CN102567570B - Method for plane display of configurable machine room layouts - Google Patents
Method for plane display of configurable machine room layouts Download PDFInfo
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Abstract
The invention relates to a method for plane display of configurable machine room layouts. The problem that machine room monitoring interface layouts in different machine rooms need to be customized specially by the aid of the uniform processing method is solved and the layout of the specific machine room can be displayed by configuration. Various conditions of large machine rooms, small machine rooms, many or few equipment are taken into consideration of the algorithm, and the layouts and monitoring information can be displayed friendly and completely. The method for plane display of configurable machine room layouts is designed on the basis of universality of the machine room monitoring layouts, the machine rooms and equipment in the machine rooms are uniformly modeled, display and modification of the layouts can be realized by simple modification of configuration, involvement of professionals is omitted and flexibility and expandability are improved.
Description
Technical field
The present invention relates to computer lab management, specifically, relate to the method that a kind of configurable machine room layout plane is showed.
Background technology
Traditional center monitoring System planes figure mainly is size, number of devices and the number of sensors design of disposing according to concrete machine room, need carry out the drafting of concrete layout patterns to concrete machine room, the method does not possess versatility, the customization cost is higher, and is unfavorable for revising and upgrading.If equipment increases or reduces in the machine room, must revise layout simultaneously, and need special professional.
Summary of the invention
This method mainly adopts unitized disposal route to solve the problem that needs specific customization of center monitoring interface layout in the different machine rooms, can realize the displaying to concrete machine room layout by the method for configuration; The algorithm that has adopted has been taken into account big machine room small room, equipment is many, equipment is few various situations, can friendly comprehensively represent layout and the monitor message of various machine rooms.
The method that a kind of configurable machine room layout plane is showed, described method comprises the steps:
S1 carries out modeling to machine room, and the element that relates to is arranged modeling parameters;
S2 according to the user browser size, determines the size of guarded region, and the width of guarded region is corresponding with machine room length, and the height of guarded region is corresponding with machine room width;
S3, the equipment of same type shows that with identical synoptic diagram dynamically adjust according to instrument size, the calculating of instrument size can be divided into the calculating of autonomous device size and the calculating of packet equipment size;
S4, the selection reference direction is located equipment: after going up, down before, i.e. the top representative machine room of guarded region and the back of equipment, the front of the following representative guarded region of guarded region;
S5, the layout of machine room realizes that by the demixing technology of CSS machine room is positioned at orlop, can select different colors; Packet equipment and autonomous device are positioned at the last layer of machine room; Device identification and monitor data are positioned at the superiors;
S6 shows machine room information, and manual refreshing and automatic refresh function are provided, and static information and the device layout of equipment coexist; The real-time information meeting is upgraded dynamically according to the numerical value of real-time information collection; If there is no Xiang Guan real-time information then can not show its information or original information is clear.
Preferably, described element comprises:
Machine room: refer to floor plan, use rectangle to represent that machine room width is corresponding to the length of actual machine room, machine room height is corresponding to the width of actual machine room;
Physical location: refer to the actual position of equipment in machine room, use horizontal ordinate and ordinate to represent, unit be " centimetre ";
Placement position: refer to the relative position of equipment drawing in machine room layout figure, use horizontal ordinate and ordinate to represent that unit is " pixel ";
The physics size: refer to the size of equipment in machine room, use length to represent, unit be " centimetre ";
Layout size: refer to that machine room or the equipment size in layout uses length and width to represent that unit is " pixel ";
Autonomous device: represent the autonomous device in the machine room, each equipment has configuration parameters such as physics size and physical location, and its layout in machine room independently exists according to the position, does not rely on and other equipment and grouping;
Packet equipment: be the packet transaction of equipment being carried out according to physical location and device type, the layout of one group equipment in machine room depends on the physical location of this group, and the equipment in positions and layout according to the logical place of equipment room on the same group;
Device location: device location refers to the plane physical location of equipment in the machine room plane figure, adopts horizontal ordinate and ordinate to represent;
Device label: the title of indication equipment or grouping is presented on equipment or the grouping layout in the mode of literal;
Scale factor: physics size and the direct ratio value of layout size.
