VLSI
ECE PROJECTS (2020-2021)
| S. NO. | TOPIC NAME | DOWNLOAD |
| DST VLSI 01 |
A Decoder for Short BCH Codes With High Decoding Efficiency and Low Power for Emerging Memories |
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| DST VLSI 02 |
Approximate Reverse Carry Propagate Adder for Energy-Efficient DSP Applications |
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| DST VLSI 03 |
Architecture Optimization and Performance Comparison of Nonce-Misuse-Resistant Authenticated Encryption Algorithms |
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| DST VLSI 04 |
TOSAM:AnEnergy-EfficientTruncation-andRounding-BasedScalableApproximate Multiplier |
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| DST VLSI 05 |
Design And Analysis Of Approximate Redundant Binary Multipliers. |
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| DST VLSI 06 |
Rounding Technique Analysis Of Power-Area & Energy Efficient Approximate Multiplier Design |
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| DST VLSI 07 |
A Combined Arithmetic-High-Level Synthesis Solution to Deploy Partial Carry-Save Radix-8 Booth Multipliers in Datapath. |
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| DST VLSI 08 |
Low Power High Accuracy Approximate Multiplier Using Approximate High Order Compressors. |
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| DST VLSI 09 | Efficient Modular Adder Designs Based on Thermometer & One-Hot Encoding |
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| DST VLSI 10 |
Error Detection And Correction In SRAM Emulated TCAMs |
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| DST VLSI 11 |
Efficient Design For Fixed Width Adder Tree |
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| DST VLSI 12 |
Area –Time Efficient Streaming Architecture For Architecture For FAST And BRIEF Detector |
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| DST VLSI 13 |
Hard Ware Efficient Post Processing Architecture For True Random Number Generators |
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| DST VLSI 14 |
A Two Speed Radix -4 Serial –Parallel Multiplier |
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| DST VLSI 15 |
Low power approximate unsigned multipliers with configurable error recovery |
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| DST VLSI 16 |
Energy Quality Scalable Adders Based On Non Zeroing Bit Truncation |
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| DST VLSI 17 |
Double MAC On A DSP Boosting The Performance Of Convolutional Neural Networks On FPGAS |
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| DST VLSI 18 |
A Low-Power Parallel Architecture for Linear Feedback Shift Registers |
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| DST VLSI 19 |
Ultra-low-voltage GDI-based hybrid full adder design for area and energy-efficient computing systems |
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| DST VLSI 20 |
Design Of Area Efficient And Low Power 4-Bit Multiplier Based On Full- swing GDI technique |
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| DST VLSI 21 |
Multistage Linear Feedback Shift Register Counters With Reduced Decoding Logic in 130-nm CMOS for Large-Scale Array Applications |
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| DST VLSI 22 |
Low-Power Near-Threshold 10T SRAM Bit Cells With Enhanced Data-Independent Read Port Leakage for Array Augmentation in 32-nm CMOS |
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| DST VLSI 23 |
Column selection enabled 10 T SRAM utilizing shared diff VDD WRITE and dropped VDD read for FFT on real data. |
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| DST VLSI 24 |
Cell-state-distribution –assisted threshold voltage detector for NAND flash memory |
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| DST VLSI 25 |
Efficient VLSI Implementation of a Sequential Finite Field Multiplier Using Reordered Normal Basis in Domino Logic |
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| DST VLSI 26 |
An Approach to LUT Based Multiplier for Short Word Length DSP Systems |
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| DST VLSI 27 |
Novel High speed Vedic Multiplier proposal incorporating Adder based on Quaternary Signed Digit number system |
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| DST VLSI 28 |
FPGA Implementation of an Improved Watchdog Timer for Safety-critical Applications |
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| DST VLSI 29 |
Unbiased Rounding for HUB Floating-point Addition |
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| DST VLSI 30 |
A Low-Power Yet High-Speed Configurable Adder for Approximate Computing |
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| DST VLSI 31 |
A Low-Power High-Speed Accuracy-Controllable Approximate Multiplier Design |
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| DST VLSI 32 |
The Design and Implementation of Multi – Precision Floating Point Arithmetic Unit Based on FPGA |
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| DST VLSI 33 |
Extending 3-bit Burst Error-Correction Codes With Quadruple Adjacent Error Correction |
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| DST VLSI 34 |
Efficient Modular Adders based on Reversible Circuits |
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| DST VLSI 35 |
MAES: Modified Advanced Encryption Standard for Resource Constraint Environments |
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| DST VLSI 36 |
Chip Design for Turbo Encoder Module for In-Vehicle System |
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| DST VLSI 37 |
Low-Power and Fast Full Adder by Exploring New XOR and XNOR Gates |
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| DST VLSI 38 |
Low Power 4×4 Bit Multiplier Design using Dadda Algorithm and Optimized Full Adder |
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| DST VLSI 39 |
Low Leakage Fully Half-Select-Free Robust SRAM Cells with BTI Reliability Analysis |
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| DST VLSI 40 |
Improved 64-bit Radix-16 Booth Multiplier Based on Partial Product Array Height Reduction |
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| DST VLSI 41 |
Clock-Gating of Streaming Applications for Energy Efficient Implementations on FPGAs |
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| DST VLSI 42 |
An Improved DCM-Based Tunable True Random Number Generator for Xilinx FPGA |
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| DST VLSI 43 |
RoBA Multiplier: A Rounding-Based Approximate Multiplier for High-Speed yet Energy-Efficient Digital Signal Processing |
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| DST VLSI 44 |
DLAU: A Scalable Deep Learning Accelerator Unit on FPGA |
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| DST VLSI 45 |
Overloaded CDMA Crossbar for Network-On-Chip |
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| DST VLSI 46 |
Design of Power and Area Efficient Approximate Multipliers |
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| DST VLSI 47 | Scalable Approach for Power Droop Reduction During Scan-Based Logic BIST |
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| DST VLSI 48 | Design of Low-Power High-Performance 2-4 and 4-16 Mixed-Logic Line Decoders. |
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| DST VLSI 49 | Performance Analysis of a Low-Power High-Speed Hybrid 1-bit Full Adder Circuit |
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| DST VLSI 50 | 12T Memory Cell for Aerospace Applications in Nano scale CMOS Technology |
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| DST VLSI 51 | Pre-Encoded Multipliers Based on Non-Redundant Radix-4 Signed-Digit Encoding |
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| DST VLSI 52 | Flexible DSP Accelerator Architecture Exploiting Carry-Save Arithmetic |
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| DST VLSI 53 | Low-Cost High-Performance VLSI Architecture for Montgomery Modular Multiplication |
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| DST VLSI 54 | A High-Speed FPGA Implementation of an RSD-Based ECC Processor |
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| DST VLSI 55 | Hybrid LUT/Multiplexer FPGA Logic Architectures |
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| DST VLSI 56 | In-Field Test for Permanent Faults in FIFO Buffers of NOC Routers |
INSIGHT
