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Information Generating Project

Cornell tech currently relies on the information rich environment of NYC around entertainment, medical

to provide the fulcrum from which it plans to leverage its tech talent in a new way. An exciting

possibility of the new regime of teaching and industry and government is to actually generate yet

another information rich sector for society. The new idea is to link genetically historical information tocurrent purposive creativity, first in repairing unhealthy tissues , then in promoting more healthful living

and finally in interfacing to with natural physiology to enhance connections to ones built environment

concurrent communication technologies. To many this may sound like daydreaming but with the

motivational boost that Technions native community provides the ground is resting ready for in

construction of infinity computer technology interacting with DNA computers interfaced to living cells

made from 3-D printers that could socially evolve lamarkian-wise a new information rich component of

life that would self-assemble itself from Cornell Tech through NYC and beyond. The prior vision relies

on NYC while this uses NYC to better the world.

DNA computers offer a new computational regime more likely capable of interfacing with biological

tissue than electronic computers. In the construction of DNA computers compilers have been developed

to determine the molecular species needed for a given design but issues of infinity representations

compounds the practical implementations. It is even doubted whether the problem of deciding the

finitness of the formal basis of a given CRN (part of the compilation process) is decidable. Here the

grossone numerial system is used to manifest the infinites in decomposable pathway numbers.

Infinitesimal to Infinite functions across finite valuations are used to find finiteness of the formal basis of

any given CRN. A implementation on the infinity computer is shown.0

The design of the DNA computer will depend on the relation of the DNA to tissue functionality and goes

beyond current biotechnology in that it deals with the moving forces rather than the substances

themselves (genes, proteins). It is an engineering practice that manipulates programmatically internal

moving forces that while internal the body are external to the historically coded inheritable information

behind the expression of different substances.

This interface would be difficult to build under a purely industrial backing because it demands a

signfincant investment in a particular R&D program that only an academic environment can select to

undertake. It will determine what tech to bio interfacing will look like in the next 30 years and needs to

be invested in at that level or beyond to be worthwhile. Also it is not likely to be developed in a the

traditional academic model since the principal formal addition requires attention to a very unique

concept that is not used much in pure and not really at all in practical applicationsinfinity. The design

space of DNA computers however calls for with reliance on past digital philosophies such a relation to

math and the Technion connection makes this highly possible venture that would be hard to achieve in

some other institution and certainly not in those that unlike Cornell Tech are not trying to bring the

relation of idea creation and industrial application into one process rather than being spread out in a

sequence as it currently is being done in the Valley for instance. Cornell Weill Medical College is in a

great position to contribute expertise, information and input on how to work out the interface of the

Logics in the DNA computers to biochemical and physiological problems that can be interacted with.

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post industrial age (digital age) graduate school

Such an age is not simply one of entrepreneurial mindset. It is actually going

to be how the world globalizes as the population size moves on.

The technology for this may not be "digital" in the sense that there would have to be

a course on electron psychology. There will continue to be electronic digital technologies

but how the basic binary approach is made material need not be "digital" as the focus.

Sure the 1,0s may be the focus but it will be the force relations not the logic instantiations that

guide the post industrial age future. Digital as it is currently understood has its strength

in logic but it will be the interfaces between the technology and the material it is built from

and what it can build will be how a the best post industrial graduate school will learn to lead

all others.

The more prominent grad school will have faculty not necessarily linked to a given current economic

(corporate) bottom line. That line will depend on how humanity learns to stop fighting and start

cooperating because the proximity of people not the isolation will be deciding as the whole population

grows as well as when the industrial age technology degrades the Earth's material connectivity and

critically began to affect natural non-human populations that have otherwise sustained negative and

positive feedback loops that have been degraded by human technology. Digital technology will assist in

this but simply increasing the pace that ideas are converted to digital economies is not going to be the

center of the three hubs. It will be a transition to a new set of binary technologies that may include

quantum, chemical and biological as the social cooperation continues. IT cannot be passed on to the

next generation as one of competition succeeded and traditional game theory presented.

Concurrent development of the Infinity Computer with Interface Development via DNA computation

advances offers a way that all three hubs (connective media, built environment of the Cornell Proposal

can be gain said. This will open up a new technology category where electronic logic is connected

historical biological contingencies through molecular programming its inherently designed entropy

based logic gating mechanisms.

Metaphysics of infinityGreeksRussel CantorGame TheorySergev

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Relation to moving forcesCatholic Church refused Cantor but Technion can embrace applied infinity

since Church politics can be kept out. The interface is nothing but a kind of catalog o f the moving

forces available to heritable information organized by different lineages under evolution. It clearly

seperates teleology and teleonomy.

Use of infinity in making technology for molecular programming

Addtion of Grossone numeral system to accomplish molecular programming goals

Tasks of finding natural interfaces of DNA computers to biological funcationaliy

Electronic contacts,

Drug delivery,

Natural productivity (metabolite)increases,

Gene regulation interactivity,

Changsto meiotic efficiency

Increasing rates of netural evolution (through effects in recombination) into desigied network directions

for use in different environments

This creates a new technological information rich domain.

While it may be developed sequentionally without infinity involved a more organic and self-assemlyable

recursive version in more probable to reach beyond individual early adopters if infinity computing is

used to link the app across the teleology to teleomatic given the entropy dominant teleonomic. Only

constraint is entropy and evolution in general and entropy and infinity computer versioning in particular.

Those are the engineered parameters that worked around in the designs and taught as an academic

thingnot necessarily something industry would willingly come up with.