SU1179361A1 - Interface for linking computers - Google Patents

Abstract

A COMPUTING MACHINE DEVICE FOR CONNECTING COMPONENTS containing first to fourth interface blocks, first and second switches, the information outputs of the interface blocks are connected via information bus to the information inputs of the interface blocks and switches, the first and second outputs of the reception gates, the output of register clears, The output of the recording resolution of the first, second, third and fourth interface blocks are duplicated by the device's outputs of the same name, the installation and reset inputs of the buffer of all interface blocks are The first and second errors of the first and second switches are the same outputs of the device, each gateway contains from first to sixth triggers, a decoder, the input of which is connected to the information one. the input of the interface unit, the first, second and third outputs of the decoder are connected to the information inputs of the first, second and third triggers, respectively, the outputs of which are respectively the first gate the second receiving strobe and the reset output of the interface block registers, the fourth trigger information input is connected to the interface block information input, the fourth trigger output is the output of the interface block recording enable, the setup and reset inputs of the fifth trigger are connected respectively to the setup and reset inputs the buffer occupancy flip-flop, the output of the fifth flip-flop is connected to the information input of the sixth flip-flop, with 9 ko first and second switches containing a decoder, from the first to the ninth triggers, the desh input The flipper is connected to the information input of the switch, the outputs of the decoder are connected to the information inputs of the corresponding flip-flops, the outputs of which are respectively the first seventh outputs of the CO receiving gates to the registers, the first and second outputs of the switch error reset, about 0 0 and more. e with the fact that, in order to improve the speed of the device, the first, second, third and fourth blocks of the interface and the first and second switches are inserted into the dispatcher's bus capture block, with the outputs requiring dispatching operations, inputs enable and prohibit the exchange of all blocks of the bus capture of the controller connected to the controller bus. The contact inputs of the first, second, third and fourth triggers in each block are connected to the output of the exchange resolution of the block

Description

the bus capture of the corresponding gateway dispatcher, the fault input of the sixth trigger in each interface block is connected to the output of the message blocking block of the bus dispatcher of the corresponding gateway, the inputs of the dis- request. the dispatcher's bus seizure blocker works are the device inputs of the same name, the clock inputs from the first to the ninth triggers of the first and second switches are connected to the exchange enable output of the dispatcher's bus capture unit of the corresponding switch, the dispatcher's bus capture unit has an interlock trigger , the exchange resolution trigger, the electronic key and the electronic keys of the low and high levels, with the information input of the dispatching request trigger trigger t: block dispatching request input, trigger output is connected to an electronic key trigger input, which dispatching dispatching functions request is the same block output, electronic key reception enable output output is connected to the clock inputs of the exchange lock trigger and exchange enable trigger, the outputs of which are of the same name the block outputs, the information inputs of the blocking triggers and the exchange enable are connected to the low and high level electronic key outputs, respectively, whose inputs are inputs and prohibition exchange dispetcherasootvetstvenn tire gripping unit resolution

