Exponentially increasing demands for higher data
rates and quality of service cannot be satisfied by delivering more
power as higher power levels may reduce Signal
-
to
-
Interference
-
plus
-
Noise Ratio
(S
I
N
R)
with negative impact on overall system
performance
s
.
Simultaneously
, the continuous shrinking in
transistors size for denser
circuits
integration
, following
Moore’s
law,
will be constrained by the physical limits while the switching
energy is approaching the thermal noise spectral density.
The
resulting
thermal
cooling capacity in terms of energy per unit
time for given area will lead to a bottleneck.
This paper calls for
Energy
-
Geometry
-
Entropy
Co
-
design
tradeoffs for addressing
the challenges of emerging technologies
and
for
driving
innovative applications
relative to
interactions of
humans with smart devices
in
randomly
changing environments
.
«
Exponentially increasing demands for higher data
rates and quality of service cannot be satisfied by delivering more
power as higher power levels may reduce Signal
-
to
-
Interference
-
plus
-
Noise Ratio
(S
I
N
R)
with negative impact on overall system
performance
s
.
Simultaneously
, the continuous shrinking in
transistors size for denser
circuits
integration
, following
Moore’s
law,
will be constrained by the physical limits while the swi...
»