CN104142677B - Automatic station sequence detection method - Google Patents
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- CN104142677B CN104142677B CN201410155046.0A CN201410155046A CN104142677B CN 104142677 B CN104142677 B CN 104142677B CN 201410155046 A CN201410155046 A CN 201410155046A CN 104142677 B CN104142677 B CN 104142677B
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- 238000001514 detection method Methods 0.000 title claims description 21
- 238000012360 testing method Methods 0.000 claims abstract description 216
- 230000005540 biological transmission Effects 0.000 claims description 4
- 238000013502 data validation Methods 0.000 claims description 3
- 238000012546 transfer Methods 0.000 claims description 3
- 238000000034 method Methods 0.000 abstract description 11
- 238000012790 confirmation Methods 0.000 description 6
- 238000004519 manufacturing process Methods 0.000 description 5
- 230000002159 abnormal effect Effects 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 230000008520 organization Effects 0.000 description 2
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- 238000012163 sequencing technique Methods 0.000 description 1
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Abstract
The invention relates to an automatic station order detecting method, which is applied to a test system, wherein the test system comprises a host and a plurality of test stations, the test stations are respectively and electrically connected with the host, and the test stations are electrically connected with each other, the test stations comprise a first test station and a second test station, and the automatic station order detecting method comprises the following steps: the host transmits a first command to the first test station; the first test station receives a first command to transmit first identification data of the first test station to the host; the host receives and records the first identification data; the first test station informs the second test station to transmit the second identification data to the host computer; and the host receives the second identification data and confirms the station position sequence of the first test station and the second test station according to the first identification data and the second identification data.
Description
Technical field
The present invention is about a kind of erect-position order method for detecting, and particularly relating to one can be by tester table to master
The method that machine is returned self information and determined the erect-position order of each tester table.
Background technology
During commercial production manufacture or processing, it is often necessary to by substantial amounts of test jobs with really
Protecting product and can meet preset requirement, one of which test system is as it is shown in figure 5, include a main frame 50
With multiple testing stations 51~54, each testing station 51~54 is an independent tester table, this main frame
Ethernet bus (Ethernet bus) can be used between 50 and such testing station 51~54 to be connected with each other,
It is responsible for controlling testing station 51~54 by this main frame 50 and performs test jobs.
When main frame 50 control each testing station 51~54 carry out test jobs time, it is necessary to learn each erect-position
Order information, can correctly perform testing process.At present in order to confirm the practice of the order of erect-position substantially
On comprise following several:
One. the most all testing stations 51~54 are set the most respectively the knowledge of one group of independence
Other address (IP), identifies that the form of expression of address is equal to the form of computer network address
XXX.XXX.XXX.XXX, and main frame 50 i.e. according to this identification address as the foundation of erect-position order.
Two. it is not required to each testing station 51~54 is preset identify address, changes into each testing station 51~54
Directly setting one erect-position number, such as 0001,0002 ... nnnn, main frame 50 is i.e. according to erect-position number
Learning erect-position order, as a rule, this erect-position number is erect-position order.
Three. on the premise of not changing the identification address that each testing station 51~54 is existing, manually
Record the identification address of each testing station 51~54, converge with providing after being made into table and give main frame 50, according to this remittance
Whole table is as the foundation judging erect-position order.
Which kind of practice the most aforementioned, all has to rely on a large amount of manpower and is set or records operation, and ten
Divide time and effort consuming;When tester table 51~54 need repairing, replace, increase and decrease quantity time, with manpower weight
The new practice confirming erect-position order just seems pole inefficiency.And artificial operation has unavoidably and makes a mistake
May, slightly careless mistake is i.e. likely to occur erect-position order and works out the serious problems of mistake, and produces board
Or the erect-position order of tester table is often considerable reference information in work flow, once send out
Raw sequencing mistake probably can occur a series of heavy losses, and is difficult to be detected.
Summary of the invention
Because the problem that aforementioned existing erect-position judgment mode is caused, the main object of the present invention is to carry
For a kind of on the premise of need not artificial operation intervention, by each testing station from trend main frame return itself
Identification data, and make host acknowledgement entirety testing station all erect-positions order.
