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JPH03101553A - Duplicate switching method of hot standby system - Google Patents

Duplicate switching method of hot standby system

Info

Publication number
JPH03101553A
JPH03101553A JP1239051A JP23905189A JPH03101553A JP H03101553 A JPH03101553 A JP H03101553A JP 1239051 A JP1239051 A JP 1239051A JP 23905189 A JP23905189 A JP 23905189A JP H03101553 A JPH03101553 A JP H03101553A
Authority
JP
Japan
Prior art keywords
input
electronic exchange
control device
output communication
communication control
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP1239051A
Other languages
Japanese (ja)
Inventor
Mikio Kawakami
川上 美輝男
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Fujitsu Ltd
Original Assignee
Fujitsu Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Fujitsu Ltd filed Critical Fujitsu Ltd
Priority to JP1239051A priority Critical patent/JPH03101553A/en
Publication of JPH03101553A publication Critical patent/JPH03101553A/en
Pending legal-status Critical Current

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  • Hardware Redundancy (AREA)
  • Computer And Data Communications (AREA)
  • Monitoring And Testing Of Exchanges (AREA)

Abstract

PURPOSE:To attain changeover with high system stability by implementing duplicate changeover not only in the case of a fault of an opposite equipment but also in the case of detection of a line fault. CONSTITUTION:A 2nd input output communication controller 2 of slave system operation is provided with a system changeover request reception means from an electronic exchange 3 and a stop instruction relay means to a main system equipment 1 and a 1st input output communication controller 1 of main system operation is provided with a stop instruction reception means from the slave system equipment 2 and a stop means of the main system equipment 1 and when a data communication line 5 between the 1st input output communication controller 1 of the main system operation and the electronic exchange 3 is faulty, the 2nd input output communication controller 2 of the slave system operation receives a system switching request from the electronic exchange 3 through the data communication line 6 and sends a stop instruction to the 1st input output communication controller 1 and the 2nd input output communication controller 2 applies data communication with the electronic exchange 3 as the main system through the data communication line 6.

Description

【発明の詳細な説明】 〔概 要〕 ホットスタンバイ形式の入出力通信制御装置の二重化切
替方法に関し、 入出力通信制御装置と電子交換機との間のデータ回線が
障害となった場合に、自動的に他の入出力通信制御装置
に切替えることを目的とし、主系、従系に二重化された
電子交換機とホストコンピュータとの通信を制御する入
出力制御装置において、 従系運転の第2の入出力通信制御装置に電子交換機から
の系切替要求受付手段と主系装置への停止命令中継手段
とを設け、主系運転の第1の入出力通信制御装置に従系
装置からの停止命令受付手段と主系装置の停止手段とを
設け、 主系運転の第1の入出力通信制御装置と電子交換機との
間のデータ通信路が障害の場合、従系運転の第2の入出
力通信制御装置は電子交換機からの系切替要求を受付け
、主系運転の第1の入出力通信制御装置に対して通信路
により停止命令を送出し、主系運転の第1の入出力通信
制御装置を停止すると共に、従系運転の第2の入出力通
信制御装置が主系としてデータ通信路により電子交換機
との間のデータ通信を行うように構成する。
[Detailed Description of the Invention] [Summary] Regarding a redundant switching method for a hot standby type input/output communication control device, when a data line between the input/output communication control device and an electronic exchange becomes a failure, automatic switching is performed. In an input/output control device that controls communication between an electronic exchange duplexed into a main system and a slave system and a host computer, the purpose of switching to another input/output communication control device is to switch to another input/output communication control device in the secondary system operation. The communication control device is provided with a means for accepting a system switching request from an electronic exchange and a means for relaying a stop command to the main system device, and the first input/output communication control device for main operation is provided with a means for accepting a system switching request from the electronic exchange and a means for relaying a stop command from the slave device. If there is a failure in the data communication path between the first input/output communication control device in main operation and the electronic exchange, the second input/output communication control device in slave operation is provided with means for stopping the main system device. Receives a system switching request from the electronic exchange, sends a stop command to the first input/output communication control device in main system operation via a communication path, and stops the first input/output communication control device in main system operation. The second input/output communication control device operating in the slave system is configured to perform data communication with the electronic exchange through the data communication path as the main system.

