SU1005047A1 - Input/output channel microprogram control device - Google Patents

Description

The invention relates to computing, in particular, to devices for the exchange of electronic computers with external devices.

A device for communicating a digital computer with external devices is known, comprising a memory unit, a non-volatile memory unit, a communications register, a switch, an address generator, an encoder, a Cll synchronizer. The device for connecting with subscribers is the closest to the one. Long-term memory, address register, register, wok register, readiness register, initial start-up unit, elements by number of subscribers, OR element, switch, device inputs and outputs, 2.

This device does not provide storage for constants that are required in many exchange systems. The constants, for example, can be fixed addresses of operative data, control over the word of external devices, information for progressive control. Such a limitation of the functionality of the device degrades its performance in exchange systems using a constant.

The purpose of the invention is to improve the performance of the device.

The goal is achieved by that in the firmware I / O control channel controller containing the address modifier, the microinstruction address register, the block is constant

10 memory Microprogram, microinstructions register, decoder, information input of which is connected to the control output of the microinstruction register, hepvy address output of which is connected to

, 15 by the first input of the address modifier, the second input of which is connected to the control input of the device, and the output - to the information input of the microinstruction address register, which controls

The 20 input of which is connected to the first clock input pulse of the device, the output of the microprogram permanent memory unit is connected to the information input of the microinstructions register, the second

The 25 clock input of the device is connected to the control input of the microcommand constant memory block, the first output of the decoder is connected to the control to the other output of the device,

30 additionally entered the regeneration register. Address, the regeneration control trigger, the block of elements OR, the constant selection trigger, the register of constants, the information input of the register of constants connected to the output of the constants of the microinstructions register, the output of the identifier of the sampling constants of which are connected to the installation input of the trigger of the sampling constants, the output of which is connected to the control input to the register of constants, the output of which is connected to the information output of the device, the zero output of the trigger sampling constants Connected to the control input of the decoder, the second output of which is connected to the control input of the address regeneration register, whose information input is connected to the second address output of the microcommand register, the output of the regeneration control trigger is connected to the first input of the OR element block, the second input of which is connected to the information output of the register addresses of microinstructions, the output of the attribute of the constant of which is connected to the installation input of the regeneration control trigger, the control input of which is connected to the first input of clock signals x pulses of the device, the output of the register of address regeneration is connected to the third input of the block of elements OR the output of which is connected to the address input of the block of the permanent memory of the microprograms, the third input of the clock pulses of the device is connected to the control input of the trigger sampling trigger.

 The drawing shows a functional diagram of the firmware of the I / O channel control device,.

The microprogram I / O channel control unit contains the address modifier 1, the micro-command address register 2, the address regeneration register 3, the regeneration control trigger 4, the OR block 5, the microprogram memory 6, the micro-command register 7, the decoder 8, the sampling trigger 9 constants, register 10 constants.

The operation of the I / O channel control firmware is performed as follows.

The micro-command address receives the first input of the address modifier 1, the second input of which receives channel status information. OR and, if address regeneration is not required, from the output of trigger 4 of the control regeneration is sent to the first input of block 5 of the elements OR

the signal for resolving the passage of the microcommand address to the first input of the block 6 of the permanent memory of the microprograms. Then, according to the clock pulse TZ, the information corresponding to this address is selected from the block of the microprogram permanent memory and is recorded in the micro-command register 7, the outputs of which are decoded by the decoder.

Suppose that in register 7. microinstructions nasoditsa microinstruction, after which, the constant, not the microinstruction, should be chosen from the block 6 of the long-term memory of the microprograms. In the course of execution of this micro-command, information from the output of the register of 7 micro-commands arrives on the I register. 3 of the regeneration of the address and entered there by the appearance of a control signal, which comes from the first output of the decoder 8 to the input of the register 3 of the regeneration of the address. This information is the address (or part of the address) of the microcommand that is executed after selecting the constants. Then, information from the third output of the register 7 micro-instructions is fed to the first input of the trigger 9 of the sampling of constants, in which it is stored after the appearance at the second input of the clock pulse T1. This information is a constant sampling identifier. The address of the constant comes from. register output 7 of microinstructions at the first input of the address modifier 1 and the address of microinstructions is entered in register 2.

Thus, / at a given time in register 2 of the micro-command addresses is the address of the constant, and in register 3 of the regeneration of the address, the address is the address (or part of the address) of the micro-command following the constant.

The tracker 4 in the direction of regeneration recognizes the address of a constant and remembers priEn constants. The address of the constant from the register 2 of the microinstruction addresses through block 5 is fed to the input of the block of the permanent memory of the microprograms. After the occurrence of the clock clock pulse TZ, a constant is selected at the input of the fixed memory block of the microprograms and stored on register 7 of microcircuits. The trigger 9 of the sampling of constants generates a decoder 8 on the input, a signal to prohibit the decoding of the outputs of the register of 7 micro-instructions, and a tesgant to the input of the register 10 - a signal to enable reception of information from the outputs of the register of 7 micro-instructions. The constant is stored in the register of 10 constants and comes from there to other devices of the channel.