The invention relates to computer technology and can be used in the organization of dispatching work in computer systems with computer systems controlled by autonomous operating systems. The purpose of the invention is to increase the relationship. FIG. Figure 1 shows a block diagram of a device for interfacing four computers; in fig. 2 is a timing diagram of the operation of the computer interface; in fig. 3 is a timing diagram of the operation of the disperser bus capture unit while simultaneously requiring several subscribers of the system for dispatching operations. The device for interfacing computer computers contains 1 interconnection blocks, switches 2, dispatcher bus capture blocks 3, information buses 4, dispatcher bus 5, blocks of 6 subscriber adapters, switch service triggers blocks 7, first to sixth trigger blocks 8- 13 interface blocks, a decoder 14, an interlock lock trigger 15, an exchange enable trigger 16, a dispatch work request trigger 17, an electronic key 18, low and high electronic keys 19 and 20, a decoder 21, as well as first to ninth triggers 22-30 switch. The trigger 8 gates the reception on the register of the mask that creates the mode of operation of the subscriber. Trigger 9 - reception on the register Number of the subscriber in the system; Trigger 10 clears the memory protection registers. The trigger 13 is the trigger of the buffer of the interface of the subscriber with the channel, which is reset to the zero state by the signal H when the buffer is occupied and is set to one by the signal after the end of the use of the buffer. The trigger 11 is a pointer to the resolution of the message sent to the channel. This signal is reset to the zero state in the blocking mode of generating subscriber messages to the channel (BGS). Trigger 12 - allows writing to the subscriber's registers from the channel. With a single trigger state, writing to subscriber registers is allowed. In the case of writing to the registers without capturing the bus controller, the write operation is canceled and the subscriber is given a receipt for the erroneous action, and the result of the error is recorded in the memory for subsequent processing by the process. The decoder 14 decrypts in the receiving message from the channel the address of the register into which the information is written. The decoder 21 decrypts in the receiving message the address of the register in which the trigger information 22 to 25 is recorded gates the reception to the security register; triggers 26 and 27 receiving on the register of registry; trigger 28 receiving on the mode register; trigger 29 and 30 reset the register reset signals to errors detected when receiving messages. Information is exchanged between subscribers both in normal mode (for example, through shared memory) and in dispatching modes via information lines 4. Each subscriber and each switchboard contains 3 dispatcher bus seizure units 3, which are connected to the dispatcher bus 5. Each subscriber has registers (not indicated), and the state of the system as a whole depends on the state of these systems. Operations for loading such registers and for rebuilding switching circuits are called dispatch operations. They are executed only by operating systems in a privileged mode. 5, the proposed dispatch device is performed in the capture mode of the dispatcher bus. The dispatcher bus is made in the form of a simple unshielded wire, through which a slowly varying electrical signal of the dispatch work in the system can be generated, generated at the request of any subscriber, KOTopbtft then seizes the dispatcher bus and becomes the dispatcher of the system itself. Dispatching operations should not be carried out simultaneously by several subscribers. When a dispatcher bus is simultaneously demanded from several subscribers, a conflict situation may arise (FIG. 3), which is resolved by the fact that the capturing elements of the dispatcher bus in the aggregate are a multi-stable element, which as a result turns into a positive state . The end of the transient process determines the seizure of the controller bus by any one subscriber. When a dispatcher bus is captured, all exchanges in the switching network are suspended and only the dispatcher can generate information. Unit 3 is included in each subscriber of the computing system and in each switch. All blocks are connected to the bus 5 dispatcher (ISC). The combination of electronic circuits connected to the bus CDW form a kind of multi-stable element. In each circuit of the electronic key locking switch, there are current leakage resistors connected to the key emitter circuit. When several electronic switches are combined over the emitter circuits of the 1SC, a multistable element is obtained which requires the connection of only one current leakage. Block 3 works as follows (figure 2). When performing dispatching work, the subscriber programmatically establishes a dispatching request for capturing the control panel via trigger 17 (ASD), which connects the device to the search using the dispatch controller's electronic capture key 18 (31SH). The TPSP requirement, acting on the electronic key, causes it to unlock. As a result, the current supplied by the trigger 17 is switched by the key, which in this case causes a linearly increasing voltage on U. The voltage on the SchC begins to increase linearly. This is necessary to prevent echoes in the control bus that are inconsistent. The gradual increase of the bus level allows you to organize the desired sequence of control signals. Subscribers perceive the signal at the PG using the low voltage key 19 (PSchTsN) and the upper voltage key 20 (PRSHV). First, at the time tjj, threshold amplifiers switch in the devices, which through the message interlock triggers 15 are set for subscribers, the corresponding message blocking mode (BGS). In this mode, the generation of messages of blocks 1 to the switching network is blocked, the triggers 11 are reset to the zero state. Previously launched exchanges are completed and the network is free. The potential at the control panel continues to increase, and at time t it reaches the level at which the key 20 of the upper voltage level is turned on. If several subscribers simultaneously accessed the bus, then the scheme is for some time in an undetermined state and the interval is t - t. this increases (FIG. 3). However, in any case, at time t, the subscriber is determined who captures the controller bus and becomes with the system controller itself. The appearance of the scycchio signal indicates the end of transients. This signal establishes in the unit trigger exchanges 16 of the exchange, indicating the capture of system subscribers (STOR), in which we can offer the dispatcher to load the system registers controlled by the triggers 8 - 10, 12, 13, 22 - 30. Thus, starting from this moment an AFMS signal is generated if this device has captured the controller bus, or a memory signal, which means that the DEVICE is not a controller, and the center is captured by another subscriber. The signal ЗРЩ, always occurs only in one subscriber, and the message blocking mode works like BGDD (see Fig. 2), the signal of the charger in all others and the message blocking mode for them. RMSA prohibits the generation of messages to the switching system for the subscriber who captured the controller bus, and in it the trigger 11 can be set to one. As a result, from this point on, the system sets the mode required for the production of dispatch operations (t). During the time t and t. The OS of the dispatcher's device operating system performs the necessary work to restore or rebuild the switching system. Dispatching work is completed by program-based requirements at the TSCH. After this, the BGSJ mode is removed, the triggers 11 are allowed to be set to one, and all subscribers are allowed to send messages to the switching system. Since the switch in the system is a passive device that does not generate any messages, the installation input of the trigger 17, as well as the outputs of the backup switch key 18 and the trigger 15 are not used, and the output of the device 3 in the switch is the trigger 16 of the charger.

