Abstract
This article explores the evolution and effectiveness of formal verification enhanced with Assertion-Based Verification (ABV) as a superior alternative to traditional Universal Verification Methodology (UVM) in complex computing chip design. Through analysis of implementation data from major semiconductor companies, including Intel's Core i7 and IBM's POWER processors, the article demonstrates how formal methods achieve up to 100% coverage of critical modules compared to UVM's typical 80-85% coverage. The research presents quantitative evidence of formal verification's advantages, including a 25-30% reduction in verification cycles, a 40% increase in security vulnerability detection, and a 55% reduction in overall verification time through advanced techniques such as compositional verification and proof decomposition. The article also addresses scalability challenges and resource optimization strategies, providing a comprehensive framework for implementing formal verification in modern chip design workflows.
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