CN103377107A - Server working parameter monitoring system and method - Google Patents

Abstract

A server working parameter monitoring method includes setting the time interval for reading working parameters of a server, reading the working parameters of the server according to the set time interval after the server is initialized, sampling the read working parameters to obtain N working parameters which are read continuously, conducting subtraction on every two adjacent working parameters in the N working parameters to obtain N-1 parameter differences, judging whether the N-1 parameter differences are in the parameter change range of the server and adjusting the time interval for reading the working parameters of the server according to a judging result. A server working parameter monitoring system is further provided. By means of the system and method, the aim of saving power supply consumption is achieved by adjusting the time interval for reading the working parameters of the server through a baseboard management controller.

Description

Running parameter supervisory system and the method for server

Technical field

The present invention relates to a kind of running parameter supervisory system and method for server.

Background technology

Whether baseboard management controller (Baseboard Management controller, BMC) needs constantly the constantly various status informations of monitoring server as the monitoring unit of server at present, stablize such as temperature, the voltage of monitoring server etc.In the long run, the operating mode of the long-term high capacity of BMC so that the required power consumption of server takes care of the pence, will be a very large cost expense.

Summary of the invention

In view of above content, be necessary to provide a kind of running parameter supervisory system and method for server, its time interval that can read by adjusting baseboard management controller the server running parameter reaches the purpose of saving electrical source consumption.

A kind of running parameter supervisory system of server runs in the baseboard management controller of this server, and this system comprises: module is set, is used for arranging the time interval of the running parameter that reads described server; Read module is used for reading the running parameter of this server according to the set time interval after this server initialization; Sampling module is used for the above-mentioned running parameter that reads being taken a sample the N that is read a continuously running parameter; Judge module is used for adjacent two running parameters of an above-mentioned N running parameter are subtracted each other, and obtains N-1 parameter difference, judges that this N-1 parameter difference is whether within the parameter variation range of described server; And adjusting module, be used for the time interval of reading the running parameter of this server according to above-mentioned judged result adjustment

A kind of running parameter method for supervising of server, the method comprises: setting steps, the time interval of the running parameter of described server is read in setting; Read step after this server initialization, reads the running parameter of this server according to the set time interval; Sampling procedure is taken a sample to the above-mentioned running parameter that reads, the N that is read a continuously running parameter; Determining step subtracts each other adjacent two running parameters in the above-mentioned N running parameter, obtains N-1 parameter difference, judges that this N-1 parameter difference is whether within the parameter variation range of described server; And set-up procedure, adjust the described time interval of reading the running parameter of this server according to above-mentioned judged result.

Compared to prior art, running parameter supervisory system and the method for described server, its time interval that can read by adjusting baseboard management controller the server running parameter reaches the purpose of saving electrical source consumption.

Description of drawings

Fig. 1 is the running environment figure of the running parameter supervisory system of server of the present invention.

Fig. 2 is the functional block diagram of the running parameter supervisory system of server of the present invention.

Fig. 3 is the process flow diagram of preferred embodiment of the running parameter method for supervising of server of the present invention.

Fig. 4 illustrates the synoptic diagram that BMC reads the server temperature value.

The main element symbol description

Server	200
		Temperature inductor	10
Voltage sensor	20
		BMC	30
The running parameter supervisory system	40
		Processor	50
Storer	60
		Module is set	41
Read module	42
		Sampling module	43

Judge module	44
		Adjusting module	45

Following embodiment further specifies the present invention in connection with above-mentioned accompanying drawing.

Embodiment

As shown in Figure 1, be the running environment figure of the running parameter supervisory system of server of the present invention.In the present embodiment, running parameter supervisory system 40 runs on BMC (the Baseboard Management controller of server 200, baseboard management controller) in 30, this server 200 also comprises temperature inductor 10, voltage sensor 20 and storer 60.Described temperature inductor 10 is used for the temperature of sensing server 200, and voltage sensor 20 is used for the voltage of sensing server 200.Whether described BMC30 is in steady state (SS) for the temperature, the voltage that read respectively this server 200 from this temperature inductor 10, voltage sensor 20 with temperature, the voltage of monitoring this server 200.Need to prove that in other embodiments, described BMC30 also is used for the power supply status, rotation speed of the fan of monitoring server 200 etc.

