Presentation
Parallel Dynamic Partitioning for Datapath Combinational Equivalence Checking
DescriptionCombinational Equivalence Checking (CEC) is a crucial technique in electronic design automation for verifying the functional equivalence of combinational circuits. Recently, combinational circuit design increasingly incorporates more complex arithmetic structures, commonly known as datapath circuits. However, existing state-of-the-art tools often exhibit subpar performance in solving datapath CEC problems. To further advance the exploration on datapath CEC process, this study introduces PDP-CEC (Parallel Dynamic Partitioning Combinational Equivalence Checking), a novel parallel CEC approach integrating circuit partitioning and dynamic task scheduling into the CEC process, enhancing the efficiency of CEC for datapath circuits. PDP-CEC introduces an innovative method for selecting critical nodes to split the search space of the CEC problem, facilitating the efficient generation of numerous independent subproblems. Meanwhile, a dynamic task scheduling strategy is implemented in PDP-CEC to ensure load balancing and prevent hard-to-solve subproblems from stalling the entire process. Compared to the most advanced tools such as ABC and Hybrid-CEC, PDP-CEC significantly accelerates CEC process, achieving speedups ranging from 5.11x to 125.27x, while effectively solving approximately three times more datapath CEC problems. With excellent scalability, PDP-CEC shows substantial improvements in combinational equivalence checking for datapath circuits, offering an efficient parallel approach to meet the demands of large-scale datapath CEC tasks.
Event Type
Research Manuscript
TimeWednesday, June 255:15pm - 5:30pm PDT
Location3003, Level 3
EDA
EDA2: Design Verification and Validation