CN107968723A - A kind of modeling method and Design of digital system - Google Patents
A kind of modeling method and Design of digital system Download PDFInfo
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- CN107968723A CN107968723A CN201711148238.9A CN201711148238A CN107968723A CN 107968723 A CN107968723 A CN 107968723A CN 201711148238 A CN201711148238 A CN 201711148238A CN 107968723 A CN107968723 A CN 107968723A
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- 238000013461 design Methods 0.000 title claims abstract description 107
- 238000000034 method Methods 0.000 title claims abstract description 20
- 230000003287 optical effect Effects 0.000 claims abstract description 186
- 238000004891 communication Methods 0.000 claims abstract description 17
- 239000013307 optical fiber Substances 0.000 claims description 9
- 238000012545 processing Methods 0.000 claims description 6
- 230000009897 systematic effect Effects 0.000 claims description 6
- 230000005540 biological transmission Effects 0.000 claims description 4
- 238000005516 engineering process Methods 0.000 abstract description 3
- 241000196324 Embryophyta Species 0.000 description 4
- 238000011960 computer-aided design Methods 0.000 description 3
- 230000008520 organization Effects 0.000 description 3
- 230000001960 triggered effect Effects 0.000 description 3
- 238000004364 calculation method Methods 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 241000208340 Araliaceae Species 0.000 description 1
- 235000005035 Panax pseudoginseng ssp. pseudoginseng Nutrition 0.000 description 1
- 235000003140 Panax quinquefolius Nutrition 0.000 description 1
- VQLYBLABXAHUDN-UHFFFAOYSA-N bis(4-fluorophenyl)-methyl-(1,2,4-triazol-1-ylmethyl)silane;methyl n-(1h-benzimidazol-2-yl)carbamate Chemical compound C1=CC=C2NC(NC(=O)OC)=NC2=C1.C=1C=C(F)C=CC=1[Si](C=1C=CC(F)=CC=1)(C)CN1C=NC=N1 VQLYBLABXAHUDN-UHFFFAOYSA-N 0.000 description 1
- 235000008434 ginseng Nutrition 0.000 description 1
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- 238000013507 mapping Methods 0.000 description 1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L41/00—Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
- H04L41/14—Network analysis or design
- H04L41/145—Network analysis or design involving simulating, designing, planning or modelling of a network
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F30/00—Computer-aided design [CAD]
- G06F30/20—Design optimisation, verification or simulation
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Abstract
The embodiment of the present invention discloses a kind of modeling method and Design of digital system, it is related to field of communication technology,, it is necessary to operation is largely manually entered, so that the problem of reducing the efficiency of the design work of optical network device when the optical network device increased newly with solution is excessive.This method includes:Obtain the mark and design parameter of newly-increased optical network device, obtain optical network device model corresponding with mark, according to the design parameter of newly-increased optical network device, adjust optical network device model, obtain target light network device model corresponding with the optical network device increased newly, by target light network device model, drawing corresponding with newly-increased optical network device is generated.Scheme provided in an embodiment of the present invention is suitable for a kind of Design of digital system.
Description
Technical field
The present embodiments relate to field of communication technology, more particularly to a kind of modeling method and Design of digital system.
Background technology
In the prior art, it is that CAD (Computer-Aided Design, CAD), automatic meter are hoped in use
The general CAD softwares such as calculation machine Computer Aided Design (Auto Computer-Aided Design, AutoCAD) draw optical network device
Into detail of design, to complete the design work of optical network device.Wherein, ensure optical network device in equipment, rack, subrack,
The integrality of the basic information of logical relation and optical network device between board, port, is to design available optical-fiber network to set
Standby key.
At present, whenever one optical network device of newly-increased design, it is necessary to be manually entered the optical network device for wanting design
The basic information of logical relation and optical network device between middle equipment, rack, subrack, board, port.When newly-increased optical-fiber network
When equipment is very much, it is necessary to which progress is largely manually entered operation, reduces the efficiency of the design work of optical network device.
The content of the invention
The embodiment of the present invention provides a kind of modeling method and Design of digital system, for solving newly-increased optical network device
, it is necessary to operation is largely manually entered, so that the problem of reducing the efficiency of the design work of optical network device when excessive.