〔産業上の利用分野〕[Industrial application field]

本発明は1、ホットスタンバイ形式の入出力通信制御装
置の二重化切替方法に関する。
The present invention relates to (1) a redundancy switching method for a hot standby type input/output communication control device;

ホットスタンバイ形式の入出力通信制御装置は消防シス
テムにおける電子交換機とホストコンピュータとの間の
接続インターフェイス等に用いられている。消防システ
ムにおけるシステム構成例を第3図に示す。図において
、11と12はホットスタンバイ形式の入出力通信制御
装置#0と#1.13は電子交換機、14はホストコン
ピュータ、15は情報表示盤、16は指令台群、17は
電話局群、18は消防センターシステムを示す。
Hot standby type input/output communication control devices are used as connection interfaces between electronic exchanges and host computers in firefighting systems. Figure 3 shows an example of the system configuration of a firefighting system. In the figure, 11 and 12 are hot standby type input/output communication control devices #0 and #1, 13 is an electronic exchange, 14 is a host computer, 15 is an information display panel, 16 is a command console group, 17 is a telephone office group, 18 indicates a firefighting center system.

電話局群17には加入者電話機群や管轄下の消防署群が
収容されており、消防センターシステム18には火災情
報の受付処理を行う指令台群16と、火災情報の集中表
示を行う情報表示盤15と、これらの装置を集中処理す
るホストコンピュータ14を備え、電子交換機13によ
り受付けた管内の火災情報を指令台群16に中継すると
共に、入出力通信制御装置11又は12を経てホストコ
ンピュータ14と情報表示盤15とに接続する。指令台
群16はホストコンピュータ13にも接続され、入出力
通信制御装置を経て情報表示盤15に加入者からの受付
情報や消防署への指令情報を入力する。
The telephone station group 17 houses a group of subscriber telephones and a group of fire stations under its jurisdiction, and the fire center system 18 includes a command desk group 16 that receives and processes fire information, and an information display that centrally displays fire information. It is equipped with a panel 15 and a host computer 14 that centrally processes these devices, and relays the fire information in the area received by the electronic exchange 13 to the command console group 16, and also relays it to the host computer 14 via the input/output communication control device 11 or 12. and the information display panel 15. The command console group 16 is also connected to the host computer 13, and inputs reception information from subscribers and command information to the fire department to the information display panel 15 via an input/output communication control device.

上記システムにおいて、入出力通信制御装置11と12
とはホットスタンバイ形式になっており、主系装置が障
害の場合は直ちに従系装置に切替えられるように、主系
装置から従系装置に通信回線により常時最新情報を送っ
ている。
In the above system, input/output communication control devices 11 and 12
It is a hot standby system, in which the main system constantly sends the latest information to the slave system via a communication line so that the system can be immediately switched to the slave system in the event of a failure in the main system.

〔従来の技術] 従来のホットスタンバイ形式の入出力通信制御装置の二
重化切替方法を第4図に示す。図は電子交換機と入出力
通信制御装置との接続部分を示し他の接続装置は省略す
る。
[Prior Art] FIG. 4 shows a conventional redundancy switching method for a hot standby type input/output communication control device. The figure shows the connecting portion between the electronic exchange and the input/output communication control device, and other connecting devices are omitted.

図において、21は入出力通信制御装置#0.22は入
出力通信制御装置#1.23は電子交換機、24は入出
力通信制御装置#0と#1との間の通信路、25は入出
力通信制御装置#0と電子交換機との間の通信路、26
は入出力通信制御装置#1と電子交換機との間の通信路
を示す。
In the figure, 21 is an input/output communication control device #0.22 is an input/output communication control device #1.23 is an electronic exchange, 24 is a communication path between input/output communication control devices #0 and #1, and 25 is an input/output communication control device. Communication path between output communication control device #0 and electronic exchange, 26
indicates a communication path between the input/output communication control device #1 and the electronic exchange.

