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reliability

Reliability is the probability that a system or component will perform its required function under stated conditions for a specified period of time, without failure. It applies to hardware, software, and human-involved processes and is a key consideration in design, production, and operation.

Core concepts include the reliability function R(t) = P(T > t), where T is the time to failure,

Applications and tools include reliability prediction, accelerated life testing, life data analysis, reliability block diagrams, and

Maintenance and policy approaches such as reliability-centered maintenance (RCM) use reliability information to determine appropriate inspection,

and
the
hazard
rate
λ(t).
In
simple
models,
constant
failure
rate
yields
exponential
reliability
R(t)
=
e^{-λ
t}.
Real
systems
are
often
described
by
distributions
such
as
the
Weibull,
which
can
capture
early
failures,
steady
operation,
and
wear-out.
The
bathtub
curve
summarizes
these
life
phases.
Average
measures
include
mean
time
between
failures
(MTBF)
and,
for
serviceable
systems,
repair
time
MTTR,
with
availability
A
=
MTBF
/
(MTBF
+
MTTR)
in
steady
state.
fault
trees.
These
support
design
decisions,
testing
programs,
and
maintenance
planning.
Reliability
engineering
emphasizes
design-for-reliability,
component
quality,
redundancy,
fault
tolerance,
and
robust
software
engineering
practices
to
reduce
failure
probability.
repair,
or
replacement
actions.
Reliability
is
a
component
of
overall
quality
and
is
distinct
from,
but
related
to,
durability
and
maintainability.
It
guides
product
development,
risk
assessment,
and
resource
allocation
across
industries.