To reach above-mentioned purpose, the present invention adopts the following technical scheme that:
A kind of modeling method, including:
The mark and design parameter of newly-increased optical network device are obtained, the design parameter is at least used to represent described newly-increased
Optical network device all parts and in the newly-increased optical network device in itself positional information and working condition;
Optical network device model corresponding with the mark is obtained, the optical network device model is used to set according to optical-fiber network
Standby design parameter generates the corresponding drawing of the optical network device;
According to the design parameter of the newly-increased optical network device, adjust the optical network device model, obtain with it is described
The corresponding target light network device model of newly-increased optical network device;
By the target light network device model, drawing corresponding with the newly-increased optical network device is generated.
A kind of Design of digital system, the Design of digital system include:
Acquisition module, for obtaining the mark and design parameter of newly-increased optical network device, the design parameter is at least used
In the positional information and work that represent newly-increased optical network device all parts and in the newly-increased optical network device in itself
Make situation;
The acquisition module, is additionally operable to obtain optical network device model corresponding with the mark, the optical network device
Model is used to generate the corresponding drawing of the optical network device according to the design parameter of optical network device;
Processing module, for the design parameter of the newly-increased optical network device obtained according to the acquisition module, is adjusted
The optical network device model that the whole acquisition module obtains, obtains target light corresponding with the newly-increased optical network device
Network device model;
The processing module, is additionally operable to by the target light network device model, generation and the newly-increased optical-fiber network
The corresponding drawing of equipment.
A kind of modeling method and Design of digital system provided in an embodiment of the present invention, compared with prior art, the present invention
Embodiment can be obtained and optical network device mark pair afterwards by the mark and design parameter of the newly-increased optical network device of acquisition
The optical network device model answered, and according to the design parameter of newly-increased optical network device adjust optical network device model, obtain with
The corresponding target light network device model of newly-increased optical network device, by target light network device model, generates and increases newly
The corresponding drawing of optical network device.The embodiment of the present invention is by establishing light device model, after often an optical network device is increased newly,
The optical network device that only needing the part design parameter for adjusting optical network device model can obtain and increase newly is set correspondingly
Drawing and explanatory note are counted, without after each newly-increased optical network device, being all manually entered newly-increased optical network device
All design parameters, so as to solve when the optical network device increased newly is excessive, it is necessary to be largely manually entered operation institute
The problem of design work efficiency of the reduction optical network device of initiation.
Brief description of the drawings
Fig. 1 is a kind of flow chart of modeling method provided in an embodiment of the present invention;
Fig. 2 is the flow chart of another modeling method provided in an embodiment of the present invention;
Fig. 3 positions schematic diagram for equipment occupy-place model coordinate provided in an embodiment of the present invention;
Mapping relations figures of the Fig. 4 between each model of optical network device provided in an embodiment of the present invention and each model;
Fig. 5 is the structure chart of Design of digital system provided in an embodiment of the present invention.
Embodiment
An embodiment of the present invention provides a kind of modeling method, this method can be applied to a kind of Design of digital system, such as
Shown in Fig. 1, this method includes:
Step 101, the mark and design parameter for obtaining newly-increased optical network device.
Wherein, design parameter at least is used to represent that newly-increased optical network device to be each in itself and in newly-increased optical network device
The positional information and working condition of component.
Wherein, the design parameter of optical network device includes at least such as the next item down:The underlying parameter of optical network device, positioned at light
The underlying parameter of equipment rack in the network equipment, the underlying parameter of equipment subrack in equipment rack, positioned at equipment
The underlying parameter of board in frame, and the underlying parameter of the port in board, wherein, underlying parameter includes being used to represent
The parameter of positional information and working condition.
Step 102, obtain optical network device model corresponding with mark.
Wherein, optical network device model is used to generate the corresponding figure of optical network device according to the design parameter of optical network device
Paper.
Step 103, the design parameter according to newly-increased optical network device, adjust optical network device model, obtain and increase newly
The corresponding target light network device model of optical network device.
Step 104, pass through target light network device model, generation drawing corresponding with newly-increased optical network device.
Wherein, drawing can include pattern and/or explanatory note.