このシステムは、電子交換機とその他の機器とを接続す
るための中継装置であり、二重化構成のホットスタンバ
イ形式を行っており、片方の#0装置は主系(電子交換
機とデータ通信を行う)運転を行い、一方の#1装置は
従系(スタンバイ)運転を行っている。電子交換機との
間には各装置毎にデータ回線25と26とを持っている
が、通常は主系運転を行っている装置#0との間の通信
路25によりデータ通信を行っている。主系の#0装置
と従系の#1装置との間の通信路24により、主系の#
0装置から従系の#1装置に対して絶えず最新の情報を
送り、主系装置の障害の場合は直ちに従系の装置に切替
えられるように設定しである。
This system is a relay device that connects the electronic exchange and other equipment, and has a redundant hot standby configuration, with one #0 device operating as the main system (carrying out data communication with the electronic exchange). The #1 device is in slave (standby) operation. Each device has data lines 25 and 26 between it and the electronic exchange, but data communication is normally performed through the communication path 25 with device #0 which is in main operation. The communication path 24 between the #0 device of the main system and the #1 device of the slave system allows the #0 device of the main system to
The settings are such that the latest information is constantly sent from the #0 device to the #1 slave device, and in the event of a failure in the master device, it can be immediately switched to the slave #1 device.

〔発明が解決しようとする課題〕[Problem to be solved by the invention]

従来のホットスタンバイ形式の二重化切替方法では、主
系装置の障害の場合は直ちにスタンバイしている従系装
置に切替えることは可能であるが、主系装置と電子交換
機との間の通信路が障害になった場合は、主系装置の通
信路の障害情報が従系装置へ伝達されず、保守者から通
信路の障害が発見されるまで従系装置への切替えが行わ
れず、その間データ通信が出来なくなるという問題があ
った。
In the conventional hot standby type redundancy switching method, in the event of a failure in the main system, it is possible to immediately switch to the standby slave system, but the communication path between the main system and the electronic exchange may fail. In this case, failure information on the communication path of the main device is not transmitted to the slave device, and switching to the slave device is not performed until the failure in the communication path is discovered by maintenance personnel, and data communication is interrupted during that time. The problem was that it wouldn't work.

本発明では、従来通り主系と従系との間の系間通信を行
い、主系自身の装置異常時は直ちに従系に2重化切替え
を行うと共に、主系装置のデータ通信回線に障害があっ
た場合は、電子交換機からの従系運転を行っている装置
に対する切替要求により、直ちに従系装置に2重化切替
えが行われるようにすることを目的とする。
In the present invention, communication between the main system and the slave system is performed as before, and if the main system's own equipment malfunctions, redundancy is immediately switched to the slave system, and the data communication line of the main system is interrupted. The purpose of this system is to enable duplex switching to be performed immediately on a slave device in response to a switching request from the electronic exchange to the device performing slave operation.

〔課題を解決するための手段] 本発明のホットスタンバイ形式の二重化切替方法の原理
構成図を第1図に示す。図において、1は主系の第1の
入出力通信制御装置、2は従系の第2の入出力通信制御
装置、3は電子交換機、4は主系装置と従系装置との間
の通信路、5は主系装置と電子交換機間の通信路、6は
従系装置と電子交換機間の通信路を示す。
[Means for Solving the Problems] FIG. 1 shows a basic configuration diagram of the hot standby type duplex switching method of the present invention. In the figure, 1 is the first input/output communication control device of the main system, 2 is the second input/output communication control device of the slave system, 3 is an electronic exchange, and 4 is communication between the main system device and the slave system. 5 is a communication path between the main device and the electronic exchange, and 6 is a communication path between the slave device and the electronic exchange.