Preferably, described scale factor does not use unitized unit to carry out ratio, and adopts cross-branch ratio, the unit of physics size be " centimetre ", the unit of layout size is " pixel ", the scale factor between 1 centimetre and 1 pixel is defined as 1.
Preferably, the computing method of described scale factor are:
1) the scale factor initial value is set to factor=1;
2) compare the absolute value of machine room length and the absolute value of guarded region width: if the absolute value of guarded region width less than the absolute value of machine room length, then carries out the 3rd) step; If the absolute value of guarded region width greater than the absolute value of machine room length, then changes the 4th over to) step;
3) the resize ratio factor: factor=factor+1;
4) adjust the machine room length value, with old machine room length divided by new scale factor: roomlength=roomlength/factor; Change the 2nd over to) step;
5) adjust size and the placement position of equipment in the machine room with final scale factor;
6) data after will adjusting are as the employed data of final layout.
Preferably, the computing method of described instrument size are:
1) all devices in the traversal machine room judges whether it is autonomous device; If then change the 2nd over to) step, if not then changing the 3rd over to) step;
2) the parameter usage ratio factor of autonomous device is adjusted; The parameter of adjusting comprises: equipment horizontal ordinate, ordinate, length, width and height and other elements that are used for demonstration: label, status indicator;
3) the position usage ratio factor of equipment group is adjusted, adjusted equipment group label, status indicator simultaneously;
4) equipment in the traversal group is if horizontally-arranged then changes the 5th over to) step, if vertical setting of types then changes the 6th over to) step, and do not change the 7th over to if be not) step;
5) find out length value maximum device in the equipment group, with the length of this equipment length as this group equipment, it adjusts the usage ratio factor pair, with the value after adjusting as the layout height; With scale factor the width of equipment is adjusted simultaneously, with the value after adjusting as layout length; Change the 8th over to) step
6) find out width value maximum device in the equipment group, with the width of this equipment width as this group equipment, it adjusts the usage ratio factor pair, with the value after adjusting as layout length; With scale factor the length of equipment is adjusted simultaneously, with the value after adjusting as the layout height; Change the 8th over to) step
7) find out length value and width value maximum device in the equipment group, with the length of this equipment and width length and the width as this group equipment, it adjusts the usage ratio factor pair, with the value after adjusting as layout height and length;
8) with the data after adjusting the original layout data are upgraded, be used for final layout.
6, the method for claim 1 is characterized in that: the coordinate of described autonomous device use equipment configuration positions; Described packet equipment positions grouping earlier, and the equipment in the group is arranged the location according to the order of equipment in grouping then, according to the instrument size data that calculate the whole equipment room layout is drawn.
Preferably, described machine room layout adopts alternative manner to draw, and its process is:
At first, draw floor plan, with colored form Image sign;
Secondly, the rendering apparatus group according to the position of equipment group, is used relative layout type, begins to calculate the position of positioning equipment group with machine room coordinate (0,0); Position in the equipment group is drawn equipment according to arrangement position and the logical place of device in group; The equipment picture that the different choice of device type and model is different;
Again, draw autonomous device, according to the device coordinate position, use relative layout type, begin to calculate the corresponding equipment of layout with machine room coordinate (0,0); The equipment picture that the different choice of device type and model is different;
At last, according to whether real-time monitor message being arranged, draw monitor message and warning information.
Preferably, show as a setting after described machine room layout has been drawn, if layout modification maybe needs to switch layout, need the manual refreshing layout; Monitor message provides real-time refresh function, positions according to the numbering of equipment in the layout, in corresponding position its monitor message and alarm status is redrawn.
