DE19859483A1 - Computer with system cards and peripheral cards switches off clock output signal from system card when inserted into peripheral socket - Google Patents

Abstract

A system card (14) has a control contact (24) which is connected to a control socket (22) of a bus (12) and activates a clock output signal from the system card, which is fed via a clock contact (CLK0) to the bus. A peripheral card (16) includes a clock contact (CLK0) as a clock input. A system card can be inserted in to system socket and into a peripheral socket. When inserted in to a system socket, the clock output signal is activated, and when inserted into a peripheral socket, the clock output signal is switched off.

Description

The invention relates to a computer according to the preamble of claim 1, comprising a plurality of system and peripherals has plug-in cards.

Such computers are used in many copies and can be used especially if it applies different tasks over several system plug-in cards and peripheral plug-in cards to be solved flexibly. As a system plug cards can be used, for example, plug-in cards, who act as bus master. Can be used as peripheral plug-in cards Plug-in cards are used, which are the most varied Provide functions, such as handling the Input that provide the most diverse functions, for example, handling the input / output for Hinter save basic, the acquisition and processing of signals, the delivery of appropriately processed signals to the supplier control of industrial processes, for example engaging controls, but also communication stones for the transmission of the data stream in processed Way from and to the computer, for example via digital Telephone lines.

In modern computers, several system cards can also be used can be used to calculate the rakes as required by the user increase performance and data throughput, or so, with it different tasks at the same time with one computer can be solved.

A problem with such multiple masters or system cards is that their clock signals must be synchronized sen. With inexpensive bus systems, one is often satisfied with it, a multiple compared to the local system clock  to provide slower bus clock signal. For example the PCI bus to a maximum clock frequency of 66 MHz sets.

Therefore, it has already been proposed, basically one Define slot as a clock or MastersLot and its clock signal to the other slots, including the those slots intended for system cards are to be forwarded.

The main disadvantage of this proposal is that always equip the bus with at least the System plug-in card for the master slot is required; should - if only for test purposes - the one in question The card is missing, the computer is blocked overall, after then no daughter clocks can be generated.

This system of a master slot, for example Slot 1, basically runs the concept of a universal bus contrary.

A universal bus should work regardless whether a particular slot with a particular card is provided or not, at least if the bus is real Bus, i.e. with signals corresponding to each other at the respective sockets is formed.

Furthermore, it is known from US-PS 55 24 237, clock signals synchronize between two microprocessors. For this purpose, the clock lines of the two microprocessors each mutually connected. Depending on whether the respective microprocessor receives or sends data, there is a switchover of the clock input and the clock output gangs, so that data supplied by a microprocessor the associated clock is also active.  

A disadvantage here is the special effort for the software sided synchronization. In addition, when switching the Direction of transmission by means of a kind of safety circuit be ensured that after the completion of the data on carried by a microprocessor the other microprocessor generates the beat. The disadvantage here is that this circuit no real bus operation, just the coordination two microprocessors, which are mutually reciprocal Can supply data.

Furthermore, it has already been proposed to include clock signals real bus systems between system plug-in cards and peripherals to split plug-in cards, so that several cycles over the bus signals can be made available. A suggested gene specification allows a maximum deviation of 2 ns between the clock signals of two bus plug-in cards.

Especially if buffered daughter clocks are also provided it is difficult to keep to this timeframe.

In order to improve the signal quality, it is in this together Menhang became known to terminate the bus lines. Nevertheless, this does not take into account the problems that result from the use of several system plug-in cards can.

Therefore, the invention has for its object a Com puter to create according to the preamble of claim 1, the a flexible configuration despite the realization faster Clock signals allowed over the bus.

This object is achieved by claim 1. Advantageous further developments result from the Unteran sayings.

According to the invention, it is particularly favorable that an automatically  faster system clock is generated, provided a system plug card anywhere in the bus either in Peripheral slots or system slots are inserted.

