CS226597B1 - Selective control unit of additional devices of the computer - Google Patents

Abstract

The invention belongs to the field of automatic computers and solves the selection control unit of additional devices of an automatic computer. Its essence is that the universal channel part is connected by a connecting line to a switching block, which is connected by connecting lines to the first inputs of the special parts. The second inputs of the special parts are connected by a connecting line to the universal channel part and further the outputs of the special parts are connected by connecting lines to additional devices. The invention is illustrated in the attached drawing in Fig. 2.

Description

226597 2

BACKGROUND OF THE INVENTION The present invention relates to a selectable control unit for additional computers of the automatic computer with a universal channel portion and a switching block for connecting a plurality of additional devices to the allocated sub-channel of the automatic computer multiplex channel.

The attachment of the attachment to the computers is performed by a control unit. The control unit is a sequential logic circuit that co-operates on the one hand by means of standard signals with the computer's channel and, on the other hand, with an auxiliary device. The control unit may be different for different auxiliary devices, or a control unit with a universal component may be used, e.g. AO No. 163 944 and a special portion, wherein the universal portion is connected to the computer channel through the connection path and the specific portion with the auxiliary device via the exit connection path. The special part together with the universal part form the control unit of the additional device. Thus, the universal part of this control unit allows only one additional device to be connected to automatic computers. Where multiple additional devices are required to be connected to the sub-channel sub-channel of the automatic computer, as many universal control units are required, as many additional devices are required. Since an operation with only one additional device can be elaborated on the assigned multiplex channel sub-channel and it is not possible to elaborate the operation with the second auxiliary device until the processed operation is terminated, the solution is lacking in the necessity of using multiple universal parts of the control units and there is no cure for the operation of multiple additional devices.

The aforementioned drawbacks are eliminated by the selective control unit of the auxiliary computer of the automatic computer consisting of a universal channel part connected by a connecting part of the computer according to the invention, the fact that the universal channel part is connected by a connecting line to a switching block which is connected by connecting lines to the first inputs of the special portions, the second portions of the special portions being connected to the universal channel portion and the further portions of the special portions with the connecting lines connected to the auxiliary devices.

The arrangement of the selection control unit according to the invention has the advantage that only one universal channel part is sufficient to connect several additional devices to the allocated multiplex channel subchannel, in that the switching block allows the attachment of as many additional devices as possible to the allocated one. furthermore, in that the switching block structure allows its modular construction, in that the switching block and the universal channel portion can be used in the control selectable control units for any array of additional devices connected to one allocated subchannel, Furthermore, the selection control unit allows the attachment of an additional device to a fixed subchannel, and in that the reduction of the number and the reproducibility of the electronic and logic circuits in the computer assembly is achieved.

In addition, all the benefits of the universal controllers are retained.

One embodiment of the invention is shown in the accompanying drawings, wherein Fig. 1 is a block diagram of a known method of attaching an attachment to a channel; Fig. 2 is a block diagram of a new method of attaching additional devices to a channel; Fig. 4 is a detailed block diagram of a control block of a universal channel portion of a selection control unit; Fig. 5 is a detailed block diagram of a select control unit switching block.

FIG. 1 is a block diagram of the attachment of an additional device with a universal control unit, where J is a computer channel, 2 is a universal part and is a specific part of the control unit, 2 is an additional device, 6 is a connecting line between the computer channel J. and the universal part 2, 2 is a connecting line between the universal part 2 3. 226597 and Special Part 6, the de-connecting line between the special part 6 and the additional device 2 · ·

FIG. 2 shows an arrangement of a selection control unit according to the invention in a particular embodiment for connecting up to a dozen additional devices to an allocated sub-channel of a computer multiplexing channel, where J is a computer channel, 2 is a versatile channel part of a selection control unit, 2 is the select control unit switching block, 401 to 416 are special parts of the control unit, 501 to 316 are additional devices, 6 is the connecting line between the computer channel V and the universal channel portion 2.71 is the connecting line between the universal channel portion 2 and the special path 401 to 416. The direct-guided signals which do not need to be gated 72 are the connection lines between the universal channel portion 2 and the junction block J, 801 to 816 of the connection lines between the switching block J and the special. The paths 401 to 416 of 901 to 916 are connecting lines between the special compartments 401 to 416 and the auxiliary devices 501 to 516, wherein the universal channel part 2, the switching block J and the special part 401 'form the control unit of the auxiliary device 501. the universal channel 2, the switching block 2a, and the special section 402 form the control unit of the auxiliary device 502 ats, until the universal channel channel 2, the switching block 2 and the special channel 416 form the control unit of the additional device 516.