The present invention proposes a kind of erect-position order automatic detection method, is applied to a test system, test system
System comprises main frame and multiple testing stations, and testing station is electrically connected with between this main frame and each testing station that
This is electrically connected with, and plurality of testing station comprises the first testing station and the second testing station, and erect-position order is certainly
Dynamic method for detecting comprises: main frame transmits the first instruction and gives the first testing station;First testing station receives first
Instruction, to give main frame by the first identification data transmission itself;Main frame receives and records the first identification number
According to;First testing station notifies that the second testing station is transmitted the second identification data and given main frame;And main frame receives
Second identifies data, and identifies that data identify data validation the first testing station and the with second according to first
The erect-position order of two testing stations.
In one or more embodiment of the present invention, erect-position order automatic detection method wraps further
Containing: after main frame receives and record the first identification data, main frame transmits the second instruction and gives the first testing station,
To order the first testing station to notify, the second testing station is transmitted the second identification data and is given main frame.
In one or more embodiment of the present invention, erect-position order automatic detection method wraps further
Contain: entrance after the first identification data and second identify data is being transmitted in the first testing station and the second testing station
Stillness mode;And after the erect-position order in each testing station of host acknowledgement, send the 3rd instruction from main frame
To each testing station, control each testing station and transfer operating mode to from stillness mode.
In one or more embodiment of the present invention, give the first testing station in main frame output the first instruction
Step, the first instruction is transmitted to the first testing station via independent holding wire.
In one or more embodiment of the present invention, each testing station is respectively via Ethernet bus electricity
Property connect main frame, give the step of the first testing station in main frame output the first instruction, comprise: main frame sends
Request signal at first stop, request signal is transferred to each testing station via Ethernet bus at first stop;And the
One testing station is sent return signal and is given main frame, makes host acknowledgement the first testing station.
In one or more embodiment of the present invention, each testing station has signal input port and signal
Output port, when the first testing station signal input port not with the signal output port of arbitrary testing station
During electric connection, the first testing station sends return signal and gives main frame.
In one or more embodiment of the present invention, the signal of the most end testing station of multiple testing stations is defeated
Go out the port signal input port not with arbitrary testing station to be electrically connected with.
In one or more embodiment of the present invention, first identifies that data and second identify that data are respectively
Comprise type and identify address, and main frame receives and records the first identification data and receives and record with main frame
Second identifies in data and comprises respectively: main frame receive the first identification data and second identify data time
Between.
In one or more embodiment of the present invention, multiple testing stations the most electrically connect with holding wire
Connect.
According to foregoing schemes, main frame only need to export the first instruction and give the first testing station, make the first testing station
Returning after himself identifying data, each follow-up test station being connected with this first testing station will be led one by one
The return of trend main frame identifies data, and this main frame just can learn each survey according to the return order identifying data
The entity erect-position order at examination station, and the identification address (IP) of entity erect-position order with each testing station is set up
Association.The method the most efficiently obtains erect-position order, more avoids artificial misregistration to cause
Production operation abnormal and loss can be reduced.
Accompanying drawing explanation
Fig. 1 is the flow chart of erect-position of the present invention order automatic detection method;
Fig. 2 be erect-position of the present invention order automatic detection method be applied to first preferred embodiment test system
System Organization Chart;
Fig. 3 is the broad flow diagram of erect-position of the present invention order automatic detection method one specific embodiment;
Fig. 4 be erect-position of the present invention order automatic detection method be applied to second preferred embodiment test system
System Organization Chart;And
Fig. 5 is the tester table in an existing test system and main frame connection diagram.
Detailed description of the invention
The present invention is a kind of erect-position order automatic detection method, is applied in a test system, this test
System includes at least one main frame, one first testing station and one second testing station, wherein this first test
Stand and the second testing station be not only electrically connected with this main frame, and the most separately there is electrical connection,
Under framework based on this test system, erect-position of the present invention order automatic detection method consists predominantly of
The following step:
Transmitted one first instruction by this main frame and give this first testing station (101);
This first testing station receives this first instruction, so that one first identification data transmission itself is given this
Main frame (102);
This main frame receives and records this first identification data (103);
This first testing station notifies that this second testing station is transmitted one second identification data and given this main frame (104);
And
This main frame receives this second identification data, and according to these the first identification data and this second identification number
According to erect-position order (105) confirming this first testing station and this second testing station.
