RFC1607


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Network Working Group                                           V. Cerf

Request for Comments: 1607                             Internet Society

Category: Informational                                    1 April 1994

 

矩形标注: 21世纪的网络地址长度可达到1024位,详见Page13

                A VIEW FROM THE 21ST CENTURY

 

Status of this Memo

 

   This memo provides information for the Internet community.  This memo

   does not specify an Internet standard of any kind.  Distribution of

   this memo is unlimited.

 

A NOTE TO THE READER

 

   The letters below were discovered in September 1993 in a reverse

   time-capsule apparently sent from 2023. The author of this paper

   cannot vouch for the accuracy of the letter contents, but spectral

   and radiation analysis are consistent with origin later than 2020. It

   is not known what, if any, effect will arise if readers take actions

   based on the future history contained in these documents.  I trust

   you will be particularly careful with our collective futures!

 

THE LETTERS

 

   To: "Jonathan Bradel" <jbradel@astro.luna.edu>

   CC: "Therese Troisema" <ttroisema@inria.fr>

   From: "David Kenter" <dkenter@xob.isea.mr>

   Date: September 8, 2023 08:47.01 MT

   Subject:  Hello from the Exobiology Lab!

 

 

   Hi Jonathan!

 

   I just wanted to let you know that I have settled in my new

   offices at the Exobiology Lab at the Interplanetary Space

   Exploration Agency's base here on Mars. The trip out was

   uneventful and did let me get through an awful lot of

   reading in preparation for my three year term here. There

   is an excellent library of material here at the lab and

   reasonable communications back home, thanks to the CommRing

   satellites that were put up last year here. The transfer

   rates are only a few terabits per second, but this is

   usually adequate for the most part.

 

   We've been doing some simulation work to test various

   theories of bio-history on Mars and I have attached the

   output of one of the more interesting runs. The results are

 

 

 

Cerf                                                            [Page 1]


 

 

RFC 1607              A View from the 21st Century          1 April 1994

 

 

   best viewed with a model VR-95HR/OS headset with the

   peripheral glove adapter. I would recommend finding an

   outdoor location if you activate the olfactory simulator

   since some of the outputs are pretty rank! You'll notice

   that atmospheric outgassing seriously interfered with any

   potential complex life form development.

 

   We tried a few runs to see what would happen if an

   atmospheric confinement/replenishment system had been in

   place, but the results are too speculative to be more than

   entertaining at this point. There has been some serious

   discussion of terra-forming options, but the economics are

   still very unclear, as are the time-frames for realizing

   any useful results.

 

   I have also been trying out some new exercises to recover

   from the effects of the long trip out. I've attached a

   sample neuroscan clip which will give you some feeling for

   the kinds of gymnastics that are possible in this gravity

   field. My timing is still pretty lousy, but I hope it will

   improve with practice.

 

   I'd appreciate it very much if you could track down the

   latest NanoConstructor ToolKit from MIT. I have need of

   some lab gear which isn't available here and which would be

   a lot easier to fabricate with the tool kit. The version I

   have is NTK-R5 (2020) and I know there has been a lot added

   since then.

 

   Therese,

 

   I wanted you to see the simulation runs, too. You may be

   able to coax better results from the EXAFLOP array at CERN,

   if you still have an account there. We're still limping

   along with the 50 PFLOP system that Danny Hillis donated to

   the agency a few years back.

 

   The attached HD video clip shows the greenhouse efforts

   here to grow grapes from the cuttings that were brought out

   five years ago. We're still a long ways from '82

   Beaucastel!

 

   Gotta get ready for a sampling trip to Olympus Mons, so

   will send this off for now.

 

   Warmest regards,

 

   David

 

 

 

Cerf                                                            [Page 2]


 

 

RFC 1607              A View from the 21st Century          1 April 1994

 

 

   -=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-

 

 

   To: "David Kenter" <dkenter@xob.isea.mr>

   CC: "Therese Troisema" <ttroisema@inria.fr>

   From: "Jonathan Bradel" <jbradel@astro.luna.edu>

   Date: September 10, 2023 12:30:14 LT

   Subject: Re: Hello from the Exobiology Lab!