Described storer 60 is used for storing various data, for example stores the sequencing code of described running parameter supervisory system 40.In the present embodiment, described running parameter supervisory system 40 can be divided into one or more modules, and described one or more modules are stored in the described storer 60 and by processor 50 and carry out, to finish function provided by the invention.For example, consult shown in Figure 2ly, described running parameter supervisory system 40 is divided into module 41, read module 42, sampling module 43, judge module 44 and adjusting module 45 is set.The alleged module of the present invention is to finish the program segment of a specific function, is more suitable in describing the implementation of software in BMC30 than program, will specifically describe in the process flow diagram of Fig. 3 about the function of each module.

As shown in Figure 3, be the process flow diagram of the preferred embodiment of running parameter supervisory system of the present invention.

Step S1 arranges module 41 time interval that BMC30 reads the running parameter of server 200 is set.Described running parameter can be temperature or the voltage of server 200.For example, the time interval that the temperature read server 200 is set is 1 second.

Step S2, read module 42 read the running parameter of this server 200 according to the set time interval after these server 200 initialization.For example, when the running parameter of this server 200 is temperature, after these server 200 initialization, every 1 second, read the temperature value of this server 200 from temperature inductor 10.

Specifically, consult shown in Figure 4, for example read module 42 is A1 time T second from the temperature value that temperature inductor 10 reads this server 200 after server 200 initialization are finished, the temperature value that reads this server 200 at T+1 during second is A2, read the temperature value A 3 of this server 200 during second at T+2, read the temperature value A 4 of this server 200 during second at T+3, the rest may be inferred, the temperature value that reads this server 200 at T+8 during second is A9, and the temperature value that reads this server 200 at T+9 during second is A10.

Step S3,43 pairs of above-mentioned running parameters that read of sampling module are taken a sample, the N that is read a continuously running parameter, described N can be 10.For example 43 pairs of above-mentioned 10 temperature values that read of sampling module are taken a sample, and 10 temperature values that read continuously are A1, A2, A3, A4......A9, A10.

Step S4, judge module 44 subtracts each other adjacent two running parameters in the above-mentioned N running parameter, obtains N-1 parameter difference, judges that this N-1 parameter difference is whether within the parameter variation range of described server 200.If this N-1 parameter difference all within the parameter variation range of described server 200, is then judged the stable working state of this server 200, enter step S5; If certain parameter difference is arranged in this N-1 parameter difference not within the parameter variation range of described server 200, then judge the unstable working condition of this server 200, need not to adjust the described time interval of reading the running parameter of server 200, flow process turns back to step S2, continues to read according to the set time interval running parameter of this server 200.

Need to prove, when the running parameter of described server 200 is temperature, the product of the temperature value when described parameter variation range can work for this server 200 and the distortion range of this temperature inductor 10.When the running parameter of described server 200 is voltage, the product of the magnitude of voltage when described parameter variation range can work for this server 200 and the distortion range of this voltage sensor 20.For example, the distortion range of this temperature inductor 10 is-10%～10%, and the normal temperature of server is 30 ℃, and then described parameter variation range is that range of temperature can be-3～3.

Specifically, for example judge module 44 subtracts each other adjacent two temperature values in above-mentioned 10 temperature values, being about to resulting temperature value A 2 subtracts each other with A1 and obtains temperature gap B1, A3 and A2 subtracted each other obtain temperature gap B2, A4 and A3 subtracted each other obtain temperature gap B3, the rest may be inferred, A10 and A9 subtracted each other obtain temperature gap B9, draws thus the individual temperature gap of 9 (being N-1=10-1).Judge module 44 judges that these 9 temperature gaps are that B1, B2, B3...B9 are whether in range of temperature-3～3.If these 9 temperature gaps all in range of temperature-3～3, are then judged the temperature stabilization of this server 200, enter step S5; If the some temperature gaps in these 9 temperature gaps judge that then the temperature of this server 200 is unstable not in range of temperature-3～3, return the temperature that step S2 continues to read according to the set time interval this server 200.