This method is considered based on center monitoring layout versatility and is designed, machine room and calculator room equipment are carried out unified Modeling, only the modification by easy configuration just can realize representing of layout and revise, do not need professional's participation, manpower and cost of development have been saved, simultaneously can realize safeguarding preferably, increase dirigibility and extensibility.By machine room layout figure being cooperated the monitor data of calculator room equipment parameter, real time environment parameter and the running status that can show machine room and equipment in real time intuitively make the user come into plain view to the equipment state of machine room, in time find environment and operation problem in the machine room.
Description of drawings
Fig. 1 is that guarded region size of the present invention is calculated
Fig. 2 is the process flow diagram that present device is calculated
Embodiment
The present invention at first carries out modeling to machine room layout, and the analysis configuration parameter is calculated size, calculating location, and layout is showed, upgrades step compositions such as real-time information.
1. machine room modeling
The present invention carries out modeling to machine room, and the mode by plane figure represents, and the unit that wherein relates to have:
Machine room: refer to floor plan, use rectangle to represent that machine room width is corresponding to the length of actual machine room, machine room height is corresponding to the width of actual machine room.
Physical location: refer to the actual position of equipment in machine room, use horizontal ordinate and ordinate to represent, unit be " centimetre ".
Placement position: refer to the relative position of equipment drawing in machine room layout figure, use horizontal ordinate and ordinate to represent that unit is " pixel ".
The physics size: refer to the size of equipment in machine room, use length to represent, unit be " centimetre ".
Layout size: refer to that machine room or the equipment size in layout uses length and width to represent that unit is " pixel ".
Autonomous device: represent the autonomous device in the machine room, each equipment has configuration parameters such as physics size and physical location, and its layout in machine room independently exists according to the position, does not rely on and other equipment and grouping.
Packet equipment: be the packet transaction of equipment being carried out according to physical location and device type, the layout of one group equipment in machine room depends on the physical location of this group, and the equipment in positions and layout according to the logical place of equipment room on the same group.
Device location: device location refers to the plane physical location of equipment in the machine room plane figure, adopts horizontal ordinate and ordinate to represent.
Device label: the title of indication equipment or grouping is presented on equipment or the grouping layout in the mode of literal.
Scale factor: physics size and the direct ratio value of layout size.For the simplicity that disposes and understand, scale factor does not use unitized unit to carry out ratio, but adopts cross-branch ratio, the unit of physics size be " centimetre ", the unit of layout size is " pixel ", and the scale factor between 1 centimetre and 1 pixel is defined as 1.
The method and the operation that relate in the scheme have:
The location: the placement position that refers to equipment in machine room plane figure and the machine room calculates.The planimetric map of machine room launches to show that the position of other equipment is all calculated for relative position with the coordinate (0,0) of machine room from coordinate (0,0) point.
Layout: the displaying of all devices among the machine room layout figure.
Size is calculated: its layout size is calculated according to physics size, mutual relationship and position according to machine room and equipment.
Data storage: data such as machine room layout and size are done persistence handle.
Layout modification: made amendment in the big or small position of machine room and equipment as required.
Again layout: revise after the layout displaying again to new layout.
2. the machine room layout size is calculated
Calculate the size of viewing area: according to the size of user browser, determine the size of guarded region, the width of guarded region is corresponding with the length of machine room, determine scale factor, and adjust the machine room size.
The computing method of scale factor are as follows:
1, the scale factor initial value is set to factor=1;
2, compare the absolute value of machine room length and the absolute value of guarded region width: if the absolute value of guarded region width, then carried out for the 3rd step less than the absolute value of machine room length; If the absolute value of guarded region width, then changed for the 4th step over to greater than the absolute value of machine room length;
3, the resize ratio factor: factor=factor+1;
4, adjust the machine room length value, with old machine room length divided by new scale factor:
Roomlength=roomlength/factor; Changed for the 2nd step over to;
5, adjust size and the placement position of equipment in the machine room with final scale factor;
6, the data after will adjusting are as the employed data of final layout.
