NTP is an internet protocol that’s used to synchronise the clocks on computer networks to within a few milliseconds of universal coordinated time (UTC). It enables devices to request and receive UTC from a server that, in turn, receives precise time from an atomic clock.
The ‘WannaCry’ malware/ransomware/virus has infected an estimated 200,000 computers across 150 countries, raising concerns that it could affect Galleon NTP servers. Your time server is safe, here’s why…
Network Time Protocol … You care about it because it keeps your clocks synchronised. But lately, new internet Network Time Protocol attacks continue to expose its weaknesses. Does it worry you? If not, it should. Now’s the time to learn how to future proof your business against such threats.
Schools are increasingly being targeted by DDoS attacks [Distributed Denial of Service] to the point where access to the internet or computer resources is completely restricted.
How can schools combat this growing problem? A network time server could help to ease attacks.
Ever wondered what the difference is between NTP and SNTP? Want to know why you should choose one over the other? You’ll find the answers to these, and other questions, right here.
NTP time server specialists, Galleon, answers what is NTP? Highlighting the benefits of NTP servers for businesses.
What Is NTP?
In simple terms NTP, or Network Time Protocol, is a system used to synchronise the time of day across computer networks. Originally developed by David L. Mills of the University of Delaware, NTP works by using a single time source, enabling it to synchronise time across all devices that are part of a network.
Did you know? NTP was first implemented in 1985. However, some of its predecessors date back as far as 1979.
Maintaining accurate and synchronised time has never been so important for businesses and organisations. In today’s world, where so many transactions take place online, having a synchronised and accurate network time is crucial for businesses, especially those organisations that conduct their business over the internet or with other computer networks.
The accuracy of modern Olympic timing is made possible with the use of high quality timing devices, accurate synchronisation and atomic timing. Regular quartz oscillators are fairly accurate, but they still drift, which means without regular synchronisation, their accuracy would falter UY98UZDDVGGJ . To ensure all timing devices can achieve millisecond accuracy and precise synchronisation with one another, all Olympic timing devices are synchronised with GPS atomic clocks several times a day.
A GPS time server is ideal for preventing costly leap seconds that interrupt businesses that operate on a global timescale.