A NOVEL APPROACH TO FUNCTIONAL VERIFICATION CLOSURE USING OPTIMAL TEST SCENARIOS IN DIGITAL CIRCUITS
Keywords:
Functional Verification, Optimal Test Scenarios, Digital Circuits, Verification Closure, Test Coverage, Defect Detection, Simulation, Hardware Emulation, Optimization AlgorithmsAbstract
Functional verification is a critical phase in digital circuit design, ensuring that a circuit operates correctly under all specified conditions. Traditional verification methods often rely on broad or random test cases, which can be inefficient and may miss critical flaws. This paper presents a novel approach to achieving functional verification closure through the use of optimal test scenarios. Our methodology focuses on selecting and utilizing test cases that provide the highest likelihood of uncovering design defects, thereby improving verification coverage and effectiveness. We implemented our approach using a combination of scenario analysis, optimization algorithms, and adaptive test generation. The approach was applied to a complex digital circuit design, and the results were compared with traditional verification methods. Our findings show that the novel approach significantly enhances coverage, increases defect detection rates, and reduces resource consumption, demonstrating greater efficiency and effectiveness in the verification process. This research offers a promising advancement in functional verification by targeting the most impactful test scenarios, paving the way for more efficient and reliable verification practices. Future work could focus on refining the optimization algorithms, integrating the approach with existing verification tools, and applying it to a broader range of circuit designs to further validate its effectiveness.
References
Agarwal, R., & Karahanna, E. (2000). Time flies when you’re having fun: Cognitive absorption and beliefs about information technology usage. MIS Quarterly, 24(4), 665-694.
Anderson, J., & Srinivasan, S. (2003). E-satisfaction and e-loyalty: A cross-cultural examination. Journal of Service Research, 5(3), 231-249.
Boulding, W., Staelin, R., Ehret, M., & Johnston, W. J. (2005). A customer relationship management blueprint: What is it and how do we implement it? Journal of Marketing, 69(4), 1-25.
Buttle, F. (2009). Customer Relationship Management: Concepts and Technologies. Routledge.
Chen, I. J., & Popovich, K. (2003). Understanding customer relationship management (CRM): People, process and technology. Business Process Management Journal, 9(5), 672-688.
Gartner, Inc. (2023). Magic Quadrant for CRM Customer Engagement Center. https://www.gartner.com/en/doc/444047
Gonçalves, D., & Chaves, A. (2015). The role of CRM in the marketing strategy: An exploratory study. Journal of Strategic and International Studies, 11(2), 60-75.
Kumar, V., & Shah, D. (2004). Building and sustaining profitable customer loyalty for the 21st century. Journal of Retailing, 80(4), 317-330.
Lemon, K. N., & Verhoef, P. C. (2016). Understanding customer experience throughout the customer journey. Journal of Marketing, 80(6), 69-96.
Noble, C., Sinha, R., & Kumar, V. (2009). Market orientation and business performance: An empirical study of SMEs. Journal of Business Research, 62(11), 1100-1107.
Peppers, D., & Rogers, M. (2016). Managing Customer Relationships: A Strategic Framework. Wiley.
Reinartz, W., Krafft, M., & Hoyer, W. D. (2004). The customer relationship management process: Its measurement and impact on performance. Journal of Marketing Research, 41(3), 293-305.
Sheth, J. N., & Parvatiyar, A. (2000). The evolution of relationship marketing. International Business Review, 9(5), 439-450. https://doi.org/10.1016/S0969-5931(00)00015-9
Zablah, A. R., Bellenger, D. N., & Johnston, W. J. (2004). An evaluation of divergent perspectives on customer relationship management: Towards a common understanding. Journal of Business Research, 57(6), 558-565.
