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CIN23

CIN23 is a fictional designation used in speculative science fiction and collaborative worldbuilding to refer to a modular, distributed cognitive-integrations network designed for autonomous agents. The acronym CIN23 stands for Cognitive Integration Network, model 23, and it is presented as a reference architecture rather than a specific device or product.

Overview and structure

In the CIN23 concept, the network comprises 23 interacting modules that collectively handle perception, reasoning, planning,

Origins and usage

CIN23 appears primarily in collaborative-fiction communities and worldbuilding projects as a convenient blueprint for imagining distributed

Reception and caveats

Scholars and hobbyists commonly acknowledge CIN23 as a hypothetical construct rather than a real technology. Critics

See also

Chromosomal instability (CIN) in biology is unrelated to CIN23 and is listed here for clarity. Related topics

learning,
action,
memory,
and
safety.
The
modules
are
described
as
loosely
coupled
but
highly
interoperable,
communicating
through
a
standardized
message
protocol
and
an
event-sourced
shared
memory.
The
architecture
emphasizes
modularity,
allowing
individual
components
to
be
updated
or
replaced
without
disrupting
the
whole
system,
and
it
incorporates
fault
tolerance
and
secure
inter-agent
communication
as
core
principles.
intelligent
systems.
It
is
frequently
used
as
a
teaching
aid
to
discuss
topics
such
as
system
interoperability,
governance,
safety
measures,
and
the
challenges
of
scaling
cognitive
architectures.
Because
CIN23
is
not
an
officially
adopted
standard,
its
specifics
vary
across
authors
and
projects,
serving
more
as
a
conceptual
canvas
than
a
concrete
implementation.
point
out
that
the
term
can
be
vague
and
sometimes
conflated
with
real
distributed-AI
research
without
providing
actionable
specifications.
As
a
result,
CIN23
functions
primarily
as
a
storytelling
and
thought-experiment
tool
rather
than
a
technical
standard.
include
cognitive
architectures,
distributed
artificial
intelligence,
and
modular
system
design.