CN101441508A - Control method of equipment operation mode, equipment and system - Google Patents

Abstract

The embodiment of the invention discloses a method, a device and a system for controlling a working mode of the device. The method comprises the following steps: starting timing at idle, and setting time span of the timing as preparation time; and if a command sent by a host is not received in the preparation time, converting self working mode from a first state to a second state. In the embodiment, the device automatically controls the self working mode, and reduces energy consumption of the device.

Description

A kind of control method of equipment work pattern, equipment and system

Technical field

The present invention relates to field of computer technology, particularly relate to a kind of control method, equipment and system of equipment work pattern.

Background technology

In the face of growing data volume and storage demand, a lot of enterprise customers even the most frequently used solution of personal user are exactly constantly to acquire memory device.The result who brings thus is exactly, and arrives data center greatly, and little energy consumption is more and more higher to notebook computer, and power consumption is constantly soaring.At present, advocate and save energy and reduce the cost, make the common recognition that green storage has become industry, and memory device as hard disk, as one of energy consumption rich and influential family among the IT (InformationTechnology, infotech), becomes the focus of concern with standing in the breach.Lower energy consumption means that the working temperature of hard disk also can decrease, and is vital to the storage server or the system of multiple storage devices, and low-temperature working can reduce the probability that hard disk breaks down, and also can increase serviceable life thereupon.

In ATA (Advanced Technology Attachment, the advanced techniques attachment device) consensus standard, provide orders such as IDLE, SLEEP and STANDBY, control store equipment is in different mode of operations, is used to realize power management.

In the prior art, the control of memory device mode of operation is responsible for by the operating system of main frame or the Energy Saving Control chip of memory device outside, main frame or Energy Saving Control chip are controlled the mode of operation of memory device, thereby reach the purpose of the energy consumption that reduces memory device.Memory device is accepted the management of main frame or Energy Saving Control chip passively, according to the working mode change instruction of main frame or the transmission of Energy Saving Control chip, carries out the corresponding work mode control operation, and memory device is realized power management in passive mode.

In realizing process of the present invention, the inventor finds that there is following problem at least in prior art:

Memory device carries out mode of operation control with passive mode, can not adapt to the variation of operative scenario, and energy-saving effect is not good, has influenced the serviceable life of memory device to a certain extent.

Summary of the invention

The embodiment of the invention provides a kind of control method, equipment and system of equipment work pattern, effectively reduces energy resource consumption, has prolonged the serviceable life of equipment.

The embodiment of the invention proposes a kind of control method of equipment work pattern, comprising:

Pick up counting at one's leisure, the time span of timing is readiness time;

If in first readiness time, do not receive the order that main frame sends, then described first readiness time then, be second state with self working mode by first state exchange.

The embodiment of the invention also proposes a kind of equipment, comprising:

Timing module is used for picking up counting at one's leisure, and the time span of timing is readiness time;

Modular converter, if be used in first readiness time, not receiving the order that main frame sends, described first readiness time then, be second state with mode of operation by first state exchange.

The embodiment of the invention also proposes a kind of control system of equipment work pattern, comprising:

Main frame is used for sending order;

Equipment is used for picking up counting at one's leisure, and the time span of timing is readiness time; If in described readiness time, do not receive the order that described main frame sends, described readiness time then, be second state with mode of operation by first state exchange.

In the embodiment of the invention, equipment is when timing is overtime, and the conversion self working mode is carried out ACTIVE CONTROL to self working mode, can initiatively adapt to the variation of operative scenario, has reduced the energy resource consumption of equipment, has prolonged the serviceable life of equipment.

Description of drawings

In order to be illustrated more clearly in the technical scheme of the embodiment of the invention, the accompanying drawing of required use is done to introduce simply in will describing embodiment below, apparently, accompanying drawing in describing below only is some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the control method process flow diagram of a kind of equipment work pattern in the embodiment of the invention;

Fig. 2 is the control method process flow diagram of the another kind of equipment work pattern in the embodiment of the invention;

Fig. 3 is the synoptic diagram that concerns of the Host Command bar number that receives in first readiness time and the Preset Time in the embodiment of the invention;

Fig. 4 is a kind of device structure synoptic diagram in the embodiment of the invention;

Fig. 5 is the another kind of device structure synoptic diagram in the embodiment of the invention;

Fig. 6 is the control system synoptic diagram of a kind of equipment work pattern in the embodiment of the invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the invention, the technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment only is a part of embodiment of the present invention, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills belong to the scope of protection of the invention not making the every other embodiment that is obtained under the creative work prerequisite.

