Semester 1 Module 7 Ethernet Technologies

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Presentation transcript:

Semester 1 Module 7 Ethernet Technologies Andres, Wen-Yuan Liao Department of Computer Science and Engineering De Lin Institute of Technology andres@dlit.edu.tw http://www.cse.dlit.edu.tw/~andres

Overview Describe the differences and similarities among 10BASE5, 10BASE2, and 10BASE-T Ethernet Define Manchester encoding List the factors that affect Ethernet timing limits List 10BASE-T wiring parameters Describe the key characteristics and varieties of 100-Mbps Ethernet Describe the evolution of Ethernet Explain the MAC methods, frame formats, and transmission process of Gigabit Ethernet

Describe the uses of specific media and encoding with Gigabit Ethernet Identify the pinouts and wiring typical to the various implementations of Gigabit Ethernet Describe the similarities and differences between Gigabit and 10-Gigabit Ethernet Describe the basic architectural considerations of Gigabit and 10-Gigabit Ethernet

Outline 10-Mbps and 100-Mbps Ethernet Gigabit and 10-Gigabit Ethernet

10-Mbps Ethernet Legacy(傳統) Ethernet : 10BASE5, 10BASE2, and 10BASE-T Ethernet. The four common features of Legacy Ethernet : The same timing parameters. The same frame format. The same transmission process Manchester(曼徹斯特) line encoding Falling edge > bit 0 Raising edge > bit 1

The same basic design rule 5-4-3 rule No more than 5 segments. No more than 4 repeators. No more than 3 populated segments between any two distant stations.

10BASE5 A single thick coaxial cable bus. 10BASE5 is the first medium used for Ethernet. Manchester encoding The primary benefit of 10BASE5 was length. Each of the maximum five segments of thick coax may be up to 500 m (1640.4 ft) in length. The cable is large, heavy, and difficult to install.

10BASE2 Manchester encoding The cable is smaller, lighter, and easier to install than 10BASE5. BNC connectors / T-shaped connector

10BASE-T Manchester encoding Category 3 / Category 5 / Category 5e RJ-45 /Hub

10BASE-T wiring and architecture The most important aspect to consider is how to keep the delay between distant stations to a minimum. 10BASE-T links can have unrepeated distances of up to 100 m (328 ft).

100-Mbps Ethernet Fast Ethernet. 100BASE-TX / 100BASE-FX. 100BASE-TX and 100BASE-FX both share timing parameters.

100BASE-TX 100BASE-TX uses 4B/5B encoding, which is then scrambled and converted to multi-level transmit-3 levels or MLT-3. Rising or falling edges indicate 1s. Any noticeable horizontal line in the signal indicates a 0. 100BASE-TX carries 100 Mbps of traffic in half-duplex mode. In full-duplex mode, 100BASE-TX can exchange 200 Mbps of traffic.

100BASE-FX 100BASE-FX uses 4B/5B encoding and NRZI encoding pinouts A binary 1 is represented by a transition. No transition indicates a binary 0. pinouts

Fast Ethernet architecture A Class I repeater may introduce up to 140 bit-times latency. Any repeater that changes between one Ethernet implementation and another is a Class I repeater. A Class II repeater is restricted to smaller timing delays, 92 bit times, because it immediately repeats the incoming signal to all other ports without a translation process. To achieve a smaller timing delay, Class II repeaters can only connect to segment types that use the same signaling technique.

Outline 10-Mbps and 100-Mbps Ethernet Gigabit and 10-Gigabit Ethernet

1000-Mbps Ethernet These standards specify both fiber and copper media for data transmissions.   The 1000BASE-T standard, IEEE 802.3ab, uses Category 5, or higher, balanced copper cabling. The 1000BASE-X standard, IEEE 802.3z, specifies 1 Gbps full duplex over optical fiber. 1000BASE-TX, 1000BASE-SX, and 1000BASE-LX use the same timing parameters.

At the physical layer, the bit patterns from the MAC layer are converted into symbols. The symbols may also be control information such as start frame, end frame, and idle conditions on a link. The frame is coded into control symbols and data symbols to increase in network throughput. Fiber-based Gigabit Ethernet, or 1000BASE-X, uses 8B/10B encoding, which is similar to the 4B/5B concept.

1000BASE-T Cat 5e cable can reliably carry up to 125 Mbps of traffic. 250 Mbps per pair. 4D-PAM5 line encoding. The information travels simultaneously across the four paths, the circuitry has to divide frames at the transmitter and reassemble them at the receiver.

1000BASE-SX and LX The timing, frame format, and transmission are common to all versions of 1000 Mbps. The Media Access Control method treats the link as point-to-point. The short-wavelength uses an 850 nm laser or LED source in multimode optical fiber (1000BASE-SX). The long-wavelength 1310 nm laser source uses either single-mode or multimode optical fiber (1000BASE-LX).

10-Gigabit Ethernet IEEE 802.3ae was adapted to include 10 Gbps full-duplex transmission over fiber optic cable. With the frame format and other Ethernet Layer 2 specifications compatible with previous standards, 10GbE can provide increased bandwidth needs that are interoperable with existing network infrastructure.

A variety of implementations including: 10GBASE-SR – Intended for short distances over already-installed multimode fiber, supports a range between 26 m to 82 m 10GBASE-LX4 – Uses wavelength division multiplexing (WDM), supports 240 m to 300 m over already-installed multimode fiber and 10 km over single-mode fiber 10GBASE-LR and 10GBASE-ER – Support 10 km and 40 km over single-mode fiber 10GBASE-SW, 10GBASE-LW, and 10GBASE-EW – Known collectively as 10GBASE-W are intended to work with OC-192 synchronous transport module (STM) SONET/SDH WAN equipment.

10-Gbps Ethernet (IEEE 802.3ae) was standardized in June 2002. It is a full-duplex protocol that uses only optic fiber as a transmission medium. When using single-mode fiber as the transmission medium, the maximum transmission distance is 40 kilometers (25 miles). Some discussions between IEEE members have begun that suggest the possibility of standards for 40, 80, and even 100-Gbps Ethernet.

Future of Ethernet Ethernet has gone through an evolution from Legacy → Fast → Gigabit → MultiGigabit technologies. The future of networking media is three-fold: Copper (up to 1000 Mbps, perhaps more) Wireless (approaching 100 Mbps, perhaps more) Optical fiber (currently at 10,000 Mbps and soon to be more) Quality of Service (QoS)

Copper and wireless media have certain physical and practical limitations on the highest frequency signals that can be transmitted. The bandwidth limitations on optical fiber are extremely large and are not yet being threatened. In fiber systems, it is the electronics technology (such as emitters and detectors) and fiber manufacturing processes that most limit the speed. Upcoming developments in Ethernet are likely to be heavily weighted towards Laser light sources and single-mode optical fiber.

Good luck in your exams !