EP2652574A1 - Computer system, arrangement for remote maintenance and remote maintenance method - Google Patents

Abstract

The invention relates to a computer system (1), comprising a power supply unit (3) for provision of at least one first supply voltage for operation of the computer system (1), a system board (2) having at least one first power supply line (19) for distribution of the at least one first supply voltage, and at least one processor (6) which is arranged on the system board (2) and is coupled to the first power supply line (19). The computer system (1) furthermore has a system monitoring module (7) arranged on the system board (2), at least one network interface (13) coupled to the system monitoring module (7), and at least one splitter (14), coupled to the network interface (13), for tapping off a remote feed voltage which is provided via the network interface (14). The invention furthermore relates to an arrangement for remote maintenance comprising a computer system (1) such as this, and to a remote maintenance method.

Description

description

Computer system, arrangement for remote maintenance and remote maintenance procedures

The invention relates to a computer system comprising a power supply, a system board, at least one disposed on the Sys ^¬ templatine processor and arranged on the system board system monitoring module. The invention further relates to an arrangement for remote maintenance, comprising such a computer system and a remote maintenance experienced.

Computer systems with an attached arrange ^¬ ten on a system board system monitoring module are known from the prior Techni. For example, from the document DE 10 2006 043636 AI a computer system comprising a processor for executing program code, a first nonvolatile memory for storing first program code for starting the computer system and a system monitoring module is known, which is operatively connected to the processor and the first non-volatile memory , Among other things, the known computer system enables the execution of a method for updating program code for starting the computer system.

Other maintenance tasks, such as making system settings and getting any error and status messages, can also be done through a system monitor. A maintenance means of a remote, centralized remote maintenance system to ermögli ^¬ Chen, is carried out to a communication between the teleservice tion system and the system monitoring module preferably via a network interface.

The problem with such computer systems is that they must be supplied with a so-called standby supply voltage for providing the remote maintenance function in an off state in which the computer is not needed by a user in order to continue to supply the system monitoring module with an operating power. The continuous supply of a standby supply voltage causes a mostly unnecessary energy consumption from a power grid.

In order to further reduce the energy consumption of known computer systems, German Patent Application DE 10 2008 031536 A1 discloses a power supply with a circuit arrangement which permits a complete separation of a voltage converter of the power supply from a primary supply voltage and thus reduces an energy consumption of the computer system in a switched-off state , A problem with the circuit arrangement described therein is that it is particularly not suitable for use with computer systems in which remote maintenance is to be performed by a central remote maintenance system.

It is inter alia an object of the present invention, a computer system, to describe an arrangement comprising a computer system and a method for performing remote maintenance, which allow the execution of remote maintenance functions, despite a reduced power consumption of the Compu ^¬ tersystems. According to a first aspect of the invention, a Computersys ^¬ system comprising a power supply for providing at least a first supply voltage for operation of the computer system, a system board with at least one first Stromversor ^¬ supply line for distributing the at least one first supply voltage and at least one disposed on the system board and the first power supply line coupled processor for executing program code of user programs. The computer system further includes a arranged on the system board system monitoring device with a microcontroller for executing program code for remote maintenance, at least one coupled to the system ^¬ monitoring module network interface and we ^¬ nigstens a processor coupled to the network interface splitter for branching a remote supply voltage provided via the network interface and injecting a second supply voltage produced from the branched remote supply voltage in at least one second Versorgungslei ^¬ tung the system board, said second Stromversorgungslei ^¬ tung is coupled to the system monitoring module.

Such a computer system with two different power supply lines, which operate different power levels of the computer system, allows a power ^¬ supply of a system monitoring device independently of other components of the computer system, in particular the processor. The system monitoring module takes up only a relatively small operating energy, which is according to the first aspect, a network interface bereitge ^¬ represents. For this example, the so genann ^¬ te Power-over-Ethernet protocol (PoE) is 802.3at accordance with IEEE 802.3af and IEEE. According to an advantageous embodiment, the power supply has at least one switching element for interrupting a primary mains voltage. The system monitoring module is connected to the power supply via at least one control line and is configured to close the switching element at the request of a remote maintenance command contained in the program code for remote maintenance so that the power supply unit is connected to the primary mains voltage. Such a computer system allows remote powering of a power supply and thus the supply of other components of the computer system with a supply voltage.