As shown in Figure 1, the control method process flow diagram for a kind of equipment work pattern in the embodiment of the invention may further comprise the steps:

Step 101, equipment picks up counting at one's leisure, and the time span of timing is readiness time.

Equipment in the embodiment of the invention can comprise memory device, as hard disk etc.; Can comprise that also other receive the equipment of host computer control.Can be for executing the complete order that receives when idle, and during inner not carrying out or being about to carry out of task, also can be when self working mode be converted to idle condition.Equipment, picks up counting when idle above-mentioned.

Step 102, if in readiness time, do not receive the order that main frame sends, then readiness time then, equipment is second state with self working mode by first state exchange.

The mode of operation of equipment can comprise operation (run) state, free time (idle) state and dormancy (sleep) state, and first state in the embodiment of the invention can be running status or idle condition, and second state can be idle condition or dormant state.If equipment does not receive the order that main frame sends in readiness time, then readiness time then, equipment can be converted to idle condition by running status with self working mode, also self working mode can be converted to dormant state by idle condition, also can directly self working mode be converted to dormant state by running status.Be the transit time between first state and second state readiness time in the embodiment of the invention, can dynamically adjust or be set to fixed value.

In the embodiment of the invention, equipment carries out ACTIVE CONTROL to self working mode, can regulate mode of operation automatically according to different operative scenario, effectively reduces the energy resource consumption of equipment, has prolonged the serviceable life of equipment.

As shown in Figure 2, the control method process flow diagram of the another kind of equipment work pattern in the embodiment of the invention may further comprise the steps:

Step 201, equipment is executing the complete order that receives, and during inner not carrying out or being about to carry out of task, begins first timing.

The mode of operation of equipment can comprise operation (run) state, free time (idle) state and dormancy (sleep) state.During different mode of operation, the method for operation difference of equipment, energy consumption are also different.In three kinds of mode of operations, running status is normal duty, the equal operate as normal of each module of equipment; During idle condition, the non-core device of part is with the non-core device operate as normal of the other part of low energy consumption state work, and core devices still is in normal duty; During dormant state, only keep core devices work, other devices are in low energy consumption state or power-down state.

When equipment is in running status, execute the complete order that receives, and during inner not carrying out or being about to carry out of task, begin first timing from the outside, the time span of first timing was first readiness time.If in the timing course in first readiness time, when equipment receives the order of main frame transmission, carry out the order that receives.Equipment is executing the complete order that receives, and during inner not carrying out or being about to carry out of task, restarts timing.

Step 202 detects whether receive the order that main frame sends in first readiness time.

When the mode of operation of equipment is a running status, and in first readiness time, do not receive the order that main frame sends, then first readiness time then, equipment is converted to idle condition with self working mode by running status; When the mode of operation of equipment is a running status, and in first readiness time, received the order that main frame sends, then carried out the order that this main frame that receives sends, and return step 201.Be the transit time between running status and the idle condition first readiness time in the embodiment of the invention, can dynamically adjust or be set to fixed value.

Step 203, if equipment does not receive the order that main frame sends in first readiness time, then first readiness time then, equipment is converted to idle condition with self working mode by running status.

Step 204, equipment begin second timing when self working mode is converted to idle condition.

The time span of second timing was second readiness time.Be the transit time between idle condition and the dormant state second readiness time in the embodiment of the invention, can dynamically adjust or be set to fixed value.

Step 205 detects whether receive the order that main frame sends in second readiness time.

If equipment in second readiness time, receives the order that main frame sends, then execution in step 206, if equipment does not receive the order that main frame sends in second readiness time, then execution in step 207.

Step 206, equipment switches to running status with self working mode, carries out the order that main frame sends.

Equipment receives in second readiness time after the order that main frame sends, and self working mode is switched to running status, carries out the order that main frame sends, and after the complete order that is finished with original timing zero clearing, return step 201 and restart timing.

Step 207, if equipment does not receive the order that main frame sends in second readiness time, then second readiness time then, equipment is converted to dormant state with self working mode by idle condition.

When the mode of operation of equipment is an idle condition, and in second readiness time, do not receive the order that main frame sends, then second readiness time then, equipment is converted to dormant state with self working mode by idle condition.When be zero second readiness time, equipment can first readiness time then, directly self working mode is converted to dormant state by running status.

