2018 2019 IEEE Vlsi Projects , 2018 2019 IEEE Vlsi Project centers in Chennai

IEEE VLSI Projects 2018 - 2019


IEEE VLSI Projects 2018 - 2019


ABOUT VLSI PROJECTS

Vlsi technology has succeeded in developing a forceful modification in our everyday existence from 1st era computer systems to today’s smartphone. vlsi 2018 2019 ieee projects in preference to accommodating extra circuits within the machine, accomplice in nursing integration technology became evolved to extend the quantity of components that square degree to be placed on one chip.
This generation not completely helped to scale back the dimensions of the devices however additionally progressed their velocity. in past days during the electronic tool era, the size of electronic devices were brobdingnagian, needed extra electricity. consequently there has been truly a need to reduce the dimensions of these devices and their temperature discount,as a result the growth of vlsi technology has improved.
The trend in fashion associate in nursingd generating of terribly large scale microcircuit shows an in development pass towards vlsi task centers smaller devices on growing wafer dimensions. vlsi circuits square degree used everyplace, actual programs encompass microprocessors in an exceedingly pocket book laptop or virtual computer, chips in a really image card, camera or television digital camera, chips in an incredibly cellphone or a transportable computing device, accomplice in nursingd embedded processors in an automobile.



1.A Modified Partial Product Generator for Redundant Binary Multipliers

2.An Efficient Hardware Implementation of Canny Edge Detection Algorithm

3.Approximate Radix-8 Booth Multipliers for Low-Power and High-Performance Operation

4.A High-Performance FIR Filter Architecture for Fixed and Reconfigurable Applications

5.The Serial Commutator (SC) FFT

6.An Improved Signed Digit Representation Approach for Constant Vector Multiplication

7.High-Speed and Energy-Efficient Carry Skip Adder Operating Under a Wide Range of Supply Voltage Levels

8.A New XOR-Free Approach for Implementation of Convolutional Encoder

9.Energy and Area Efficient Three-Input XOR/XNORs With Systematic Cell Design Methodology

10.Approximate Radix-8 Booth Multipliers for Low-Power and High-Performance Operation

11.Implementation of a PID control PWM Module on FPGA

12.Built-in Self Testing of FPGAs

13.An FPGA-Based Cloud System for Massive ECG Data Analysis

14.Distributed Sensor Network-on-Chip for Performance Optimization of Soft-Error-Tolerant Multiprocessor System-on-Chip

15.VLSI Implementation of Fully Parallel LTE Turbo Decoders

16.A High Throughput List Decoder Architecture For Polar Codes

17.High-Performance NB-LDPC Decoder With Reduction of Message Exchange

18.A High-Speed FPGA Implementationof an RSD-Based ECC Processor

19.Low-Power ECG-Based Processor forPredicting Ventricular Arrhythmia

20.In-Field Test for Permanent Faults in FIFO Buffers of NoC Routers

21.Configurable Parallel Hardware Architecture forEfficient Integral Histogram Image Computing

22.Input-Based Dynamic Reconfiguration of Approximate Arithmetic Units for Video Encoding

23.A Normal I/O Order Radix-2 FFT Architecture to ProcessTwin Data Streams for MIMO

24.Unequal-Error-Protection Error Correction Codes for theEmbedded Memories in Digital Signal Processors

25.A High-Performance FIR Filter Architecture forFixed and Reconfigurable Applications

26.Hybrid LUT/Multiplexer FPGA Logic Architectures

27.A Dynamically Reconfigurable Multi-ASIP Architecture forMultistandard and Multimode Turbo Decoding

28.Low-Power Split-Radix FFT Processors Using Radix-2 Butterfly Units

29.A Fully Digital Front-End Architecture for ECGAcquisition System With 0.5 V Supply

30.A Low-cost and Modular Receiver for MIMO SDR

31.High-Speed, Low-Power, and Highly Reliable Frequency Multiplier for DLL-Based Clock Generator

32.Frequency-Boost Jitter Reduction forVoltage-Controlled Ring Oscillators

33.Low-Energy Power-ON-Reset Circuit for Dual Supply SRAM

34.Low-Power Variation-Tolerant Nonvolatile Lookup Table Design

35.A Low-Power Robust Easily CascadedPentaMTJ-Based Combinational and Sequential Circuits

36.A 0.1–3.5-GHz Duty-Cycle Measurement andCorrection Technique in 130-nm CMOS

37.Full-Swing Local Bitline SRAM ArchitectureBased on the 22-nm FinFET Technology for Low-Voltage Operation

38.A Robust Energy/Area-Efficient Forwarded-ClockReceiver With All-Digital Clock and Data Recovery in 28-nm CMOS for High-Density Interconnects

39.OTA-Based Logarithmic Circuit for ArbitraryInput Signal and Its Application

40.A Single-Ended With Dynamic Feedback Control8T Subthreshold SRAM Cell

41.Graph-Based Transistor Network GenerationMethod for Supergate Design

42.Implementing Minimum-Energy-Point SystemsWith Adaptive Logic

43.A 0.52/1 V Fast Lock-in ADPLL for Supporting DynamicVoltage and Frequency Scaling


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