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journal article EST
/
journal article ENG
Split-chip design to prevent IP reverse engineering
Pagliarini, Samuel Nascimento
;
Sweeney, Joseph
;
Mai, Ken
;
Blanton, Shawn
;
Mitra, Subhasish
;
Pileggi, Larry
IEEE Design and Test
2020
/
p. 109-118
https://doi.org/10.1109/MDAT.2020.3033255
Journal metrics at Scopus
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journal article EST
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journal article ENG
Number of records 1, displaying
1 - 1
keyword
128
1.
IP networks
2.
Georgia’s and Estonia’s legislative frameworks in IP commercialisation
3.
IP attacks
4.
IP commercialisation
5.
IP obfuscation
6.
IP protection
7.
IP theft
8.
IP~theft
9.
adaptive networks
10.
ad-hoc sensor networks security
11.
artificial neural networks
12.
artificial neural networks (ANN)
13.
automotive communication networks
14.
Bayesian Belief Networks
15.
Bayesian networks
16.
binary search networks
17.
binary sensor networks
18.
body area networks
19.
body sensor networks
20.
cellular networks
21.
communication networks
22.
complex networks
23.
computer networks
24.
constrained artificial neural networks
25.
Constrained neural networks
26.
content distribution networks
27.
content-addressable storage networks
28.
convolutional networks
29.
convolutional neural networks
30.
convolutional neural networks (CNNa)
31.
Convolutional Neural Networks (CNNs)
32.
cross-border communication networks
33.
decentralized content-addressable storage (DCAS) networks
34.
deep neural networks
35.
deep neural networks (DNNs)
36.
developmental networks
37.
diffusion networks
38.
digital twin networks (DTNs)
39.
distribution networks
40.
district heating networks
41.
Dynamic networks
42.
dynamics over networks
43.
ecological networks
44.
economic networks
45.
electric power transmission networks
46.
electrical distribution networks
47.
electrical networks
48.
embedded networks/NoC
49.
Fuzzy neural networks
50.
gateways (computer networks)
51.
generative adversarial networks
52.
geodetic networks
53.
global production networks
54.
graph attention networks
55.
graph convolutional networks
56.
graph neural networks
57.
heating and cooling networks
58.
heating networks
59.
hypar-formed networks
60.
IaaS cloud networks
61.
Impedance-source networks
62.
innovation networks
63.
iterative networks
64.
knowledge networks
65.
location-based social networks
66.
logistics networks
67.
Long Short-Term Memory Networks (LSTMs)
68.
low voltage networks
69.
low-voltage networks
70.
lumped parameter networks
71.
marketing networks
72.
metabolic networks and pathways
73.
mobile actuator-sensor networks (MAS-Net)
74.
multilayer networks
75.
multilayer neural networks
76.
NB-IoT networks
77.
networks
78.
networks coding
79.
neural networks
80.
neural-networks
81.
neuro-fuzzy networks and guided missile
82.
non-terrestrial networks
83.
observational networks
84.
on-body networks (BANs)
85.
Online social networks
86.
Optical fiber networks
87.
optical fibre networks
88.
optical networks
89.
optimized routing approach for critical and emergency networks
90.
optimized routing approach for critical and emergency networks simulations
91.
packet switched networks
92.
partner networks
93.
Passive networks
94.
phantom cellular networks
95.
pre-trained neural networks
96.
private networks
97.
production networks
98.
Public safety networks
99.
public safety networks (PSN)
100.
public safety networks (PSNs)
101.
reconfigurable scan networks
102.
recurrent neural networks
103.
recurrent neural networks (RNN)
104.
regional innovation networks
105.
scale-free networks
106.
sensor networks
107.
small district heating networks
108.
SME networks
109.
social networks
110.
social networks
111.
software defined networks (SDN)
112.
sorting networks
113.
supply networks
114.
transmission networks
115.
unreliable wireless networks
116.
WBANs (wireless body area networks)
117.
wearable wireless networks
118.
wearable wireless networks (WWNs)
119.
weighted networks
120.
wireless ad hoc sensor networks
121.
Wireless Body Area Networks
122.
wireless body area networks (WBANs)
123.
wireless body-to-body networks (BBN)
124.
wireless networks
125.
wireless sensor networks
126.
virtual networks
127.
5G networks
128.
5G networks
author
1
1.
Boglaev, I.P.
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