In the embodiment of the present invention, according to target light network device model, Design of digital system can automatically generate with newly
The corresponding pattern of optical network device of increasing, does not limit the mode for generating pattern at this.Pattern includes plan, system connection
Figure, three kinds of Organization Chart.Plan in the embodiment of the present invention is similar to Fig. 3, indicates all vertex on optical network device on the diagram
Coordinate, the length of optical network device, the title of width and communication system and direction.Organization Chart in the embodiment of the present invention
Similar to Fig. 2, drawing is marked with the texts such as equipment, rack, subrack, the title of board, positional information, length and width information and working condition
Word illustrates, by Organization Chart it can be seen that logical relation between equipment, rack, subrack, board.In the embodiment of the present invention is
The explanatory notes such as equipment, rack, subrack, board, the title of port and working condition are indicated in system connection figure.
The embodiment of the present invention can be obtained and light by obtaining the mark and design parameter of newly-increased optical network device afterwards
The corresponding optical network device model of network device identity, and optical-fiber network is adjusted according to the design parameter of newly-increased optical network device and is set
Standby model, obtains target light network device model corresponding with the optical network device increased newly, by target light network device model,
Generate drawing corresponding with newly-increased optical network device.The embodiment of the present invention is often increasing one newly by establishing light device model
After optical network device, it is only necessary to adjust the optical network device that the part design parameter of optical network device model can be obtained and increased newly
One-to-one design drawing and explanatory note, without after each newly-increased optical network device, being all manually entered newly-increased
All design parameters of optical network device, so as to solve when the optical network device increased newly is excessive, it is necessary to carry out substantial amounts of hand
Dynamic typing operates the problem of design work efficiency of triggered reduction optical network device.
In order to establish suitable optical network device model to optical network device, it is necessary to first determine that the items of optical network device are set
Parameter is counted, in a kind of possible implementation of the embodiment of the present invention, the underlying parameter for obtaining optical network device is set to establish
Standby occupy-place model, obtain the underlying parameter of equipment rack with establish equipment rack model, obtain the underlying parameter of equipment subrack with
Establish equipment rack model, obtain basis of the underlying parameter of equipment plate card to establish equipment plate card model, obtain device port
Parameter is to establish device port model.Therefore, on the basis of implementation as shown in Figure 1, it is also implemented as such as Fig. 2 institutes
The implementation shown.Wherein, before performing step 102 and obtaining optical network device model corresponding with mark, can also carry out
Step 201 is to step 205:
Step 201, the underlying parameter for obtaining optical network device, and establish equipment occupy-place model.
Wherein, the underlying parameter of optical network device includes equipment serial number (DevOrder), place computer room encodes
(StationCode), position coordinates (X, Y, Z), plant width (W), device length (L), device height (H), rack status
(Status), wherein, equipment serial number and place computer room coding component devices coding (DevID), device coding is optical network device
Unique mark in Design of digital system, position coordinates, device length, plant width refer to the coordinate of optical network device, length
Degree, width, it is that existing equipment still designs newly added equipment that rack status, which is used to distinguish optical network device,.
Shown in equipment occupy-place model coordinate positioning figure as shown in Figure 3, the plane of each endpoint in optical network device bottom is sat
(X1, Y1) is designated as, (X2, Y2), (X3, Y3), (X4, Y4), the three-dimensional coordinate of each endpoint of the optical network device is:(X1, Y1,
Z1), (X2, Y2, Z2), (X3, Y3, Z3), (X4, Y4, Z4), (X5, Y5, Z5), (X6, Y6, Z6), (X7, Y7, Z7), (X8, Y8,
Z8)。
Step 202, the underlying parameter for obtaining equipment rack, and establish equipment rack model.
Wherein, the underlying parameter of equipment rack includes subrack quantity (SubrackNum), systematic name (SysName), is
Unite direction (SysDir), wherein, subrack quantity refers to the quantity of open ended subrack in rack, systematic name for optical network device with
The title of the communication system of at least one other optical network device composition, system orientation are that optical network device is taken office in communication system
The communication direction of one optical network device, unique mark of the equipment rack in Design of digital system are device coding (DevID).
Step 203, the underlying parameter for obtaining equipment subrack, and establish equipment rack model.
