2.2. Motive techno forces shaping evolution processes in ICT - Microprocessors

1. 2.2. Motive techno forces shaping evolution processes in ICT - Microprocessors - Photonics

2. A. Moore’s Law • Gordon E. Moore. "Cramming more components onto integrated circuits," Electronics, volume 38, number 8 (19 April, 1965), at http://www.intel.com/research/silicon/moorespaper.pdf • Exponential increase in the number of components on a chip • Doubling of number of transistors on a chip every 18 months (1980s) • Doubling of microprocessor power every 18 months (1990s) • Computing power at fixed cost is doubling every 18 months(1990s) • Throughput of integrated circuits, in MIPS, will doubled every • 18 months with cost of decrease by 50%, and this regularity • will remain correct for several decades. • (MIPS -millions of instructions per second) • Reliability • Power consumption • Miniaturization (number of transistors per chip) • Terminal devices in the single chips

3. 6 days music 4 h video 2.000.000 pages A. Moore‘s Law (Cntd) 1T 1012 256G 64G 1011 DRAMs 16G 1010 4G 1G 109 McKinley 256M 1947: 1000 MW Itanium (Merced) 64M 108 Pentium IV 16M Transistors per Chip Pentium III 107 30 min.music 4M Pentium II PPC 620 1M 106 Pentium Pro 256k Source: Siemens ICN i486 Pentium 64k 105 80386 16k 80286 8086 4k 104 1k Processors • Intel • Motorola 2020 4004 103 1970 1980 2000 2010 1990 We can store and process all information.

4. A. Moore‘s Law (Cntd) • 1988 - 275,000 transistors on the Intel 80386 chips • 1992 - 1.4 million transistors on the 80486 SL chips • Pentium, Pentium Pro and Pentium II processor families • 1999 - 28 million transistors (Intel Pentium III Xeon and Mobile Pentium III processors) • 2001 - 42 million transistors (Pentium 4)

5. Evolution of Computer Power/Cost MIPS per $1000 (1997 Dollars) 1000 Gateway G6-200 PowerMac 8100/80 Gateway-485DX2/55 Power Tower 150e Macintosh-128K Mac II AT&T Globalyst 600 1 Commodore 64 IBM PC Apple II IBM PS/290 Sun-2 DG Eclipse CDC 7600 Sun-3 11000 DEC PDP-10 IBM 1130 VAX 11/750 IBM 7090 DEC VAX 11/780 Whirlwind DEC-KL-10 IBM 704 DG Nova UNIVAC I SDS 920 1Mio ENIAC IBM 350/75 IBM 7040 Colossus Burroughs 5000 IBM 1620 IBM 650 Burroughs Class 16 1Bio Zuse-1 IBM Tabulator Year ASCC (Mark 1) Monroe Calculator 1900 1920 1940 1960 1980 2000 2020 2040

6. 1 chewing gum 5 Cent 2002 Prices of 1 Mbit DRAM 150 000 DM History Forecast 10 000 DM 800 DM 240 DM 1 gummi bear 1 sheet of paper 60 DM 10 DM 1 post it 1 paperclip 1 DM 26 Pfennig 3 Cent 1 Cent O,5 Cent 0,1 Cent 1973 1977 1981 1984 1987 1991 1995 1999 2005 2009 2013 2017 Source: acc. to Weick, Manfred, ZT IK MK Expensive functions and applications today will be cheap tomorrow.

7. B. Photonic technologies • Fiber optic cables for long-haul networks – beginning of • 70-th • Main directions of FOC development: • The transition from multimode to single mode fiber • Wavelength changing of the applied spectral windows with =0,85 mkm to =1,33/1,55 mkm • The decrease of attenuation in the fiber from figures of several dozens of dB/km to 0,2 dB/km

8. Photonic technologies (Cntd) • # Main requirements – grows of network capacity • # Boom growth of traffic, especially data • # Number of factors: • Accelerated development of the Internet • Commercial applications of graphic and video information exchange • The growth of worldwide business, which leads to the growth of worldwide traffic • # New technologies for photonic networks • SDH/DWDM • Tbits/s

9. Performance improvements in photonics Theoretical limit of glass fiber FiberCapacity Mbit/s*km 1010 Experiment: 7 Tbit/s, 50 km Product 160x10G; 80 km 108 40´10 G +100 % p.y. 16´2.5 G 106 10 G +70 % p.y. 2.5 G 104 565 M Source: ICN M TA: Photonics 34 M 140 M 102 1975 1985 1995 2005 2015 Year

10. 2.3. Mega trends on ICT - Digitalization - Mobile communications - Internet - Convergence of services/networks/devices - Main shifts on ICT

11. A. Digitalization • Digitalization of: • Information • Information processing tools • Transportation systems • Transition from analog to digital format • Analog networks - separate • Integrated networks - digital • Convergence in ICT

12. B. Mobile communications

13. Grows of subscribers 2002: Fixed = Mobile 1,15 Billion Grows: Fixed –2%, Mobile – 10% (ITU)

14. Grows of fixed and mobile and distribution by technology

15. Grows of fixed and mobile subscribers

16. Ovum

17. Limitations of 2G systems

18. Evolution of mobile communications

19. C. Internet • Brief History of the Internet • 1957– Launch of Sputnik is impetus for U.S. to form ARPA (DoD) • 1965 – ARPA sponsors a study “Cooperative network for • time-sharing”; Innovation of packet switching • (D. Devis, UK, P. Baran, US) • 1969 – September 2, launch of first computer network • ARPANET • 1972 – Beginning of E-mail (Tomlinson, US) • 1974 – First article about TCP/IP (Cerf/Kahn) • 1979 – Establishing first research computer network (NSF, • Univ. Wisc., DARPA)