Fig. 3 is an example of an arrangement of a universal channel portion of a selectable control unit which constitutes a parity check circuit 20, reg. command, command decoder 22, select control unit address register 23, select control address control circuit 28, auxiliary device address register 25 to be connected to the channel, auxiliary device address register contents check circuit 26, information register 21 device status, defect register 28, gating and summing circuit 29 with parity replenishment, and control block 10.

Connecting to a Computer Channel Ί. they comprise: channel input information line 68, channel input line 62, channel output line 63, and channel output control line 64. Interconnection with Special Paths 401 through 416 comprises: data output line 711, command output line 712, and auxiliary memory status information line 713.

The connection with the switching block 2 consists of: line 721 of the auxiliary device, line 722 of the control signals over the switching block J, line 723 for the connection of the auxiliary device to the selection control unit, line 724 of the address of the additional device, line 725 of the control and auxiliary signals, line 726 data signals, line signal line 727, defect signal line 728, and control signal line 729 for special components.

The interconnection of the individual portions of the universal channel portion comprises: a circuit control signal line 200 for a parity check result h and a line 61 for the register register control 201, a line 220 for reporting to the decoder 22 the decoding result command decoding guide 712. register contents line 239 the address of the selection control unit, the line 240 for reporting the address comparison circuit 24 of the selection control unit, the line 205 for controlling the register 25 of the additional device to be connected to the channel, the line 256 of the register 25 of the address of the additional device itself to connect to the channel line 260 reports the circuitry 26 for checking the contents of the registers of the registers of the additional content matching device, line 207 for controlling the registers 27 of the device status information line 270 for reporting registers 27 of the device status change device lines 279, defect register 28, defect register register 28, defect register 28, defect register control line 209 and signal gating control signals transmitted to line 63 and parity calculation. 226597 4

Said lines form the inputs and outputs of individual blocks such that the universal channel part 2 consists of a parity check circuit 20, a command register 21, a command decoder 22, a register address 23 of the address control circuit 24 of the control selectable controller. the auxiliary device address register 25 that connects to the channel connection and at the same time forms the auxiliary device address line 721 to the switching block 2 and the data output line 711 to the special parts 401 to 416. Further, on the second input 212 of the command register 21, a third output 1013 of the control block 10 is switched, and the output of the command register 21 is switched to the input of the command decoder 22 and simultaneously outputs the output 712 of the commands to the special sections 401-416. from the control address register 23 is switched to the second input 242 of the control unit address matching circuit 24 and to the first input 291 of the gate and sum circuit 29. Further, the output from the control circuit address matching circuit 24 is switched to the third control block input 1003, and the fourth output 1014 of the control block is coupled to the second input 252 of the auxiliary device address register 25, which has a channel connection, and the output of register 25 is coupled to the first input 261 of the matching circuit 26 of the auxiliary device address registers from the switching block J, the second input 262 is switched the circuit check circuit 26 of the add-on address register registers and the second gate 292 of the gate and sum circuit 29 of the continuity check circuit 26 of the contents of the registers of the add-on device and the second input 292 of the circuit and the circuit 29. Further, the output of the circuit 26 checks the compliance of the contents The address of the add-on device is switched to the fifth input 1005 of the control block 10, and the 6th output 1018 of the control block 10 and the second input are switched to the first input 271 of the device status register 27. 272 of register 27 is a switched line 727 of status signals from switch block J, and third output 273 of register of stationary information register 27 is switched to 8s input 1008 of control block 10, and fourth output 274 of register 27 is coupled to fourth input 294 of gateway and the summing circuit 29. The next first input 281 of the fault register 28 is switched to the seventh output 1017 of the control block 10, and the second input 282 of the register 28 is the switched line 728 of the fault of the switching block J, and the third output 283 of the defect information register 28. is connected to the seventh input 1007 of the control block 10 and the fourth output 284 of the register 28 is switched to the Siesty input 296 of the gate and sum circuit 29. Further to the third input 293 of the switching and summing circuit 29 the ninth output 1019 of the control block 10a is switched to the fifth The input 295 of circuit 29 is the data line 726 of the switching signals switched over In J, the further output of the gate and sum circuit 29 constitutes the output information line first output 1011 forms the output control line 64 of the channel, the second output 1012 forms the output line 713 of the auxiliary memory information section 401 to 416.piata output 1015 is fed to the switching block J and constitutes the pilot signal line 722 for the switching block J, the Siesty output 1016 is routed to the switching block J and generating control signals 729 for the particular portions 401 to 416. the switched input control line 62channel, on the Siest input 1006, the wiring line 725 of the control and auxiliary signals of the switching block J is switched, and on the ninth input 1009 there is a wired line 723 for reporting the attachment of the attachment to the selection control unit.