According to a further advantageous embodiment of the program code for remote maintenance a first and a second set of remote maintenance functions, wherein the system monitoring module is adapted to perform the first set of Fernwar ^¬ processing functions upon application of the first or the second supply voltage and the second set of remote maintenance functions only when Execute concerns of at least the second supply voltage. Such a division of remote maintenance functions in a first and a second set allows a needs-based supply of the computer ^¬ system with supply voltage as a function of the desired remote maintenance function.

According to a second aspect of the present invention, an arrangement for remote maintenance is described which comprises at least one remote maintenance system comprising a first network interface, at least one computer system having a second network interface and at least one network component with we ^¬ nigstens a first and at least a second network port. It is the network component via ers ^¬ th network port with the remote maintenance system and the second network port coupled to the computer system. Such an arrangement is particularly suitable for remote maintenance of a computer system according to the first aspect of the invention.

According to an advantageous embodiment, the at least one network component has a control device for selectively activating and deactivating the remote supply voltage to the second network port and the remote maintenance system is configured to control the control device when performing a remote maintenance function such that the remote supply voltage to the second network port provided. Such an arrangement allows a demand-supply ^¬ position of the remote supply voltage, so that in times in which no remote maintenance function is required can be dispensed with the READY ^¬ lung unnecessary remote supply voltage.

According to a third aspect of the invention, a remote maintenance method is described with the following steps:

- Selecting a serviceable computer system through a remote maintenance system

 - Providing a remote supply voltage via a network interface of the selected computer system

Executing program code for remote maintenance by a network monitoring interface remotely powered system monitoring module of the second computer system and

- establishing a data connection between the remote maintenance system and the system monitor to perform maintenance functions on the selected computer system. Further advantageous embodiments of the invention are explained in the appended claims and the following detailed description.

The invention will be explained in more detail below with reference to figures based on embodiments. In the figures show:

FIG. 1 shows a schematic representation of a computer system according to a first embodiment,

Figure 2 is a schematic representation of an arrangement comprising the computer system according to Figure 1 and

3 shows a flowchart of a remote maintenance method.

FIG. 1 shows a computer system 1. Computer system 1 is, for example, a workstation or a server computer in a company network. In the exemplary embodiment, the computer system 1 includes, inter alia, a system board 2 and a power supply 3.

The power supply unit 3 includes a voltage converter 4 for converting a mains side AC voltage in at least a first supply voltage for the system board 2. In the execution ^¬ example of the voltage converter 4 are from two different supply voltages via a first connector 5 to the system board. 2 For example, it is DC voltages of 5.0 and 3.3 V. Of course, other or further supply voltages can be provided by the power supply 3. On the system board 2, various components of the computer system 1 are arranged. Among others, the Sys ^¬ templatine 2 includes a processor 6, a Systemüberwachungsbau ^¬ stone 7 and a network controller 8. In an alternative embodiment of the system monitoring module 7 includes an integrated network controller. The components 6, 7 and 8 are connected to one another via one or more bus systems 9.

The system monitoring device 7 comprises in the embodiment a microcontroller 10 and a nonvolatile memory 11. The microcontroller 10 performs, among other program code from the nonvolatile memory 11 of which is adapted to monitor the proper operation and Confectionery ^¬ guration of the computer system. 1 Such Baustei ne are variously known as Baseboard Management Control ^¬ ler (BMC), remote management chipset (RMC) or system management module. The system monitoring module can access the processor 6 and other components of the computer system 1, for example via the bus system 9 or via another system management bus (not shown in FIG. 1).

Furthermore, the system monitoring module 7 can access and also be activated by the network controller 8, so that it is possible to send alarm messages and receive configuration requests via a data network 12 coupled to the network controller 8. The network controller 8 includes at least the components required for establishing a physical connection and for accessing a network medium. Further components, in particular software components for implementing suitable protocols, can be used, for example, in the System Monitoring Block 7 be executed program code contained. Examples of suitable protocols for this are known from the so-called "Active Management Technology" from Intel (iAMT) or the Distributed Management Task Force (DMTF) "Desktop and Mobile Architecture for System Hardware" (DASH).

The computer system 1 further comprises a network interface 13 for coupling the computer system 1 with the data network 12. In the illustrated embodiment, the network interface 13 is not directly coupled to the Systempla ^¬ tine. 2 Instead, a connection exists between the network interface 13 and a splitter 14 for branching off a remote supply voltage provided via the network interface 13. In the illustrated embodiment, the remote supply voltage is supplied to a second voltage converter 15. By way of example, the second voltage converter 15 is a DC-DC converter which generates a second supply voltage of, for example, 5 V from a remote supply voltage of, for example, 48 V.