Wherein, the underlying parameter of equipment subrack includes subrack sequence number (SubOrder), subrack state (SubStatus), groove
Bit quantity (SlotNum), device type (DevType), equipment manufacturer (DecFac), unit type (DevModel), wherein, son
Frame sequence number is used to describe relative position of the subrack in equipment rack, and number of slots amount is used to represent open ended board position in subrack
Put quantity, subrack state is used to distinguishing subrack and still designs newly-increased subrack for original subrack, energy in number of slots amount, that is, equipment subrack
The quantity of the board enough accommodated, device type are used for the function type for describing equipment subrack, and equipment manufacturer, unit type refer to respectively
The producer of production equipment subrack, the model of equipment subrack, subrack sequence number and device coding composition subrack coding (SubID), subrack
It is encoded to unique mark of the equipment subrack in Design of digital system.
Step 204, the underlying parameter for obtaining equipment plate card, and establish equipment plate card model.
Wherein, the underlying parameter of equipment plate card includes groove position sequence number (SlotOrder), port number (PortNum), board
State (CardStatus), board type (CardType), wherein, port number is used for the positional number for representing board middle port
Amount, groove position sequence number are used to describe relative position of the groove position in subrack, and board state is used to distinguish board for original board still
The newly-increased board of design, board type are used for the board for distinguishing difference in functionality, groove position sequence number and subrack coding composition board coding
(CardID), board is encoded to unique mark of the board in Design of digital system.
Wherein, board type can be divided according to the function of board, for example board can be divided into the board for telecommunication
Or the board for optic communication, but the division at this to board type does not limit herein.
Step 205, the underlying parameter for obtaining device port, and establish device port model.
Wherein, the underlying parameter of device port include port sequence number (PortOrder), port status (PortStatus),
Port type (PortType), port speed (Portvelocity), wherein, port serial number geometric parameter, for describing end
Relative position of the mouth in board, for distinguishing, port is in occupancy to port status or idle condition, port type are used for area
Divide port, the message transmission rate of port speed finger tip mouth of difference in functionality, port sequence number and board coding composition port coding,
Port coding (PortID) is unique mark of the port in Design of digital system.
Wherein, port type can be divided according to the function of board, for example port can be divided into the port for telecommunication
Or the port for optic communication, but dividing mode of port type is not limited at this.
For example, in optical network device model as shown in Figure 4, comprising 3 optical network devices, in 1 equipment rack model
Comprising 3 subracks, 7 groove positions are included in 1 equipment subrack model, 4 ports are included in 1 equipment plate card model.Need
It is bright, several optical network devices are included to 1 optical network device model at this, 1 equipment rack model includes several subracks,
1 equipment subrack model includes several groove positions, 1 equipment plate card model is not limited comprising several ports.
To sum up, the base by obtaining the underlying parameter of optical network device to establish equipment occupy-place model, obtain equipment rack
Plinth parameter with establish equipment rack model, obtain equipment subrack underlying parameter with establish equipment rack model, obtain device board
The underlying parameter of card is to establish equipment plate card model, obtain the underlying parameter of device port to establish device port model, this hair
Bright embodiment, which establishes, can reflect logical relation between equipment in optical network device, rack, subrack, board, port and each
Working condition optical network device model, the optical network device to design newly-increased provides template, and then makes newly to add lustre to every time
During the network equipment, it is only necessary to the part design parameter of optical network device model is adjusted, without being set in each newly-increased optical-fiber network
After standby, all design parameters of newly-increased optical network device are all manually entered, so as to solve in newly-increased optical network device mistake
, it is necessary to the problem of being largely manually entered the design work efficiency of the triggered reduction optical network device of operation when more.
An embodiment of the present invention provides a kind of Design of digital system 40, as shown in figure 5, the Design of digital system 40 can
For performing the method and step shown in above-mentioned Fig. 1, which includes:
Acquisition module 41, for obtaining the mark and design parameter of newly-increased optical network device, design parameter is at least used for
Represent the positional information and working condition of newly-increased optical network device all parts and in newly-increased optical network device in itself.
Acquisition module 41, is additionally operable to obtain optical network device model corresponding with mark, optical network device model is used for root
According to the corresponding drawing of design parameter generation optical network device of optical network device.
Processing module 42, for the design parameter of the newly-increased optical network device obtained according to acquisition module 41, adjusts light
Network device model, obtains target light network device model corresponding with the optical network device increased newly.
Processing module 42, is additionally operable to by target light network device model, generates corresponding with newly-increased optical network device
Drawing.