Thereafter, the constant identifier in the trigger 9 of sampling constants is reset. In register 7 of micro-instructions, together with the constant, a part of the address of the next micro-command can be stored, which goes to register 2 of the address of micro-instructions. Thus, in a given MONffiHT of time, in register 2 of the micro-instruction addresses, there is either a part of the address of the next micro-command or information that is part of a constant and is not related to the address of the next micro-command. Accordingly, in register 3 of the regeneration of an address there is either part of the address of the next micro-command that complements the contents of register 2 of the micro-command address to the full address, or the entire address of the next micro-command. The trigger 4 of the regeneration control generates a permission signal for simultaneous passage of the signals b of the outputs of the register 2 microcommand addresses and register 3 of the regeneration of the address through block 5 so that the full address of the following microcommand arrives at the input b of the permanent memory module. After sampling the microcommands at this address, the indicator of the constant in the regeneration control trigger 4 is reset and the re-QQT channel control device is reset to the original operation mode. Using the new regeneration control trigger 4 blocks, address regeneration register 3, block 5, constant trigger 9, 10 register constants is advantageous This firmware I / O channel control device differs from the prototype, since the same firmware control device is operated in two modes: the mode of the firmware control device and the mode of the hardware control device, which allows, by expanding the functionality of the device, to increase the efficiency of the exchange systems. The increase in efficiency is seen, for example, in increases in productivity as the exchange system and in the overall computer increase in the flexibility of the control device, which makes it possible to simply change the fixed memory module of the microprograms to change the exchange pattern, but and I oftfAty and content of constants o (4en. Formula of the invention I / O channel control firmware / containing address modifier, microinstructor address register, microprogram memory constant register, microinstructor register, decoder, information the course of which is connected to the control output of the microcool register; the first address output (which is connected to the first input of the address modifier, the second input of which is connected to the control input of the device, and the output to the information input of the microcommand address register, the control input of which is connected to the first clock input device pulses, the output of the block of permanent memory of microprograms is connected to the information input of the register of microinstructions, the second input of the clock pulses of the device is connected to the control input of the block after About this micro-command memory, the first output of the decoder is connected to the control output of the device, characterized in that, in order to improve performance, it contains an address regeneration register, a control trigger — a regeneration, a unit of constant constants, and an information the input of the register of constants is connected to the output (The constants of the register of microinstructions, the output of the identifier of the sampling constants of which is connected to the installation input of the trigger sampling, the constant whose single output is connected the control input of the register of constants, the output of which is connected to the information output of the device, the zero output of the sampling trigger of the constants is connected to the control to the network input of the decoder, the second output of which is connected to the control of the input of the register of the regeneration of the master, the information input of which is connected to the second address output of the register of micro-commands, the output of the regeneration control trigger is connected to the first input of the block of elements OR, the second input of which is connected to the information output of the microinstruction address register, the output the constant attribute of which is connected to the setup input of the regeneration control trigger, the control input of which is connected to the first clock input of the device, the output of the register of address regeneration of connections to the third input of the Element block OR the output of which is connected to the address input of the microgroup memory. nporpai M, the third clock input of the device is connected to the control input of the trigger sampling constants. Sources of information taken into account during the examination. 1.. USSR author's certificate I 5E1850, cl. G 06 F 3/04, 1976. 2. USSR Copyright Certificate 504199, cl. G 06 F 3/04, 1974 (prototype). . .

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Claims (1)

Formula of the invention A microprogram device for controlling the input / output channel ₍ containing an address modifier, micro-address register, micro-program permanent memory block, micro-register, decoder, the information input of which is connected to the control output of the micro-register, the first address output (which is connected to the first input of the address modifier, second the input of which is connected to the control input of the device, and the output is with the information input of the micro-command address register, the control input of which is connected to the first clock input the pulses of the device, the output of the permanent memory unit of the microprograms is connected to the information input of the micro-command register, the second input of the clock pulses of the device is connected to the control input of the permanent memory of the micro-commands, the first output of the decoder is connected to the control output of the device, characterized in that, in order to increase productivity, it contains a register of address regenerations, a control-regeneration trigger, a block of OR elements, a trigger for selecting constants, a register of constants, and the register information input to nstant connected to the output of microinstruction register constants sample identifier constants whose output is connected to the adjusting input of the flip-flop sampling constants; whose single output is connected to the control input of the constant register, the output of which is connected to the information output of the device, the zero output of the constant sample trigger is connected to the control input of the decoder / whose second output is connected to the control input of the address regeneration register, the information input of which is connected to the second address output microcommand register, the output of the regeneration control trigger is connected to the first input of the OR block, the second input of which is connected to the information output of the reg micro command address, the output of the constant sign of which is connected to the installation input of the regeneration control trigger, the control input of which is connected to the first input of the device clock pulses, the output of the address regeneration register is connected to the third input of the element block OR ¹ whose output is connected to the address programmed, the third input of the clock pulses of the device is connected to the control input of the trigger sample constants.