Fig. 4 is a block diagram of an arrangement of a control channel 10, a universal channel part 2, which comprises a connection control circuit 101 for an auxiliary device, a command processing circuit 102, a control circuit generation block 103 for gate control and a summation circuit 104, the command section generator 105 of the auxiliary memory block 106, the individual blocks being mutually interconnected by the bidirectional link line 100. The channel input control line 62 is coupled to the third input 1013 of the circuit control circuit 101, further to the first input 1021 of the command processing circuit 102, Further to the first input 1031 of the block 103 for generating the control signals on the line 64, further to the first input 1041 of the block 104 for controlling the gating and circuit circuit 29. Further to the first input 1051 of the command generator 105 of the special section. addresses o the address matching result of the control unit 226597 is coupled to the first input 1011. the control circuit 26 of the matching control contents 26 of the registers of the additional content matching device registers is connected to the second input 1012 and the connection control line 723 of the additional selection control device. the unit is switched to the fourth input 1014 of the link control circuit 101 of the auxiliary device, wherein the Siesta output 1016 of the circuit 101 forms the control register 25 of the addressing device 25 to be coupled to the channel and the tray of output 1014 of the circuit 101 constitutes the switching control line 722 for the switching block

The parity check result signal circuit line 200 on line 61 is switched to the second input 1022. Message decoder decoder line 222 for command decoding result command line 712 is coupled to third input 1023 and start information line 7252, and performing the prescribed operation by the auxiliary device is switched to Stvrt_min 1024 of the command processing circuit 102, while the pleta output 1025 of circuit 102 generates 201 to control the command register 21, the siesta output 1026 of the circuit 102 forms the conduit 207 to control the device status register 27 and the seventh output 1027 of the circuit The conduit 208 forms a register 28 for defect information. The control signal guide line 7253 over the block 103 is connected to the second output 1032. the status register register 27 of the device status change information register 27 is switched to the third input line 1033a line 280 for register reporting 28 the fault occurrence information is switched over the fourth input 1034 of the block 103 for generating control sequences on line 64, the output of block 103 being the output control line 64 of the channel. The output of the block 104 for the control and summing circuit 29 forms a line 209 for controlling the sum and gating of the signals transmitted to line 63 and calculating the parity.

The control signal line 7255 for block 105 is coupled to the second command generator input 1052 105 for the special portion and the output 105 for the control signal lines 729 for the special sections 401 to 416 is provided. and the output of block 106 forms the output line of the auxiliary memory information.

The sub-lines 7252. 7253. 7255 and 7256 form a line of 725 control and auxiliary signals.

Fig. 5 is an example of a switch control selection block of a select control unit consisting of an additional device address register 301 attached to a channel, an additional device address decoder 302, a code control circuit 303 of 16, a configuration register 304, a gate signal generator 305, a control circuit 306 and auxiliary signals, a data signal sum circuit 307, a status signal sum circuit 308, a defect sum sum circuit 309, control signal gating circuits 311 to 326 transmitted to a special portion, and gating circuits 331 to 346 whose signals are received from a special portion.

The interconnection with the universal channel part 2 consists of: an additional device address line 721, a control signal line 722 over the switching unit, a line 723 for connecting an additional device to the select control unit, an additional device address line 724, a control and auxiliary signal line 725 , conducting data signal 726, status signal line 727, fault signal line 728, and control signal line 729 for Especially Parts 401 to 416.