 

   David,

 

   Many thanks for your note and all its news and interesting

   data! Melanie and I are glad to know you are settled now

   and back at work. We've been making heavy use of the new

   darkside reflector telescope and, thanks to the new petabit

   fiber links that were introduced last year, we have very

   effective controls from Luna City. We've been able to run

   some really interesting synthetic aperture observations by

   linking the results from the darkside array and the Earth-

   orbiting telescopes, giving us an effective diameter of

   about 200,000 miles. I can hardly wait to see what we can

   make of some of the most distant Quasars with this set-up.

 

   We had quite a scare last month when Melanie complained of

   a recurring vertigo. None of the usual treatments seemed to

   help so a molecular-level brain bioscan was done. An

   unexpectedly high level of localized neuro-transmitter

   synthesis was discovered but has now been corrected by

   auto-gene therapy.

 

   As you requested, I have attached the latest

   NanoConstructor ToolKit from MIT.  This version integrates

   the Knowbot control subsystem which allows the NanoSystem

   to be fully linked to the Internet for control, data

   sharing and inter-system communication. By the way, the

   Internet Society has negotiated a nice discount for nano-

   fab services if you need something more elaborate than the

   ISEA folks have available at XOB. I could put the

   NanoSystem on the Solex Mars/Luna run and have it to you

   pretty quickly.

 

   Keep in touch!

 

   Jon and Melanie

 

 

   -=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-

 

 

 

 

Cerf                                                            [Page 3]


 

 

RFC 1607              A View from the 21st Century          1 April 1994

 

 

   To: "David Kenter" <dkenter@xob.isea.mr>

   CC: "Jonathan Bradel" <jbradel@astro.luna.edu>

   CC: "Troisema" <rm1023@geosync.hyatt.com>

   From: "Therese Troisema" <ttroisema@inria.fr>

   Date: September 10, 2023 12:30:14 UT

   Subject: Re: Hello from the Exobiology Lab!

 

   Bon Jour, David!

 

   I am writing to you from the Hyatt Geosync where your email

   was forwarded to me from INRIA. Louis and I are here

   vacationing for two weeks. I have some time available and

   will set up a simulation run on my EXAFLOP account. They

   have the VR-95HR/OS headsets here for entertainment

   purposes, but they will work fine for examining the results

   of the simulation.

 

   I have been taking time to do some research on the

   development of the Interplanetary Internet and have found

   some rather interesting results. I guess this counts as a

   kind of paleo-networking effort, since some of the early

   days reach back to the 1960s. It's hard to believe that

   anyone even knew what a computer network was back then!

 

   Did you know that the original work on Internet was

   intended for military network use? One would never guess it

   from the current state of affairs, but a lot of the

   original packet switching work on ARPANET was done under

   the sponsorship of something called the Advanced Research

   Projects Agency of the US Department of Defense back in

   1968. During the 1970s, a number of packet networks were

   built by ARPA and others (including work by the predecessor

   to INRIA, IRIA, which developed a packet network called

   CIGALE on which the CYCLADES network operating system was

   built).  There was also work done by the French PTT on an

   experimental system called RCP that later became a

   commercial system called TRANSPAC. Some seminal work was

   done in the mid-late 1960s in England at the National

   Physical Laboratory on a single node switch that apparently

   served as the first local area network! It's very hard to

   believe that this all happened over 50 years ago.

 

   A radio-based network was developed in the same 1960s/early

   1970s time period called ALOHANET which featured use of a

   randomly-shared radio channel. This idea was later realized

   on a coaxial cable at XEROX PARC and called Ethernet. By

   1978, the Internet research effort had produced 4 versions

   of a set of protocols called "TCP/IP" (Transmission Control

 

 

 

Cerf                                                            [Page 4]


 

 

RFC 1607              A View from the 21st Century          1 April 1994

 

 

   Protocol/Internet Protocol"). These were used in

   conjunction with devices called gateways, back then, but

   which became known as "routers". The gateways connected

   packet networks to each other.  The combination of gateways

   and TCP/IP software was implemented on a lot of different

   operating systems, especially something called UNIX. There

   was enough confidence in the resulting implementations that

   all the computers on the ARPANET and any networks linked to

   the ARPANET by gateways were required to switch over to use

   TCP/IP at the beginning of 1983. For many historians, 1983

   marks the start of global Internet growth although it had

   its origins in the research effort started at Stanford

   University in 1973, ten years earlier.