電子交換機とホストコンピュータ及び情報表示盤とを接
続するホットスタンバイ形式の入出力通信制御装置にお
いて、 従系運転の第2の入出力通信制御装置2に電子交換機3
からの系切替要求受付手段と主系装置1への停止命令中
継手段を設け、主系運転の第1の入出力通信制御装置l
に従系装置2からの停止命令受付手段と主系装置1の停
止手段を設け、主系運転の第1の入出力通信制御装置1
と電子交換機3との間のデータ通信路5が障害の場合、
従系運転の第2の入出力通信制御装置2はデータ通信路
6により電子交換機3からの系切替要求を受付け、デー
タ通信路4により主系運転の第1の入出力通信制御装置
lに対して停止命令を送出し、主系運転の第1の入出力
通信制御装置1を停止すると共に、従系運転の第2の入
出力通信制御装置2が主系としてデータ通信路6により
電子交換機3との間のデータ通信を行うように構成する
In a hot standby type input/output communication control device that connects an electronic exchange, a host computer, and an information display panel, the electronic exchange 3 is connected to the second input/output communication control device 2 in slave operation.
The first input/output communication control device l for main system operation is provided with means for accepting a system switching request from the main system device 1 and a means for relaying a stop command to the main system device 1.
A means for receiving a stop command from the slave device 2 and a means for stopping the main device 1 are provided, and the first input/output communication control device 1 for main operation is provided.
If there is a failure in the data communication path 5 between the and the electronic exchange 3,
The second input/output communication control device 2 in slave system operation receives a system switching request from the electronic exchange 3 through the data communication path 6, and sends the request to the first input/output communication control device l in main system operation through the data communication path 4. sends a stop command to stop the first input/output communication control device 1 in main operation, and at the same time, the second input/output communication control device 2 in slave operation is connected to the electronic exchange 3 via the data communication path 6 as the main system. Configure it to perform data communication with.

〔作用〕[Effect]

本発明のフローチャート第2図により、二重化切替方法
を説明する。
The duplex switching method will be explained with reference to the flowchart in FIG. 2 of the present invention.

■ 主系運転を行っている第1の入出力通信制御装置1
と電子交換機3との間でデータ通信路5によりデータ通
信を行っている。
■ First input/output communication control device 1 performing main system operation
Data communication is carried out between the electronic exchange 3 and the data communication path 5.

■ 主系運転を行っている第1の入出力通信制御装置工
よりスタンバイの第2の入出力通信制御装置2に対して
は、データ通信路4により■の最新情報を送っている。
(2) The latest information (2) is sent from the first input/output communication control device engineer in main operation to the second input/output communication control device 2 in standby mode via the data communication path 4.

■ 第1の入出力通信制御装置1と電子交換機3との間
のデータ通信路5に障害が発生した場合、電文が届かな
いため電子交換機3で通信路5の障害を認識する。
(2) If a failure occurs in the data communication path 5 between the first input/output communication control device 1 and the electronic exchange 3, the electronic exchange 3 recognizes the failure in the communication path 5 because the message does not arrive.

■ 電子交換機3より従系運転を行っている第2の入出
力通信制御装置2に対して、データ通信路6により系切
替要求を行う。
(2) A system switching request is made from the electronic exchange 3 to the second input/output communication control device 2 which is performing slave operation through the data communication path 6.

■ 第2の入出力通信制御装置2は系切替要求受付手段
により電子交換機3からの系切替要求を受付け、停止命
令中継手段によりデータ通信路4より第1の入出力通信
制御装置1に対して停止命令を中継する。
■ The second input/output communication control device 2 receives a system switching request from the electronic exchange 3 using the system switching request receiving means, and sends the system switching request to the first input/output communication control device 1 via the data communication path 4 using the stop command relaying means. Relay the stop command.

■ 第1の入出力通信制御装置1は停止命令受付手段に
より停止命令を受付け、停止手段により自装置の運転を
停止する。
(2) The first input/output communication control device 1 receives a stop command by the stop command receiving means, and stops the operation of the first input/output communication control device 1 by the stop means.

■ 第2の入出力通信制御装置2は主系として運転を始
め、電子交換機3とデータ通信路5によりデータ通信が
可能となる。
(2) The second input/output communication control device 2 starts operating as the main system, and data communication becomes possible through the electronic exchange 3 and the data communication path 5.