With matching voltages, the remote supply voltage can of course also be used directly as a second supply voltage. The second voltage converter 15 is then omitted. The second supply voltage is provided via a second plug-in connector 16 of the system board 2. Furthermore, the network controller 8 is provided with an AC component of the received network signal via a third connector 17. The provided AC voltage component contains the user data transmitted via the data network 12 and is typically freed from the remote DC supply voltage. The components 13, 14 and 15 can be provided in different embodiments of the invention, either as separate individual components in the computer system 1, together with the network controller 8 on a separate from the system board 2 network card or as ^{angeordne ¬} te system components ^¬ te system components. Provided that the components are not located on a common circuit board, Müs ^¬ sen corresponding compounds, for example in the form of connectors, are provided to couple the components together electrically.

In order to disconnect the computer system 1 from a primary AC mains voltage in an off state, the power supply 3 optionally includes a switching element 18 for disconnecting a primary power line. The switching element 18 is, for example, a relay which is switched on or off as required by a suitable control electronics of the computer system 1.

For the power supply of the different components of the computer system 1, at least a first supply line 19 and a second Versorgungslei ^¬ tung 20 are provided on the system board 2 defining different Stromversorgungsebe ^¬ NEN. Of course, a plurality of supply lines, for example, be provided for different voltages or redundant supply paths. In the illustrated embodiment, the first versor ^¬ supply line 19 is used inter alia for the supply of the processor 6 with a supply voltage of 3.3 V, which is provided by the first voltage transformer 4 of the power supply. 3 The second supply line 20 serves to supply the system monitoring module 7 and the network controller 8 via the second supply level. In the exemplary embodiment, the second supply line 20 is optionally by the first voltage converter 4 of the power supply 3 or by the second voltage converter 15, which with the

Splitter 14 is coupled, supplied with a DC voltage of 5.0V. This purpose is served in the embodiment of a switching ^¬ device 21. In the simplest case, this is at the switching device 21 is merely a coupling circuit for coupling the supply voltages provided Ü about Einkoppeldioden. Of course, an active switching device 21 may be provided, which selects the first voltage converter 4 as a supply source and the switched-off power supply 3, the second voltage converter 15 as a supply source during operation of the power supply 3.

In the illustrated embodiment, the Systemüberwa ^¬ monitoring module 7 is connected via a control line 22 and a fourth connector 23 to the switching element 18 of the power supply 3. By means of the control line 22, the system monitoring module 7 can switch on the power supply 3 if necessary. For example, the second supply voltage can be connected via a power transistor to a drive coil of a relay.

The computer system 1 shown in Figure 1 is particularly suitable for remote maintenance in an arrangement as will be described below with reference to Figure 2, and to perform a method for remote maintenance, as it is described with reference to Figure 3 beschrie ^¬ ben below ,

2 shows an arrangement comprising Computersys ^¬ system 1 as well as a network switch 24 is shown. The network switch 24 has n network ports 25.1 to 25. n. at the network switch 24 is, for example, egg ^¬ nen so-called Managed Power Over Ethernet Switch according to IEEE 802.3af or 802.3at. The network switch 24 comprises a built-in control device 26 in the form of a microcontroller, via which the individual network ports 25.1 to 25 n can be selectively supplied with a remote supply voltage. For this purpose, the network switch 24 further includes a built-in power supply 27.

In the illustrated exemplary embodiment, the computer system 1 is connected to the network port 25 n of the network switch 24 via a first network line 28. Furthermore, a remote maintenance system 30 is coupled to the network switch 24 via the network port 25.1 and a second network line 29. On the remote maintenance system 30 runs a remote maintenance application 31, which includes program code for controlling the control device 26 and executed by the system monitoring module 7 program code for system monitoring of the computer system 1. Instead of the network switch 24, other network components, such as bridges or hubs for connecting the computer system 1 and the remote maintenance system 30 can be used.

FIG. 3 shows a method for the remote maintenance of the computer system 1 according to FIG. 1 in the arrangement according to FIG. 2.

