DNA design team update Brett Pentland – Monash University.

Slides:

Advertisements

Similar presentations

IP Router Architectures. Outline Basic IP Router Functionalities IP Router Architectures.

Advertisements

DNA design team update Brett Pentland – Monash University.

Logically Centralized Control Class 2. Types of Networks ISP Networks – Entity only owns the switches – Throughput: 100GB-10TB – Heterogeneous devices:

Routing Basics.

1 IP Forwarding Relates to Lab 3. Covers the principles of end-to-end datagram delivery in IP networks.

IP Forwarding Relates to Lab 3.

Congestion Control Reasons: - too many packets in the network and not enough buffer space S = rate at which packets are generated R = rate at which receivers.

DNAv6 Goals JinHyeock Choi, Samsung AIT

FunctionLinkID draft-jinchoi-dna-protocol2 Landmark + CompleteRA draft-pentland-dna-protocol Identifier choice (1)Routers choose IDHost chooses ID Identifier.

DNA design team update Brett Pentland – Monash University.

Movement Detection in Mobile IPv6 JinHyeock Choi, Samsung AIT

IP Traceback With Deterministic Packet Marking Andrey Belenky and Nirwan Ansari IEEE communication letters, VOL. 7, NO. 4 April 2003 林怡彣.

Detecting Network Attachment (DNA) Working Group Session IETF 63, Paris Chairs: Greg Daley, Suresh Krishnan.

Detecting Network Attachment in IPv6 Problem Statement JinHyeock Choi, Samsung AIT

Given Connections Solution

Strategies For Detecting Network Attachment in Wireless IPv6 Networks Greg Daley - Research Fellow Monash University Centre for Telecommunications and.

Comparison of Link Identification schemes Objective: Present the similarities and differences of the two schemes.

DNA design team update JinHyeock Choi Tero Kauppinen James Kempf Sathya Narayanan Erik Nordmark Brett Pentland Design Team: Brett Pentland.

Routing Protocols Heng Sovannarith

1 IP Forwarding Relates to Lab 3. Covers the principles of end-to-end datagram delivery in IP networks.

Detecting Network Attachment in IPv6 Networks (DNAv6) draft-ietf-dna-protocol-05.txt S. Narayanan, Ed. J. Kempf, E. Nordmark, B. Pentland, JH. Choi, G.

2002 년 2 학기이동인터넷프로토콜 1 Mobile IP:Overview 년 2 학기이동인터넷프로토콜 2 Mobile IP overview Is Mobile IP an official standard? What problems does Mobile IP solve?

1 DNS Discovery: Problem Statement Review host plug-n-play / auto-config / zero-config is an important goal for IPv6 — essential for, e.g., home networks,

CEN Network Fundamentals Chapter 19 Binding Protocol Addresses (ARP) To insert your company logo on this slide From the Insert Menu Select “Picture”

Copyright 2003 By Your Name CCNA 3 Chapter 1 Review: The OSI Reference Model and Routing.

1 IP Forwarding Relates to Lab 3. Covers the principles of end-to-end datagram delivery in IP networks.

Multiplication Facts. 1 x3 3 Think Fast… 2 x4 8.

49th IETF - San Diego - 1 Mobile Networks Support in IPv6 - Draft Update draft-ernst-mobileip-v6-01.txt - Thierry Ernst - MOTOROLA Labs Ludovic Bellier.

IETF 51, IPv6 WG1 Multilink Subnets draft-thaler-ipngwg-multilink-subnets-01.txt Dave Thaler

Slide title In CAPITALS 50 pt Slide subtitle 32 pt Simple DNA draft-krishnan-dna-simple-03 Suresh Krishnan Greg Daley.

Static versus Dynamic Routes Static Route Uses a protocol route that a network administrators enters into the router Static Route Uses a protocol route.

IP1 The Underlying Technologies. What is inside the Internet? Or What are the key underlying technologies that make it work so successfully? –Packet Switching.