3. instrument size is calculated
The equipment of same type shows with identical synoptic diagram, dynamically adjusts according to the size of equipment.The calculating of instrument size can be divided into the calculating of autonomous device size and the calculating of packet equipment size.
The calculating of autonomous device size is divided into following steps:
1, all devices in the traversal machine room judges whether it is autonomous device; If then change the 2nd over to) step, if not then changing the 3rd over to) step;
2, the parameter usage ratio factor of autonomous device is adjusted; The parameter of adjusting comprises: equipment horizontal ordinate, ordinate, length, width and height and other elements that are used for demonstration: label, status indicator etc.
3, the position usage ratio factor of equipment group is adjusted, adjusted equipment group label, status indicator etc. simultaneously;
4, the equipment in the traversal group is if horizontally-arranged then changes the 5th over to) step, if vertical setting of types then changes the 6th over to) step, and do not change the 7th over to if be not) step;
5, find out length value maximum device in the equipment group, with the length of this equipment length as this group equipment, it adjusts the usage ratio factor pair, with the value after adjusting as the layout height; With scale factor the width of equipment is adjusted simultaneously, with the value after adjusting as layout length; Change the 8th over to) step
6, find out width value maximum device in the equipment group, with the width of this equipment width as this group equipment, it adjusts the usage ratio factor pair, with the value after adjusting as layout length; With scale factor the length of equipment is adjusted simultaneously, with the value after adjusting as the layout height; Change the 8th over to) step
7, find out length value and width value maximum device in the equipment group, with the length of this equipment and width length and the width as this group equipment, it adjusts the usage ratio factor pair, with the value after adjusting as layout height and length;
8, with the data after adjusting the original layout data are upgraded, be used for final layout.
4. equipment is located
The selection reference direction: after going up, down before, i.e. the top representative machine room of guarded region and the back of equipment, the front of the following representative guarded region of guarded region.
This method is divided into autonomous device and equipment group with equipment, and the coordinate of autonomous device use equipment configuration positions.Packet equipment positions grouping earlier, and the equipment in the group is arranged the location according to the order of equipment in grouping then.
The data of using " instrument size calculating " step to produce are drawn the whole equipment room layout.
5. device layout
The layout of machine room realizes that by the demixing technology of CSS machine room is positioned at orlop, can select different colors; Packet equipment and autonomous device are positioned at the last layer of machine room; Device identification and monitor data are positioned at the superiors.
After calculate according to guarded region instrument size and position, use the method for iteration that machine room layout is drawn:
1) at first, draws floor plan, with colored form Image sign;
2) secondly, the rendering apparatus group according to the position of equipment group, is used relative layout type, begins to calculate the position of positioning equipment group with machine room coordinate (0,0); Position in the equipment group is drawn equipment according to arrangement position and the logical place of device in group; The equipment picture that the different choice of device type and model is different;
3) again, draw autonomous device, according to the device coordinate position, use relative layout type, begin to calculate the corresponding equipment of layout with machine room coordinate (0,0); The equipment picture that the different choice of device type and model is different;
4) last, according to whether real-time monitor message being arranged, draw monitor message and warning information.
Show as a setting after static information has been drawn, if layout modification maybe needs to switch layout, need the manual refreshing layout; Monitor message provides real-time refresh function, positions according to the numbering of equipment in the layout, in corresponding position its monitor message and alarm status is redrawn.
6. information represents
The displaying of information provides manual refreshing and automatic refresh function, and static information and the device layout of equipment coexist; The real-time information meeting is upgraded dynamically according to the numerical value of real-time information collection; If there is no Xiang Guan real-time information then can not show its information or original information is clear.