 

   I am going to read more about this and, if you are

   interested, I can report on what happened after 1983.

 

   I will leave any simulation results from the EXAFLOP runs

   in the private access directory in the CERN TERAFLEX

   archive.  It will be accessible using the JIT-ticket I have

   attached, protected with your public key.

 

   Au revoir, mon ami, Therese

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Cerf                                                            [Page 5]


 

 

RFC 1607              A View from the 21st Century          1 April 1994

 

 

   -=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-

 

 

   To: "Troisema" <rm1023@geosync.hyatt.com>

   CC: "Jonathan Bradel" <jbradel@astro.luna.edu>

   CC: "Therese Troisema" <ttroisema@inria.fr>

   From: "David Kenter" <dkenter@xob.isea.mr>

   Date: September 10, 2023 17:26:35 MT

   Subject: Internet History

 

   Dear Therese,

 

   I am so glad you have had a chance to take a short

   vacation; you and Louis work too hard! I changed the

   subject line to reflect the new thread this discussion

   seems to be leading in. It sounds as if the whole system

   started pretty small. How did it ever get to the size it is

   now?

 

   David

 

 

   -=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-

 

 

   To: "David Kenter" <dkenter@xob.isea.mr>

   CC: "Therese Troisema" <ttroisema@inria.fr>

   CC: "Troisema" <rm1023@geosync.hyatt.com>

   From: "Jonathan Bradel" <jbradel@astro.luna.edu>

   Date: September 11, 2023 09:45:26 LT

   Subject: Re: Internet History

 

   Hello everyone! I have been following the discussion with

   great interest. I seem to remember that there was an effort

   to connect what people thought were "super computers" back

   in the mid-1980's and that had something to do with the way

   in which the system evolved. Therese, did your research

   tell you anything about that?

 

   Jon

 

 

 

 

 

 

 

 

 

 

 

Cerf                                                            [Page 6]


 

 

RFC 1607              A View from the 21st Century          1 April 1994

 

 

   -=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-

 

 

   To: "Jonathan Bradel" <jbradel@astro.luna.edu>

   CC: "David Kenter" <dkenter@xob.isea.mr>

   CC: "Troisema" <rm1023@geosync.hyatt.com>

   From: "Therese Troisema" <ttroisema@inria.fr>

   Date: September 12, 2023 16:05:02 UT

   Subject: Re: Internet History

 

 

   Jon,

 

   Yes, the US National Science Foundation (NSF) set up 5

   super computer centers around the US and also provided some

   seed funding for what they called "intermediate level"

   packet networks which were, in turn, connected to a

   national backbone network they called "NSFNET." The

   intermediate level nets connected the user community

   networks (mostly in research labs and universities at that

   time) to the backbone to which the super computer sites

   were linked. According to my notes, NSF planned to reduce

   funding for the various networking activities over time on

   the presumption that they could become self-sustaining.

   Many of the intermediate level networks sought to create a

   larger market by turning to industry, which NSF permitted.

   There was a rapid growth in the equipment market during the

   last half of the 1980s, for routers (the new name for

   gateways), work stations, network servers, and local area

   networks.  The penetration of the equipment market led to a

   new market in commercial Internet services. Some of the

   intermediate networks became commercial services, joining

   others that were created to meet a growing demand for

   Internet access.

 

   By mid-1993, the system had grown to include over 15,000

   networks, world-wide, and over 2 million computers. They

   must have thought this was a pretty big system, back then.