In the embodiment of the invention, first readiness time, second readiness time can be the time of presetting, also can be for dynamically adjusting according to the frequent degree of the Host Command that receives.The embodiment of the invention also comprises: according to the order bar number from main frame that receives in the Preset Time, dynamically adjust first readiness time and/or second readiness time.The length of first readiness time and/or second readiness time is directly proportional with the Host Command bar number that receives in the Preset Time.

As shown in Figure 3, the synoptic diagram that concerns for the Host Command bar number that receives in first readiness time and the Preset Time in the embodiment of the invention, the Host Command bar that receives in the Equipment Inspection Preset Time is counted N, counts N according to the Host Command bar, dynamically adjust first readiness time Ti.Among Fig. 3, Tmax is the maximal value of first readiness time, and Tmin is the minimum value of first readiness time, Tmin〉0, Tmin, Tmax can be the value of rule of thumb setting.First readiness time Ti length, count N with the Host Command bar that receives in the Preset Time and be directly proportional, it is big more that the Host Command bar of reception is counted N, first readiness time Ti long more.When N hour, then to receive number of times lower in the order of equipment in Preset Time, the exectorial time is shorter, equipment is in comparatively idle state, can suitably shorten first readiness time Ti, make equipment after command execution is finished, switch to idle condition quickly; When N is big, the then frequent order that receives from main frame of equipment, the most of the time is in normal operating conditions, can suitably increase first readiness time Ti, reduce the number of times of changing between the different conditions.

Second readiness time in the embodiment of the invention, also can dynamically adjust by the way.The length of first readiness time and/or second readiness time, be not limited to the direct ratio linear relationship with the Host Command bar number relation that receives in the Preset Time, can also be other proportional relations, for example, exponential relationship or other are funtcional relationship repeatedly, no longer describes at this.

In the embodiment of the invention, the Host Command bar that receives in the Equipment Inspection Preset Time is counted N, can obtain the frequent degree Nc that receives Host Command in the Preset Time, promptly receives Host Command bar number in the unit interval, according to Nc, dynamically adjust first readiness time and/or second readiness time.The length of first readiness time and/or second readiness time is directly proportional with the frequent degree Nc that receives Host Command in the Preset Time, and the frequent degree Nc that receives Host Command is big more, and first readiness time and/or second readiness time are long more.When Nc hour, then the order reception number of times of equipment in Preset Time is lower, the exectorial time is shorter, equipment is in comparatively idle state, can suitably shorten first readiness time and/or second readiness time, make equipment after command execution is finished, switch to idle condition quickly, to save more energy consumption; When Nc is big, the then frequent order that receives from main frame of equipment, the most of the time is in normal operating conditions, can suitably increase first readiness time and/or second readiness time, reduces the number of times of changing between the different conditions.

In the embodiment of the invention, equipment carries out ACTIVE CONTROL to self working mode, can be according to different operative scenario, automatically regulate mode of operation, conversion being provided with transit time between different working modes, and the Host Command bar number that receives in the dynamic or Preset Time of the frequent degree of order that sends according to main frame is adjusted the length of transit time, can adapt to the variation of operative scenario, adapt to the conversion of the frequent degree of order of main frame, effectively reduce the energy resource consumption of equipment, prolong the serviceable life of equipment.

As shown in Figure 4, a kind of device structure synoptic diagram in the invention process comprises:

Receiver module 400 is used to receive the order that main frame sends.

Timing module 410 is used for picking up counting at one's leisure, and the time span of timing is readiness time.

Equipment in the embodiment of the invention can comprise memory device, as hard disk etc.; Can comprise that also other receive the equipment of host computer control.Can be for executing the complete order that receives when idle, and during inner not carrying out or being about to carry out of task, also can be when working mode change be idle condition.Timing module 410 picks up counting under above-mentioned state.

Modular converter 420 does not receive the order that main frame sends if be used in readiness time receiver module 400, readiness time of timing module 410 then, be second state with mode of operation by first state exchange.

The mode of operation of equipment can comprise operation (run) state, free time (idle) state and dormancy (sleep) state, and first state in the embodiment of the invention can be running status or idle condition, and second state can be idle condition or dormant state.If equipment does not receive the order that main frame sends in readiness time, then readiness time then, modular converter 420 can be converted to idle condition by running status with mode of operation, also mode of operation can be converted to dormant state by idle condition, also can directly mode of operation be converted to dormant state by running status.Be the transit time between first state and second state readiness time in the embodiment of the invention, can dynamically adjust.

