CN107305650A - A kind of equipment configuration method and device - Google Patents
A kind of equipment configuration method and device Download PDFInfo
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- CN107305650A CN107305650A CN201610250883.0A CN201610250883A CN107305650A CN 107305650 A CN107305650 A CN 107305650A CN 201610250883 A CN201610250883 A CN 201610250883A CN 107305650 A CN107305650 A CN 107305650A
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Abstract
The embodiment of the invention discloses a kind of equipment configuration method, including:Obtain the device parameter of equipment in the computer room parameter and the communications equipment room of communications equipment room;It is determined that when meeting the decision condition of the computer room parameter and the device parameter, the number of units of the equipment.The embodiment of the present invention further simultaneously discloses a kind of device configuration device.
Description
Technical field
The present invention relates to the resource configuration technology in communications equipment room field, more particularly to a kind of equipment configuration method and
Device.
Background technology
The configuration of communications equipment room power resource refers in given area or the communications equipment room of city's capacitance, to electric power storage
The capacity and quantity of the equipment such as pond, air-conditioning, active frame, passive frame carry out configuring.Resource distribution
When need to consider space in communications equipment room, electricity, the balance of refrigerating capacity three.
In the prior art on each computer room maximum device available work electric current of communications equipment room power resource configuration requirement,
Switching Power Supply, batteries configuration capacity and statistics are as shown in table 1.
Table 1
From table 1 it follows that prior art only includes the allocation plan of several types, it is impossible to according to reality
Situation carries out accurate power resource configuration, causes resource utilization low.
The content of the invention
In order to solve the above technical problems, the embodiment of the present invention is expected to provide a kind of equipment configuration method and device,
Resource distribution can in the light of actual conditions be carried out.
The technical proposal of the invention is realized in this way:
First aspect there is provided a kind of equipment configuration method, including:
Obtain the device parameter of equipment in the computer room parameter and the communications equipment room of communications equipment room;
It is determined that when meeting the decision condition of the computer room parameter and the device parameter equipment number of units, institute
State decision condition and utilize the communications equipment room to be maximum, and meet the condition of the conservation of energy.
Optionally, the decision condition includes:
The hold facility area sum is less than or equal to m times of the area of the communications equipment room, and, it is more than
Or α times of the area equal to the communications equipment room, described 0<α<M, 0<m<1;
The power consumption sum of the equipment of the communications equipment room is less than or equal to the total power consumption of the communications equipment room,
And, more than or equal to β times of the total power consumption, the β is dispatch from foreign news agency utilization rate, 0<β<1.
Optionally, the equipment includes x1Platform battery, x2Platform air-conditioning, x3Platform is had chance with frame and x4Platform is passive
Frame, the decision condition also includes:
As the x1When platform battery is powered as power supply, the x1The electricity sum of platform battery is more than or waited
In the power consumption of the equipment;
The x2The refrigerating capacity of platform air-conditioning is less than or equal to the heat dissipation capacity of the equipment;
The x2The power consumption of platform air-conditioning equipment and the x3The power consumption sum of the active chassis equipment of platform be less than or
Equal to 0;
The x1Low quantity more than or equal to battery is limited, the x2More than or equal to the low quantity of air-conditioning
Limitation, the x3Low quantity more than or equal to active frame is limited;The x4More than or equal to frame for no reason at all
Low quantity limitation.
