Fall 2001CS 6401 Introduction to Networking Outline Networking History Statistical Multiplexing Performance Metrics.

Slides:



Advertisements
Similar presentations
Introduction 2 1: Introduction.
Advertisements

Spring 2000CS 4611 Introduction Outline Statistical Multiplexing Inter-Process Communication Network Architecture Performance Metrics.
COS 461 Fall 1997 Networks and Protocols u networks and protocols –definitions –motivation –history u protocol hierarchy –reasons for layering –quick tour.
Intro (continued) and Design Principles Nick Feamster CS 3251: Computer Networking I Spring 2013.
Spring 2003CS 4611 Introduction, Continued COS 461.
Network Architectures Professor Jinhua Guo CIS 527 Fall 2002.
James 1:5 If any of you lacks wisdom, he should ask God, who gives generously to all without finding fault, and it will be given to him.
1 Introduction 1.1 Applications 1.2 Requirements 1.3 Network Architecture 1.4 Implementing Network Software 1.5 Performance.
EEC-484/584 Computer Networks Lecture 2 Wenbing Zhao (Lecture nodes are based on materials supplied by Dr. Louise Moser at UCSB and Prentice-Hall)
Spring 2004 EE4272 EE4272: Computer Networks Instructor: Dr. Tricia Chigan Dept.: Elec. & Comp. Eng.
EEC-484/584 Computer Networks Lecture 3 Wenbing Zhao
Introduction© Dr. Ayman Abdel-Hamid, CS4254 Spring CS4254 Computer Network Architecture and Programming Dr. Ayman A. Abdel-Hamid Computer Science.
Socket Programming.
CIS 527 Computer Networks Introduction Professor Jinhua Guo (updated version) Fall 2003.
Foundation Outline Requirements Network Architecture Implementing Network Software.
Spring 2003CS 4611 Welcome to COS 461 Vivek Pai. Spring 2003CS 4612 Mechanics First time teaching 461 –But have been doing some level of networking for.
Fall 2005 EE 543 Packet Switched Networks Fall 2005.
Computer Networks: Performance Measures1 Computer Network Performance Measures.
1/20 Introduction Outline Statistical Multiplexing Inter-Process Communication Network Architecture Performance Metrics Implementation Issues.
Spring EE4272 Switch vs. Router Switch:  Def. 1: A network node that forwards packets from inputs to outputs based on header information in each.
5/12/05CS118/Spring051 A Day in the Life of an HTTP Query 1.HTTP Brower application Socket interface 3.TCP 4.IP 5.Ethernet 2.DNS query 6.IP router 7.Running.
Fundamentals of Computer Networks ECE 478/578 Lecture #2 Instructor: Loukas Lazos Dept of Electrical and Computer Engineering University of Arizona.
Lecture 1, 1Spring 2003, COM1337/3501Computer Communication Networks Rajmohan Rajaraman COM1337/3501 Textbook: Computer Networks: A Systems Approach, L.
CS 6401 Introduction to Networking Aditya Akella Outline Administrivia Networking History Statistical Multiplexing Performance Metrics.
Fall 2009COSC 6501 Welcome to COSC650 Towson University Yanggon Kim.
1 Introduction to Computer Networks Foundation Ilam University Mozafar Bag-Mohammadi.
1 Computer Communication & Networks Lecture 4 Circuit Switching, Packet Switching, Delays Waleed.
Introduction 1-1 Chapter 1: roadmap 1.1 What is the Internet? 1.2 Network edge  end systems, access networks, links 1.3 Network core  circuit switching,
1 An Introduction to Computer Networks University of Tehran Dept. of EE and Computer Engineering By: Dr. Nasser Yazdani Lecture 2: Foundation.
Data Comm. & Networks Instructor: Ibrahim Tariq Lecture 3.
1 Chapter 1 Foundation Computer Networks: A Systems Approach, 5e Larry L. Peterson and Bruce S. Davie Copyright © 2010, Elsevier Inc. All rights Reserved.
