3com DUA1750-2BAA01 Manual De Usuario

3Com Switch 8800 Configuration Guide 

Chapter 49  NTP Configuration

 

49-2 

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Before synchronizing the system clocks on Ethernet Switch A and B, the clock on 

Ethernet Switch A is set to 10:00:00am, and that on B is set to 11:00:00am. 

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Ethernet Switch B serves as an NTP time server. That is, Ethernet Switch A 

synchronizes the local clock with the clock of B. 

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It takes 1 second to transmit a data packet from either A or B to the opposite end. 

The system clocks are synchronized as follows: 

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Ethernet Switch A sends an NTP packet to Ethernet Switch B. The packet carries 

the timestamp 10:00:00am (T

1

) that tells when it left Ethernet Switch A. 

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When the NTP packet arrives at Ethernet Switch B, Ethernet Switch B adds a local 

timestamp 11:00:01am (T

2

) to it. 

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When the NTP packet leaves Ethernet Switch B, Ethernet Switch B adds another 

local timestamp 11:00:02am (T

3

) to it. 

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When Ethernet Switch A receives the acknowledgement packet, it adds a new 

timestamp 10:00:03am (T

4

) to it. 

Now Ethernet Switch A collects enough information to calculate the following two 

important parameters: 

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The delay for a round trip of an NTP packet traveling between the Switch A and B: 

Delay= (T

4

-T

1

) - (T

3

-T

2

).  

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Offset of Ethernet Switch A clock relative to Ethernet Switch B clock: offset= 

( (T

2

-T

1

) + (T

4

-T

3

) ) /2.  

In this way, Ethernet Switch A uses the above information to set the local clock and 

synchronize it with the clock on Ethernet Switch B.  

The operating principle of NTP is briefly introduced above. For details, refer to 

RFC1305.  

NTP is used for time synchronization throughout a network. The following sections 

describe the NTP configuration tasks. 

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You can set the NTP operating mode of an Ethernet Switch according to its location in 

the network and the network structure. For example, you can set a remote server as the