Optionally, the decision condition includes:
αS≤s1x1+s2x2+s3x3+s4x4≤S/2;
βQ≤p1x1+p2x2+p3x3+p4x4≤Q;
h1s1x1+(h1s2-h3p2)x2+(h2ep3+h1s3)x3+h1s4x4≤0;
p2x2+p3(1-PUE)x3≤0;
x2-b≥0;x1-a≥0;x3-c≥0;x4-d≥0;
Wherein, the s1It is the area that every battery takes;The s2It is the area that every air-conditioning takes;Institute
State s3It is the area that every active frame takes;The s4It is the area that every passive frame takes;0<α<0.5;
The p1It is the consumption power of every battery;The p2It is the consumption power of every air-conditioning;Institute
State p3It is the consumption power of described every active frame;The p4It is the consumption power of described every passive frame;
The Q is the general power of the communications equipment room;The h1It is the coefficient of heat transfer of unit area;The h2It is institute
State the coefficient of heat transfer of every active chassis equipment;The h3It is the coefficient of refrigerating performance of every air-conditioning;The e is
Refrigeration duty redundancy coefficient;The PUE is energy consumption index, and a is the low quantity limitation of the battery;
The b is the low quantity limitation of the air-conditioning;The c is the low quantity limitation of the active frame;
The d is the low quantity limitation of the frame for no reason at all;The η is the discharge capacity coefficient of every battery;
The γ is the temperature coefficient of every battery;The t is the minimum of the actually located ground of every battery
Temperature value;The T is every battery discharging duration, and the K is the safety of every battery
Coefficient.
Optionally, the m is 0.5;The η is 1;The k is 1.25;When the T is more than or equal to
At 10 hours, the γ is 0.006;When the T is small less than 10 and when being more than or equal to 1 hour, the γ
For 0.008;When the T is less than 1 hour, the γ is 0.01;The h1For 0.36J/m2;The h2For
0.95J/m2;The h3For 2.88J/m2;The e is 1.2.
Second aspect there is provided a kind of device configuration device, including:
The equipment ginseng of equipment in acquiring unit, the computer room parameter and the communications equipment room for obtaining communications equipment room
Number;
Determining unit, for determining to meet during the decision condition of the computer room parameter and the device parameter, institute
The number of units of equipment is stated, the decision condition utilizes the communications equipment room to be maximum, and meets the bar of the conservation of energy
Part.
Optionally, the decision condition includes:
The hold facility area sum is less than or equal to m times of the area of the communications equipment room, and, it is more than
Or α times of the area equal to the communications equipment room, described 0<α<M, 0<m<1;
The power consumption sum of the equipment of the communications equipment room is less than or equal to the total power consumption of the communications equipment room,
And, more than or equal to β times of the total power consumption, the β is dispatch from foreign news agency utilization rate, 0<β<1.
Optionally, the equipment includes x1Platform battery, x2Platform air-conditioning, x3Platform is had chance with frame and x4Platform is passive
Frame, the decision condition also includes:
As the x1When platform battery is powered as power supply, the x1The electricity sum of platform battery is more than or waited
In the power consumption of the equipment;
The x2The refrigerating capacity of platform air-conditioning is less than or equal to the heat dissipation capacity of the equipment;
The x2The power consumption of platform air-conditioning equipment and the x3The power consumption sum of the active chassis equipment of platform be less than or
Equal to 0;
The x1Low quantity more than or equal to battery is limited, the x2More than or equal to the low quantity of air-conditioning
Limitation, the x3Low quantity more than or equal to active frame is limited;The x4More than or equal to frame for no reason at all
Low quantity limitation.
Optionally, the decision condition includes:
αS≤s1x1+s2x2+s3x3+s4x4≤S/2;
βQ≤p1x1+p2x2+p3x3+p4x4≤Q;
h1s1x1+(h1s2-h3p2)x2+(h2ep3+h1s3)x3+h1s4x4≤0;
p2x2+p3(1-PUE)x3≤0;
x2-b≥0;x1-a≥0;x3-c≥0;x4-d≥0;
Wherein, the s1It is the area that every battery takes;The s2It is the area that every air-conditioning takes;Institute
State s3It is the area that every active frame takes;The s4It is the area that every passive frame takes;0<α<0.5;
The p1It is the consumption power of every battery;The p2It is the consumption power of every air-conditioning;Institute
State p3It is the consumption power of described every active frame;The p4It is the consumption power of described every passive frame;
The Q is the general power of the communications equipment room;The h1It is the coefficient of heat transfer of unit area;The h2It is institute
State the coefficient of heat transfer of every active chassis equipment;The h3It is the coefficient of refrigerating performance of every air-conditioning;The e is
Refrigeration duty redundancy coefficient;The PUE is energy consumption index, and a is the low quantity limitation of the battery;
The b is the low quantity limitation of the air-conditioning;The c is the low quantity limitation of the active frame;
The d is the low quantity limitation of the frame for no reason at all;The η is the discharge capacity coefficient of every battery;
The γ is the temperature coefficient of every battery;The t is the minimum of the actually located ground of every battery
Temperature value;The T is every battery discharging duration, and the K is the safety of every battery
Coefficient.
