Wisconsin Broadcaster’s Association - Transferring Files Using the Internet

1. WisconsinBroadcaster’sAssociation -Transferring FilesUsing the Internet July 14, 1999

2. Agenda • How does the Internet connect computers? • What file transfer options are available? • How long should file transfers take?

3. The Internet

4. Trace Route - West Coast • glacier> traceroute www.cisco.com • traceroute to cio-sys.cisco.com (192.31.7.130), 30 hops max, 40 byte packets • 1 hood.binc.net (208.155.53.129) 1.171 ms 0.668 ms 0.502 ms • 2 borderx1-hssi4-0.KansasCity.cw.net (204.70.197.109) 39.826 ms 65.262 ms 29.2 ms • 3 core2-fddi-0.KansasCity.cw.net (204.70.197.49) 29.33 ms 29.084 ms 30.175 ms • 4 core5.WillowSprings.cw.net (204.70.4.97) 39.301 ms 38.627 ms 78.089 ms • 5 206.157.77.202 (206.157.77.202) 39.48 ms 53.901 ms 47.036 ms • 6 p2-0.chicago1-nbr1.bbnplanet.net (4.0.5.90) 65.324 ms 58.153 ms 64.021 ms • 7 p2-1.paloalto-nbr1.bbnplanet.net (4.0.3.166) 92.66 ms 87.199 ms 89.18 ms • 8 p1-0.paloalto-nbr2.bbnplanet.net (4.0.5.66) 98.269 ms 94.211 ms 96.705 ms • 9 p0-0-0.paloalto-cr18.bbnplanet.net (4.0.3.86) 93.012 ms 97.153 ms 97.247 ms • 10 h1-0.cisco.bbnplanet.net (4.1.142.238) 100.333 ms 95.248 ms 168.087 ms • 11 sty.cisco.com (192.31.7.39) 97.447 ms 138.212 ms 99.984 ms

5. Trace Route - Local • glacier> traceroute www.fullfeed.com • traceroute to www.fullfeed.com (199.184.184.2), 30 hops max, 40 byte packets • 1 hood.binc.net (208.155.53.129) 0.923 ms 0.528 ms 0.489 ms • 2 borderx1-hssi4-0.KansasCity.cw.net (204.70.197.109) 73.395 ms 89.037 ms 122.573 ms • 3 core2-fddi-0.KansasCity.cw.net (204.70.197.49) 124.976 ms 35.189 ms 29.416 ms • 4 core9.Chicago.cw.net (204.70.9.105) 38.094 ms 86.538 ms 40.209 ms • 5 204.70.10.94 (204.70.10.94) 41.252 ms 38.312 ms 50.9 ms • 6 ord1-core3-fa4-1-0.atlas.digex.net (165.117.55.11) 38.578 ms 39.22 ms 38.875 ms • 7 dca1-core6-s1-1-0.atlas.digex.net (165.117.56.153) 60.079 ms 62.165 ms 65.447 ms • 8 dca1-core10-pos1-3.atlas.digex.net (165.117.59.197) 119.339 ms 66.016 ms 82.721 ms • 9 ric2-core1-s4-0-0.atlas.digex.net (165.117.50.70) 159.386 ms 69.805 ms 64.346 ms • 10 rdu2-core2-h1-0-0.atlas.digex.net (165.117.53.22) 140.809 ms 124.645 ms 138.938 ms • 11 rdu2-core1-fa10-0-0.atlas.digex.net (165.117.61.49) 164.267 ms 135.732 ms 135.187 ms • 12 * 209.48.179.126 (209.48.179.126) 194.346 ms 226.159 ms • 13 www.fullfeed.com (199.184.184.2) 213.423 ms 188.941 ms 201.149 ms

6. Network Performance • 180,000 miles/s - It’s not just a good idea, it’s the law • 20 ms for a R/T from Madison to California • That doesn’t include other overhead

7. Internet Connection • Physical proximity is not as important as “Internet” proximity • Each router or “hop” adds latency • Lot’s of places for things to go wrong - most out of your control • The bandwidth is shared

8. File Transfer Options • E-Mail Attachments • FTP - File Transfer Protocol • TFTP - Trivial File Transfer • NFS - Network File System

9. E-Mail Transfer

10. E-Mail Transfer • Disks on mail servers can fill • Mail servers can go down • Connections can be slow/down • Mail is readily intercepted • Mail stops in many places • Simple and readily available

11. FTP Transfer

12. FTP Transfer • Disks can fill • Usually requires a dedicated FTP server • Less places for things to go wrong • More “production” orientated

13. TFTP Transfer • Trivial File Transfer Protocol • Like FTP except lacking some features • Usually used for engineering purposes • Client and Server commonly available

14. NFS Transfer • Network File System • Generally a Data Center application • Relatively slow • Requires specialized knowledge

15. How Long - Ideal Conditions Assume 1 MB file (About a floppy) 28.8 kbs Modem 4.62 minutes 56 kbs Mode 2.38 minutes 126 kbs ISDN 1.05 minutes 800 kbs xDSL 10.2 seconds T1 5.18 seconds DS3 0.17 seconds

16. Reality • Speed of disk access • Speed of network access • Congestion of network - dropped packets • Number of hops • Distance traveled

17. Summary Today, nothing is guaranteed High-speed access is key Availability is important