From: adacrypt on
I have opened a new website to promote the invention of this new
cryptography.

http://www.scalarcryptography.co.uk - see title box there for "
Scalable Key Cryptography"

Scalable key Cryptography
An excursion into modular arithmetic enables a configurable encryption
template that provides a copious supply of random keys. Initializing
the procuring function at a suitable starting value has a knock-on
effect on the number of keys obtained – producing a ‘dilating key-
string’ effect.
This cryptography is underpinned simultaneously by both randomness and
by the methodology of trapdoor cryptography, the latter emanates from
the concept of mutual databases being used in conjunction with this
new modular design of cipher. This scalar cipher is ‘theoretically
unbreakable’ by definition and can be mathematically proven. Five
versions of the same basic algorithm are available with as many
management modes. The prototype cipher is written for ASCII in the
western world, it is entirely extensible to the whole of Unicode
however, in the long-term future of secure communications globally.
This latter is done simply by recalculating the appropriate parameters
to be applied for the language in question being encrypted using the
same algorithm as is used here. The five versions enumerated are up
and running as workable ciphers ready for commissioning in mainstream
cryptography. Each cipher is secured by two and sometimes three
random keys for good measure. All the boxes have been ticked twice to
clinch the claims made.

Happy Christmas to all - adacrypt

From: Tom St Denis on
On Dec 23, 10:07 am, adacrypt <austin.oby...(a)hotmail.com> wrote:
> Scalable key Cryptography
> An excursion into modular arithmetic enables a configurable encryption
> template that provides a copious supply of random keys.  Initializing
> the procuring function at a suitable starting value has a knock-on
> effect on the number of keys obtained – producing a ‘dilating key-
> string’ effect.

I thought only vectors were the way to go? Now you're using SCALARS?
NIGHT HAS BECOME DAY!!!

Tom
From: adacrypt on
On Dec 23, 5:26 pm, Tom St Denis <t...(a)iahu.ca> wrote:
> On Dec 23, 10:07 am, adacrypt <austin.oby...(a)hotmail.com> wrote:
>
> > Scalable key Cryptography
> > An excursion into modular arithmetic enables a configurable encryption
> > template that provides a copious supply of random keys.  Initializing
> > the procuring function at a suitable starting value has a knock-on
> > effect on the number of keys obtained – producing a ‘dilating key-
> > string’ effect.
>
> I thought only vectors were the way to go?  Now you're using SCALARS?
> NIGHT HAS BECOME DAY!!!
>
> Tom

Guilty your honour - Yes it would appear that this is a climb down -
no excuses - what I have been saying is that the traditional number-
line has such a predictable structure i.e. 7 follows 6. 8 follows 7
etc that it is tansparent to the point of being totally indelible and
impossible to make secure in cryptography. This new cryptography
overcomes that because the numbers are spaced wildy, uneven and
sometimes go down instead of up in spurious fashion- I didn't set out
with any vision of that happening but it works out that way. Yes Tom
I am quite happy to be wrong if it means progress - vector
cryptography is still the bee's knees - this scalar cryptography is
not in competition with it - it is a reprieve for scalar crypto as
such .- it is another string to the same bow - winning arguments is
secondary - Thanks for your interest anyway ** this scalar
cryptography is seriously good also - it is very suitable for
programming in C++ if anyone wants to do that - let me know - regards
- Austin
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