The connection to the special portion 401 comprises: the input and output signal lines 8011, the input line 8012, the input states 8013 of the signal states, the input signals 8014 of the error signals and the output lines 8015 of the control signals.

Interconnection with Special Parts 402 to 416 is analogous to Interconnection with Special Part 401. Thus, with each Special Part, the switching block J is switched through four input lines and one output line. 226597 6

The interconnection of the individual parts of the switching block comprises: a line 3023 reported by the decoder 302 about the address of the additional device address decoding, a line 3035 for checking the correct decoding of the address of the additional device, the line 3045 for reporting the connected additional devices,. (lines 3501 to 3516 for controlling the gating circuits of the switching block 2, lines 3601 to 3616 of the control and auxiliary signals, lines 3701 to 3716 of the data signals, lines 3901 to 3916 of the fault signals.

Said conduits form the inputs and outputs of individual blocks such that the auxiliary device address line 721 of the universal channel part 2 is connected to the first input 3011 of the auxiliary device address address 301 connected to the channel, and further, the control signal line 722 for the switching unit 2 of a universal channel portion 20e coupled to a second output 3012 of an add-on device address register 301 connected to a channel and to a third input 3053 of a gating signal generator 305, a continuous output from the address register 301 of the additional device coupled to the channel is coupled to the input of the add-on address decoder 302 and at the same time forming the auxiliary device address line 724 to the universal channel part 2. The output from the auxiliary device address decoder 302 is the switched input of the code control circuit 303 from 16 and the second input 3052 of the gate signal generator 305, the output from circuit 3. The code checking 1 of 16 is switched to the first gate signal generator 3051, the output of the configuration register 304 is connected to the fourth gate 3054 of the gate signal generator 305, and the seventeenth output 3517 of the gate signal generator 305 is a line 723 for the attachment of the auxiliary device to the selective control unit 729 of the control signals for the special parts of the universal channel part 2 is the connection to the first inputs 3111, 3121 to 3261 of the gating circuits 311 to 326 of the control signals transmitted to the special part, to the second inputs 3112, 3122 to 3262 of the gating 311 to 326 control signals transmitted to the Special Part and fifth inputs 3315. 3325 to 3465 gating circuits 221 to 346 signals transmitted from the Special Part sd switched outputs from the gating signal generator305 as follows: first output 3501 of gener tora 305 communicates navstupy gating circuits 311 and 331. A second output 3502 is coupled to inputs of gating circuits 312 and 332 of ATS. until output 3516 is coupled to the gating circuit inputs 326 and 346. Further gating circuits and, in particular, parts are switched as follows: gating circuits 311 and 331 are coupled to a special section 401. gating circuits 312a, 221 are coupled to a special section 402 and the like. the gating circuits 326 to 346 are coupled to a special portion 416. wherein the connection is in all cases the same as the gating circuitry 311 and 331 and the special section 401 which is as follows: the output of the gating circuit 311 of the control signals transmitted to A special portion is a control signal output line 8015, a control input and auxiliary signal input line 8011 is switched to a first input 3311 of the signaling circuit 331 transmitted from a special part, to a second input 3312 of a gate circuit 331 is an input signal line 8012 of the data signals, to a third the input 3313 of the gate circuit 331 is switched, the input signals 8013 of the state signals and the fourth input 3314 of the gate circuit 331 is the interconnected input line 8014 of the fault signals from the special section 401. further the gate circuits outputs 221 to 346 signals transmitted from the special section are switched n As follows: The six-way outputs 3316, 3326 to 3466 of the gate circuits 331 to 346 are connected to the inputs of the summation circuits 306 of the control and auxiliary signals, the seventh outputs 3317, 3327 to 3367 of the gate circuits 211 to 346 sd connected to the inputs of the summation circuit 307 of the data signals, the outputs 3318 3328 to 3468 of gate circuits 331 to 346 are coupled to inputs of summation circuitry 308 of the state signals and the ninth outputs 3319, 3329 to 3469 of gate circuits 221 to 346 are coupled to inputs of summation circuit 309 of fault signals, wherein inputs of each of sum circuits 307, 308, and 309 are connected in analogy to the inputs of summation circuit 30, which are connected as follows: Siesta output 3316 of gating circuit 331 is switched to the first input 3601, and the Siesta output 3326 of gating circuit 320 is connected to the second input 3602. except for the sixteenth input 3616, the Siesty output 346 of the gate circuit 346 is switched. further, the output from the summation circuit 306 of the pilot and auxiliary signals forms a line 725 of the control signals and auxiliary signals to the universal channel part 2, as well as the output of the signal signal circuit 307 307 of the data signal circuit 726 of the universal channel part 2 and the summation circuit output 308 The status signals are routed to the universal channel part 2, and the output from the sum of the signal signals 309 is a fault signal line 728 to the universal channel part 2.

