Reference Guide

System Time and Date
System time and date settings are user-configurable and maintained through the network time protocol (NTP).
System times and dates are also set in hardware settings using the Dell Networking OS CLI.
Topics:
Network Time Protocol
Time and Date
Network Time Protocol
The network time protocol (NTP) synchronizes timekeeping among a set of distributed time servers and clients.
The protocol also coordinates time distribution in a large, diverse network with various interfaces. In NTP, servers maintain the
time and NTP clients synchronize with a time-serving host. NTP clients choose from among several NTP servers to determine
which offers the best available source of time and the most reliable transmission of information.
NTP is a fault-tolerant protocol that automatically selects the best of several available time sources to synchronize to. You can
combine multiple candidates to minimize the accumulated error. Temporarily or permanently insane time sources are detected
and avoided.
Dell Networking recommends configuring NTP for the most accurate time. Using the CLI, you can configure other time sources
(the hardware clock and the software clock).
NTP is designed to produce three products: clock offset, roundtrip delay, and dispersion, all of which are relative to a selected
reference clock.
Clock offset represents the amount to adjust the local clock to bring it into correspondence with the reference clock.
Roundtrip delay provides the capability to launch a message to arrive at the reference clock at a specified time.
Dispersion represents the maximum error of the local clock relative to the reference clock.
Because most host time servers synchronize via another peer time server, there are two components in each of these three
products, those determined by the peer relative to the primary reference source of standard time and those measured by the
host relative to the peer.
In order to facilitate error control and management of the subnet itself, each of these components is maintained separately in
the protocol. They provide not only precision measurements of offset and delay, but also definitive maximum error bounds, so
that the user interface can determine not only the time, but the quality of the time as well.
In what may be the most common client/server model, a client sends an NTP message to one or more servers and processes
the replies as received. The server interchanges addresses and ports, overwrites certain fields in the message, recalculates the
checksum and returns the message immediately. Information included in the NTP message allows the client to determine the
server time regarding local time and adjust the local clock accordingly. In addition, the message includes information to calculate
the expected timekeeping accuracy and reliability, as well as select the best from possibly several servers.
Following conventions established by the telephone industry [BEL86], the accuracy of each server is defined by a number called
the stratum, with the topmost level (primary servers) assigned as one and each level downwards (secondary servers) in the
hierarchy assigned as one greater than the preceding level.
The system synchronizes with a time-serving host to get the correct time. You can set the system to poll specific NTP time-
serving hosts for the current time. From those time-serving hosts, the system chooses one NTP host with which to synchronize
and serve as a client to the NTP host. As soon as a host-client relationship is established, the networking device propagates the
time information throughout its local network.
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