According to the invention it is also particularly favorable that automa table by inserting it in the appropriate place System plug-in card emits a clock signal as the basic system clock or not. According to the invention, preferably an open Collector circuit, in which by inserting the card the internally generated clock signal through a system slot is grinded while inserting into a peripheral Riesteckplatz exactly this looping is prevented, so that there is no risk that a system plugged in there plug-in card on the same bus line simultaneously with one another system plug-in card emits a clock signal, so that two Logic circuits would work against each other.

According to an advantageous embodiment, it is provided that only one slot as a system slot. Regardless of the configuration of the bus or the backplane can accordingly automatically in this embodiment prevent a clock collision from occurring. Yet can use several system plug-in cards without any problems be, so that a flexible and mixed assembly depending on Requirement profile of the customer can be used.

According to a particularly favorable embodiment, it is featured see the clock connection for the clock plug contact as bidirek educate the national way. Depending on the application, the Route for the introduction of the clock signal into the bus or for feeding the clock signal from the bus to the plug-in card be used.

According to a particularly favorable aspect of the invention it is possible to use an ASIC for realizing a bus to use bridge posture. When designing the  System bus as CompactPCI bus, the ASIC as PCI-to-PCI bridge, and a local PCI Bus can be provided, for example, as a local bus Peripheral plug-in card is used.

According to a further advantageous embodiment of this Ge the ASIC can also be mounted rotated, to the clock control function depending on the application over the local PCI bus. This is a symmetrical pin design of the ASIC required.

Further advantages, details and features result from the following description of the invention with reference to the drawing nung.

The only figure in the drawing shows part of one computer according to the invention, namely the clock control a system plug-in card and the clock control on one Peripheral card.

The computer 10 shown in extracts in the figure has a bus 12 which is designed as a CompactPCI bus. The bus has, in a manner known per se, a plurality of data and address lines, a plurality, for example 6 to 7, of different slots being provided, into which either peripheral plug-in cards or system plug-in cards can be inserted. In the figure, a system plug-in card 14 and a peripheral plug-in card 16 are indicated schematically.

In the example shown, the system plug-in card is plugged into a system slot and the peripheral plug-in card into a peripheral slot. According to the invention, it is also possible to insert the system plug-in card 14 into any peripheral slot 20 , and also the peripheral plug-in card 16 can be inserted into any system slot 18 , as long as it is ensured that at least one system plug-in card is in the system.

Each slot has a clock contact, which is referred to here as P1: D6. Furthermore, each slot has sockets for daughter clocks CLK1-CLK6, the peripheral plug-in card 16 having no daughter clock contacts plug-in contacts after the daughter clocks are not generated by the peripheral plug-in card.

Furthermore, each system slot 18 has a control socket 22 which is intended for the introduction of a control plug contact 24 , the system plug-in card. A corresponding control socket, which is connected to a defined logic level, for example with ground, is also provided for the peripheral slot 20 . A peripheral plug-in card 16 , however, has no control plug contact 24 ; at least it is not connected to the card.

The control plug contact 24 of the system plug-in card is connected to an open collector circuit 26 , which in the illustrated embodiment is designed in the simplest manner as a correspondingly switched PNP transistor. The open collector circuit 26 derives a local clock signal L_CLK0 at a clock output C_CLK0 and via this to the clock terminal contact P1: D6 Next, when the control plug-in contact 24 is connected to the control jack 22, and prevents this forwarding, if this is not the case is.

The system plug-in card 14 are not on the clock output CLK0 when plugged into a peripheral slot 20th

The daughter clocks CLK1-CLK6 are generated in a manner known per se based on the clock signal at the output C_CLK0. Another daughter clock C_CLK7 is used as a local clock and is forwarded to the ASIC 30 again.

A particular advantage can be obtained by the feedback, so that there is a minimal skew between the C_CLK 0. . . 6 and C_CLK 7 received. Any temperature and voltage influences of the ASIC ( 30 ) on the clock signals are thus excluded, while at the same time improving the tolerance towards sample variations of the ASIC caused by the manufacturing process.

As can be seen from the figure, the ASIC 30 has a part C_PCI, which is used to operate the CompactPCI bus, while another part, which is referred to as L_PCI, is used to control the local PCI bus. Here, the ASIC is supplied with a local clock 32 , which is used both internally and is also supplied to the part C_PCI of the Basic as signal L_CLK0.