   Actually, it was, at the time, the largest collection of

   networks and computers ever interconnected. Looking back

   from our perspective, though, this sounds like a very

   modest beginning, doesn't it? Nobody knew, at the time,

   just how many users there were, but the system was doubling

   annually and that attracted a lot of attention in many

   different quarters.

 

   There was an interesting report produced by the US National

   Academy of Science about something they called

 

 

 

Cerf                                                            [Page 7]


 

 

RFC 1607              A View from the 21st Century          1 April 1994

 

 

   "Collaboratories" which was intended to convey the idea

   that people and computers could carry out various kinds of

   collaborative work if they had the right kinds of networks

   to link their computer systems and the right kinds of

   applications to deal with distributed applications. Of

   course, we take that sort of thing for granted now, but it

   was new and often complicated 30 years ago.

 

   I am going to try to find out how they dealt with the

   problem of explosive growth.

 

   Louis and I will be leaving shortly for a three-day

   excursion to the new vari-grav habitat but I will let you

   know what I find out about the 1990s period in Internet

   history when we get back.

 

   Therese

 

 

   -=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-

 

 

   To: "Troisema" <rm1023@geosync.hyatt.com>

   CC: "David Kenter" <dkenter@xob.isea.mr>

   CC: "Therese Troisema" <ttroisema@inria.fr>

   From: "Jonathan Bradel" <jbradel@astro.luna.edu>

   Date: September 13, 2023 10:34:05 LT

   Subject: Re: Internet History

 

   Therese,

 

   I sent a few Knowbot programs out looking for Internet

   background and found an interesting archive at the Postel

   Historical Institute in Pacific Palisades, California.

   These folks have an incredible collection of old documents,

   some of them actually still on paper, dating as far back as

   1962! This stuff gets addicting after a while.

 

   Postel apparently edited a series of reports called

   "Request for Comments" or "RFC" for short. These seem to be

   one of the principal means by which the technology of the

   Internet has been documented, and also, as nearly as I can

   tell, a lot of its culture. The Institute also has a

   phenomenal archive of electronic mail going back to about

   1970 (do you believe it? Email from over 50 years ago!). I

   don't have time to set up a really good automatic analysis

   of the contents, but I did leave a couple of Knowbots

   running to find things related to growth, scaling, and

 

 

 

Cerf                                                            [Page 8]


 

 

RFC 1607              A View from the 21st Century          1 April 1994

 

 

   increased capacity of the Internet.

 

   It turns out that the technical committee called the

   Internet Engineering Task Force was very pre-occupied in

   the 1991-1994 period with the whole problem of

   accommodating exponential growth in the size of the

   Internet. They had a bunch of different options for re-

   placing the then-existing IP layer with something that

   could support a larger address space. There were a lot of

   arguments about how soon they would run out of addresses

   and a lot of uncertainty about how much functionality to

   add on while solving the primary growth problem. Some folks

   thought the scaling problem was so critical that it should

   take priority while others thought there was still some

   time and that new functionality would help motivate the

   massive effort needed to replace the then-current version 4

   IP.

 

   As it happens, they were able to achieve multiple

   objectives, as we now know. They found a way to increase

   the space for identifying logical end-points in the system

   as well increasing the address space needed to identify

   physical end-points. That gave them a hook on which to base

   the mobile, dynamic addressing capability that we now rely

   on so heavily in the Internet. According to the notes I

   have seen, they were also experimenting with new kinds of

   applications that required different kinds of service than

   the usual "best efforts" they were able to obtain from the

   conventional router systems.

 

   I found an absolutely hilarious "packet video clip" in one

   of the archives. It's a black-and-white, 6 frame per second

   shot of some guy taking off his coat, shirt and tie at one

   of the engineering committee meetings. His T-shirt says "IP

   on everything" which must have been some kind of slogan for

   Internet expansion back then. Right at the end, some big

   bearded guy comes up and stuffs some paper money in the

   other guy's waistband. Apparently, there are quite a few

   other archives of the early packet video squirreled away at

   the PHI. I can't believe how primitive all this stuff

   looks. I have attached a sample for you to enjoy. They

   didn't have TDV back then, so you can't move the point of

   view around the room or anything. You just have to watch

   the figures move jerkily across the screen.

