Paper PublishingAccuracy-Configurable Radix-4 Adder with a Dynamic Output Modification Scheme
Also Available Domains Transistor Logic|Cadence EDA
Abstract
Approximate computing is an efficient approach for reducing computational costs. This method involves a trade-off between computational accuracy and the circuit’s power consumption, delay, and area. However, the accuracy requirements may differ for different applications. In some situations, precise results are required. Therefore, this paper proposes an accuracy-configurable radix-4 adder (ACRA), which uses the power gating technique to turn on or turn off the partial logic gates of an adder element dynamically to compute accurate or approximate results. When the ACRA operates in the approximate mode, the partial sum of one adder element is modified to reduce the error distance between the approximate and accurate results.
NOTE: Without the concern of our team, please don't submit to the college. This Abstract varies based on student requirements.
Block Diagram
Specifications
Specifications:
Software Requirements:
- Tanner EDA
- Technology files: 45nm
Hardware Requirements:
- Microsoft® Windows XP
- Intel® Pentium® 4 processor or Pentium 4 equivalent with SSE support
- 512 MB RAM
- 100 MB of available disk space
Learning Outcomes
- Introduction to Adders
- Types of Adders
- Limitations & Applications.
- Introduction to ACRA.
- Knowledge on Approximate adders.
- Knowledge on Accurate adders
- Knowledge on Power gating Technique
- Introduction to Radix -4 adder
- Knowledge of designing radix -4 adder
- Radix -4 adder
- Radix-4 adder based on multiplexers
- Importance of Transistors
- MOS Fundamentals
- NMOS/PMOS/CMOS Technologies
- How to design circuits using Transistor logic?
- Transistor level design for ACRA & Radix-4 adder
- How to design n-bit adder using ACRA with Power Gating Technique?
- Introduction to Analog Electronics
- Importance of Two stage Power Gating Technique & ACRA
- Scope of ACRA in today’s world
- Applications in Real time.
- Tanner EDA tool for design and simulation
- Solution providing for real time problems
- Project Development Skills
- Problem Analysis Skills
- Problem Solving Skills.
- Logical Skills
- Designing Skills
- Testing Skills
- Debugging Skills
- Presentation skills
- Thesis Writing Skills
Request Call Back
Would you like to receive a free callback now?
Choose the best time for callback:
Leave your message and we will contact you as soon as possible
Disclaimer - Takeoff Edu Group Projects, are not associated or affiliated with IEEE, in any way. The IEEE Projects mentioned here are mentioned in the context of student projects, whose ideas are derived from IEEE publications, and not projects of or by IEEE.
