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+Network Working Group Poorer Richard
+Request for Comments: 1216 Almanac Institute
+ Prof. Kynikos
+ Miskatonic University
+ 1 April 1991
+
+
+ Gigabit Network Economics and Paradigm Shifts
+
+Status of this Memo
+
+ This memo proposes a new standard paradigm for the Internet
+ Activities Board (IAB) standardization track. Distribution of this
+ memo is unlimited.
+
+1. Introduction
+
+ The history of computer communication contains many examples of
+ efforts to align the capabilities of processors to that of
+ communication media. Packet switching is the classic case of a
+ careful tradeoff between the costs of memory, processing, and
+ communications bandwidth.
+
+ With all of the attention and publicity focused on gigabit networks,
+ not much notice has been given to small and largely unfunded research
+ efforts which are studying innovative approaches for dealing with
+ technical issues within the constraints of economic science. This
+ memo defines one such paradigm.
+
+2. Contemporary Network Economics
+
+ Recent cost estimates predict a continuing decline in the cost for
+ processing, memory, and communication. One recent projection put the
+ decline for $/bit and $/MIP at 99% per decade and put the decline for
+ $/bps at 90% per decade. Scalable parallel processor designs may
+ accelerate the cost declines for CPU and memory, but no similar
+ accelerated decline should be expected in the cost of communications.
+ Such a decline would imply eventual declines in the cost of 56Kbps
+ service used for voice, resulting in a negative rate of return for
+ telecommunications carriers, an unlikely eventuality even if free-
+ market forces are carried to their logical extreme.
+
+ Increases in processing power create additional demand for
+ communications bandwidth, but do nothing to pay for it. While we
+ will sell no paradigm before its time, the 9% difference,
+ particularly after compounding is taken into account, will bankrupt
+ the internet community unless a paradigm shift takes place.
+
+
+
+
+Richard & Kynikos [Page 1]
+
+RFC 1216 Gigabit Network Economics and Paradigm Shifts April 1991
+
+
+3. The ULS Paradigm Shift
+
+ The ULS paradigm shift breaks the downward spiral by concentrating on
+ end-to-end datagrams and virtual circuit services operating in the
+ .01 uGbps region, namely Ultra Low Speed networking.
+
+ However,
+
+ "The worlds best technological paradigm shifts are useless unless
+ they (a) are economically viable, (b) have clear applicability, (c)
+ are technically feasible."
+
+ --Milton John in "Paradigms Lost"
+
+3.1 Economic Viability
+
+ Cost projections indicate that individual ULS circuits can be
+ provided at a cost of <$.03/month due to the unusually high
+ multiplexing that will be possible on Gbit links. The 10 THz
+ bandwidth of existing optical fibers will be able to support on the
+ order of 1 TUser, handling population growth, and even internet
+ growth, for some time. Moreover, if $.03/month is a significant
+ barrier to entry, substantial discounts appear to be economically
+ feasible.
+
+3.2 Clear Applicability
+
+ A fundamental principle of networking is that network speed must
+ match the application. We have identified a number of critical
+ applications that are matched to ULS technology. Below we itemize a
+ few of these, but we provide a brief description for only the first;
+ the match for the others should be equally obvious.
+
+ - Low priority facsimile: A large percentage of documents and letters
+ are sent via facsimile not because they need sub-minute delivery,
+ but because they carry signatures or graphics. In these cases, a
+ three-hour delivery (comparable to the value reliably achieved on
+ many of today's packet-based email systems) is sufficient. With
+ proper compression, this delivery time can be achieved over a
+ ULSnet.
+
+ - Real time data (e.g., tracking glaciers)
+
+ - US postal service
+
+ - Contracting for research
+
+ To be truly viable, ULS networking must scale, and indeed it does.
+
+
+
+Richard & Kynikos [Page 2]
+
+RFC 1216 Gigabit Network Economics and Paradigm Shifts April 1991
+
+
+ With some effort, we envision extending the technology to the
+ extremely-low-speed regime. Applications that scale from the ULS
+ applications above are:
+
+ - Real time data (e.g., gravity wave detectors)
+ - Italian postal service
+ - Congressional budget process
+
+3.3 Technical Feasibility
+
+ The hardware issues are well in hand. The remaining issues are
+ protocol related. To examine them, we must extrapolate backward from
+ some well known networking principles.
+
+ "Gigabit networks require new protocols."
+
+ The clear inference here is that ULS will require old protocols, so
+ as we recede into the future, we should expect the following:
+
+ ULS will require minimal development. Although we may need research
+ in storage technology to recover the software from old media such as
+ decayed magnetic dump tapes, paper tape, and partially recycled card
+ decks, this effort will be more than offset by the savings.
+
+ ULS protocols will be well documented, amenable to verification, and
+ suitable for MSI implementation in Silicon, or even Germanium or
+ relays. In particular, the alternating bit protocol [1] is a leading
+ contender.
+
+ "Bad news travel fast."
+
+ Therefore, ULS gives preferential treatment to good news. While this
+ will delay the delivery of bills, notices from timeshare
+ condominiums, and contest announcements, it will also produce
+ immediate productivity gains on several mailing lists.
+
+3.4 Problems Requiring Work
+
+ ULS is not without problems.
+
+ Some other well-known protocol suites are well ahead of ULS in
+ exploring the desired performance operating point. We note our
+ concern about the dearth of domestic (U.S.-based) research and
+ development in this important area. This is particularly disturbing
+ in light of the level of work now underway in other countries.
+
+ Efficiency is a problem:
+
+
+
+
+Richard & Kynikos [Page 3]
+
+RFC 1216 Gigabit Network Economics and Paradigm Shifts April 1991
+
+
+ - All ULS protocols incorporate slow-start.
+
+ - Lower data rates mean fewer errors.
+
+ - Whereas modern protocols use 32 bit sequence numbers,
+ acknowledgment fields, etc., ULS headers can be quite small (1 bit
+ sequence numbers for the alternating-bit protocol). Thus the
+ header/data ratio shrinks.
+
+ The net result is "creeping efficiency" which tends to push us away
+ from the proper ULS operating point. While we have no definitive
+ solution, there are several promising palliatives:
+
+ - Forward Error Insertion (FEI)
+
+ - Negative window scaling factors
+
+ - New protocol layers
+
+ - Multiple presentation layers
+
+4. Conclusions
+
+ The road to Ultra Low Speed (ULS) technology is long, slow, and easy.
+
+REFERENCES and BIBLIOGRAPHY
+
+ [1] Lynch, W. "Reliable full-duplex file transmission over half-
+ duplex telephone lines", CACM, pp. 407-410, June 1968.
+
+Security Considerations
+
+ Security issues are not discussed in this memo.
+
+Authors' Addresses
+
+ Dr. Poorer Richard
+ Almanac Institute
+ Center against Misoneoism
+ Campo Imperatore, Italy
+ EMail: none
+
+
+ Prof. Kynikos
+ Miskatonic University
+ Arkham, MA.
+ Email: Kynikos@Cthulu.Miskatonic.EDU
+
+
+
+
+Richard & Kynikos [Page 4]
+ \ No newline at end of file