 

   You can dig into this stuff if you send a Knowbot program

   to concierge@phi.pacpal.ca.us. This Postel character must

   have never thrown anything away!!

 

 

 

Cerf                                                            [Page 9]


 

 

RFC 1607              A View from the 21st Century          1 April 1994

 

 

   Jon

 

 

   -=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-

 

 

   To: "Jonathan Bradel" <jbradel@astro.luna.edu>

   CC: "David Kenter" <dkenter@xob.isea.mr>

   CC: "Troisema" <rm1023@geosync.hyatt.com>

   From: "Therese Troisema" <ttroisema@inria.fr>

   Date: September 15, 2023 07:55:45 UT

   Subject: Re: Internet History

 

 

   Jon,

 

   thanks for the pointer. I pulled up a lot of very useful

   material from PHI. You're right, they did manage to solve a

   lot of problems at once with the new IP. Once they got the

   bugs out of the prototype implementations, it spread very

   quickly from the transit service companies outward towards

   all the host computers in the system. I also discovered

   that they were doing research on primitive gigabit-per-

   second networks at that same general time. They had been

   relying on unbelievably slow transmission systems around

   100 megabits-per-second and below. Can you imagine how long

   it would take to send a typical 3DV image at those glacial

   speeds?

 

   According to the notes I found, a lot of the wide-area

   system was moved over to operate on top of something they

   called Asynchronous Transfer Mode Cell Switching or ATM for

   short. Towards the end of the decade, they managed to get

   end to end transfer rates on the order of a gigabyte per

   second which was fairly respectable, given the technology

   they had at the time. Of course, the telecommunications

   business had been turned totally upside down in the process

   of getting to that point.

 

   It used to be the case that broadcast and cable television,

   telephone and publishing were different businesses. In some

   countries, television and telephone were monopolies

   operated by the government or operated in the private

   sector with government regulation. That started changing

   drastically as the 1990s unfolded, especially in the United

   States where telephone companies bought cable companies,

   publishers owned various communication companies and it got

   to be very hard to figure out just what kind of company it

 

 

 

Cerf                                                           [Page 10]


 

 

RFC 1607              A View from the 21st Century          1 April 1994

 

 

   was that should or could be regulated. There grew up an

   amazing number of competing ways to deliver information in

   digital form. The same company might offer a variety of

   information and communication services.

 

   With regard to the Internet, it was possible to reach it

   through mobile digital radio, satellite, conventional wire

   line access (quaintly called "dial-up") using Integrated

   Services Digital Networking, specially-designed modems,

   special data services on television cable, and new fiber-

   based services that eventually made it even into

   residential settings. All the bulletin board systems got

   connected to the Internet and surprised everyone, including

   themselves, when the linkage created a new kind of

   publishing environment in which authors took direct re-

   sponsibility for making their work accessible.

 

   Interestingly, this didn't do away either with the need for

   traditional publishers, who filter and evaluate material

   prior to publication, nor for a continuing interest in

   paper and CD-ROM. As display technology got better and more

   portable, though, paper became much more of a specialty

   item. Most documents were published on-line or on high-

   density digital storage media.  The basic publishing

   process retained a heavy emphasis on editorial selection,

   but the mechanics shifted largely in the direction of the

   author - with help from experts in layout and

   accessibility. Of course, it helped to have a universal

   reference numbering plan which allowed authors to register

   documents in permanent archives. References could be made

   to these from any other on-line context and the documents

   retrieved readily, possiblyat some cost for copying rights.

 

   By the end of the decade, "multimedia" was no longer a

   buzz-word but a normal way of preparing and presenting

   information. One unexpected angle: multimedia had been

   thought to be confined to presentation in visual and

   audible forms for human consumption, but it turned out that

   including computers as senders and recipients of these

   messages allowed them to use the digital email medium as an

   enabling technology for deferred, inter-computer

   interaction.