Optionally, the m is 0.5;The η is 1;The k is 1.25;When the T is more than or equal to
At 10 hours, the γ is 0.006;When the T is small less than 10 and when being more than or equal to 1 hour, the γ
For 0.008;When the T is less than 1 hour, the γ is 0.01;The h1For 0.36J/m2;The h2For
0.95J/m2;The h3For 2.88J/m2;The e is 1.2.
The embodiments of the invention provide a kind of equipment configuration method and device, the computer room ginseng of communications equipment room is first obtained
The device parameter of equipment in number and communications equipment room;Afterwards, it is determined that meeting computer room parameter and the device parameter
During decision condition, the number of units of equipment.The embodiment of the present invention further simultaneously discloses a kind of device configuration device.This
Sample one, computer room parameter and device parameter is combined with actual situation, a complete decision condition,
The number of units for the equipment for best suiting requirement is determined according to the decision condition.So, it can utilize to greatest extent
Communications equipment room, improves computer room utilization rate, improves the utilization rate of each equipment.
Brief description of the drawings
Fig. 1 is a kind of flow chart of equipment configuration method provided in an embodiment of the present invention;
Fig. 2 is a kind of structural representation of device configuration device provided in an embodiment of the present invention.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear
Chu, it is fully described by.
Embodiment one
The embodiment of the present invention provides a kind of equipment configuration method, applied to device for allocating resources, as shown in figure 1,
This method can include:
Step 101, the device parameter for obtaining equipment in the computer room parameter and communications equipment room of communications equipment room.
The number of units of equipment when step 102, determination meet the decision condition of computer room parameter and device parameter.
Here, the decision condition utilizes the communications equipment room to be maximum, and meets the condition of the conservation of energy.
Further, the decision condition includes:Hold facility area sum is less than or equal to communications equipment room
M times of area, and, more than or equal to α times of the area of communications equipment room, described 0<α<M, 0<m<1;
The power consumption sum of the equipment of communications equipment room is less than or equal to the total power consumption of the communications equipment room, and, it is more than
Or equal to β times of the total power consumption, the β is dispatch from foreign news agency utilization rate, 0<β<1.
Further, the equipment includes x1Platform battery, x2Platform air-conditioning, x3Platform is had chance with frame and x4Platform without
Source frame, the decision condition also includes:
As the x1When platform battery is powered as power supply, the x1The electricity sum of platform battery is more than or waited
In the power consumption of the equipment;The x2The refrigerating capacity of platform air-conditioning is less than or equal to the heat dissipation capacity of the equipment;
The x2The power consumption of platform air-conditioning equipment and the x3The power consumption sum of the active chassis equipment of platform is less than or equal to
0;The x1Low quantity more than or equal to battery is limited, the x2More than or equal to the low quantity of air-conditioning
Limitation, the x3Low quantity more than or equal to active frame is limited;The x4More than or equal to frame for no reason at all
Low quantity limitation.
It is preferred that, the decision condition includes:
αS≤s1x1+s2x2+s3x3+s4x4≤S/2;
βQ≤p1x1+p2x2+p3x3+p4x4≤Q;
h1s1x1+(h1s2-h3p2)x2+(h2ep3+h1s3)x3+h1s4x4≤0;
p2x2+p3(1-PUE)x3≤0;
x2-b≥0;x1-a≥0;x3-c≥0;x4-d≥0;
Wherein, the s1It is the area that every battery takes;The s2It is the area that every air-conditioning takes;Institute
State s3It is the area that every active frame takes;The s4It is the area that every passive frame takes;0<α<0.5;
The p1It is the consumption power of every battery;The p2It is the consumption power of every air-conditioning;Institute
State p3It is the consumption power of described every active frame;The p4It is the consumption power of described every passive frame;
The Q is the general power of the communications equipment room;The h1It is the coefficient of heat transfer of unit area;The h2It is institute
State the coefficient of heat transfer of every active chassis equipment;The h3It is the coefficient of refrigerating performance of every air-conditioning;The e is
Refrigeration duty redundancy coefficient;The PUE is energy consumption index, and a is the low quantity limitation of the battery;
The b is the low quantity limitation of the air-conditioning;The c is the low quantity limitation of the active frame;
The d is the low quantity limitation of the frame for no reason at all;The η is the discharge capacity coefficient of every battery;
The γ is the temperature coefficient of every battery;The t is the minimum of the actually located ground of every battery
Temperature value;The T is every battery discharging duration, and the K is the safety of every battery
Coefficient.