In a first step S 1, the remote maintenance system 30 selects a computer system 1 which is to be maintained remotely. For example, from an electronic database with an inventory list, a computer system 1 can be selected on which a new firmware component is to be installed. In an optional step S2, a network port 25.n associated with the selected computer system 1 is activated for supply with a remote supply voltage. For example, the remote maintenance system 30 may query the same or another database as to which network port 25 the selected computer system 1 is connected to. Via a management interface of the network switch 24 then the control device 26 is controlled so that the corresponding network port is 25 n powered by the power supply 27 of the network switch 24 with the remote supply voltage. The configuration can be done manually, for example via a web interface of the network switch 24, or automatically by the remote maintenance application 31. In principle, it is also possible to apply the network port 25 permanently with a remote supply voltage.

In a subsequent step S3, a system monitoring module 7 of the computer system 1 is supplied via the second supply line Ver ^¬ 20 with a supply voltage. For this purpose, the remote supply voltage provided by the network switch 24 is branched off in the splitter 14 and made available to the second voltage converter 15. The second voltage converter 15 converts the remote supply voltage to a suitable second supply voltage to supply to the system monitoring module 7 and provides it via the two ^¬ th connector 16 of the system board 2 are available.

Even if the computer system 1 at this time fully ^¬ constantly disconnected from a power supply network, for example, because the switching element 18 has interrupted the primary power line or a user has pulled the power plug of the computer system 1, the system monitoring module 7 is supplied with sufficient energy to simple Remote- Perform maintenance tasks and inquiries. In particular, it provides power that can be provided via the network interface 13 of up to 15 W for supplying the system monitoring module 7 and the network controller 8. When the second supply voltage is applied, the microcontroller 10 of the system monitoring module 7 starts the program code stored in the nonvolatile memory 11 to provide a first set of remote maintenance functions that can be executed without powering other components of the computer system 1.

In a subsequent step S4, communication between the remote maintenance system 30 and the system monitoring module 7 can then take place via the data network 12. For example, the remote maintenance system 30 may retrieve information about a BIOS or other firmware version stored on the system board 2 or retrieve cached error messages in the nonvolatile memory 11.

In a further embodiment of the invention, the computer system 1 and the described remote maintenance method are set up to supply other components of the computer system 1 with a supply voltage in order to carry out even more complex remote maintenance tasks. For example, the processor 6 typically requires an electrical power greater than 15 watts to operate, which typically can not be provided over the network interface 13. For this purpose, the system monitoring module 7 is shown in Figure 1 via a control line 22 to a switching element 18 for activating the power supply unit 3 of the computer 1 connected ^¬ systems. In the figure 3, the necessary steps as optio ^¬ dimensional sub-steps within the process step S4 are Darge ^¬ represents.

In a first sub-step S5, a first command is transmitted from the remote maintenance system 30 to the system monitoring module 7. The first command instructs the system monitoring module 7 to switch on the power supply 3 of the computer system 1 in order to be able to access further components of the computer system 1.

7 this, transmits the system monitoring module, a suitable drive signal via the control line 22 to the switching ^¬ element 18. The switching element 18 is then in the lower ^¬ step S6 are closed, so that a power voltage is connected through to the voltage converter 4 of the power supply. 3 The voltage converter 4 then generates one or more further supply voltages, which are output via the first connector 5 to the system board 2 of the computer system 1, for example. Then, start other components of the computer system 1. For example, processor 6 or more, not shown in the Figure 1 components such as hard disks or other storage drives of Computersys ^¬ tems 1 having a first supply voltage can be supplied.

Are the components of the computer system 1 in an operation ^¬ ready state, can be transferred to another sub-step S7 another command from the remote maintenance system 30 to system monitoring module 7 and executed to install, for example, new files on a hard drive of the computer system. 1 Of course, upon successful completion of the maintenance, the computer system 1 may be shut down equivalently and disconnected from the power network if desired. If the system monitoring module 7 is also no longer to be supplied with an operating voltage, the remote maintenance system 30 can configure the controller 26 of the network switch 24 in such a way that the network port 25 n associated with the computer system 1 is no longer supplied with the remote supply voltage.

The computer system described, the arrangement and the drive Ver allow a modular loading individual compo components of a computer system with a supply voltage. Thus, maintainability of the computer system at the same time ^¬ energy efficiency of the computer system and the computer system is prepared containing assembly. Ideally, the computer system can be completely disconnected from the power network. Even a Netzwerkkompo ^¬ component can be configured such that it always supplies only the computer systems with a remote power supply, which are currently being serviced. Unnecessary standby power is therefore not absorbed by the computer system or the network component when no computer system is currently being maintained.

