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Graphene-Based Computing: Nanoribbon Logic Gates & Circuits
Y. Jiang
Computer Engineering
Research output
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Thesis
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Dissertation (TU Delft)
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Computer Science
And Gate
100%
Logic Gate
100%
Computing
100%
Booleans
50%
Simulink
50%
Building-Blocks
50%
Born Approximation
50%
Full Adder
50%
Verilog
50%
Topology
50%
Boolean Logic
50%
Static Power
50%
INIS
nanostructures
100%
graphene
100%
control
10%
energy
10%
variations
10%
devices
10%
physics
10%
performance
10%
green function
10%
equilibrium
10%
electrons
5%
transfer functions
5%
design
5%
phonons
5%
power
5%
carbon
5%
born approximation
5%
maps
5%
dimensions
5%
economics
5%
simulation
5%
geometry
5%
nanoelectronics
5%
calculation methods
5%
implementation
5%
transport
5%
reliability
5%
shape
5%
acoustics
5%
spices
5%
topology
5%
electron-phonon coupling
5%
structures (buildings)
5%
size
5%
logic circuits
5%
Material Science
Logic Gate
100%
Graphene
100%
Nanoribbon
100%
Temperature
10%
Electronic Circuit
10%
Devices
10%
Nanoelectronics
5%
Electron Transfer
5%
Electronic Property
5%
Electrical Property
5%
Engineering
Gate Circuit
100%
Characteristics
10%
Networks (Circuits)
10%
Energy Engineering
10%
Acoustic Phonon
5%
Models
5%
SPICE
5%
Logic Circuit
5%
Electronics
5%
Maps
5%
Matlab-Simulink
5%
Phonon Interaction
5%
Building Block
5%
Feature Size
5%