Paper ID: 2411.09422

An Adaptive Open-Source Dataset Generation Framework for Machine Learning Tasks in Logic Synthesis

Liwei Ni, Rui Wang, Miao Liu, Xingyu Meng, Xiaoze Lin, Junfeng Liu, Guojie Luo, Zhufei Chu, Weikang Qian, Xiaoyan Yang, Biwei Xie, Xingquan Li, Huawei Li

This paper introduces an adaptive logic synthesis dataset generation framework designed to enhance machine learning applications within the logic synthesis process. Unlike previous dataset generation flows that were tailored for specific tasks or lacked integrated machine learning capabilities, the proposed framework supports a comprehensive range of machine learning tasks by encapsulating the three fundamental steps of logic synthesis: Boolean representation, logic optimization, and technology mapping. It preserves the original information in the intermediate files that can be stored in both Verilog and Graphmal format. Verilog files enable semi-customizability, allowing researchers to add steps and incrementally refine the generated dataset. The framework also includes an adaptive circuit engine to facilitate the loading of GraphML files for final dataset packaging and sub-dataset extraction. The generated OpenLS-D dataset comprises 46 combinational designs from established benchmarks, totaling over 966,000 Boolean circuits, with each design containing 21,000 circuits generated from 1000 synthesis recipes, including 7000 Boolean networks, 7000 ASIC netlists, and 7000 FPGA netlists. Furthermore, OpenLS-D supports integrating newly desired data features, making it more versatile for new challenges. The utility of OpenLS-D is demonstrated through four distinct downstream tasks: circuit classification, circuit ranking, quality of results (QoR) prediction, and probability prediction. Each task highlights different internal steps of logic synthesis, with the datasets extracted and relabeled from the OpenLS-D dataset using the circuit engine. The experimental results confirm the dataset's diversity and extensive applicability. The source code and datasets are available at this https URL

Submitted: Nov 14, 2024