![]() ![]() Small operations may meet their network needs and benefit from the less expensive Fast Ethernet improvement. Users and organizations should evaluate which Ethernet data protocol is beneficial for their operation. Choosing Between Fast Ethernet and Gigabit Ethernet Gigabit Ethernet applications include gigabit switches that can manage data transfer between multiple IP security cameras and network appliances, and gigabit switches that support video and other high-quality signal transfer between home servers and high-definition televisions and monitors. Gigabit Ethernet can meet increasingly complex network demands such as connecting multiple bandwidth-intensive devices and broadband internet connections for video streaming. In comparison, a Gigabit Ethernet switch can transfer data packets at around 100 times faster than a Fast Ethernet switch. A Gigabit Ethernet switch transfers data packets at relatively higher speeds of one gigabit per second. A Fast Ethernet switch can transfer data packets at a rate of 10 megabits per second. ![]() Gigabit Ethernet network appliances and devices can transfer data packets at rates much faster than Fast Ethernet. Standard IEEE 802.3ah certified additional 1000 Base T network protocols, specifically 1000 Base LX Base BX10 for multi-mode fiber and fiber optic transmissions, respectively. The IEEE 802.3ab standard certified Gigabit Ethernet applicability for both industry and desktop users working with the existing Category 5 cables. Standard IEEE 802.3ab defined Gigabit Ethernet’s applicability for 1000 Base T networks and allowed use of existing UTP cabling. Gigabit Ethernet provided uniform standards for 1000 megabits per second, or 1 gigabit per second, network transmission. Gigabit Ethernet is the latest version of Ethernet standards, initiated in 1999 as IEEE 802.3ab and in 2004 as IEEE 802.3ah. However, the maximum length and effectiveness of UTP cabling is 100 meters and bandwidth can be limited.įiber optic transmission allows for longer distance and greater bandwidth capacity over UTP cabling, permitting Fast Ethernet network appliances and devices to deliver at full potential. It is designed for 100 Base T networks and is also compatible with 10 Base T networks, allowing users to benefit from faster Ethernet speeds (with the use of compatible switches) without having to completely upgrade their network systems.įast Ethernet transmission is at least 10 times faster than standard Ethernet and proves to be useful in maintaining compatible connections to high-speed servers, reducing bandwidth bottlenecks for network systems operating multiple IP video cameras and IoT, and seamlessly supporting complex networks that run multiple bandwidth-intensive software packages at the same time.įast Ethernet appliances and devices can run on unshielded twisted pair (UTP) cabling such as Category 5 and higher rated cables. ![]() Fast Ethernet provided uniform operability for data transmission at over 100 megabits per second. Fast Ethernet focused on increased network and network appliance speed over standard Ethernet and Ethernet devices. Standard Ethernet speeds averaged at about 10 megabits per second and reached higher speeds of about 15 megabits per second.įast Ethernet is a version of Ethernet standards, initiated in 1995 as IEEE 802.3u. Fast EthernetĮthernet was standardized in the mid-80s as IEEE 802.3 and continues to develop and improve with dependability and speed. In this piece, we’ll explain how the two are different and what you need to consider when selecting an Ethernet data protocol. Specifically, the demands for higher bandwidth capacity for high-quality video transmission and uninterrupted video streaming brought upon the development of Fast Ethernet and Gigabit Ethernet. Ethernet functions in a wired or wireless network, including wide area networks (WAN) and local area networks (LAN).Īdvancement in Ethernet technology resulted from various network needs such as system application to both large and small platforms, security issues, network dependability, and bandwidth requirements. Ethernet is a network communication protocol designed to link network appliances, switches, and routers. ![]()
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