It is preferred that, the m is 0.5;The η is 1;The k is 1.25;When the T is more than or equal to
At 10 hours, the γ is 0.006;When the T is small less than 10 and when being more than or equal to 1 hour, the γ
For 0.008;When the T is less than 1 hour, the γ is 0.01;The h1For 0.36J/m2;The h2For
0.95J/m2;The h3For 2.88J/m2;The e is 1.2.
Because the power consumption of active frame after power failure is to provide power supply by battery, battery is just minimum after being discharged
Value is zero, will not be negative.It is accordingly, there exist inequality 1:
Yes, the consumption power of different active frames influences whether the efficiency of battery to worth explanation, in difference
The requirement of battery backup duration it is upper, it is necessary to put efficiency with discharge coefficient to correct with corresponding battery.No
The parameter of same battery brand can have nothing in common with each other, and can inquire about gained according to the battery of actual use.
Example, it is assumed that with t=5, during γ=0.008, k=1.25, the inequality 1 can be reduced to:Wherein, N is discharging efficiency.It is preferred that, work as N=0.85, during η=1.265, this is not
Equation 1 is
The refrigerating capacity of the air-conditioning of communications equipment room is offseted with total amount of heat in communications equipment room, and refrigerating capacity must be less than or wait
In the total amount of heat of computer room, obtaining inequality 2 is:h1s1x1+(h1s2-h3p2)x2+(h2ep3+h1s3)x3+h1s4x4≤0。
Accordingly, substitution inequality 2 will be worth accordingly, the inequality 2 is:
0.36s1x1+(0.36s2-2.88p2)x2+(1.14p3+0.36s3)x3+0.36s4x4≤0。
Wherein, 0.36 is coefficient of heat transfer of the computer room per quadrature, and 2.88 be the coefficient of refrigerating performance of every air-conditioning,
1.14 be product of the coefficient of heat transfer 0.95 with refrigeration duty redundancy coefficient 1.2 of active chassis equipment.
Because passive chassis equipment is without electricity consumption, what battery only floating charge Weak current can power in Switching Power Supply has
In the load of source frame embody, both can be neglected, computer room total power consumption for air-conditioning power consumption with it is active
The power consumption sum of frame, consistent time difference value is 0 between target power consumption.
Therefore, formula 3 is obtained:p2x2+p3(1-PUE)x3≤0。
So, computer room parameter and device parameter are combined with actual situation, a complete judgement
Condition, the number of units for the equipment for best suiting requirement is determined according to the decision condition.So, can be to greatest extent
Utilization communications equipment room, improve computer room utilization rate, improve the utilization rate of each equipment.
Embodiment two
The embodiment of the present invention provides a kind of device configuration device 20, as shown in Fig. 2 including:
Equipment sets in acquiring unit 201, the computer room parameter and the communications equipment room for obtaining communications equipment room
Standby parameter.
Determining unit 202, for determining to meet during the decision condition of the computer room parameter and the device parameter
The number of units of the equipment, the decision condition utilizes the communications equipment room to be maximum, and meets the conservation of energy
Condition.
So, computer room parameter and device parameter are combined with actual situation, a complete judgement
Condition, the number of units for the equipment for best suiting requirement is determined according to the decision condition.So, can be to greatest extent
Utilization communications equipment room, improve computer room utilization rate, improve the utilization rate of each equipment.