〔実施例〕〔Example〕

本発明の実施例を第3図の消防システム構成例で説明す
る。図において、11と12はホットスタンバイ形式の
入出力通信制御装置#0と#1.13は電子交換機、1
4はホストコンピュータ、15は情報表示盤、16は指
令台群、17は電話局群、18は消防センターシステム
を示す。
An embodiment of the present invention will be described using an example of the configuration of a firefighting system shown in FIG. In the figure, 11 and 12 are hot standby type input/output communication control devices #0 and #1.13 is an electronic exchange;
4 is a host computer, 15 is an information display panel, 16 is a command console group, 17 is a telephone office group, and 18 is a firefighting center system.

入出力通信制御装置#Oと#lのインターフェイス機能
は次の通りである。
The interface functions of the input/output communication control devices #O and #l are as follows.

(1)電子交換機13とホストコンピュータ14との間
の電文の変換を行う。
(1) Conversion of messages between the electronic exchange 13 and the host computer 14 is performed.

(2)電子交換機13と情報表示盤15との間の電文の
変換を行う。
(2) Conversion of messages between the electronic exchange 13 and the information display panel 15 is performed.

(3)電子交換機13やホストコンピュータ14の消防
情報を情報表示盤15に中継表示する。
(3) Firefighting information from the electronic exchange 13 and host computer 14 is relayed and displayed on the information display panel 15.

(4)電子交換機13の最新情報を主系装置11から従
系装置12に伝達する。
(4) The latest information of the electronic exchange 13 is transmitted from the main system device 11 to the slave system device 12.

また電子交換@13より入出力通信制御装置11に送ら
れる電文の内容は、火災情報の受付時間、受付順序番号
、切断保留等の機能情報、電話回線香号等で、1電文約
50バイトからなり、受付毎にこれらの電文が連続して
、情報表示盤15及びホストコンピュータ14に送られ
る。情報表示盤15には電子交換機13からの電文やホ
ストコンピュータ14からの指令台情報が中継表示され
、管内の火災状況を電光地図面に集中表示する。
The contents of the message sent from the electronic exchange @ 13 to the input/output communication control device 11 include fire information reception time, reception order number, functional information such as disconnection pending, telephone line code, etc., and each message starts from about 50 bytes. These messages are successively sent to the information display panel 15 and the host computer 14 for each reception. The information display panel 15 relays and displays telegrams from the electronic exchange 13 and command board information from the host computer 14, and centrally displays the fire situation in the area on an electronic map screen.

上記システムにおいて、主系装置11が障害の場合はス
タンバイの従系装置12に切替情報が送られ従系装置1
2が主系装置としてデータ通信を行う。
In the above system, if the main device 11 has a failure, switching information is sent to the standby slave device 12.
2 performs data communication as the main system device.

最新の電文情報は主系装置11から送られているので二
重化切替えが可能である。
Since the latest message information is sent from the main system device 11, duplex switching is possible.

また、電子交換機13から主系装置11へのデータ通信
路が障害の場合は、電文が主系装置11に届かないこと
を電子交換機13で認識し、従系装置12に対して系切
替要求を送出し、主系装置11を停止して従系装置12
に切替え、従系装置12を主系としてデータ通信を行う
ことができる。
In addition, if there is a failure in the data communication path from the electronic exchange 13 to the master device 11, the electronic exchange 13 recognizes that the message cannot reach the master device 11 and sends a system switch request to the slave device 12. send, stop the main device 11, and send it to the slave device 12.
, data communication can be performed using the slave device 12 as the main system.

以上の動作は、従系装置12が主系となり、主系装置1
1のデータ通信路が復旧してスタンバイ装置となった場
合でも、同様に主系装置側の回線状況を監視してスタン
バイを行うことが可能である。
In the above operation, the slave device 12 becomes the main system, and the main system device 1
Even if the first data communication path is restored and the device becomes a standby device, it is possible to similarly monitor the line status on the main device side and perform standby.

〔発明の効果〕〔Effect of the invention〕

二重化切替えを、相手装置の障害の場合だけでなく、回
線障害を検出した場合も行うことにより、よりシステム
の安全性の高い切替えを行うことができる。
By performing duplex switching not only when a failure occurs in the other device, but also when a line failure is detected, it is possible to perform switching with higher system safety.