It should be noted that the design parameter of optical network device includes at least such as the next item down:The basis ginseng of optical network device
The underlying parameter of equipment rack several, in optical network device, the underlying parameter of the equipment subrack in equipment rack, position
The underlying parameter of board in equipment subrack, and the underlying parameter of the port in board, wherein, underlying parameter includes
For representing the parameter of positional information and working condition.
In a kind of possible design of the embodiment of the present invention, acquisition module 41, is additionally operable to:
The underlying parameter of optical network device is obtained, and establishes equipment occupy-place model, the underlying parameter of optical network device includes
The equipment serial number of optical network device, place computer room coding, position coordinates, plant width, device length, device height, rack shape
State, wherein, equipment serial number and place computer room coding component devices coding, device coding is optical network device in Design of digital system
Unique mark in system, position coordinates, device length, plant width refer to coordinate, length, the width of optical network device, rack shape
It is that existing equipment still designs newly added equipment that state, which is used to distinguish optical network device,;
The underlying parameter of equipment rack is obtained, and establishes equipment rack model, the underlying parameter of equipment rack includes subrack
Quantity, systematic name, system orientation, wherein, subrack quantity refers to the quantity of open ended subrack in rack, and systematic name is light net
The title of network equipment and the communication system of at least one other optical network device composition, system orientation are optical-fiber network in communication system
For equipment to the communication direction of any optical network device, unique mark of the equipment rack in Design of digital system is equipment volume
Code;
The underlying parameter of equipment subrack is obtained, and establishes equipment rack model, the underlying parameter of equipment subrack includes subrack
Sequence number, subrack state, number of slots amount, device type, equipment manufacturer, unit type, wherein, subrack sequence number exists for describing subrack
Relative position in equipment rack, number of slots amount are used to represent that open ended board number of positions, subrack state are used in subrack
Distinguish subrack and still design newly-increased subrack for original subrack, the quantity for the board that can be accommodated in number of slots amount, that is, equipment subrack,
Device type is used to describing the function type of equipment subrack, equipment manufacturer, unit type refer to respectively production equipment subrack producer,
The model of equipment subrack, subrack sequence number and device coding composition subrack coding, subrack are encoded to equipment subrack in Design of digital
Unique mark in system;
The underlying parameter of equipment plate card is obtained, and establishes equipment plate card model, the underlying parameter of equipment plate card includes groove position
Sequence number, port number, board state, board type, wherein, port number is used for the number of positions for representing board middle port, groove
Position sequence number is used to describe relative position of the groove position in subrack, and it is that original board still designs newly that board state, which is used to distinguish board,
Increase board, board type is used for the board for distinguishing difference in functionality, groove position sequence number and subrack coding composition board coding, board coding
For unique mark of the board in Design of digital system;
The underlying parameter of device port is obtained, and establishes device port model, the underlying parameter of device port includes port
Sequence number, port status, port type, port speed, wherein, port serial number geometric parameter, for describing port in board
Relative position, port status be used for distinguish port be in take or idle condition, port type be used for distinguish difference in functionality
Port, the message transmission rate of port speed finger tip mouth, port sequence number and board coding composition port coding, port is encoded to
Unique mark of the port in Design of digital system.
To sum up, the embodiment of the present invention can be obtained afterwards by the mark and design parameter of the newly-increased optical network device of acquisition
Optical network device model corresponding with optical network device mark is taken, and light is adjusted according to the design parameter of newly-increased optical network device
Network device model, obtains target light network device model corresponding with the optical network device increased newly, is set by target optical-fiber network
Standby model, generates drawing corresponding with newly-increased optical network device.The embodiment of the present invention is by establishing light device model, every new
After increasing an optical network device, it is only necessary to adjust the light net that the part design parameter of optical network device model can be obtained and increased newly
The one-to-one design drawing of network equipment and explanatory note, without after each newly-increased optical network device, being all manually entered
All design parameters of newly-increased optical network device, so as to solve when the optical network device increased newly is excessive, it is necessary to carry out big
The problem of design work efficiency for being manually entered the triggered reduction optical network device of operation of amount.
Through the above description of the embodiments, it is apparent to those skilled in the art that the present invention can borrow
Software is helped to add the mode of required common hardware to realize, naturally it is also possible to which by hardware, but the former is more preferably in many cases
Embodiment.Based on such understanding, portion that technical scheme substantially in other words contributes the prior art
Dividing can be embodied in the form of software product, which is stored in the storage medium that can be read, and such as be counted
The floppy disk of calculation machine, hard disk or CD etc., including some instructions are used so that computer equipment (can be personal computer,
Server, or network equipment etc.) perform method described in each embodiment of the present invention.