A corresponding design can also be found in the peripheral plug-in card 18 , the same ASIC can be used, but its function is deactivated by disconnecting the line C_SYSEN_, that is to say the disconnection of the control plug contact 24 .

Accordingly, even if an open collector circuit 26 is provided in the ASIC 30 of the peripheral plug-in card 16 , it is ineffective, so that under no circumstances can the local clock signal L_CLK be fed to the CompactPCI bus as a clock output signal.

Claims (13)

1. Computer with a plurality of system and peripherals plug-in cards that are connected to one another via a bus, slots of the bus system slots and being designed as peripheral slots, with a plurality of data lines and address lines and with a clock line, each depending on clock socket contacts leads the slots along and with an associated clock plug contact on a plug-in card, characterized in that a system plug-in card ( 14 ) has a control plug contact ( 24 ) which can be connected to a control plug socket ( 22 ) of the bus ( 12 ) and a clock output signal of the system plug-in card ( 14 ) activated, which can be fed to the bus ( 12 ) via the clock plug contact (CLK0), and that a peripheral plug-in card ( 16 ) also has a clock plug contact (CLK0) as the clock input. 2. Computer according to claim 1, characterized in that a system plug-in card ( 14 ) in system slots ( 18 ) and in peripheral ports ( 20 ) can be inserted and when inserted into system slots ( 18 ) the clock output signal of the system card ( 14 ) is activated and in Peripheral slots ( 20 ) is switched off. 3. The computer of claim 2, characterized in that the clock plug contact (CLK0) of a system plug-in card (14) to the output of an open collector circuit is connected (26) whose input is connected to the control plug-in contact (24) of the system plug-in card (14) and that the local clock signal generated by the system plug-in card ( 14 ) can only be fed to the bus ( 12 ) when the control plug contact ( 24 ) activates the open collector circuit ( 26 ). 4. A computer according to any one of the preceding claims, characterized in that a system plug-in card (14) comprises a local clock generation circuit (32) having a plurality Toch tert file generated (CLK1 to CLK6), which depending on the logic level on the control plug-in contact (24) the bus ( 12 ) can be fed or not. 5. Computer according to claim 4, characterized in that the daughter clocks (CLK1 to CLK6) can be fed to the bus ( 12 ) via clock buffers. 6. Computer according to one of the preceding claims, characterized in that a peripheral plug-in card ( 16 ) has a clock plug-in contact which can be connected to the clock socket contact and that the peripheral plug-in card ( 16 ) evaluates the clock signal present at the clock plug-in contact and in particular to local clock signals or daughter clocks processed further. 7. Computer according to one of the preceding claims, characterized in that a system plug-in card ( 14 ) has a clock signal path, which is connected to the clock plug contact and is designed with bidirectionally acting logic circuits. 8. Computer according to one of the preceding claims, characterized in that a system plug-in card ( 14 ) in addition to daughter clocks (CLK1 to CLK6) for the bus ( 12 ) has a useful clock signal for the local connection, in particular for a local additional bus. 9. Computer according to one of the preceding claims, characterized in that the bus ( 12 ) is designed as a CompactPCI bus and a local additional bus as a local PCI bus and an ASIC ( 30 ) (application-specific integrated circuit) on the peripheral plug-in card ( 16 ) and / or the system plug-in card ( 14 ) forms a PCI-to-PCI bridge (bus bridge). 10. Computer according to claim 9, characterized in that the ASIC ( 30 ) based on the connection signals of the CompactPCI bus ses and the local PCI bus is constructed symmetrically. 11. Computer according to claim 10, characterized in that the ASIC ( 30 ) provides the functions provided for the local PCI bus compared to the CompactPCI bus ( 12 ) when the assembly is rotated. 12. Computer according to one of the preceding claims, characterized in that one of the daughter clocks (C_CLK7) is connected to the system input clock of the ASIC ( 30 ). 13. Computer according to one of the preceding claims, characterized in that the clock lines of the bus ( 12 ) is terminated at both ends via resistors.