In the embodiment of the invention, equipment carries out ACTIVE CONTROL to self working mode, can regulate mode of operation automatically according to different operative scenario, effectively reduces the energy resource consumption of equipment, has prolonged the serviceable life of equipment.

As shown in Figure 5, the another kind of device structure synoptic diagram in the embodiment of the invention comprises:

Second receiver module 500 is used to receive the order that main frame sends.

Second timing module 510 is used for picking up counting at one's leisure, and the time span of timing is readiness time.

Equipment in the embodiment of the invention can comprise memory device, as hard disk etc.; Can comprise that also other receive the equipment of host computer control.Can be for executing the complete order that receives when idle, and during inner not carrying out or being about to carry out of task, also can be when working mode change be idle condition.Second timing module 510 picks up counting under above-mentioned state.

Second modular converter 520 does not receive the order that main frame sends if be used in readiness time second receiver module 500, readiness time of second timing module 510 then, be second state with mode of operation by first state exchange.

The mode of operation of equipment can comprise operation (run) state, free time (idle) state and dormancy (sleep) state, and first state in the embodiment of the invention can be running status or idle condition, and second state can be idle condition or dormant state.If equipment does not receive the order that main frame sends in readiness time, then readiness time then, second modular converter 520 can be converted to idle condition by running status with mode of operation, also mode of operation can be converted to dormant state by idle condition, also can directly mode of operation be converted to dormant state by running status.Be the transit time between first state and second state readiness time in the embodiment of the invention, can dynamically adjust.

When first state is a running status, when second state was idle condition, second timing module 510 also was used for picking up counting when working mode change is idle condition, and the time span of timing was second readiness time; Second modular converter 520, if also be used in second readiness time, not receiving the order that main frame sends, second readiness time then, mode of operation is converted to dormant state by idle condition.Be the transit time between idle condition and the dormant state second readiness time in the embodiment of the invention, can dynamically adjust.

Adjusting module 530 is used for dynamically adjusting the readiness time and/or second readiness time according to the Host Command bar number that receives in the Preset Time.

Adjusting module 530 detects the Host Command bar that receives in the Preset Time and counts N, counts N according to the Host Command bar, dynamically adjusts Ti readiness time.With reference to Fig. 3, be the synoptic diagram that concerns of the Host Command bar number that receives in readiness time in the embodiment of the invention and the Preset Time, Tmax is the maximal value of readiness time, Tmin is the minimum value of readiness time, Tmin〉0.Readiness time Ti length, count N with the Host Command bar that receives in the Preset Time and be directly proportional, it is big more that the Host Command bar of reception is counted N, readiness time, Ti was long more.When N hour, then to receive number of times lower in the order of equipment in Preset Time, the exectorial time is shorter, equipment is in comparatively idle state, adjusting module 530 can suitably shorten Ti readiness time, makes equipment after command execution is finished, and switches to idle condition quickly; When N is big, the then frequent order that receives from main frame of equipment, the most of the time is in normal operating conditions, and adjusting module 530 can suitably increase Ti readiness time, reduces the number of times of changing between the different conditions.

Second readiness time in the embodiment of the invention, also can dynamically adjust by the way.The length of the readiness time and/or second readiness time is not limited to the direct ratio linear relationship with the Host Command bar number relation that receives in the Preset Time, can also be other proportional relations, and for example, exponential relationship or other are funtcional relationship repeatedly, no longer describes at this.

In the embodiment of the invention, equipment carries out ACTIVE CONTROL to self working mode, can be according to different operative scenario, automatically regulate mode of operation, conversion is provided with transit time between different working modes, and the frequent degree of order that sends according to main frame is dynamically adjusted the length of transit time, can adapt to the variation of operative scenario, the effectively energy resource consumption of reduction equipment, the serviceable life of prolongation equipment.

As shown in Figure 6, the control system synoptic diagram for a kind of equipment work pattern in the embodiment of the invention comprises:

Main frame 601 is used for sending order;

Equipment 602 is used for picking up counting at one's leisure, and the time span of timing is readiness time; If in described readiness time, do not receive the order that main frame 601 sends, described readiness time then, be second state with mode of operation by first state exchange.

