Polyglob: A system of datanodes associated multi-dimensionally as a
probability cloud, rather than as descrete members of a linked, ordered set. I
hypothesize this type of system will more accurately synthesize axons and
synapses than traditional schema systems. The focus being to produce
meaningful pseudo-random output with the trade-off being a less predictable,
less efficiently structured database. The system is intentionally corrupt in
essence to produce a simulation of animal consciousness. This system is based
on XPath axes, where each traversable axis is represented as a dimension.
When a request is processed by the core, a pseudo-random component is combined
with the certainty factorization of the request, thereby producing a vector in
a similar fashion as respectively, the complex and real components of a
complex number vector in the C programming language. The vector is the
determinant for selecting a datanode from the cloud. The datanode is then
returned a response.
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A manifold in hyperdimensions will be necessary to implement the Polyglob as I
have envisioned. To this end I have begun preliminary work on a java class
called Manifold which will in some way implement some proper functions of a
hyperdimensional manifold. The reason for this functionality is that each fold
in an xml (or parsed/marshalled object graph) can be represented as a
dimension of its own wherein the nodes (elements, members, fields, &c.) are
expressed fully. The Manifold then will form the skeleton of a Polyglob, in a
manner of speaking. More technically: the Manifold will provide a solid basis
component of the fuzzy system; the real component of a complex vector.
If you would like to refer to this comment somewhere else in this project, copy and paste the following link:
Polyglob: A system of datanodes associated multi-dimensionally as a
probability cloud, rather than as descrete members of a linked, ordered set. I
hypothesize this type of system will more accurately synthesize axons and
synapses than traditional schema systems. The focus being to produce
meaningful pseudo-random output with the trade-off being a less predictable,
less efficiently structured database. The system is intentionally corrupt in
essence to produce a simulation of animal consciousness. This system is based
on XPath axes, where each traversable axis is represented as a dimension.
When a request is processed by the core, a pseudo-random component is combined
with the certainty factorization of the request, thereby producing a vector in
a similar fashion as respectively, the complex and real components of a
complex number vector in the C programming language. The vector is the
determinant for selecting a datanode from the cloud. The datanode is then
returned a response.
A manifold in hyperdimensions will be necessary to implement the Polyglob as I
have envisioned. To this end I have begun preliminary work on a java class
called Manifold which will in some way implement some proper functions of a
hyperdimensional manifold. The reason for this functionality is that each fold
in an xml (or parsed/marshalled object graph) can be represented as a
dimension of its own wherein the nodes (elements, members, fields, &c.) are
expressed fully. The Manifold then will form the skeleton of a Polyglob, in a
manner of speaking. More technically: the Manifold will provide a solid basis
component of the fuzzy system; the real component of a complex vector.