Deterministic Fast Router Advertisement Configuration Update draft-daley-dna-det-fastra-01.txt Presenter: Greg Daley.

Interconnect simulation. Different levels for Evaluating an architecture Numerical models – Mathematic formulations to obtain performance characteristics.

11 draft-pentland-dna-protocol3-00.txt Brett Pentland.

Joseph M. Hellerstein Peter J. Haas Helen J. Wang Presented by: Calvin R Noronha ( ) Deepak Anand ( ) By:

JinHyeock Choi, DongYun Shin hppt:// Fast Router Discovery with L2 Support draft-jinchoi-dna-frd-01.txt.

Section #7: Getting Data from Point A to Point B.

Describe basic routing concepts. Routers Interconnect Networks Router is responsible for forwarding packets from network to network, from the original.

JinHyeock Choi, Syam Madanapalli hppt:// DNA Solution: Link Identifier based approach draft-jinchoi-dna-protocol2-01.txt.

IPv6 over ’s IPv6 Convergence Sublayer IPv6 over ’s IPv6 Convergence Sublayer draft-madanapalli-ipv6-over ipv6cs-00 Syam Madanapalli.

Chapter 3: Packet Switching (overview)

Step-by-step explanation what happens if a L3 device is connected via a L2 vPC: Packet arrives at R R does lookup in routing table and sees 2 equal paths.

CS4470 Computer Networking Protocols

Ingress Filtering, Site Multihoming, and Source Address Selection

Forwarding and Routing IP Packets

IP Forwarding Covers the principles of end-to-end datagram delivery in IP networks.

with distributed anchor routers

Fast Router Discovery with RA Caching

Router Advertisement Link Identifiers (LinkID)

IP Forwarding Relates to Lab 3.

IP Forwarding Relates to Lab 3.

IP Forwarding Relates to Lab 3.

ECE 544 Project3 Team member: BIAO LI, BO QU, XIAO ZHANG 1 1.

IP Forwarding Relates to Lab 3.

Ling-Jyh Chen, Mario Gerla Computer Science Department, UCLA

Multiplication Facts.

Making Landmark or Friendly Numbers (Multiplication)

5 × 7 = × 7 = 70 9 × 7 = CONNECTIONS IN 7 × TABLE

5 × 8 = 40 4 × 8 = 32 9 × 8 = CONNECTIONS IN 8 × TABLE

4 × 6 = 24 8 × 6 = 48 7 × 6 = CONNECTIONS IN 6 × TABLE

5 × 6 = 30 2 × 6 = 12 7 × 6 = CONNECTIONS IN 6 × TABLE

IP Forwarding Relates to Lab 3.

10 × 8 = 80 5 × 8 = 40 6 × 8 = CONNECTIONS IN 8 × TABLE MULTIPLICATION.

3 × 12 = 36 6 × 12 = 72 7 × 12 = CONNECTIONS IN 12 × TABLE

Networking and Network Protocols (Part2)

IP Forwarding Relates to Lab 3.

5 × 12 = × 12 = × 12 = CONNECTIONS IN 12 × TABLE MULTIPLICATION.

Host and Small Network Relaying Howard C. Berkowitz

Presentation transcript:

DNA design team update Brett Pentland – Monash University

Progress Unable to come to agreement on a single solution Discussions have centred on the pros and cons of available techniques

Assumptions Routers on a link can hear each other Hosts that can connect to multiple links from one interface can distinguish packets from the different links DNA is complete when link identity decision is made and prefix obtained

The Problem RS/RA exchange –Putting the right information in the exchange so that an accurate decision can be made Getting the RA fast

RS/RA Exchange Explicit Link Identifier –Random –Prefix-based Complete RA Pre-based Landmark Priority Landmark Hybrid Landmark

Getting the RA quickly Fast Router Discovery (RA caching) Simple FastRA Deterministic Fast RA Hash-based deterministic Fast RA Probabilistic Fast RA