Claims (5)
1. the configurable machine room layout plane method of showing, it is characterized in that: described method comprises the steps:
S1 carries out modeling to machine room, and the element that relates to is arranged modeling parameters;
S2 according to the user browser size, determines the size of guarded region, and the width of guarded region is corresponding with machine room length, and the height of guarded region is corresponding with machine room width;
S3, the equipment of same type shows that with identical synoptic diagram dynamically adjust according to instrument size, the calculating of instrument size can be divided into the calculating of autonomous device size and the calculating of packet equipment size;
S4, the selection reference direction is located equipment: after going up, down before, i.e. the top representative machine room of guarded region and the back of equipment, the front of the following representative guarded region of guarded region;
S5, the layout of machine room realizes that by the demixing technology of CSS machine room is positioned at orlop, can select different colors; Packet equipment and autonomous device are positioned at the last layer of machine room; Device identification and monitor data are positioned at the superiors;
S6 shows machine room information, and manual refreshing and automatic refresh function are provided, and static information and the device layout of equipment coexist; The real-time information meeting is upgraded dynamically according to the numerical value of real-time information collection; If there is no Xiang Guan real-time information then can not show its information or original information is removed;
Described element comprises:
Machine room: refer to floor plan, use rectangle to represent that machine room width is corresponding to the length of actual machine room, machine room height is corresponding to the width of actual machine room;
Physical location: refer to the actual position of equipment in machine room, use horizontal ordinate and ordinate to represent, unit be " centimetre ";
Placement position: refer to the relative position of equipment drawing in machine room layout figure, use horizontal ordinate and ordinate to represent that unit is " pixel ";
The physics size: refer to the size of equipment in machine room, use length to represent, unit be " centimetre ";
Layout size: refer to that machine room or the equipment size in layout uses length and width to represent that unit is " pixel ";
Autonomous device: represent the autonomous device in the machine room, each equipment has configuration parameters such as physics size and physical location, and its layout in machine room independently exists according to the position, does not rely on and other equipment and grouping;
Packet equipment: be the packet transaction of equipment being carried out according to physical location and device type, the layout of one group equipment in machine room depends on the physical location of this group, and the equipment in positions and layout according to the logical place of equipment room on the same group;
Device location: device location refers to the plane physical location of equipment in the machine room plane figure, adopts horizontal ordinate and ordinate to represent;
Device label: the title of indication equipment or grouping is presented on equipment or the grouping layout in the mode of literal;
Scale factor: physics size and the direct ratio value of layout size;
The computing method of described instrument size are:
1) all devices in the traversal machine room judges whether it is autonomous device; If then change the 2nd over to) step, if not then changing the 3rd over to) step;
2) the parameter usage ratio factor of autonomous device is adjusted; The parameter of adjusting comprises: equipment horizontal ordinate, ordinate, length, width and height and other elements that are used for demonstration: label, status indicator;
3) the position usage ratio factor of equipment group is adjusted, adjusted equipment group label, status indicator simultaneously;
4) equipment in the traversal group is if horizontally-arranged then changes the 5th over to) step, if vertical setting of types then changes the 6th over to) step, and do not change the 7th over to if be not) step;
5) find out length value maximum device in the equipment group, with the length of this equipment length as this group equipment, it adjusts the usage ratio factor pair, with the value after adjusting as the layout height; With scale factor the width of equipment is adjusted simultaneously, with the value after adjusting as layout length; Change the 8th over to) step
6) find out width value maximum device in the equipment group, with the width of this equipment width as this group equipment, it adjusts the usage ratio factor pair, with the value after adjusting as layout length; With scale factor the length of equipment is adjusted simultaneously, with the value after adjusting as the layout height; Change the 8th over to) step
7) find out length value and width value maximum device in the equipment group, with the length of this equipment and width length and the width as this group equipment, it adjusts the usage ratio factor pair, with the value after adjusting as layout height and length;
8) with the data after adjusting the original layout data are upgraded, be used for final layout;
The coordinate of described autonomous device use equipment configuration positions; Described packet equipment positions grouping earlier, and the equipment in the group is arranged the location according to the order of equipment in grouping then, according to the instrument size data that calculate the whole equipment room layout is drawn.