Further, the decision condition includes:
The hold facility area sum is less than or equal to m times of the area of the communications equipment room, and, it is more than
Or α times of the area equal to the communications equipment room, described 0<α<M, 0<m<1;
The power consumption sum of the equipment of the communications equipment room is less than or equal to the total power consumption of the communications equipment room,
And, more than or equal to β times of the total power consumption, the β is dispatch from foreign news agency utilization rate, 0<β<1.
Further, the equipment includes x1Platform battery, x2Platform air-conditioning, x3Platform is had chance with frame and x4Platform without
Source frame, the decision condition also includes:
As the x1When platform battery is powered as power supply, the x1The electricity sum of platform battery is more than or waited
In the power consumption of the equipment;
The x2The refrigerating capacity of platform air-conditioning is less than or equal to the heat dissipation capacity of the equipment;
The x2The power consumption of platform air-conditioning equipment and the x3The power consumption sum of the active chassis equipment of platform be less than or
Equal to 0;
The x1Low quantity more than or equal to battery is limited, the x2More than or equal to the low quantity of air-conditioning
Limitation, the x3Low quantity more than or equal to active frame is limited;The x4More than or equal to frame for no reason at all
Low quantity limitation.
Further, the decision condition includes:
αS≤s1x1+s2x2+s3x3+s4x4≤S/2;
βQ≤p1x1+p2x2+p3x3+p4x4≤Q;
h1s1x1+(h1s2-h3p2)x2+(h2ep3+h1s3)x3+h1s4x4≤0;
p2x2+p3(1-PUE)x3≤0;
x2-b≥0;x1-a≥0;x3-c≥0;x4-d≥0;
Wherein, the s1It is the area that every battery takes;The s2It is the area that every air-conditioning takes;Institute
State s3It is the area that every active frame takes;The s4It is the area that every passive frame takes;0<α<0.5;
The p1It is the consumption power of every battery;The p2It is the consumption power of every air-conditioning;Institute
State p3It is the consumption power of described every active frame;The p4It is the consumption power of described every passive frame;
The Q is the general power of the communications equipment room;The h1It is the coefficient of heat transfer of unit area;The h2It is institute
State the coefficient of heat transfer of every active chassis equipment;The h3It is the coefficient of refrigerating performance of every air-conditioning;The e is
Refrigeration duty redundancy coefficient;The PUE is energy consumption index, and a is the low quantity limitation of the battery;
The b is the low quantity limitation of the air-conditioning;The c is the low quantity limitation of the active frame;
The d is the low quantity limitation of the frame for no reason at all;The η is the discharge capacity coefficient of every battery;
The γ is the temperature coefficient of every battery;The t is the minimum of the actually located ground of every battery
Temperature value;The T is every battery discharging duration, and the K is the safety of every battery
Coefficient.
What deserves to be explained is, putting in order for above-mentioned formula is according to priority arranged in order from high to low.
It is preferred that, the m is 0.5;The η is 1;The k is 1.25;When the T is more than or equal to
At 10 hours, the γ is 0.006;When the T is small less than 10 and when being more than or equal to 1 hour, the γ
For 0.008;When the T is less than 1 hour, the γ is 0.01;The h1For 0.36J/m2;The h2For
0.95J/m2;The h3For 2.88J/m2;The e is 1.2.
In actual applications, the acquiring unit 201, determining unit 202 can be by devices 20
Central processing unit (Central Processing Unit, CPU), microprocessor (Micro Processor Unit,
MPU), digital signal processor (Digital Signal Processor, DSP) or field-programmable gate array
(Field Programmable Gate Array, FPGA) etc. is arranged to realize.
It should be understood by those skilled in the art that, embodiments of the invention can be provided as method, system or meter
Calculation machine program product.Therefore, the present invention can using hardware embodiment, software implementation or combine software and
The form of the embodiment of hardware aspect.Moreover, the present invention can be used wherein includes calculating at one or more
The computer-usable storage medium of machine usable program code (includes but is not limited to magnetic disk storage and optical storage
Device etc.) on the form of computer program product implemented.
