ISSN No:2250-3676 ----- Crossref DOI Prefix: 10.64771
Scholarly Peer Reviewed and Fully Referred Open Access Multidisciplinary Monthly Research Journal
OPTIMIZED DESIGN OF ULTRA-FAST PIPELINE FIR FILTERS THROUGH CRITICAL PATH EVALUATION AND ENHANCEMENTID: 1829 Abstract :In Digital Signal Processing, A FIR (finite Impulse Response) Is A Filter Whose Impulse Response Is Of Finite Duration, And, Thus, Settles To Zero In A Finite Amount Of Time. This Is Often Compared To IIR Filters, Which Potentially Can Respond Infinitely, Even With Internal Feedback. In This Paper, A New Hardware Design Of A High-speed FIR Filter Using Fine-grained Seamless Pipelining Technique Is Proposed. The Proposed Fullparallel Pipeline FIR Filter Can Give An Output Sample In A Few Gate Delays By Placing The Pipeline Registers Across And In Between The Components. Specific Pipelining Strategies May Then Be Devised At The Level Of The Critical Path Analysis At The Gate Level Depending On The Throughput Requirement. This Project Has Two Other Designs In Addition, Allowing A Different Throughput Rate And A Corresponding Area. The Recommended FIR Filters Are Designed For Maximum Throughput In Trade-off Between Speed Vs Complexity. A Model Is Used For Sim Software And Xilinx For Actual Implementation |
Published:02-12-2025 Issue:Vol. 25 No. 12 (2025) Page Nos:23-32 Section:Articles License:This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License. How to CiteDudekula Abjeena,Dr.N.Manikanda Devarajan, OPTIMIZED DESIGN OF ULTRA-FAST PIPELINE FIR FILTERS THROUGH CRITICAL PATH EVALUATION AND ENHANCEMENT , 2025, International Journal of Engineering Sciences and Advanced Technology, 25(12), Page 23-32, ISSN No: 2250-3676. |