The method according to the invention, when this main frame requires the first identification of this first testing station return self
After data, with this first testing station, follow-up i.e. changing into notifies that self is returned to this main frame in this second testing station
Second identification data, owing to the present invention is that order respectively this testing station notifies that its next testing station is to this master
Machine is returned, therefore main frame is after the identification data receiving each this testing station, just can converge and whole learn respectively this test
The erect-position order stood.On the basis of abovementioned steps, following description will be still further directed to the present invention's
Method and the test system applied provide specific embodiment, make the technology of the present invention can be easier to understand reason
Solve.
Refer to shown in Fig. 2, for testing a preferred embodiment of system, wherein, this test system bag
Containing a main frame 10 and multiple testing stations 11~14, at this as a example by four testing stations 11~14, this is main
It is connected with an Ethernet bus 30 (Ethernet Bus) between machine 10 with testing station 11~14, logical
Cross this Ethernet bus 30 and transmit data.
Outside too network-bus 30, each testing station 11~14 tool one signal input of the present embodiment
Port 21 and a signal output port 22, sequentially with a holding wire 40 between each testing station 11~14
Connect such signal input port 21 and signal output port 22 and constitute concatenation, separately at main frame 10
It is connected with holding wire 40 as the first testing station 11.At each testing station 11~14 inner setting each
Identification data, the project that these identification data are comprised has identification address (IP), type kind, terminal
Show information etc., when each testing station 11~14 is to the identification data of this main frame 10 return itself, should
Main frame 10 can receive each the time identifying data by record simultaneously.
The identification address (IP) of each testing station 11~14 is unique, and its form of expression can be
XXX.XXX.XXX.XXX, if such as identifying, the scope of address is set at
10.0.0.1~between 10.223.254.254, up to 14 can be set the most altogether, 508,480 platforms,
Such numerous quantity will fully meet the board number demand of test system.On the other hand, this main frame
The identification addressable of 10, between 10.224.0.1~10.254.254.254, has up to the most altogether
2,007,870 addresses are available, also be enough to meet production line demand.Fig. 2 is with four testing stations
11~14 illustrate as example, and it identifies that address is expressed as IPa, IPx, IPd, IPc, can see
Go out this identification address to there is no ordering relation and can be arbitrarily designated.
Because each testing station 11~14 is sequentially to connect with holding wire 40, for any one position in
Between testing station 12,13 for, entity will necessarily be there is even with previous testing station and a rear testing station
Connect relation.But for last testing station 14 because its signal output port 22 not with
Any device connects, and therefore this testing station 14 oneself can learn that this, as last, therefore may be used
Export aforementioned terminal and show that information is to main frame 10.
Framework based on above-mentioned test system, performs figure between main frame 10 and each testing station 11~14
Method shown in 3, makes main frame 10 can automatically collect the information of each testing station 11~14, and according to collection
The validation of information erect-position order obtained, following steps coordinate Fig. 2 to explain, and include following step:
(a) from this main frame 10 export one first instruction give testing station 11, make testing station 11 enter one in
Report pattern;
B () enters and reports the testing station 11 of pattern to the identification data of this main frame 10 return itself;
C () this main frame 10 stores the identification data returned, and return a confirmation signal and give entrance and report
The testing station 11 of pattern, makes testing station 11 enter a stillness mode (silence mode);
D () this main frame 10 exports one second instruction and gives the testing station 11 entering stillness mode, order receives should
Second instruction testing station 11 send this first instruction to the testing station 12 that next is connected, wherein,
This first instruction can be transferred to this next testing station 12 via this holding wire 40;
E () receives this testing station 12 of this first instruction and enters this and report pattern, and repeat aforementioned
Step (b)~(d), until all testing stations 11~14 identify data to the return of this main frame 10 the most, its
In, the identification packet that most end testing station 14 is returned contains a terminal and shows information;
F identification data validation erect-position information that () this main frame 10 is returned according to all testing stations 11~14.