The present invention is with reference to method according to embodiments of the present invention, equipment (system) and computer program product
Flow chart and/or block diagram describe.It should be understood that can be by computer program instructions implementation process figure and/or side
Each flow and/or square frame in block diagram and flow and/or the knot of square frame in flow chart and/or block diagram
Close.Can provide these computer program instructions to all-purpose computer, special-purpose computer, Embedded Processor or
The processor of other programmable data processing devices is to produce a machine so that by computer or other can
The instruction of the computing device of programming data processing equipment is produced for realizing in one flow of flow chart or many
The device for the function of being specified in one square frame of flow and/or block diagram or many square frames.
These computer program instructions, which may be alternatively stored in, can guide computer or other programmable data processing devices
In the computer-readable memory worked in a specific way so that be stored in the computer-readable memory
Instruction, which is produced, includes the manufacture of command device, and the command device is realized to flow in one flow of flow chart or many
The function of being specified in one square frame of journey and/or block diagram or many square frames.
These computer program instructions can be also loaded into computer or other programmable data processing devices, made
Obtain and series of operation steps performed on computer or other programmable devices to produce computer implemented processing,
So as to which the instruction performed on computer or other programmable devices is provided for realizing in one flow of flow chart
Or specified in one square frame of many flows and/or block diagram or many square frames function the step of.
The foregoing is only a preferred embodiment of the present invention, is not intended to limit the protection model of the present invention
Enclose.
Claims (10)
1. a kind of equipment configuration method, it is characterised in that including:
Obtain the device parameter of equipment in the computer room parameter and the communications equipment room of communications equipment room;
It is determined that when meeting the decision condition of the computer room parameter and the device parameter equipment number of units, institute
State decision condition and utilize the communications equipment room to be maximum, and meet the condition of the conservation of energy.
2. according to the method described in claim 1, it is characterised in that the decision condition includes:
The hold facility area sum is less than or equal to m times of the area of the communications equipment room, and, it is more than
Or α times of the area equal to the communications equipment room, described 0<α<M, 0<m<1;
The power consumption sum of the equipment of the communications equipment room is less than or equal to the total power consumption of the communications equipment room,
And, more than or equal to β times of the total power consumption, the β is dispatch from foreign news agency utilization rate, 0<β<1.
3. method according to claim 2, it is characterised in that the equipment includes x1Platform battery,
x2Platform air-conditioning, x3Platform is had chance with frame and x4The passive frame of platform, the decision condition also includes:
As the x1When platform battery is powered as power supply, the x1The electricity sum of platform battery is more than or waited
In the power consumption of the equipment;
The x2The refrigerating capacity of platform air-conditioning is less than or equal to the heat dissipation capacity of the equipment;
The x2The power consumption of platform air-conditioning equipment and the x3The power consumption sum of the active chassis equipment of platform be less than or
Equal to 0;
The x1Low quantity more than or equal to battery is limited, the x2More than or equal to the low quantity of air-conditioning
Limitation, the x3Low quantity more than or equal to active frame is limited;The x4More than or equal to frame for no reason at all
Low quantity limitation.