Claims (1)

DEVICE FOR MATCHING COMPUTER MACHINES, comprising the first to fourth interface units, the first and second switches ^ and the information outputs of the interface units are connected via the information bus to the information inputs of the interface units and switches, the first and second outputs of reception gates, register reset output, write enable output the first, second, third and fourth interface blocks are the device outputs of the same name, the inputs of setting and resetting the buffer occupancy of all interface units are one the named inputs of the device, from the first to the seventh outputs of the reception gates to the registers, the first and second error outputs of the first and second switches are the device outputs of the same name, and each interface unit contains first to sixth triggers, a decoder whose input is connected to the information input of the interface unit, the first, second and third outputs of the decoder are connected to the information inputs of the first, second and third triggers, respectively, the outputs of which are, respectively, the first gate and second gate the reception and reset output of the registers of the interface unit, the information input of the fourth trigger is connected to the information input of the interface unit, the output of the fourth trigger is the write enable output of the interface unit, the installation and reset inputs of the fifth trigger are connected respectively to the inputs for setting and resetting the buffer for the busy buffer, the output of the fifth trigger is connected with the information input of the sixth trigger, and the first and second switches contain a decoder, from the first to the ninth triggers, the decoder input is connected to the information With the input of the switch, the outputs of the decoder are connected to the information inputs of the corresponding triggers, the outputs of which are respectively the first> nd and seventh outputs of the reception gates in the registers, the first and second outputs of the error reset of the switch, and this is because , in order to improve the performance of the device, a controller bus capture block was introduced in the first, second, third * and fourth interface units and the first and second switches, and the outputs of the requirements for dispatching work, the inputs of authorization and prohibition of the exchange of all s dispatcher bus masters connected to a bus dispatcher ^ clock inputs of the first, second, third and fourth flip-flops in each block interfaces connected to the output authorization unit exchange iseeziiTis> capture bus manager of the corresponding interface unit, the sixth flip-flop trigger input in each interface unit is connected to the output of the message blocking block of the controller bus capture unit of the corresponding interface unit, the request inputs are dis. The dispatcher bus capture blocks of the dispatcher are the device inputs of the same name, the clock inputs from the first to the ninth triggers of the first and second switches are connected to the exchange permission output of the dispatcher bus capture block of the corresponding switch, the dispatcher bus capture block contains a dispatch request trigger, exchange lock trigger, trigger exchange permissions, an electronic key and electronic keys of low and high levels, and the information input of the dispatch request trigger is with the input of the block dispatch request, the trigger output is connected to the electronic key start input, the dispatch request of which is the block output of the same name, the electronic key reception permission output is connected with the clock inputs of the exchange block trigger and exchange permission trigger, the outputs of which are the block outputs of the same name, the information inputs of the triggers for blocking and permitting the exchange are connected to the outputs of the electronic keys of low and high levels, respectively, whose inputs are with the inputs of the prohibition and permission to exchange the bus capture block of the dispatcher, respectively.