Step S5, adjusting module 45 improves the described time interval of reading the running parameter of described server 200.For example, before improving, BMC30 read the temperature value of this server 200 every 1 second from temperature inductor 10, and after the raising, BMC30 read the temperature value of this server 200 from described temperature inductor 10 every 2 seconds.

In other embodiments, when the parameter difference of the N-1 among the step S4 all within the parameter variation range of described server 200, described adjusting module 45 can also notify the described module 41 that arranges to reset (namely improving) the above-mentioned time interval of reading the running parameter of server 200.

It should be noted that at last, above embodiment is only unrestricted in order to technical scheme of the present invention to be described, although with reference to preferred embodiment the present invention is had been described in detail, those of ordinary skill in the art is to be understood that, can make amendment or be equal to replacement technical scheme of the present invention, and not break away from the spirit and scope of technical solution of the present invention.

Claims (10)

1. the running parameter supervisory system of a server runs in the baseboard management controller of this server, it is characterized in that, this system comprises:

Module is set, is used for arranging the time interval of the running parameter that reads described server;

Read module is used for reading the running parameter of this server according to the set time interval after this server initialization;

Sampling module is used for the above-mentioned running parameter that reads being taken a sample the N that is read a continuously running parameter;

Judge module is used for adjacent two running parameters of an above-mentioned N running parameter are subtracted each other, and obtains N-1 parameter difference, judges that this N-1 parameter difference is whether within the parameter variation range of described server; And

Adjusting module is used for the time interval of reading the running parameter of this server according to above-mentioned judged result adjustment.

2. the running parameter supervisory system of server as claimed in claim 1 is characterized in that, the value of described N is 10.

3. the running parameter supervisory system of server as claimed in claim 1, it is characterized in that, when the running parameter of described server is temperature, described read module reads the temperature value of this server from the temperature inductor of described server, the product of the temperature value when described parameter variation range equals this server normal operation and the distortion range of this temperature inductor.

4. the running parameter supervisory system of server as claimed in claim 1, it is characterized in that, when the running parameter of described server is voltage, described read module reads the magnitude of voltage of this server from the voltage sensor of described server, the product of the magnitude of voltage when described parameter variation range equals this server normal operation and the distortion range of this voltage sensor.

5. the running parameter supervisory system of server as claimed in claim 1, it is characterized in that, when above-mentioned judged result is this N-1 parameter difference all within the parameter variation range at described server the time, described adjusting module improves the above-mentioned time interval of reading the running parameter of server.

6. the running parameter method for supervising of a server is characterized in that the method comprises:

Setting steps, the time interval of the running parameter of described server is read in setting;

Read step after this server initialization, reads the running parameter of this server according to the set time interval;

Sampling procedure is taken a sample to the above-mentioned running parameter that reads, the N that is read a continuously running parameter;

Determining step subtracts each other adjacent two running parameters in the above-mentioned N running parameter, obtains N-1 parameter difference, judges that this N-1 parameter difference is whether within the parameter variation range of described server; And

Set-up procedure is adjusted the described time interval of reading the running parameter of this server according to above-mentioned judged result.

7. the running parameter method for supervising of server as claimed in claim 6 is characterized in that, the value of described N is 10.

8. the running parameter method for supervising of server as claimed in claim 6, it is characterized in that, when the running parameter of described server is temperature, described read step is to read the temperature value of described server from the temperature inductor of described server, the product of the temperature value when described parameter variation range equals this server normal operation and the distortion range of this temperature inductor.

9. the running parameter method for supervising of server as claimed in claim 6, it is characterized in that, when the running parameter of described server is voltage, described read step is to read the magnitude of voltage of this server from the voltage sensor of described server, the product of the magnitude of voltage when described parameter variation range equals this server normal operation and the distortion range of this voltage sensor.

10. the running parameter method for supervising of server as claimed in claim 6, it is characterized in that, when above-mentioned judged result is this N-1 parameter difference all within the parameter variation range at described server the time, the method improves the time interval of the running parameter that reads described server in described set-up procedure.

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