Collaboration of an auxiliary device with a computer channel can be divided into three parts: initial sequence, data transmission sequence and final sequence. The individual sequences of the computer channel over the line 62 and the selection control unit over the line 64. The transmission of the computer channel information takes place via line 61 and the computer channel over line 63. During the course of the sequences, the selective control circuitry is used as follows:

The address of the device with which the channel wants to establish a connection is located on line 61 of the address address which determines the address of the selection control unit in circuit 24 compared to the contents of register 23 in which the address of the selection control unit is stored. guided by line 240 to circuit 101. If the address transmitted via line 61 is identical to that stored in register 23, circuit 101 permits processing of the address portion that specifies the address of the auxiliary device. In the event that the operation is not processed even with one of the connected additional devices, this part is written to registers 25 and 301 by signals at lines 205 and 722 generated in block 28.

The contents of registers 25 and 301 are compared in circuit 26 and result information compared is routed through line 260 to block 101. The address of the auxiliary device stored in register 301 is decoded by decoder 302 and correctness of address decoding is checked by circuit 303. the addresses of those additional devices that are physically attached to the selectable control unit. If an address identical to that stored in the register 301 is stored in the register 304, the generator 305 is activated by the signals on the lines722. 3023, 3035 and 3045, generated in circuits 101, 302, 303, and 304. The signal on line 722 is only generated in block 101 if an address matching signal has been transmitted at lines 240 and 260. The generator 305 generates a signal at one of the outputs 3501 to 3516 to enable the operation of one of the gate circuits 311 to 326 and one of the gate circuitry 346 to logically connect the addressed additional device to the selection control unit. At the same time, an additional device signal is generated at the output 3517 of the generator 305 to select a control unit that is routed to block 101 via line 723. The selection unit is able to receive the command and can connect to the channel, thus connecting the output from register 23 via line 239 and sum circuit 29, and output from register 301 via line 232 and sum circuit 29 to line 63 via signal 209 generated in block 104 to the computer channel address of the device. Control sequences corresponding to both this and all other channel communication cases are generated in block 103 and transmitted to line 64. If the computer channel is in process with any of the additional devices connected to the selection control unit, the selection control unit is occupied apri the location of the device address on line 61 is its operation different, the part of the address that determines the address of the selection controller is cautiously compared in circuit 24 with the contents of register 23, and the comparison result information is conducted by line 240 to block 101. If the address transmitted by line 61 is identical with the address stored in register 23, circuit 101 permits processing of the address portion that specifies the address of the auxiliary device. This portion of the address writes only to register 25 generated in block 101 to register 25. The contents of registers 25 and 301 are compared in circuit 26 and the comparison result information is routed to block 101. If the contents of registers 25 and 301 are identical, the channel establishes a connection with by additional tuning with which the operation is in progress, the selection control unit is capable of accepting the command, and the other operation is the same as in the previous case. If the contents of registers 25a and 301 are different, the channel wants to establish a connection with a device other than that to which the operation is in progress. In this case, the control unit must not over-link to the addressed additional device, but must notify the channel that it is occupied. The signal on line 207 generated in block 102 will write this status information to

Claims (1)

OBJECT OF THE INVENTION Optional automatic computer accessory control unit consisting of a universal channel part connected by a connection part to a computer channel, characterized in that the universal channel part (2) is connected by a connection line (72) to a switching block (3) which is a connection line (801 to 816) connected to the first special part inputs (401 to 416), wherein the second special part inputs (401 to 416) are connected by a connecting line (71) to the universal channel part (2) and further the special part outputs (401 to 416) are connecting lines (901 to 916) connected to attachments (501 to 516)