3com S7906E Installation Instruction

 

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NTP supports access control and MD5 authentication. 

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NTP can unicast, multicast or broadcast protocol messages. 

 shows the basic workflow of NTP. Device A and Device B are interconnected over a network. 

They have their own independent system clocks, which need to be automatically synchronized through 

NTP. For an easy understanding, we assume that: 

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Prior to system clock synchronization between Device A and Device B, the clock of Device A is set 

to 10:00:00 am while that of Device B is set to 11:00:00 am. 

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Device B is used as the NTP time server, namely, Device A synchronizes its clock to that of Device 

B. 

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It takes 1 second for an NTP message to travel from one device to the other. 

Figure 1-1 Basic work flow of NTP 

IP network

IP network

IP network

IP network

Device B

Device A

Device B

Device A

Device B

Device A

Device B

Device A

10:00:00 am

11:00:01 am

10:00:00 am

NTP message

10:00:00 am

11:00:01 am

11:00:02 am

NTP message

NTP message

NTP message received at 10:00:03 am

 

 

The process of system clock synchronization is as follows: 

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Device A sends Device B an NTP message, which is timestamped when it leaves Device A. The 

time stamp is 10:00:00 am (T1). 

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When this NTP message arrives at Device B, it is timestamped by Device B. The timestamp is 

11:00:01 am (T2). 

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When the NTP message leaves Device B, Device B timestamps it. The timestamp is 11:00:02 am 

(T3). 

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When Device A receives the NTP message, the local time of Device A is 10:00:03 am (T4). 

Up to now, Device A has sufficient information to calculate the following two important parameters: 

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The roundtrip delay of NTP message: Delay = (T4–T1) – (T3-T2) = 2 seconds. 

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Time difference between Device A and Device B: Offset = ((T2-T1) + (T3-T4))/2 = 1 hour. 

Based on these parameters, Device A can synchronize its own clock to the clock of Device B.