1 Computer Communication & Networks Lecture 1 Introduction Waleed Ejaz
Computer Networking. 2 Outline 3 Objectives Understand the state-of-the-art in network protocols, architectures and applications Understand how networking.
Network Architecture: Design Philosophies IS250 Spring 2010 John Chuang
Ch 1. Computer Networks and the Internet Myungchul Kim
Univ. of TehranComputer Network1 Computer Networks Computer Networks (Graduate level) University of Tehran Dept. of EE and Computer Engineering By: Dr.
ICOM 6115©Manuel Rodriguez-Martinez ICOM 6115 – Computer Networks and the WWW Manuel Rodriguez-Martinez, Ph.D. Lecture 7.
1 Pre-Introduction What is computer network?. 2 Pre-Introduction Suppose you want to build a computer network The question is: –What available technologies.
Spring 2002CS 4611 Introduction Outline Statistical Multiplexing Inter-Process Communication Network Architecture Performance Metrics Implementation Issues.
CSS CSS432 Foundation Textbook Ch1 Professor: Munehiro Fukuda.
Lecture 1 Outline Statistical Multiplexing Inter-Process Communication.
Requirements Connectivity Resource Sharing Support for Common Services Performance.
Ch 1. Computer Networks and the Internet Myungchul Kim
9-Jan-164/598N: Computer Networks Overview Performance metrics - Section 1.5 Direct link networks –Hardware building blocks - Section 2.1 –Encoding - Section.
IT 210: Web-based IT Fall 2012 Lecture: Network Basics, OSI, & Internet Architecture.
1 Introduction Outline Statistical Multiplexing Inter-Process Communication Network Architecture Performance Metrics Implementation Issues.
Spring 2002CS 3321 Introduction Outline Statistical Multiplexing Network Architecture Performance Metrics (just a little)
CSE 413: Computer Network Circuit Switching and Packet Switching Networks Md. Kamrul Hasan
Introduction Computer networks: – definition – computer networks from the perspectives of users and designers – Evaluation criteria – Some concepts: –
1 Chapter 1: Foundation Dr. Rocky K. C. Chang 30 January 2004.
Computer Networks Dr. Walid Abu-Sufah
1 Computer Networks An Introduction to Computer Networks University of Tehran Dept. of EE and Computer Engineering By: Dr. Nasser Yazdani Lecture 2: Foundation.
Univ. of TehranComputer Network1 Computer Networks Computer Networks (Graduate level) University of Tehran Dept. of EE and Computer Engineering By: Dr.
1 Ram Dantu University of North Texas, Practical Networking.
Performance Metrics & Network Architectures Professor Jinhua Guo CIS 427 Winter 2003.
CSE 331: Introduction to Networks and Security Fall 2000 Instructor: Carl A. Gunter Slide Set 2.
CSE331: Introduction to Networks and Security Lecture 2 Fall 2002.
Introduction1-1 Data Communications and Computer Networks Chapter 1 CS 3830 Lecture 3 Omar Meqdadi Department of Computer Science and Software Engineering.
1 Overview Administrative Networking: An Overview of Ideas and Issues.
CS380 Intro. to Comp. Networks Introduction & Foundation1 Introduction and Foundation.
Chapter 11 Inventing the Internet
Computer Science 457 Networking and the Internet
The University of Adelaide, School of Computer Science
University of Houston Datacom II Lecture 1B Review Dr Fred L Zellner
Introduction to Computer Networks
Introduction Outline Statistical Multiplexing Network Architecture
Introduction and Foundation
Introduction and Foundation
Network Basics and Architectures Neil Tang 09/05/2008
Presentation transcript:

