National Advanced IPv6 Centre of Excellence (NAv6)

1. Kementerian Tenaga Air dan Komunikasi National Advanced IPv6 Centre of Excellence (NAv6)

2. Outline • Objectives of the Center • Organizational Structure • Training & Awareness Program • Activities by NAv6 • Monitoring and Audit • Research and Development • Recommendations by NAv6 • Conclusion Launched in 18th MARCH 2005 as the Center of Excellence for National IPv6 Research and Development

3. Objectives of the Center • Core R&D and Middleware Development • To commit to continuous research, experiment and development of new applications as well as the porting of existing applications to the new IPv6 specifications. • Training and Human Resource • Providing the necessary environment and course structures to train and nurture IPv6 programmers and experts for Malaysia and the region. • Monitoring and Audit • To study and monitor the impact of the protocol transition particularly for Malaysia and monitor regional development. This is to ensure Malaysia's growth commitment and international connectivity in this area. • Awareness and Promotion • Providing the necessary structure to promote awareness of IPv6 and IPv6 usage .

4. Organizational Structure

5. Relational Structures and Programs

6. External Structure of NAv6

7. Internal Structure of NAv6

8. Programs

9. Background: Awards & Recognition IRPA (1999). Awarded by : Moste Date of Award : 1999 Product Title : Multicasting IPV6 and Reliable Multimedia Conferencing Over Satellite Accolade : Research Grant ($ 240,000) Science & Technology Expo (2002). Awarded by : Moste Date of Award : 2-4 Nov. 2002 Product Title : i-Netmon Accolade : Gold Medal 14th International Invention, Innovation, Industrial Design and Technology Exhibition (ITEX 2003). Awarded by : ITEX Date of Award : 16-18 May 2003 Product Title : i-Netmon Accolade : Silver Medal IRPA (2003). Awarded by : Moste Date of Award : 2003 Product Title : Development of ICT Infrastructure Platform for Network Monitoring (Layer 3 IPV6 Protocol Analyzer) Accolade : Research Grant ($ 800,000)

10. Training & Awareness Programs

11. Training & Awareness • NAv6 is also responsible for developing future trainers and instructors for IPv6 as well as monitoring regional consultative body for the IPv6 curriculum • Formulate and distribute IPv6 curriculum for institutions of higher learning (undergraduate level, postgraduate level & diploma level) and revitalizing industries in various educational fields and services Training & HRD Awareness & Promotion Promote awareness in three levels of management • Top Level Management • Middle Level Management • Working Level Management

12. Training & HR • To formulate and distribute IPv6 curriculum for institutions of higher learning (undergraduate level, postgraduate level & diploma level) • To develop and train IPv6 capable trainers and instructors. • To create a new industry and to vitalize industries in various fields of education and services. • To monitor and formulate a regional consultative body for policies and directions for IPv6 curriculum.

13. Training and HRD TRAINING AND HUMAN RESOURCE DEVELOPMENT PHASE 1 PHASE 2 • Project 1 • Survey the current status • on IPv6 education • Review curriculum existing in secondary and tertiary learning institutions and to incorporate IPv6 • Review current research and development directions • - Review Market Project 2 Train IPv6 trainers throughout the region Project 3 Monitor progress on the promulgation of IPv6 interests /development Project 4 Formulate regional consultative body for policies and directions

14. Remote Centers for Training and Awareness The Remote Centers for the NAv6 aims to help improve the following programs: • Enhancing Human Resource Development • Promoting Awareness • Provide platform for future collaborative IPv6 research

15. Proposed Remote Centers for Training and Awareness Main Center

16. Activities by NAv6

17. Recent NAv6 Activities

18. Pictures during IPv6 Intermediate Level Training Course in January

19. Pictures during APT-NAv6 Joint IPv6 Workshop in February

20. Coming NAv6 Activities for 2006

21. Network Deployment Plan for Year 2006 • Allocated IPv6 addresses from APNIC to all MYREN members • Working on peering and transit with other networks connecting to MyREN, including GEANT, TIEN2, CERNET2, WIDE and I2.