According to the flow process shown in abovementioned steps, it is further described below:
According to step (a), first exported one first instruction by main frame 10 and give the first testing station 11, make the
One testing station 11 enters one and reports pattern, and wherein, this first instruction can be an enable signal.In
In this embodiment, because this main frame 10 is only connected with holding wire 40 entity with the first testing station 11,
Therefore main frame 10 may utilize this holding wire 40 and transmits the first instruction to the first testing station 11, namely
Saying, the testing station being connected with main frame 10 entity is the first testing station 11.
According to step (b), because the first testing station 11 comes into the pattern of reporting, by the identification of itself
Data return is to main frame 10, and when return, periodically load mode can be taked in the first testing station 11,
I.e. at interval of the T0 time transmit once identify data to main frame 10, to guarantee that main frame 10 can be received smoothly
To identifying that data are avoided losing.
According to step (c), when main frame 10 receives after the identification data of the first testing station 11, record
These identification data and the time of reception thereof by identification address ip a of the first testing station 11 and entity erect-position
Order sets up association.And return a confirmation signal (acknowledge signal) to the first testing station 11,
This first testing station 11 i.e. enters a stillness mode after receiving confirmation signal.
According to step (d), main frame 10 send one second instruction and give this first testing station 11, wherein should
Second instruction can be an enable secondary signal.Change into being sent this first instruction also by the first testing station 11
It is transferred to the second testing station 12 via this holding wire 40 rather than is sent this first finger by main frame 10
Order.
According to step (e), this second testing station 12 is because receiving this first instruction, therefore enter should be in
Report pattern, by the identification data return of itself to main frame 10, main frame 10 records this identification data again
And time of reception identification address ip x of the second testing station 12 and entity erect-position order is set up close
Connection.And return a confirmation signal (acknowledge signal) to the second testing station 12, this second test
Stand 12 receive confirmation signal after i.e. enter stillness mode, and main frame 10 send this second instruction give this
Two testing stations 12, change into being sent this first instruction and via this holding wire 40 by the second testing station 12
It is transferred to the 3rd testing station 13.So being repeatedly carried out, each testing station is all by the identification number of itself
According to return to main frame 10, but for most end testing station 14 because do not have next testing station and its
Connecting, therefore this testing station 14 can obtain for not-connected status according to signal output port 22 own
Know it itself has been last testing station, when output identifies data to main frame 10, provide the most in the lump
This terminal shows that information is to main frame 10.
Main frame 10 returns confirmation signal to behind the 4th testing station 14, and the 4th testing station 14 i.e. enters
Stillness mode.And main frame is after receiving and showing information from this terminal of the 4th testing station 14, then
This second instruction will not be sent again to the 4th testing station 14.
According to step (f), because main frame 10 is based on the entity erect-position order of such testing station 11~14
Obtain respective identification address ip a, IPx, IPd, IPc one by one, just can during blow-by-blow
Enough obtain the erect-position order corresponding to each testing station 11~14, as shown in the table:
Erect-position order | 1 | 2 | 3 | 4 |
Identify address | IPa | IPx | IPd | IPc |
Main frame 10, after obtaining the erect-position order of all testing stations 11~14, can assign a fortune further
Instruct (Run, the i.e. the 3rd instruction) to all testing stations 11~14, make all testing station 11~14 from peace
Quiet mode transfers operating mode to, proceeds by operation.
Refer again to shown in Fig. 4, be that this main frame 10 and first is surveyed with aforementioned first embodiment difference
It is not connected with an independent holding wire 40 between examination station 11, between the most each testing station 11~14, has signal
Line 40 sequentially concatenates.Under this framework, this main frame 10 will be by this Ethernet bus 30
First send an initial station request signal and give each testing station 11~14, because only that the first testing station 11
Signal input port 21 is the state being not connected with, and therefore this first testing station 11 can be detected and learn itself
Signal input port 21 connects state for sky, will send a return signal and give main frame 10, this main frame 10
Just can learn according to the source of return signal that whichever is the first testing station 11.And other testing station
The signal input port 21 of 12~14 all has connection holding wire, therefore will not make this initial station request signal
Go out to reply.After main frame 10 determines the first testing station 11, just can each also in accordance with previous embodiment
Step Auto-Sensing goes out erect-position order.
