composed of at least one command line, a command line being composed of the following components:
• i) a selectable name for one of the modules,
• ii) a module identification code,
• iii) at least one parameter that selects a link according to b) and
• e) Activate the parameterized links.

2. The method according to claim 1, characterized by attributes in the command line, which the parameterized link changes additionally. 3. Use of the method according to claim 1 or 2 for Ver Change of user interfaces.