22. Currrent MyREN members allocated with IPv6 Addresses

23. Connecting to other Networks Connect to GEANT TIEN2 network MyREN v6

24. Monitoring and Audit

25. Monitoring & Audit NAv6 Centre of Excellence would monitor the overall IPv6 Development and Deployment in Malaysia Four programs: • Monitoring of IPv6 Migration by Government Departments and General Public (MY IPv6 Certification Program) • Monitoring National IPv6 Addressing Scheme • Monitoring of Implementation and Usage of IPv6 Network Infrastructures in Malaysia • Monitoring the security of IPv6 networks

26. Preliminary Monitoring and Audit Initiative (My IPv6 Certification) • The My IPv6 Certification program requires network infrastructure and hardware devices to be tested for IPv6 compliance • The devices will be tested in 3 phases. These tests include: • IPv6 Core Certification • IPv6 Boundary Certification • Wireless and Mobility Certification

27. MY IPv6 Certification Program Tester Node (TN) Tester Node (TN) Ethernet Ethernet Wireless Ethernet Node Under Test (NUT) Tester Node (TN) Node Under Test (NUT) Node Under Test (NUT)

28. Research and Development Program by NAv6

29. NAv6 R&D Status The current R&D programs in NAv6 is streamlined in to two core research: • Mobility (Mobile and 3G) • Generic (IPv6 Over Fiber) The R&D programs are aimed to cater for the future services and application needs of Malaysia

30. IPv6 Applications & Services in Malaysia Business Hospital Store Bank School Government Broadcast Center Home Internet Broadcasting Electronic Commerce Electronic Government Mobile Network IPv6 Music/Video Download Mobile IP Telephony Broadband Access (ADSL, CATV, FWA, FTTH) PSTN Intelligent Transport System VoIP • Broadband • Always-On • Seamless Connection to PSTN/Mobile Network • Application of Contents(Stream) Delivery and Electronic Commerce

31. Present and Past NAv6 R&D • Creating the Nation's first IPv6 Research Network Testbed • Connecting an IPv4 Island to an IPv6 Ocean Through IPv4 Infrastructure • IPv6 Hostname auto-registration Procedure • Creating New RFC in the IETF for IPv6 DNS systems • Porting MCS over IPv6 • IPv6 Protocol Analyzer • Online APAN IPv6 Network Monitoring • Secure Mobile IPv6: Designing and Simulating New Mobile IPv6 Scenario • Publishing numerous papers as well as creating new standards for IPv6 globally • IPv6 over Fiber

32. Overall R&D Development Program

33. Overall R&D timeline

34. Core R&D 1: Mobility

35. Future IPv6 Applications in Mobility In line of moving towards mobile technology the services and applications that will be developed are as follow: • Real-time Mobile IPv6 Application • Peer to Peer Wireless Communication • Mobile 3G applications over IPv6 • IPv6 over Satellite Communications • Ubiquitous Internet Access in IPv6

36. IPv6 Mobile Applications IPv6 IPv6 Ubiquitous Internet Broadband Peer to Peer Wireless Communication Mobile 3G Applications over IPv6 Real time Mobile IPv6 Application 3G Mobile IPv6 over Satellite Communication Ubiquitous Internet Access in IPv6

37. Core R&D 2 : IPv6 Over Fiber OSI Model Layer Proposed OSI Model Application Application Presentation Presentation Session Session Transport Transport Network Network Data Link Physical Physical To simplify the OSI layered architecture by reducing the size of the data link header or removing it completely. To maximize the performance of data transmission. To minimize the use of bandwidth for data transmission

38. Current setbacks of Layer 2 • Data is encapsulated in to many headers. • Frame size • 26 bytes of Data Link Layer header for each frame. Max data size in each frame is 1500 bytes. • some amount of frame size is allocated for the headers and it is waste of bandwidth. • ARP which is being used currently is not required.

39. Why IPv6 Over Fiber IPv6 Address as the ultimate address: • The elimination of MAC addresses • Discard Data Link Layer • No framing process • Increase speed transfer • Reduce worm and virus outbreak • Buffering is reduced, efficiency increased.

