Home

balancers

Balancers are devices or systems designed to distribute loads, weights, or tasks to achieve a stable equilibrium and improved performance, reliability, or efficiency. The concept spans multiple domains, including mechanical engineering, transportation, and information technology, where balancing helps reduce vibration, wear, or overload on components and services.

In mechanical and automotive contexts, balancers address static and dynamic imbalances. Static balancing corrects weight distribution

In information technology, a load balancer distributes client requests or network traffic across multiple servers or

Beyond these domains, the term may appear in other specialized balancing contexts, such as balancing processes

around
the
rotation
axis
to
prevent
a
net
turning
moment
when
stationary,
while
dynamic
balancing
accounts
for
forces
that
arise
during
rotation
to
minimize
vibration.
Balancing
is
performed
with
specialized
equipment
that
measures
imbalance
and
adds
or
removes
weight
accordingly.
Wheel
balancing
is
a
common
automotive
application,
where
sensors
and
balancing
machines
adjust
tire
and
wheel
assemblies
to
reduce
vibration,
improve
ride
quality,
and
extend
tire
life.
resources.
The
goal
is
to
optimize
resource
use,
maximize
throughput,
minimize
response
time,
and
ensure
high
availability.
Load
balancers
can
be
hardware
appliances
or
software-based
and
may
operate
at
different
layers,
such
as
layer
4
(transport)
or
layer
7
(application).
Common
distribution
strategies
include
round
robin,
least
connections,
and
IP-hash.
They
typically
perform
health
checks
to
detect
failing
servers
and
may
offer
features
such
as
session
persistence,
SSL
termination,
and
integration
with
auto-scaling
systems.
within
software
systems
or
maintaining
balanced
conditions
in
experimental
setups.
Overall,
balancers
serve
to
distribute
load
or
weight
to
prevent
overload,
reduce
wear,
and
improve
stability
and
performance.