2. the method for claim 1, it is characterized in that: described scale factor does not use unitized unit to carry out ratio, and adopts cross-branch ratio, the unit of physics size be " centimetre ", the unit of layout size is " pixel ", and the scale factor between 1 centimetre and 1 pixel is defined as 1.
3. the method for claim 1, it is characterized in that: the computing method of described scale factor are:
1) the scale factor initial value is set to factor=1;
2) compare the absolute value of machine room length and the absolute value of guarded region width: if the absolute value of guarded region width less than the absolute value of machine room length, then carries out the 3rd) step; If the absolute value of guarded region width greater than the absolute value of machine room length, then changes the 4th over to) step; Described machine room length is the length of machine room in the floor plan;
3) the resize ratio factor: factor=factor+1;
4) adjust the machine room length value, with old machine room length divided by new scale factor: roomlength=roomlength/factor; Change the 2nd over to) step;
5) adjust size and the placement position of equipment in the machine room with final scale factor;
With the data after adjusting as the employed data of final layout.
4. the method for claim 1 is characterized in that: described machine room layout adopts alternative manner to draw, and its process is:
At first, draw floor plan, with colored form Image sign;
Secondly, the rendering apparatus group according to the position of equipment group, is used relative layout type, begins to calculate the position of positioning equipment group with machine room coordinate (0,0); Position in the equipment group is drawn equipment according to arrangement position and the logical place of equipment in group; Equipment dissimilar and model is selected different equipment pictures;
Again, draw autonomous device, according to the device coordinate position, use relative layout type, begin to calculate the corresponding equipment of layout with machine room coordinate (0,0); Equipment dissimilar and model is selected different equipment pictures;
At last, according to whether real-time monitor message being arranged, draw monitor message and warning information.
5. method as claimed in claim 4 is characterized in that: show as a setting after described machine room layout has been drawn, if layout modification maybe needs to switch layout, need the manual refreshing layout; Monitor message provides real-time refresh function, positions according to the numbering of equipment in the layout, in corresponding position its monitor message and alarm status is redrawn.
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CN103729520B (en) * | 2014-01-16 | 2015-02-18 | 中国人民解放军国防科学技术大学 | Equipment maintainability layout design method based on human factor potential field |
CN105205854B (en) * | 2014-06-25 | 2020-06-30 | 中兴通讯股份有限公司 | Data center 3D modeling method and device |
CN104463966A (en) * | 2014-12-18 | 2015-03-25 | 杭州新世纪电子科技有限公司 | Fast design modeling and monitoring system of production management environment and method |
CN106777607A (en) * | 2016-12-02 | 2017-05-31 | 郑州云海信息技术有限公司 | A kind of computer room rack modeling method and system for data center |
CN110554819A (en) * | 2019-09-05 | 2019-12-10 | 曙光信息产业(北京)有限公司 | Physical equipment display method, physical equipment display device, physical equipment display terminal and storage medium |
CN111177839B (en) * | 2019-12-31 | 2023-08-29 | 河南垂天科技有限公司 | Automatic converging machine room equipment layout system and generating method |
CN111600203B (en) * | 2020-06-05 | 2021-11-30 | 杭州交联电力设计股份有限公司 | Automatic arrangement method of two groups of electrical equipment |
CN111600204B (en) * | 2020-06-05 | 2022-03-18 | 杭州交联电力设计股份有限公司 | Automatic arrangement method of single-group electrical equipment |
CN114201250B (en) * | 2020-09-18 | 2024-05-03 | 宁波知行物联科技有限公司 | Method for rapidly deploying and implementing unmanned warehouse |
CN113360970B (en) * | 2021-05-10 | 2023-06-23 | 贵州电网有限责任公司 | Layout method of electric power automation machine room screen cabinet |
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