Keyphrases
Low Power
100%
Energy Efficient
63%
Energy Efficiency
44%
In-memory Computing
36%
Algorithmic Noise Tolerance
35%
Energy Saving
30%
Processing-In-Memory Architectures
29%
Power Saving
28%
Error Resilience
26%
Decoder
25%
Power Dissipation
25%
Adaptive Filter
24%
Statistical Error Compensation
23%
Supply Voltage
23%
Analog-to-digital Converter
23%
Bit Error Rate
22%
Voltage Limit
21%
VLSI Architecture
21%
CMOS Process
20%
Pipelined Architecture
20%
Equalizer
20%
Proposed Architecture
19%
Deep Submicron
19%
Transition Activity
18%
In-memory
18%
Signal-to-noise Ratio
17%
Algorithm Transformation
17%
CMOS Technology
17%
Low-density Parity-check Codes
16%
Process Variation
16%
Power Reduction
16%
Power Delay Product
15%
High-throughput
15%
Filter Architecture
15%
Signal Processing
15%
Deep Neural Network
14%
Digital Signal Processing
14%
Encoder-decoder Architecture
13%
Coding Scheme
13%
Noise Tolerance
13%
Dynamic Algorithms
13%
Power Adaptive
12%
Encoder
12%
Error Compensation
12%
Noise-tolerant
12%
Circuit Techniques
12%
Order of Magnitude
12%
On-chip Bus
11%
Bitline
11%
Soft Output
11%
Engineering
Noise Tolerance
48%
Equalizers
38%
Energy Dissipation
37%
Energy Efficiency
36%
Signal-to-Noise Ratio
30%
Supply Voltage
29%
Simulation Result
28%
Error Compensation
26%
Adaptive Filter
25%
Analog-to-Digital Converter
25%
Bit Error Rate
23%
Statistical Error
20%
Error Rate
16%
Crosstalk
16%
Transceiver
15%
Learning System
14%
Automatic Teller Machines
14%
Nanoscale
13%
Soft Error
13%
Communication System
13%
Digital Signal Processing
13%
Critical Path
11%
Voltage Scaling
11%
Pulse Code Modulation
11%
Output Signal
11%
Error Cancellation
11%
Digital Filter
11%
Dot Product
10%
Integrated Circuit
10%
Hardware Overhead
10%
Moore's Law
10%
Forward Error-Correction
10%
IIR Filter
10%
Noise Immunity
10%
Error Correction
9%
Posteriori Probability
9%
Finite Impulse Response Filter
9%
Operating Point
9%
Performance Degradation
9%
Soft Output
9%
Parity Check Code
9%
Communication Link
9%
Metrics
8%
Joints (Structural Components)
8%
Coding Gain
8%
Fundamental Limit
8%
Area Overhead
8%
Electric Power Utilization
8%
Digital Filtering
7%
Fine Grain
7%
Computer Science
Energy Efficient
52%
Energy Efficiency
47%
Energy Dissipation
40%
Memory Architecture
30%
Computer Hardware
29%
Noise-to-Signal Ratio
27%
Pipelining
25%
Analog-to-Digital Converter
21%
Input/Output
21%
Computer Architecture
21%
Supply Voltage
18%
Machine Learning
18%
Very large-scale integration (VLSI) architecture
17%
Learning System
17%
High Throughput
17%
pipelined architecture
16%
Adaptive Filter
16%
Deep Neural Network
15%
Digital Signal Processing
12%
Conventional Architecture
12%
Local Area Network
11%
Soft Error
11%
Convolutional Neural Network
11%
Coder
11%
Neural Network
11%
low-density parity-check code
11%
Tolerance Technique
10%
Error Correction
10%
Process Variation
10%
Encoding Scheme
10%
Fundamental Limit
10%
Energy Delay Product
9%
Power Consumption
9%
Digital Filtering
8%
Integrated Circuit
8%
Energy Consumption
8%
Message Passing
8%
Decoding Algorithm
8%
Experimental Result
8%
Error Control
8%
Intersymbol Interference
8%
Performance Degradation
8%
Deep Learning Method
8%
Digital Filter
8%
Transition Signal
8%
Hardware Overhead
8%
Posteriori Probability
7%
Machine Learning Algorithm
7%
Fixed Points
7%
Support Vector Machine
7%