Post by account_disabled on Sept 12, 2023 11:13:53 GMT
It is difficult to find a technology as useful, successful, and ultimately influential as Ethernet. The journey of Ethernet, which recently celebrated its 50th anniversary, is not over yet.
Since its invention by Bob Metcalf and David Box in 1973, Ethernet Phone Number List has continued to expand and adapt. It has now become a layer 2 protocol trusted and used in computer networking across all industries.
The most exciting thing about Ethernet is its ubiquity,” said Andreas Bechtolsheim, co-founder of Sun Microsystems and Arista Networks and current chairman and chief development officer of Arista. It has been used literally everywhere, including under the sea and in space. Ethernet is still expanding with new physical layers, such as high-speed Ethernet for in-vehicle cameras. “The biggest impact of Ethernet today is inside large cloud data centers, including the rapidly growing number of interconnected AI/ML clusters.”
Wide range of Ethernet applications
Flexibility and adaptability are important characteristics of Ethernet technology. It is the basic answer to all communication networks, whether connected devices or computers. This means that in almost all cases there is no need to create a separate network.
“When the coronavirus outbreak broke out, Ethernet was an important part of how companies responded,” said Michael Holmberg, systems engineer at Extreme Networks. “If you look back at the sudden shift to remote work due to the global coronavirus outbreak, Ethernet’s “The most innovative application has been its role in enabling distributed workplace environments.”
At the time, as companies transitioned to remote work, communication service providers had to increase bandwidth. “This demand has been fueled by corporate employees working remotely, students switching to online classes, and even increased online gaming due to mandated social distancing,” Holmberg said. “Essentially, Ethernet, the underlying technology behind the Internet, has enabled people to efficiently perform a variety of tasks from the comfort of their own homes.”
These advancements and Ethernet's vast ecosystem have led to unique applications ranging from the International Space Station (ISS) to the latest F-35 fighter jet, Abrams tanks, and ocean research. “Ethernet has been used in space exploration for more than 20 years, including on space stations, satellites, and Mars missions,” said Peter Jones, chairman of the Ethernet Alliance and engineer at Cisco. “Ethernet enables telemetry and control devices inside vehicles and devices such as satellites and unmanned rovers. “It enables continuous connectivity between mission-critical subsystems, such as cameras, sensors, etc. Additionally, Ethernet is a key part of two-way communication between the ground and space,” he said. “Ethernet is an alternative to the older Controller Area Network (CAN) protocol or local interconnection.
” Its functionality was superior to that of the connection network (LIN) protocol. Thanks to this, it has become the basis of in-vehicle networks, including cars and drones, as well as unmanned aerial vehicles (UAVs) and unmanned underwater vehicles (UUVs) that can monitor the surrounding environment such as atmospheric conditions, currents, and temperature, as well as next-generation autonomous surveillance and security systems. “It relies on Ethernet,” he added.
The evolution of Ethernet continues
Currently, the IEEE P802.3dj dedicated organization is developing the next-generation Ethernet electro-optical signal system. According to John D'Ambrosia, who leads the organization, the future value of Ethernet can be seen just by looking at the amount of high-skilled personnel working full-time to improve Ethernet capabilities. “It’s very interesting to see how Ethernet is evolving and how the entire industry is working to solve problems around Ethernet,” said D’Ambrosia. “This collaboration across the industry has been going on for a long time and will only get stronger over time.” The
biggest concern about Ethernet is how fast the top speed will become, but the relatively slow speeds of 2.5 Gbps, 5 Gbps, and 25 Gbps Ethernet Efforts to develop and improve are continuing, which is why a large market has been created in this area, according to Sameh Buselbene, VP of market research for data center and campus Ethernet switches at
Dell'Oro Group. Nine billion Ethernet switch ports are produced each year, with a market value of more than $450 billion. “Ethernet has connected things and devices across a variety of industries,” Buselbene said. “More importantly, it has played a central role in connecting people around the world.” “It has been carried out he said.
Since its invention by Bob Metcalf and David Box in 1973, Ethernet Phone Number List has continued to expand and adapt. It has now become a layer 2 protocol trusted and used in computer networking across all industries.
The most exciting thing about Ethernet is its ubiquity,” said Andreas Bechtolsheim, co-founder of Sun Microsystems and Arista Networks and current chairman and chief development officer of Arista. It has been used literally everywhere, including under the sea and in space. Ethernet is still expanding with new physical layers, such as high-speed Ethernet for in-vehicle cameras. “The biggest impact of Ethernet today is inside large cloud data centers, including the rapidly growing number of interconnected AI/ML clusters.”
Wide range of Ethernet applications
Flexibility and adaptability are important characteristics of Ethernet technology. It is the basic answer to all communication networks, whether connected devices or computers. This means that in almost all cases there is no need to create a separate network.
“When the coronavirus outbreak broke out, Ethernet was an important part of how companies responded,” said Michael Holmberg, systems engineer at Extreme Networks. “If you look back at the sudden shift to remote work due to the global coronavirus outbreak, Ethernet’s “The most innovative application has been its role in enabling distributed workplace environments.”
At the time, as companies transitioned to remote work, communication service providers had to increase bandwidth. “This demand has been fueled by corporate employees working remotely, students switching to online classes, and even increased online gaming due to mandated social distancing,” Holmberg said. “Essentially, Ethernet, the underlying technology behind the Internet, has enabled people to efficiently perform a variety of tasks from the comfort of their own homes.”
These advancements and Ethernet's vast ecosystem have led to unique applications ranging from the International Space Station (ISS) to the latest F-35 fighter jet, Abrams tanks, and ocean research. “Ethernet has been used in space exploration for more than 20 years, including on space stations, satellites, and Mars missions,” said Peter Jones, chairman of the Ethernet Alliance and engineer at Cisco. “Ethernet enables telemetry and control devices inside vehicles and devices such as satellites and unmanned rovers. “It enables continuous connectivity between mission-critical subsystems, such as cameras, sensors, etc. Additionally, Ethernet is a key part of two-way communication between the ground and space,” he said. “Ethernet is an alternative to the older Controller Area Network (CAN) protocol or local interconnection.
” Its functionality was superior to that of the connection network (LIN) protocol. Thanks to this, it has become the basis of in-vehicle networks, including cars and drones, as well as unmanned aerial vehicles (UAVs) and unmanned underwater vehicles (UUVs) that can monitor the surrounding environment such as atmospheric conditions, currents, and temperature, as well as next-generation autonomous surveillance and security systems. “It relies on Ethernet,” he added.
The evolution of Ethernet continues
Currently, the IEEE P802.3dj dedicated organization is developing the next-generation Ethernet electro-optical signal system. According to John D'Ambrosia, who leads the organization, the future value of Ethernet can be seen just by looking at the amount of high-skilled personnel working full-time to improve Ethernet capabilities. “It’s very interesting to see how Ethernet is evolving and how the entire industry is working to solve problems around Ethernet,” said D’Ambrosia. “This collaboration across the industry has been going on for a long time and will only get stronger over time.” The
biggest concern about Ethernet is how fast the top speed will become, but the relatively slow speeds of 2.5 Gbps, 5 Gbps, and 25 Gbps Ethernet Efforts to develop and improve are continuing, which is why a large market has been created in this area, according to Sameh Buselbene, VP of market research for data center and campus Ethernet switches at
Dell'Oro Group. Nine billion Ethernet switch ports are produced each year, with a market value of more than $450 billion. “Ethernet has connected things and devices across a variety of industries,” Buselbene said. “More importantly, it has played a central role in connecting people around the world.” “It has been carried out he said.