Equipment 602 in the embodiment of the invention can comprise memory device, as hard disk etc.; Can comprise that also other receive the equipment of host computer control.Can be for executing the complete order that receives when idle, and during inner not carrying out or being about to carry out of task, also can be when working mode change be idle condition.

Equipment 602 can comprise each module among Fig. 4 or Fig. 5.

In the embodiment of the invention, equipment in the system carries out ACTIVE CONTROL to self working mode, can be according to different operative scenario, automatically regulate mode of operation, conversion is provided with transit time between different working modes, and the frequent degree of order that sends according to main frame is dynamically adjusted the length of transit time, can adapt to the variation of operative scenario, the effectively energy resource consumption of reduction equipment, the serviceable life of prolongation equipment.

It is to be noted; conversion between the mode of operation in the embodiment of the invention is not limited to the conversion between running status, idle condition and the dormant state of operate as normal; can also comprise the conversion between the mode of operations such as holding state, ready state, suspended state and closed condition, use other states to carry out still belonging in the scope of patent protection of the present invention of same or similar operation.

Through the above description of the embodiments, those skilled in the art can be well understood to the present invention and can realize by hardware, also can realize based on such understanding by the mode that software adds necessary general hardware platform, technical scheme of the present invention can embody with the form of software product, it (can be CD-ROM that this software product can be stored in a non-volatile memory medium, USB flash disk, portable hard drive etc.) in, comprise that some instructions are with so that a computer equipment (can be a personal computer, server, the perhaps network equipment etc.) carry out the described method of each embodiment of the present invention.

It will be appreciated by those skilled in the art that accompanying drawing is the synoptic diagram of a preferred embodiment, module in the accompanying drawing or flow process might not be that enforcement the present invention is necessary.

The above only is a preferred implementation of the present invention; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the principle of the invention; can also make some improvements and modifications, these improvements and modifications also should be looked protection scope of the present invention.

Claims (11)

1, a kind of control method of equipment work pattern is characterized in that, comprising:

Pick up counting at one's leisure, the time span of timing is readiness time;

If in described readiness time, do not receive the order that main frame sends, then described readiness time then, be second state with self working mode by first state exchange.

2, the method for claim 1, it is characterized in that, be first readiness time described readiness time, described first state is a running status, described second state is an idle condition, described is to execute the complete order that receives when idle, and during inner not carrying out or being about to carry out of task.

3, method as claimed in claim 2 is characterized in that, described is after second state by first state exchange, also comprises:

If in second readiness time, do not receive the order that described main frame sends yet, then described second readiness time then, self working mode is converted to dormant state by described idle condition.

4, the method for claim 1 is characterized in that, described first state is an idle condition, and described second state is a dormant state, described when idle when self working mode is converted to idle condition.

5, the method for claim 1 is characterized in that, described first state is a running status, and described second state is a dormant state.

6, as each described method of claim 1 to 5, it is characterized in that, also comprise:

According to the Host Command bar number that receives in the Preset Time, dynamically adjust described readiness time and/or described second readiness time.

7, method as claimed in claim 6 is characterized in that, the length of described readiness time and/or described second readiness time is directly proportional with the Host Command bar number that receives in the described Preset Time.

8, a kind of equipment is characterized in that, comprising:

Timing module is used for picking up counting at one's leisure, and the time span of timing is readiness time;

Modular converter, if be used in described readiness time, not receiving the order that main frame sends, described readiness time then, be second state with mode of operation by first state exchange.

9, as equipment as described in the claim 8, it is characterized in that be first readiness time described readiness time, described first state is a running status, and described second state is an idle condition,

Described timing module also is used for picking up counting when working mode change is idle condition, and the time span of timing was second readiness time;

Described modular converter, if also be used in described second readiness time, not receiving the order that main frame sends, described second readiness time then, mode of operation is converted to dormant state by described idle condition.

10, as equipment as described in claim 8 or 9, it is characterized in that, also comprise:

Adjusting module is used for dynamically adjusting described readiness time and/or described second readiness time according to the Host Command bar number that receives in the Preset Time.

11, a kind of control system of equipment work pattern is characterized in that, comprising:

Main frame is used for sending order;

Equipment is used for picking up counting at one's leisure, and the time span of timing is readiness time; If in described readiness time, do not receive the order that described main frame sends, described readiness time then, be second state with mode of operation by first state exchange.

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