SU736082A1 - Information input arrangement - Google Patents

Description

one

The invention relates to computing technology and can be used in systems for processing experimental results, where redistribution of the operational and buffer memory is required depending on the priority of the modes of operation of the information processing system and the intensity of the incoming information flow for processing.

In the existing information processing systems, data is entered through a buffer memory, which is part of the operational memory. In such systems, the required amount of buffer memory is determined by the maximum complexity of the program and has a fixed value, which leads to a decrease in the efficiency of hardware utilization. It is known that the flow of incoming information for processing may have a variable intensity, determined by the nature of the experimental studies conducted. In the case of a minor

No value of the intensity of the information stream is part of the buffer memory is not used. If the intensity of the incoming information flow increases, a buffer memory overflow and information loss are possible.

The implementation of several operating modes in the existing information processing systems is impossible due to the absence of memory hardware.

ten

Known devices for input-output information that can be used in information processing systems ij. Such devices have low performance due to lack of

15 in them adaptability to changes in the intensity of the incoming flow when entering information. Therefore, the use of these devices in information processing systems when conducting experimental

20 studies are not effective.

Claims (2)

The closest in technical essence to the invention is a device for input-output of information containing a deflector, a compiler of exposure pages, Mj elements of the main pЕ) ™ gist address 8 auxiliary register of the address buffer storage device, information input unit, control unit, block of input signals Sj. Such a device allows storing a significant amount of information in a holographic random access memory, but it does not allow to effectively implement the mode of the information processing system. uu when ex- "experimental investigation Hae This device nechuvstvitethno to change the incoming information flow intensity obrabotkug saizheniyu that leads to its operating speed and productivity in the processing system of the invention tselomv Chain - povshsh1she fast acting device. The goal is achieved by the fact that, in a device for entering information, containing serially connected interface blocks connected through a buffer storage to an electronic-optical converter, a control unit downwards connected to a buffer storage unit, an address modification block two elements of coincidence, one way which are connected to the control unit 5 and the others to the address modification block, the reflector and the holographic memory block connected to the deflector and the control block, are additionally entered summing and subtracting Their inputs are connected to the interface unit and the control unit, the switch, the inputs of which are connected to the cyMvQip, yTO and subtraction meter inputs, and two address registers, which are connected to the output of the switch and the control unit, and the outputs are connected c (holographic memory block The drawing shows the basic circuit diagram of the device. It contains deflector 1, electron-optical converter 2, block. 3 holographic memory, elements 455, match buffer register 6, 7s8 registers, addresses, switch &; f score Summing Sum, Counter Ivychitayuschy, Address Modification Block 12 Control Block 13 Interface Block The device works as follows: On request for input from Block 14 CoMer {initial information input page, Block 13 Control generates 2 address exchanges, in kg The mountain triggers of the address modification block 12 are set to the hilarious state,. After the information has been received, in the Bfer accumulation of El 6 and the formation of the information in the optical form in the electron-optical converter 2, the initial information will be registered by the command Entering from the control unit 13 by 1glevo1 to the 1st address in block 3 of the holographic. ti. The address code of the input page is generated by the address modification block 12 and elements of 4.5 matching and fed to the control by the deflector Is. After the first entered information page is registered, the address modification block 12 from the control block 13 receives a signal. It will change the state of the trigger triggers of the address modification block 12 In this case, the laser beam will be decrypted by the addressing device, and the next page of information will be registered to the first address. In the subsequent registration of the pages will be similar. By command of address exchange at the same time with the flow of incoming information in the block 14, the mappings produce sympulses. The frequency of the sync pulses is fushchaschie. Setting the sum of 10 and 10 subtractors 11 counters to the initial position by means of pulses coming from the control unit 13 to the first inputs of the counters. In the initial state and-s, the counting counter 1O has Ignits and the deducting counter 11 the maximum amount of information . In the process of entering information, counters 10 and 11 always keep in total a constant number, reflecting the maximum possible amount of information that is used. This allows the hardware to control the process of entering information depending on the change in the intensity of the data flow. 9 connects the outputs of the total of the lean 10 and the outstanding 11 counters, respectively, to the address registers of the first 7 and second 8, which are addressing 5t3 volumes of the buffer and main random access memory. The address registers of the first 7 and second 8 carry out a dynamic redistribution of the buffer and main random access memory in block 3 of the hodographic memory. If the intensity of the information flow received for processing tends to increase, then in block 13 control compares the frequency of clock pulses with the frequency sync pulses. In this case, summing counter 10 performs summation, and subtracting counter 11 - subtracting sync pulses. From the counters, the pulses go through the switch 9 to the registers of the address of the first 7 and second 8. During the device operation, changing the state of the counters 1O and 11 will determine the change of addressing of the address registers 7 and 8, which will dynamically redistribute the buffer and main RAM. The generated address is transmitted to block 3 of the holographic memory by a command from block 13 of control. In this case, the volume of the buffer memory will increase with, and the main operational memory will decrease, which leads to the effective use of block 3 of the holographic memory in various processing modes information. If the flow rate has decreased, then from block 13 the impulses of installation of the counters arrive, which return I.X. to the initial state, i.e. the summing counter 10 has the minimum, and the subtracting counter 11. has the maximum amount of information. The switch 9 switches the counter 10 to the second input of the address register 8, and the counter 11 to the second input of the register of the address 7,: In this case, the volume of the buffer memory will decrease and the volume of the main random access memory will increase. This allows in the process of conducting experimental studies to effectively combine the overwrite mode, the information received at the input through the buffer memory of the unit 3 of the logographic memory on the external drives of the computers to the multiprogramming mode of users. The use of summing and queuing counters, commutator, address registers favorably distinguishes the proposed device from the known solutions, since it allows obtaining a higher device performance due to its adaptability to changes in the intensity of the information flow received for processing, which eliminates the possible volume overflow buffer memory and information loss. In addition, by using the device's Baffle, in information processing systems, it is possible to simultaneously efficiently implement information rewriting modes on external drives and microprograms of users ’work due to dynamic reallocation of buffer and main random-access memory. Formula for injecting information containing serially connected interface unit connected through the buffer storage to the electro-optical converter, the control unit connected to the buffer storage,. an address modification unit, two coincidence elements, one inputs of which are connected to a control unit, and others to an address modification unit, a deflector and a holographic memory unit connected to the deflector and a control unit, characterized in that, in order to increase speed, into the device additionally introduced are summing and subtracting counters, whose entries are connected to the interface unit and control unit, a switch whose inputs are connected to the output of the summing and subtracting counters, and two address registers whose input and output are to unto passages connected to the switch and to the control unit, and the outputs are connected to unit holographic memory Istochsh1ki information received note in the examination 1. Copyright certificate USSR № 481033f Cl, G 06 F 3/02, 01,08.73. 2., USSR Author's Certificate 525077, class, G 06 F 3/02, 03.01,75 (prototype).