Fall 2001CS 6401 Introduction to Networking Outline Networking History Statistical Multiplexing Performance Metrics

Fall 2001CS 6402 A Brief History of Networking: early years Roots traced to public telephone network of the 60’s –How can computers be connected together? Three groups were working on packet switching as an efficient alternative to circuit switching L. Kleinrock had first published work in ‘61 –Showed packet switching was effective for bursty traffic P. Baran had been developing packet switching at Rand Institute and plan was published in ‘67 –Basis for ARPAnet First contract to build network switches awarded to BBN First network had four nodes in ‘69

Fall 2001CS 6403 History of the Internet contd. By ’72 network had grown to 15 nodes –Network Control Protocol - first end-to-end protocol (RFC001) – was first application – R. Tomlinson, ’72 In ’73 R. Metcalfe invented Ethernet In ’74 V. Cerf and R. Kahn developed open architecture for Internet –TCP and IP

Fall 2001CS 6404 History of the Internet contd. By ’79 the Internet had grown to 200 nodes and by the end of ’89 it had grown to over 100K! –Much growth fueled by connecting universities –L. Landweber from UW was an important part of this! Major developments –TCP/IP as standard –DNS In ’89 V. Jacobson made MAJOR improvements to TCP In ’91 T. Berners-Lee invented the Web In ’93 M. Andreesen invented Mosaic The rest should be pretty familiar…

Fall 2001CS 6405 Building Blocks Nodes: PC, special-purpose hardware… –hosts –switches Links: coax cable, optical fiber… –point-to-point –multiple access …

Fall 2001CS 6406 Switched Networks –two or more nodes connected by a link, or –two or more networks connected by two or more nodes A network can be defined recursively as...

Fall 2001CS 6407 Strategies Circuit switching: carry bit streams –original telephone network Packet switching: store-and-forward messages –Internet

Fall 2001CS 6408 Addressing and Routing Address: byte-string that identifies a node –usually unique Routing: process of forwarding messages to the destination node based on its address Types of addresses –unicast: node-specific –broadcast: all nodes on the network –multicast: some subset of nodes on the network

Fall 2001CS 6409 Multiplexing Time-Division Multiplexing (TDM) Frequency-Division Multiplexing (FDM) L1 L2 L3 R1 R2 R3 Switch 1Switch 2

Fall 2001CS Statistical Multiplexing On-demand time-division Schedule link on a per-packet basis Packets from different sources interleaved on link Buffer packets that are contending for the link Buffer (queue) overflow is called congestion …

Fall 2001CS Example: Circuit vs. Packet Switching Suppose host A sends data to host B in a bursty manner such that 1/10 th of the time A actively generates 100Kbps and 9/10 th of the time A sleeps –Under circuit switching, given a 1Mbps link, how many users can be supported? Answer: 10 with no delays for any user –Under packet switching given a 1Mbps links how many users can be supported? Answer: about 30 with low probability of delay –Point: 3 times more users can be supported!

Fall 2001CS Layering Use abstractions to hide complexity Abstraction naturally lead to layering Alternative abstractions at each layer Request/reply channel Message stream channel Application programs Hardware Host-to-host connectivity

Fall 2001CS Protocols Building blocks of a network architecture Each protocol object has two different interfaces –service interface: operations on this protocol –peer-to-peer interface: messages exchanged with peer Term “protocol” is overloaded –specification of peer-to-peer interface –module that implements this interface

Fall 2001CS Host 1 Protocol Host 2 Protocol High-level object High-level object Service interface Peer-to-peer interface Interfaces

Fall Machinery Multiplexing and Demultiplexing (demux key) Encapsulation (header/body) RRPDataHHP Application program Application program Host 1Host 2 Data RRP Data HHP Data RRP Data HHP

Fall 2001CS Performance Metrics Bandwidth (throughput) –data transmitted per time unit –link versus end-to-end –notation KB = 2 10 bytes Mbps = 10 6 bits per second Latency (delay) –time to send message from point A to point B –one-way versus round-trip time (RTT) –components Latency = Propagation + Transmit + Queue Propagation = Distance / c Transmit = Size / Bandwidth

Fall 2001CS Bandwidth versus Latency Relative importance –1-byte: 1ms vs 100ms dominates 1Mbps vs 100Mbps –25MB: 1Mbps vs 100Mbps dominates 1ms vs 100ms Infinite bandwidth –RTT dominates Throughput = TransferSize / TransferTime TransferTime = RTT + 1/Bandwidth x TransferSize

Fall 2001CS Delay x Bandwidth Product Amount of data “in flight” or “in the pipe” Example: 100ms x 45Mbps = 560KB

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.