• +919751800789
  • 1croreprojects@gmail.com
  • Chennai, Tamilnadu

2017 – 2018 IEEE VLSI PROJECTS

Welcome to 1 Crore Project Centre Chennai, your trusted destination for top-tier 2017-2018 IEEE VLSI projects. With a commitment to excellence and a passion for innovation, we take pride in leading the way in the field of VLSI (Very-Large-Scale Integration). Our Chennai-based center is equipped with the latest resources and staffed by experienced professionals who are ready to help you realize your VLSI project dreams.

Our focus is on 2017-2018 IEEE VLSI projects, harnessing the latest advancements in Very-Large-Scale Integration to develop cutting-edge solutions. We understand the importance of staying ahead in this ever-evolving field, and our projects reflect that dedication. Whether you’re a student looking for a challenging project or a company seeking VLSI expertise, 1 Crore Project Centre Chennai is here to provide tailored solutions that meet your specific needs.

At 1 Crore Project Centre Chennai, we combine technical excellence with a customer-centric approach. We believe in not only meeting but exceeding your expectations. When you choose us, you’re choosing a partner committed to your success in the world of VLSI. Join us on this exciting journey of exploration and innovation as we pave the way for the future through our 2017-2018 IEEE VLSI projects.

IEEE VLSI Projects Title

  • A Modified Partial Product Generator for Redundant Binary Multipliers
  • An Efficient Hardware Implementation of Canny Edge Detection Algorithm
  • Approximate Radix-8 Booth Multipliers for Low-Power and High-Performance Operation
  • A High-Performance FIR Filter Architecture for Fixed and Reconfigurable Applications
  • The Serial Commutator (SC) FFT
  • An Improved Signed Digit Representation Approach for Constant Vector Multiplication
  • High-Speed and Energy-Efficient Carry Skip Adder Operating Under a Wide Range of Supply Voltage Levels
  • A New XOR-Free Approach for Implementation of Convolutional Encoder
  • Energy and Area Efficient Three-Input XOR/XNORs With Systematic Cell Design Methodology
  • Implementation of a PID control PWM Module on FPGA
  • Built-in Self Testing of FPGAs
  • An FPGA-Based Cloud System for Massive ECG Data Analysis
  • Distributed Sensor Network-on-Chip for Performance Optimization of Soft-Error-Tolerant Multiprocessor System-on-Chip
  • VLSI Implementation of Fully Parallel LTE Turbo Decoders
  • A High Throughput List Decoder Architecture For Polar Codes
  • High-Performance NB-LDPC Decoder With Reduction of Message Exchange
  • A High-Speed FPGA Implementationof an RSD-Based ECC Processor
  • Low-Power ECG-Based Processor forPredicting Ventricular Arrhythmia
  • In-Field Test for Permanent Faults in FIFO Buffers of NoC Routers
  • Configurable Parallel Hardware Architecture forEfficient Integral Histogram Image Computing
  • Input-Based Dynamic Reconfiguration of Approximate Arithmetic Units for Video Encoding
  • A Normal I/O Order Radix-2 FFT Architecture to ProcessTwin Data Streams for MIMO
  • Unequal-Error-Protection Error Correction Codes for theEmbedded Memories in Digital Signal Processors
  • A High-Performance FIR Filter Architecture forFixed and Reconfigurable Applications
Reach Us