, _r

 - 16 -

Reference sign list

1 computer system

 2 system board

3 power supply

 4 first voltage converter

 5 first connector

 6 processor

 7 System Monitoring Module 8 Network Controller

 9 bus system

 10 microcontroller

 11 non-volatile memory

 12 data network

13 network interface

 14 splinters

 15 second voltage converter

 16 second connector

 17 third connector

18 switching element

 19 first supply line

 20 second supply line

21 switching device

 22 control line

23 fourth connector

 24 network switch

 25 network port

 26 control device

 27 power supply

28 first network cable

 29 second network cable

 30 remote maintenance system

 31 Remote maintenance application

Claims

claims

A computer system (1) comprising:

 a power supply (3) for providing at least a first supply voltage for operating the computer system

(l);

a system board (2) with at least one first power ^¬ supply line (19) for distributing the at least one first supply voltage;

- at least one processor (6) arranged on the system board (2) and coupled to the first power supply line (19) for executing program code of user programs;

 a on the system board (2) arranged system monitoring module (7) with a microcontroller (10) for

Executing program code for remote maintenance;

 at least one network interface (13) coupled to the system monitor (7); and

 at least one splitter (14) coupled to the network interface (13) for branching one over the

Network interface (13) provided Fernspeise ^¬ voltage and for feeding a second supply voltage generated from the remote supply voltage in at least a second power supply line (20) of the Systemplati- ne (2), wherein the second power supply line (20) to the system monitoring module (7) is coupled.

2. Computer system (1) according to claim 1,

 characterized in that

the network interface (13) and the splitter (14) are arranged on the system board (2). Computer system (1) according to claim 1,

characterized in that

the network interface (13) and the splitter (14) are arranged on a network card with a network controller (8), wherein the system board (2) has a plug-in ^connector (16) for feeding the remote supply voltage branched off from the splitter (14) the second supply voltage via a cable connection.

Computer system (1) according to one of claims 1 to 3, characterized in that

the power supply unit (4) has at least one switching element (18) for interrupting a primary mains voltage and the system monitoring module (7) is connected to the power supply unit (3) via at least one control line (22) and is set up to apply the switching element (18) to a request in the remote maintenance program code, so that the power supply unit (3) is connected to the primary mains voltage.

Computer system (1) according to claim 4,

characterized in that

the at least one switching element (18) is a relay, wherein a drive coil of the relay from the second Ver ^¬ supply voltage is supplied with a switching energy.

Computer system (1) according to claim 4 or 5,

characterized in that

the remote control program code comprises a first and a second set of remote maintenance functions, the system monitoring device (7) being adapted to execute the first set of remote maintenance functions upon application of the first or second supply voltage; execute the second set of remote maintenance functions only when concern of at least the second supply voltage.

Arrangement for remote maintenance, comprising:

at least one remote maintenance system (30) with a first Net zwerkschnittstelle;

at least one computer system (1) having a second network interface (13) according to one of claims 1 to 6; and

at least one network component having at least one first and at least one second network port (25.1, 25 n), wherein the network ^component via the first network ^¬ work port (25.1) with the remote maintenance system (30) and via the second network port ( 25. n) is coupled to the computer system (1).

Arrangement according to claim 7,

characterized in that

the at least one network component ^comprises a control device (26) for selectively activating and deactivating the remote supply voltage at the second network port

 (25 n) and the remote maintenance system (30) is adapted, when performing a remote maintenance function, the control device (26) to control such that the remote supply voltage to the second network port

 (25. n) is provided.

Remote maintenance method, comprising the steps:

Selecting a computer system (1) to be maintained by a remote maintenance system (30);

Providing a remote supply voltage to a network interface (13) of the selected computer system (1); Executing program code for remote maintenance through a via the network interface (13) remotely fed Sys ^¬ temüberwachungsbaustein (7) of the computer system (1); and establishing a data connection between the remote maintenance system (30) and the system monitor (7) for performing maintenance functions on the selected computer system (1).

Remote maintenance method according to claim 9,

characterized by the additional step:

Activating a network ports (25 n) of a network component for providing the remote supply voltage at the network interface (13) of the selected Computersys ^¬ tems (1).

Remote maintenance method according to claim 9 or 10,

characterized by the additional steps:

Transmitting a first remote maintenance command to the Power On ^¬ th of a switching element (18) of a power supply (3) of the selected computer system (1);

 Supplying the selected computer system (1) with a first supply voltage through the power supply unit (3); and transmitting a second remote maintenance command to perform a maintenance function to access at least one component of the computer system (1) powered by the power supply (3) with the first supply voltage.