4. method according to claim 3, it is characterised in that the decision condition includes:
αS≤s1x1+s2x2+s3x3+s4x4≤S/2;
βQ≤p1x1+p2x2+p3x3+p4x4≤Q;
<mrow>
<mfrac>
<mrow>
<msub>
<mi>p</mi>
<mn>1</mn>
</msub>
<msub>
<mi>x</mi>
<mn>1</mn>
</msub>
<mi>&eta;</mi>
<mrow>
<mo>(</mo>
<mn>1</mn>
<mo>+</mo>
<mi>&gamma;</mi>
<mo>(</mo>
<mi>t</mi>
<mo>-</mo>
<mn>25</mn>
<mo>)</mo>
</mrow>
<mo>)</mo>
</mrow>
<mi>K</mi>
</mfrac>
<mo>-</mo>
<msub>
<mi>p</mi>
<mn>3</mn>
</msub>
<msub>
<mi>x</mi>
<mn>3</mn>
</msub>
<mi>T</mi>
<mo>&GreaterEqual;</mo>
<mn>0</mn>
<mo>;</mo>
</mrow>
h1s1x1+(h1s2-h3p2)x2+(h2ep3+h1s3)x3+h1s4x4≤0;
p2x2+p3(1-PUE)x3≤0;
x2-b≥0;x1-a≥0;x3-c≥0;x4-d≥0;
Wherein, the s1It is the area that every battery takes;The s2It is the area that every air-conditioning takes;Institute
State s3It is the area that every active frame takes;The s4It is the area that every passive frame takes;0<α<0.5;
The p1It is the consumption power of every battery;The p2It is the consumption power of every air-conditioning;Institute
State p3It is the consumption power of described every active frame;The p4It is the consumption power of described every passive frame;
The Q is the general power of the communications equipment room;The h1It is the coefficient of heat transfer of unit area;The h2It is institute
State the coefficient of heat transfer of every active chassis equipment;The h3It is the coefficient of refrigerating performance of every air-conditioning;The e is
Refrigeration duty redundancy coefficient;The PUE is energy consumption index, and a is the low quantity limitation of the battery;
The b is the low quantity limitation of the air-conditioning;The c is the low quantity limitation of the active frame;
The d is the low quantity limitation of the frame for no reason at all;The η is the discharge capacity coefficient of every battery;
The γ is the temperature coefficient of every battery;The t is the minimum of the actually located ground of every battery
Temperature value;The T is every battery discharging duration, and the K is the safety of every battery
Coefficient.
5. method according to claim 4, it is characterised in that the m is 0.5;The η is 1;
The k is 1.25;When the T is more than or equal to 10 hours, the γ is 0.006;When the T is small
In 10 hours and more than or equal to 1 hour when, the γ be 0.008;When the T is less than 1 hour, the γ
For 0.01;The h1For 0.36J/m2;The h2For 0.95J/m2;The h3For 2.88J/m2;The e
For 1.2.
6. a kind of device configuration device, it is characterised in that including:
The equipment ginseng of equipment in acquiring unit, the computer room parameter and the communications equipment room for obtaining communications equipment room
Number;
Determining unit, described in determining to meet during the decision condition of the computer room parameter and the device parameter
The number of units of equipment, the decision condition utilizes the communications equipment room to be maximum, and meets the condition of the conservation of energy.
7. device according to claim 6, it is characterised in that the decision condition includes:
The hold facility area sum is less than or equal to m times of the area of the communications equipment room, and, it is more than
Or α times of the area equal to the communications equipment room, described 0<α<M, 0<m<1;
The power consumption sum of the equipment of the communications equipment room is less than or equal to the total power consumption of the communications equipment room,
And, more than or equal to β times of the total power consumption, the β is dispatch from foreign news agency utilization rate, 0<β<1.
8. device according to claim 7, it is characterised in that the equipment includes x1Platform battery,
x2Platform air-conditioning, x3Platform is had chance with frame and x4The passive frame of platform, the decision condition also includes:
As the x1When platform battery is powered as power supply, the x1The electricity sum of platform battery is more than or waited
In the power consumption of the equipment;
The x2The refrigerating capacity of platform air-conditioning is less than or equal to the heat dissipation capacity of the equipment;
The x2The power consumption of platform air-conditioning equipment and the x3The power consumption sum of the active chassis equipment of platform be less than or
Equal to 0;
The x1Low quantity more than or equal to battery is limited, the x2More than or equal to the low quantity of air-conditioning
Limitation, the x3Low quantity more than or equal to active frame is limited;The x4More than or equal to frame for no reason at all
Low quantity limitation.