20. Brief History of the Internet (Cntd) • 1982 – Internet defined as TCP/IP-connected network • 1986 – 56 kb/s NSFNET created for 5 supercomputing • centers • 1989 – Number of Internet nodes breaks 100 000; IETF • comes into existence • 1992 – WWW released; Number of nodes breaks 1M • 1995 – VoIP comes to the market • 2001 – Number of hosts breaks 300M • 2002 – VoIP has taken away 13% of long-haul telephone traffic

21. The Internet timeline Number of hosts Number of users • Reasons for grows: • Windows • Modems • Searching tools • HTL Commercial Apps Military/Academic Apps 1965 1970 1975 1980 1985 19901995 2000 2005

22. Forecast of the global voice/data traffic’s growth Tbps 6 5 4 3 2 1 Total telephone traffic International telephone traffic Source: Arthur D. Little, 1999 Data traffic

23. Fixed Data Services Comprise a Smaller Proportion of Income but Represent the Largest Proportion of Traffic Today´s realities European carrier’s traffic European carriers’ revenues Where traffic comes from in 2004 2004, Total USD $295 billion Other 13% 24 25 20 Fixed Data 10% Fixed telephony 39% 15 Traffic Volume (Tbps) 10 5 2 0.1 Mobile services 38% 0 Mobile Fixed telephony Fixed Data Source: Blended from IDC, ECTA, & Operators Source: IDATE, Mar 2000

24. 100 Pbps 10 Pbps 1 Pbps 100Tbps New Measurements 10Tbps 1Tbps 100Gbps 10Gbps 1Gbps 100Mbps ARPA & NSF Data to 1996 10Mbps 1Mbps 100Kbps 10Kbps 1Kbps 100 bps 10 bps 10 bps 1970 1975 1980 1985 1990 1995 2000 2005 2010 Total U.S. Internet traffic Voice Crossover: August 2000 Projected at 4/Year 4/Year 2.8/Year Source: Roberts et al., 2001

25. Internet market maturity • (TeleGeography Survey, 2005) • Stabilization of traffic • Global cross-border internet traffic will grow by 49% in 2005, down from 103% in 2004 • In the mid-2005 – 1 Tbit/s • In 2008 - 2-3 Tbit/s • Stabilization of prices • In 2004, backbone access prices around the world fell about 50 percent over the previous year • In 2005 prices fell between 23 and 33 percent, and many providers have stated that they have no plans to reduce prices further

26. Some issues of Internet traffic • Most traffic is from corporations (80% estimated) • Main growth is from corporations • “Last mile” has been improving rapidly (100–1000 Mbps) • Corporate traffic is anti-recessionary • Move from public networks to private networks using Internet for cost reduction (VPN)

27. Some issues of Internet traffic(Cntd) • - Corporate Internet use hit critical mass in 2000 • Now need to use the Internet for all business • Inter-corporate traffic is now mainly over the Internet • Intra-corporate traffic is growing in size (E-mail documents) - Personal traffic is growing but broadband deployment is slow - Internationally, traffic is still at the pre-2000 growth rate of 2.8/year

28. Penetration rates of services (US market) Time to reach 50 mio customers 120 100 80 60 40 20 0 TV (15 Years) millions of customers Telephone (90 Years) Internet (<5 Years) Napster18 months Cable (10 Years) Radio (40 Years) Computer Mobile Phone 1922 1950 1980 1995 Products have an accelerated market penetration.

29. Penetration (in %%) of different technologies and devices Mobile penetration Broadband Penetration Internet penetration PC penetration 36 50-60 40 5-10 20 40 70 << 5 17 <5 <30 <<<5 USA Europe Asia Source: Cisco, 2002

30. Mobile vs. fixed Internet penetration in Europe Mobile and Internet penetration in Western European countries (YE 2000) 80% AUT ITA FIN NOR NL SPA SWE LUX CH 70% UK DK POR Mobile penetration (in %) 60% GRE IRL GER FRA BEL 50% 40% 0% 10% 20% 30% 40% 50% Source: Siemens (Fixed) Internet penetration (in %)

31. D. Convergence of networks/services/devices United Network

32. Main shifts on ICT Packet based TODAY TOMORROW Packet based Mobile Connectionless Mobile Connectionless Telephony IP Apps Telephony IP Apps Circuit based Circuit based Connections Wireline Connections Wireline • Analog Digital Fixed Mobile Voice Data CONVERGENCE

33. Main shifts on ICT (Cntd) TODAY TOMMOROW Multifunctional devices with network interfaces Telephones, PCs, TVs Voice/data on networks Data, then MM dominates on networks Proprietary and specialized networking Totally open and interoperable networks PSTN and Internet are separated Global network of networks Dedicated applications Apps designed for universal and independent using High tariffs for long-distance service Flat networks with distance- independent tariffs

34. Concluding remarks Global MM-MS network After 2010 all information will be digitally stored and sent via the global network.