In sum, the present invention need not record the identification data of each testing station one by one by artificial operation,
After having only to each testing station is depended on concatenation, just control each testing station one by one to the identification of main frame return itself
Data, can go out entity erect-position order by automatic decision according to its return order, and most end testing station also can be to master
Machine shows that it is last platform simultaneously.Therefore can save manpower operation, more be avoided that artificial misregistration
And derivative production line operation is abnormal.
Although the present invention is open as above with embodiment, so it is not limited to the present invention, any
Those skilled in the art, without departing from the spirit and scope of the invention, when can make various changes with
Retouching, therefore protection scope of the present invention is when being as the criterion depending on those as defined in claim.
Claims (9)
1. an erect-position order automatic detection method, is applied to test system, above-mentioned test system bag
Containing main frame and multiple testing stations, above-mentioned multiple testing stations are electrically connected with above-mentioned main frame and each above-mentioned survey
Examination is electrically connected to each other between station, and the most above-mentioned multiple testing stations comprise the first testing station and the second test
Standing, it is characterized in that, above-mentioned erect-position order automatic detection method comprises:
Above-mentioned main frame transmits the first instruction and gives above-mentioned first testing station;
Above-mentioned first testing station receives above-mentioned first instruction, the first identification data transmission itself to be given
Above-mentioned main frame;
Above-mentioned main frame receives and records above-mentioned first and identifies data;
Above-mentioned first testing station notifies that above-mentioned second testing station is transmitted the second identification data and given above-mentioned main frame;
And
Above-mentioned main frame receives above-mentioned second and identifies data, and identifies data and above-mentioned the according to above-mentioned first
The two erect-position orders identifying above-mentioned first testing station of data validation and above-mentioned second testing station.
Erect-position the most according to claim 1 order automatic detection method, is characterized in that, enter one
Step comprises:
After above-mentioned main frame receives and record above-mentioned first identification data, above-mentioned main frame transmits the second instruction
Giving above-mentioned first testing station, to order above-mentioned first testing station to notify, above-mentioned second testing station is transmitted above-mentioned
Second identifies that data give above-mentioned main frame.
Erect-position the most according to claim 1 order automatic detection method, is characterized in that, enter one
Step comprises:
Above-mentioned first testing station and above-mentioned second testing station identify data and above-mentioned transmitting above-mentioned first
Second identifies entrance stillness mode after data;And
After erect-position order in each above-mentioned testing station of above-mentioned host acknowledgement, send the 3rd finger from above-mentioned main frame
Order, to each above-mentioned testing station, controls each above-mentioned testing station and transfers operating mode to from above-mentioned stillness mode.
Erect-position the most according to claim 1 order automatic detection method, is characterized in that, upper
Stating above-mentioned first instruction of main frame output and give the step of above-mentioned first testing station, above-mentioned first instruction is via solely
Vertical holding wire transmission is to above-mentioned first testing station.
Erect-position the most according to claim 1 order automatic detection method, it is characterized in that, each on
State testing station and be electrically connected with above-mentioned main frame, above-mentioned main frame output above-mentioned the via Ethernet bus respectively
The step of above-mentioned first testing station is given in one instruction, comprises:
Above-mentioned main frame sends initial station request signal, and above-mentioned initial station request signal is total via above-mentioned Ethernet
Line is transferred to each above-mentioned testing station;And
Above-mentioned first testing station is sent return signal and is given above-mentioned main frame, makes above-mentioned host acknowledgement above-mentioned first
Testing station.
Erect-position the most according to claim 5 order automatic detection method, it is characterized in that, each on
State testing station and there is signal input port and signal output port, when the above-mentioned letter of above-mentioned first testing station
When number input port not above-mentioned signal output port with arbitrary above-mentioned testing station is electrically connected with, above-mentioned the
One testing station sends above-mentioned return signal and gives above-mentioned main frame.