【図面の簡単な説明】[Brief explanation of drawings]

第1図は本発明の原理構成図、第2図は本発明のフロー
チャート、第3図は消防システムのシステム構成側図、
第4図は従来例の接続構成図を示す。 図において、1.11.21. 2.12.22はホッ
トスタンバイ形式の入出力通信制御装置、3,13゜2
3は電子交換機、4. 5. 6.24.25.26は
データ通信路、14はホストコンピュータ、15は情報
表示盤、16は指令台群、17は電話局群、18は消防
センターシステムを示す、なお■〜■はフローチャート
の動作順序を示す。 本発明の原理構成図 第1図 本発明のフローチャート 第2図
Fig. 1 is a principle configuration diagram of the present invention, Fig. 2 is a flowchart of the present invention, Fig. 3 is a side view of the system configuration of the firefighting system,
FIG. 4 shows a connection configuration diagram of a conventional example. In the figure, 1.11.21. 2.12.22 is a hot standby type input/output communication control device, 3,13゜2
3 is an electronic exchange; 4. 5. 6.24.25.26 are data communication channels, 14 is a host computer, 15 is an information display panel, 16 is a command center group, 17 is a telephone station group, and 18 is a firefighting center system. Indicates the order of operation. Principle configuration diagram of the present invention Figure 1 Flowchart of the present invention Figure 2

Claims (1)

【特許請求の範囲】 主系、従系に二重化された電子交換機とホストコンピュ
ータとの通信を制御する入出力制御装置において、 従系運転の第2の入出力通信制御装置(2)に電子交換
機(3)からの系切替要求受付手段と主系装置への停止
命令中継手段とを設け、主系運転の第1の入出力通信制
御装置(1)に従系装置からの停止命令受付手段と主系
装置の停止手段とを設け、主系運転の第1の入出力通信
制御装置(1)と電子交換機(3)との間のデータ通信
路(5)が障害の場合、従系運転の第2の入出力通信制
御装置(2)は電子交換機(3)からの系切替要求を受
付け、主系運転の第1の入出力通信制御装置(1)に対
して通信路(4)により停止命令を送出し、主系運転の
第1の入出力通信制御装置(1)を停止すると共に、従
系運転の第2の入出力通信制御装置(2)が主系として
データ通信路(6)により電子交換機(3)との間のデ
ータ通信を行うことを特徴とするホットスタンバイ形式
の二重化切替方法。
[Scope of Claims] In an input/output control device that controls communication between an electronic exchange duplexed into a main system and a slave system and a host computer, the second input/output communication control device (2) in slave system operation includes an electronic exchange. (3) A means for accepting a system switching request from the slave device and a means for relaying a stop command to the main system device are provided. If there is a failure in the data communication path (5) between the first input/output communication control device (1) of the main system operation and the electronic exchange (3), the system is equipped with means for stopping the main system operation. The second input/output communication control device (2) receives a system switching request from the electronic exchange (3), and stops the first input/output communication control device (1) in main operation via the communication path (4). The command is sent to stop the first input/output communication control device (1) in the main operation, and the second input/output communication control device (2) in the slave operation starts the data communication path (6) as the main system. A hot standby type duplex switching method characterized by performing data communication with an electronic exchange (3).
JP1239051A 1989-09-14 1989-09-14 Duplicate switching method of hot standby system Pending JPH03101553A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP1239051A JPH03101553A (en) 1989-09-14 1989-09-14 Duplicate switching method of hot standby system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP1239051A JPH03101553A (en) 1989-09-14 1989-09-14 Duplicate switching method of hot standby system

Publications (1)

Publication Number Publication Date
JPH03101553A true JPH03101553A (en) 1991-04-26

Family

ID=17039143

Family Applications (1)

Application Number Title Priority Date Filing Date
JP1239051A Pending JPH03101553A (en) 1989-09-14 1989-09-14 Duplicate switching method of hot standby system

Country Status (1)

Country Link
JP (1) JPH03101553A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2018041414A (en) * 2016-09-09 2018-03-15 富士通株式会社 Access controller, access control method, and access control program

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2018041414A (en) * 2016-09-09 2018-03-15 富士通株式会社 Access controller, access control method, and access control program

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