40. IPv6 Over Fiber Vs Current Data Sending Procedure IPv6 Over Fiber Current Data link Application layer Sending Application Sending Application Data (Text, Video, Audio, etc.) 3 2 1 4 3 2 1 TCP TCP

41. TCP TCP 1 1 IPv6 Over Fiber Current Data link Application layer Sending Application Sending Application Data (Text, Video, Audio, etc.) Data (Text, Video, Audio, etc.) Transport layer 4 3 2 4 3 2 TCP TCP IP IP

42. TCP TCP TCP TCP 1 1 2 2 Network layer IP IP Physical layer IPv6 Over Fiber Vs Current Data Sending Procedure IPv6 Over Fiber Current Data link Application layer Sending Application Sending Application Data (Text, Video, Audio, etc.) Transport layer Data (Text, Video, Audio, etc.) 4 3 Transport layer 4 3 TCP TCP IP IP MAC

43. TCP TCP TCP TCP TCP TCP 1 2 2 3 3 1 Network layer Network layer Network layer IP IP IP IP Data Link layer Physical layer Physical layer MAC IPv6 Over Fiber Current Data link Application layer Sending Application Sending Application Data (Text, Video, Audio, etc.) Transport layer Data (Text, Video, Audio, etc.) 4 Transport layer TCP 4 TCP IP IP MAC

44. TCP TCP TCP TCP TCP TCP TCP TCP 3 4 1 2 1 3 4 2 Network layer Network layer Network layer IP IP IP IP IP Data Link layer Physical layer Physical layer Data Link layer Transport layer MAC MAC IPv6 Over Fiber Current Data link Application layer Sending Application Sending Application Data (Text, Video, Audio, etc.) Data (Text, Video, Audio, etc.) Transport layer Transport layer IP IP MAC IP

45. TCP TCP TCP TCP TCP TCP TCP 2 4 3 2 1 4 3 Network layer Network layer Network layer IP IP IP IP IP IP Data Link layer Physical layer Physical layer Data Link layer Transport layer Network layer MAC MAC IPv6 Over Fiber Current Data link Application layer Sending Application Sending Application Data (Text, Video, Audio, etc.) Transport layer Data (Text, Video, Audio, etc.) Transport layer MAC IP MAC TCP 1

46. TCP TCP TCP TCP TCP TCP 1 2 4 3 3 4 Network layer Network layer Network layer IP IP IP IP Data Link layer Physical layer Physical layer Data Link layer Transport layer Network layer MAC MAC Transport layer IPv6 Over Fiber Current Data link Application layer Sending Application Sending Application Data (Text, Video, Audio, etc.) Transport layer Data (Text, Video, Audio, etc.) Transport layer IP MAC TCP 2 IP 1

47. TCP TCP TCP TCP 4 4 3 2 Network layer Network layer Network layer IP IP Data Link layer Physical layer Physical layer Data Link layer Transport layer Network layer MAC Transport layer IPv6 Over Fiber Current Data link Application layer Sending Application Data (Text, Video, Audio, etc.) Sending Application Transport layer Data (Text, Video, Audio, etc.) Transport layer MAC IP IP TCP 3 TCP 1 2 1

48. TCP TCP 4 3 Network layer Network layer Network layer IP Data Link layer Physical layer Physical layer Data Link layer Transport layer Network layer Transport layer IPv6 Over Fiber Current Data link Application layer Sending Application Sending Application Data (Text, Video, Audio, etc.) Transport layer Data (Text, Video, Audio, etc.) Transport layer MAC TCP 4 IP 3 2 1 TCP 2 1

49. TCP 4 Network layer Network layer Network layer Data Link layer Physical layer Physical layer Data Link layer Transport layer Network layer 4 3 2 1 Transport layer IPv6 Over Fiber Current Data link Application layer Sending Application Sending Application Data (Text, Video, Audio, etc.) Data (Text, Video, Audio, etc.) Transport layer Transport layer IP Data (Text, Video, Audio, etc.) TCP 3 2 1

50. Network layer Network layer Network layer Data Link layer Physical layer Physical layer Data Link layer Network layer Transport layer IPv6 Over Fiber Current Data link Application layer Sending Application Sending Application Data (Text, Video, Audio, etc.) Data (Text, Video, Audio, etc.) Transport layer Transport layer Transport layer Data (Text, Video, Audio, etc.) TCP 4 Receiving Application 3 2 1