Erect-position the most according to claim 6 order automatic detection method, is characterized in that, above-mentioned
Not upper with arbitrary above-mentioned testing station of the above-mentioned signal output port of the most end testing station of multiple testing stations
State signal input port to be electrically connected with.
Erect-position the most according to claim 1 order automatic detection method, is characterized in that, above-mentioned
First identifies that data and above-mentioned second identify that data comprise type respectively and identify address, and above-mentioned main frame
Receive and record above-mentioned first and identify that data and above-mentioned main frame receive and record above-mentioned second and identify data
Middle comprise respectively:
Above-mentioned main frame receives above-mentioned first and identifies that data and above-mentioned second identify the time of data.
Erect-position the most according to claim 1 order automatic detection method, is characterized in that, above-mentioned
Multiple testing stations are electrically connected to each other with holding wire.
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TW102116343 | 2013-05-08 | ||
TW102116343A TWI495969B (en) | 2013-05-08 | 2013-05-08 | Method for automatically determining the sequence of multiple machines |
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CN104142677B true CN104142677B (en) | 2016-11-16 |
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CN108989478B (en) * | 2018-07-11 | 2022-02-01 | 厦门拓宝科技有限公司 | Automatic identification method for communication address of wired connection multi-module measurement and control system |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6021311A (en) * | 1996-12-06 | 2000-02-01 | U.S. Philips Corporation | Method of, and system for, transmitting messages |
CN101141489A (en) * | 2007-05-18 | 2008-03-12 | 中兴通讯股份有限公司 | Terminal address automatic allocation method, terminal and network side server |
TW200823655A (en) * | 2006-11-30 | 2008-06-01 | Inventec Corp | System and method for setting testing procedures of motherboards |
TW201020797A (en) * | 2008-11-20 | 2010-06-01 | Johnson Controls Tech Co | Method and system for smart address assignment baced on USB |
TW201027089A (en) * | 2009-01-09 | 2010-07-16 | King Yuan Electronics Co Ltd | Auto site mapping method and apparatus |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE10080234T1 (en) * | 1999-07-13 | 2001-10-04 | Advantest Corp | Electrical device, test device for electrical devices and test method for electrical devices |
JP2002026487A (en) * | 2000-07-05 | 2002-01-25 | Sony Corp | Device and method for correcting reference hole of substrate |
TWI234964B (en) * | 2002-05-14 | 2005-06-21 | M G Comm Corp | Configuration method of machine platen for factory building network and its apparatus |
US7412548B2 (en) * | 2004-03-04 | 2008-08-12 | Rockwell Automation Technologies, Inc. | Intelligent self-determining I/O device |
TW200816081A (en) * | 2006-09-29 | 2008-04-01 | Zhi-Hong Guan | System of production management and monitoring |
CN101788965B (en) * | 2010-02-25 | 2011-08-03 | 上海乐春重工机电设备有限公司 | Multipoint automatic identification and master-slave synchronization serial communication mode |
-
2013
- 2013-05-08 TW TW102116343A patent/TWI495969B/en active
-
2014
- 2014-04-17 CN CN201410155046.0A patent/CN104142677B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6021311A (en) * | 1996-12-06 | 2000-02-01 | U.S. Philips Corporation | Method of, and system for, transmitting messages |
TW200823655A (en) * | 2006-11-30 | 2008-06-01 | Inventec Corp | System and method for setting testing procedures of motherboards |
CN101141489A (en) * | 2007-05-18 | 2008-03-12 | 中兴通讯股份有限公司 | Terminal address automatic allocation method, terminal and network side server |
TW201020797A (en) * | 2008-11-20 | 2010-06-01 | Johnson Controls Tech Co | Method and system for smart address assignment baced on USB |
TW201027089A (en) * | 2009-01-09 | 2010-07-16 | King Yuan Electronics Co Ltd | Auto site mapping method and apparatus |
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TW201443596A (en) | 2014-11-16 |
TWI495969B (en) | 2015-08-11 |
CN104142677A (en) | 2014-11-12 |
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