9. device according to claim 8, it is characterised in that the decision condition includes:
αS≤s1x1+s2x2+s3x3+s4x4≤S/2;
βQ≤p1x1+p2x2+p3x3+p4x4≤Q;
<mrow>
<mfrac>
<mrow>
<msub>
<mi>p</mi>
<mn>1</mn>
</msub>
<msub>
<mi>x</mi>
<mn>1</mn>
</msub>
<mi>&eta;</mi>
<mrow>
<mo>(</mo>
<mn>1</mn>
<mo>+</mo>
<mi>&gamma;</mi>
<mo>(</mo>
<mi>t</mi>
<mo>-</mo>
<mn>25</mn>
<mo>)</mo>
</mrow>
<mo>)</mo>
</mrow>
<mi>K</mi>
</mfrac>
<mo>-</mo>
<msub>
<mi>p</mi>
<mn>3</mn>
</msub>
<msub>
<mi>x</mi>
<mn>3</mn>
</msub>
<mi>T</mi>
<mo>&GreaterEqual;</mo>
<mn>0</mn>
<mo>;</mo>
</mrow>
h1s1x1+(h1s2-h3p2)x2+(h2ep3+h1s3)x3+h1s4x4≤0;
p2x2+p3(1-PUE)x3≤0;
x2-b≥0;x1-a≥0;x3-c≥0;x4-d≥0;
Wherein, the s1It is the area that every battery takes;The s2It is the area that every air-conditioning takes;Institute
State s3It is the area that every active frame takes;The s4It is the area that every passive frame takes;0<α<0.5;
The p1It is the consumption power of every battery;The p2It is the consumption power of every air-conditioning;Institute
State p3It is the consumption power of described every active frame;The p4It is the consumption power of described every passive frame;
The Q is the general power of the communications equipment room;The h1It is the coefficient of heat transfer of unit area;The h2It is institute
State the coefficient of heat transfer of every active chassis equipment;The h3It is the coefficient of refrigerating performance of every air-conditioning;The e is
Refrigeration duty redundancy coefficient;The PUE is energy consumption index, and a is the low quantity limitation of the battery;
The b is the low quantity limitation of the air-conditioning;The c is the low quantity limitation of the active frame;
The d is the low quantity limitation of the frame for no reason at all;The η is the discharge capacity coefficient of every battery;
The γ is the temperature coefficient of every battery;The t is the minimum of the actually located ground of every battery
Temperature value;The T is every battery discharging duration, and the K is the safety of every battery
Coefficient.
10. device according to claim 9, it is characterised in that the m is 0.5;The η is 1;
The k is 1.25;When the T is more than or equal to 10 hours, the γ is 0.006;When the T is small
In 10 hours and more than or equal to 1 hour when, the γ be 0.008;When the T is less than 1 hour, the γ
For 0.01;The h1For 0.36J/m2;The h2For 0.95J/m2;The h3For 2.88J/m2;The e
For 1.2.
Priority Applications (1)
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CN201610250883.0A CN107305650A (en) | 2016-04-20 | 2016-04-20 | A kind of equipment configuration method and device |
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CN201610250883.0A CN107305650A (en) | 2016-04-20 | 2016-04-20 | A kind of equipment configuration method and device |
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Family
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN201047181Y (en) * | 2007-05-24 | 2008-04-16 | 中国移动通信集团广东有限公司深圳分公司 | Simple machinery room |
CN102169527A (en) * | 2010-02-26 | 2011-08-31 | 国际商业机器公司 | Method and system for determining mounting machine frame for equipment in data center |
CN104376398A (en) * | 2014-10-15 | 2015-02-25 | 华为技术有限公司 | Energy consumption management method, management device and data center |
-
2016
- 2016-04-20 CN CN201610250883.0A patent/CN107305650A/en active Pending
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN201047181Y (en) * | 2007-05-24 | 2008-04-16 | 中国移动通信集团广东有限公司深圳分公司 | Simple machinery room |
CN102169527A (en) * | 2010-02-26 | 2011-08-31 | 国际商业机器公司 | Method and system for determining mounting machine frame for equipment in data center |
CN104376398A (en) * | 2014-10-15 | 2015-02-25 | 华为技术有限公司 | Energy consumption management method, management device and data center |
Non-Patent Citations (1)
Title |
---|
国家技术监督局 、中华人民共和国建设部: "中华人民共和国国家标准电子计算机机房设计规范 GB50174-93", 《中华人民共和国国家标准电子计算机机房设计规范 GB50174-93》 * |
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