The above description is merely a specific embodiment, but the protection domain of the embodiment of the present invention is not limited to
This, any one skilled in the art the invention discloses technical scope in, change or replacement can be readily occurred in,
It should all cover within the protection domain of the embodiment of the present invention.Therefore, the protection domain of the embodiment of the present invention should be with the right
It is required that protection domain subject to.
Claims (6)
- A kind of 1. modeling method, it is characterised in that the described method includes:The mark and design parameter of newly-increased optical network device are obtained, the design parameter is at least used to represent the newly-increased light The positional information and working condition of network equipment all parts and in the newly-increased optical network device in itself;Optical network device model corresponding with the mark is obtained, the optical network device model is used for according to optical network device Design parameter generates the corresponding drawing of the optical network device;According to the design parameter of the newly-increased optical network device, the optical network device model is adjusted, obtains increasing newly with described The corresponding target light network device model of optical network device;By the target light network device model, drawing corresponding with the newly-increased optical network device is generated.
- 2. the method as described in claim 1, it is characterised in that the design parameter of optical network device includes at least such as the next item down:The underlying parameter of the optical network device, the underlying parameter of equipment rack in the optical network device, positioned at institute The underlying parameter of the underlying parameter of the equipment subrack in equipment rack, board in the equipment subrack is stated, and is located at The underlying parameter of port in the board, wherein, underlying parameter includes being used for the parameter for representing positional information and working condition.
- 3. method as claimed in claim 2, it is characterised in that obtain optical network device mould corresponding with the mark described Before type, the described method includes:The underlying parameter of the optical network device is obtained, and establishes equipment occupy-place model, the underlying parameter of the optical network device Equipment serial number including optical network device, place computer room coding, position coordinates, plant width, device length, device height, machine Rack-like state, wherein, the equipment serial number and place computer room coding component devices coding, the device coding is the light net Unique mark of the network equipment in Design of digital system, it is existing set that the rack status, which is used to distinguish the optical network device, Standby or design newly added equipment;The underlying parameter of the equipment rack is obtained, and establishes equipment rack model, the underlying parameter of the equipment rack includes Subrack quantity, systematic name, system orientation, wherein, the subrack quantity refers to the quantity of open ended subrack in rack, the system The title for the communication system that the entitled optical network device of uniting is formed with least one other optical network device, the system side To the communication direction for optical network device described in the communication system to any optical network device, the equipment rack is described Unique mark in Design of digital system is the device coding;The underlying parameter of the equipment subrack is obtained, and establishes equipment rack model, the underlying parameter of the equipment subrack includes Subrack sequence number, subrack state, number of slots amount, device type, equipment manufacturer, unit type, wherein, the subrack sequence number is used to retouch Relative position of the subrack in equipment rack is stated, the number of slots amount is used to represent open ended board positional number in the subrack Amount, it is that original subrack still designs newly-increased subrack, the number of slots amount, that is, equipment that the subrack state, which is used to distinguish subrack, The quantity for the board that can be accommodated in subrack, the device type is used for the function type for describing the equipment subrack, described to set Standby producer, the unit type refer to the producer for produce the equipment subrack, the model of equipment subrack respectively, the subrack sequence number with Device coding composition subrack coding, the subrack are encoded to the equipment subrack in the Design of digital system only One mark;The underlying parameter of the equipment plate card is obtained, and establishes the equipment plate card model, the underlying parameter of the equipment plate card Including groove position sequence number, port number, board state, board type, wherein, the port number is used to represent board middle port Number of positions, groove position sequence number are used to describe relative position of the groove position in the subrack, and the board state is used to distinguish The board still designs newly-increased board for original board, and the board type is used for the board for distinguishing difference in functionality, the groove Position sequence number and subrack coding composition board coding, the board are encoded to the board in the Design of digital system Unique mark;The underlying parameter of the device port is obtained, and establishes the device port model, the underlying parameter of the device port Including port sequence number, port status, port type, port speed, wherein, the port serial number geometric parameter, for describing Relative position of the port in the board, the port status are in occupancy or idle condition for distinguishing the port, The port type is used to distinguishing the port of difference in functionality, the port speed refers to the message transmission rate of the port, described Port sequence number and board coding form the port coding, and the port is encoded to the port in the Design of digital Unique mark in system.
