The Internet Protocol (IP) is the primary technology that enables data to be sent over the Internet. Historically, two versions of IP have been used, IPv4 and IPv6. Here we will explain the differences between IPv4 and IPv6 to help you understand which version is best suited for your needs.
IPv4
IPv4 (also known as IPv4) is the fourth version of the Internet Protocol that was first introduced in 1981. This version uses a 32-bit address system and can support up to 4.3 billion uniquely identifiable addresses for computers, phones, printers, routers, etc. connected to the internet. This format has been in widespread use since its introduction but demand for additional IP addresses has exceeded the available supply of unique identifiers in recent years leading to a shortage of IPv4 addresses on a global scale.
IPv6
IPv6 (also known as IPng - Next Generation) is the sixth generation of the Internet Protocol, which was devised in 1998 by developers looking for an updated way to accommodate more devices on the internet than was possible with previous versions. This version uses a 128-bit address system and it supports approximately 3x10^38 (3 followed by 38 zeros) uniquely identifiable addresses – allowing it to essentially provide an unlimited amount of IP addresses in principle covering current and future needs anytime soon in foreseeable future of networking all around world wide web.
This technology also provides enhanced security with IPSec encryption being built into every packet transmitted, increasing security features not present in earlier versions. In addition, IPv6 incorporates larger packet headers that enable much faster processing time while transferring files or streaming audio/video due to improved protocols within the code structure designed for enhanced efficiency across multiple platforms such as mobile or desktop devices running different hardware systems.
Besides additional speed due optimization hiding latency issues based on architecture enhancement; IPv6's QoS (Quality Of Service) feature helps prioritize traffic resulting maximum performance at peak times when extra resources are called up from upstream providers whom ever provides connectivity solution between end user networks sharing same common spanning tree link topology . Routing protocols within this newer version has capacity for multiple paths discovery enabling opportunity for advanced deployment strategies for complex network topologies where traffic flow needs are regulated accordingly when desired functionality must be maintained over any unforeseen networking conditions present from infrastructure itself or connection mediums such as cables/fibers/coaxials suffering from impairments due age/weather conditions & etcetera; now well equipped to maintain desired level quality connection across expectations meeting high demand situations without any hiccups keeping load balanced nicely without any overall impact on throughput too under worst case scenarios involving bad routing paths or faulty hardware problems arising hence eliminating possibilities of outages whatsoever at unexpected moments right away due sheer level sheer efficiency & speed found within this protocol streamlining process whereby allowing peace mind no bill shock surprises during peak days!
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