 

   Just based on what I have been reading, one of the toughest

   technical problems was finding good standards to represent

   all these different modalities. Copyright questions, which

   had been thought to be what they called "show-stoppers,"

   turned out to be susceptible to largely-established case

 

 

 

Cerf                                                           [Page 11]


 

 

RFC 1607              A View from the 21st Century          1 April 1994

 

 

   law. Abusing access to digital information was impeded in

   large degree by wrapping publications in software shields,

   but in the end, abuses were still possible and abusers were

   prosecuted.

 

   On the policy side, there was a strong need to apply

   cryptography for authentication and for privacy. This was a

   big struggle for many governments, including ours here in

   France,  where there are very strong views and laws on this

   subject, but ultimately, the need for commonality on a

   global basis outweighed many of the considerations that

   inhibited the use of this valuable technology.

 

   Well, that takes us up to about 20 years ago, which still

   seems a far cry from our current state of technology. With

   over a billion computers in the system and most of the

   populations of information-intensive countries fully

   linked, some of the more technically-astute back at the

   turn of the millennium may have had some inkling of what

   was in store for the next two decades.

 

   Therese

 

   -=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-

 

 

   To: "Therese Troisema" <ttroisema@inria.fr>

   CC: "Jonathan Bradel" <jbradel@astro.luna.edu>

   From: "David Kenter" <dkenter@xob.isea.mr>

   Date: September 17, 2023 06:43:13 MT

   Subject: Re: Internet History

 

   Therese and Jon,

 

   This is really fascinating! I found some more material,

   thanks to the Internet Society, which summarizes the

   technical developments over the last 20 years. Apparently

   one of the key events was the development of all-optical

   transmission, switching and computing in a cost-effective

   way.  For a long time, this technology involved rather

   bulky equipment - some of the early 3DV clips from 2000-

   2005 showed rooms full of gear required to steer beams

   around. A very interesting combination of fiber optics and

   three-dimensional electro-optical integrated circuits

   collapsed a lot of this to sizes more like what we are

   accustomed to today. Using pico- and femto- molecular

   fabrication methods, it has been possible to build very

   compact, extremely high speed computing and communication

 

 

 

Cerf                                                           [Page 12]


 

 

RFC 1607              A View from the 21st Century          1 April 1994

 

 

   devices.

 

   I guess those guys at Xerox PARC who imagined that there

   might be hundreds of millions of computers in the world,

   hundreds or even thousands of them for each person, would

   be pleased to see how clear their vision was. The only

   really bad thing, as I see it, is that those guys who were

   trying to figure out how to deal with Internet expansion

   really blew it when they picked a measly 64 bit address

   space. I hear we are running really tight again. I wonder

   why they didn't have enough sense just to allocate at least

   1024 bits to make sure we'd have enough room for the

   obvious applications we can see we want, now?

 

圆角矩形标注: 长度为1024 


   David

 

 

   -=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=

Final Comments

 

   The letters end here, so we are left to speculate about many of the

   loose ends not tied up in this informal exchange. Obviously, our

   current struggles ultimately will be resolved and a very different,

   information-intensive world will evolve from the present. There are a

   great many policy, technical and economic questions that remain to be

   answered to guide our progress towards the environment described in

   part in these messages. It will be an interesting two or three

   decades ahead!

 

Cerf                                                           [Page 13]


 

 

RFC 1607              A View from the 21st Century          1 April 1994

 

 

Security Considerations

 

   Security issues are not discussed in this memo.

 

Author's Address

 

   Vinton Cerf

   President, Internet Society

   12020 Sunrise Valley Drive, Suite 270

   Reston, VA 22091

 

   EMail: +1 703 648 9888

   Fax: +1 703 648 9887

   EMail: vcerf@isoc.org

 

   or

 

   Vinton Cerf

   Sr. VP Data Architecture

   MCI Data Services Division

   2100 Reston Parkway, Room 6001

   Reston, VA 22091

 

   Phone: +1 703 715 7432

   Fax: +1 703 715 7436

   EMail: vinton_cerf@mcimail.com

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

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