Journal of Research in VLSI Design Tools and Technology ISSN: 3139-2016 (Online)

Abstract: Field Programmable Gate Arrays (FPGAs) and Application-Specific Integrated Circuits (ASICs) represent two key paradigms in modern hardware design—offering flexibility and performance optimization respectively. As embedded systems grow increasingly complex, integrating FPGA and ASIC workflows through co-design methodologies has become crucial for efficient prototyping and product development. Moreover, hardware–software co-verification ensures system correctness and functional reliability before final silicon implementation. This paper explores the fundamental concepts, methodologies, and challenges associated with FPGA/ASIC co-design and co-verification. It presents a detailed discussion of design partitioning, verification environments, system modeling, and AI-assisted optimization in hardware–software integration. The paper also highlights the scope for future research in automated design frameworks, hybrid verification platforms, and reconfigurable computing systems.

 

Keywords: FPGA, ASIC, Co-Design, Co-Verification, Embedded Systems, Hardware Acceleration, System Prototyping, Verification Frameworks, Hardware–Software Integration, Reconfigurable Architectures.