- A kind of 4. Design of digital system, it is characterised in that the system comprises:Acquisition module, for obtaining the mark and design parameter of newly-increased optical network device, the design parameter is at least used for table Show the newly-increased optical network device positional information of all parts and work feelings in itself and in the newly-increased optical network device Condition;The acquisition module, is additionally operable to obtain optical network device model corresponding with the mark, the optical network device model For generating the corresponding drawing of the optical network device according to the design parameter of optical network device;Processing module, for the design parameter of the newly-increased optical network device obtained according to the acquisition module, adjusts institute The optical network device model of acquisition module acquisition is stated, obtains target optical-fiber network corresponding with the newly-increased optical network device Device model;The processing module, is additionally operable to by the target light network device model, generation and the newly-increased optical network device Corresponding drawing.
- 5. system as claimed in claim 4, it is characterised in that the design parameter of optical network device includes at least such as the next item down:The underlying parameter of the optical network device, the underlying parameter of equipment rack in the optical network device, positioned at institute The underlying parameter of the underlying parameter of the equipment subrack in equipment rack, board in the equipment subrack is stated, and is located at The underlying parameter of port in the board, wherein, underlying parameter includes being used for the parameter for representing positional information and working condition.
- 6. system as claimed in claim 5, it is characterised in that the acquisition module, is additionally operable to:The underlying parameter of the optical network device is obtained, and establishes equipment occupy-place model, the underlying parameter of the optical network device Equipment serial number including optical network device, place computer room coding, position coordinates, plant width, device length, device height, machine Rack-like state, wherein, the equipment serial number and place computer room coding component devices coding, the device coding is the light net Unique mark of the network equipment in Design of digital system, it is existing set that the rack status, which is used to distinguish the optical network device, Standby or design newly added equipment;The underlying parameter of the equipment rack is obtained, and establishes equipment rack model, the underlying parameter of the equipment rack includes Subrack quantity, systematic name, system orientation, wherein, the subrack quantity refers to the quantity of open ended subrack in rack, the system The title for the communication system that the entitled optical network device of uniting is formed with least one other optical network device, the system side To the communication direction for optical network device described in the communication system to any optical network device, the equipment rack is described Unique mark in Design of digital system is the device coding;The underlying parameter of the equipment subrack is obtained, and establishes equipment rack model, the underlying parameter of the equipment subrack includes Subrack sequence number, subrack state, number of slots amount, device type, equipment manufacturer, unit type, wherein, the subrack sequence number is used to retouch Relative position of the subrack in equipment rack is stated, the number of slots amount is used to represent open ended board positional number in the subrack Amount, it is that original subrack still designs newly-increased subrack, the number of slots amount, that is, equipment that the subrack state, which is used to distinguish subrack, The quantity for the board that can be accommodated in subrack, the device type is used for the function type for describing the equipment subrack, described to set Standby producer, the unit type refer to the producer for produce the equipment subrack, the model of equipment subrack respectively, the subrack sequence number with Device coding composition subrack coding, the subrack are encoded to the equipment subrack in the Design of digital system only One mark;The underlying parameter of the equipment plate card is obtained, and establishes the equipment plate card model, the underlying parameter of the equipment plate card Including groove position sequence number, port number, board state, board type, wherein, the port number is used to represent board middle port Number of positions, groove position sequence number are used to describe relative position of the groove position in the subrack, and the board state is used to distinguish The board still designs newly-increased board for original board, and the board type is used for the board for distinguishing difference in functionality, the groove Position sequence number and subrack coding composition board coding, the board are encoded to the board in the Design of digital system Unique mark;The underlying parameter of the device port is obtained, and establishes the device port model, the underlying parameter of the device port Including port sequence number, port status, port type, port speed, wherein, the port serial number geometric parameter, for describing Relative position of the port in the board, the port status are in occupancy or idle condition for distinguishing the port, The port type is used to distinguishing the port of difference in functionality, the port speed refers to the message transmission rate of the port, described Port sequence number and board coding form the port coding, and the port is encoded to the port in the Design of digital Unique mark in system.
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