Learning to Design Circuits

Hanrui Wang*, Jiacheng Yang*, Hae-Seung Lee, Song Han
MIT
(* indicates equal contribution)

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Abstract

Analog IC design relies on human experts to search for parameters that satisfy circuit specifications with their experience and intuitions, which is highly labor intensive, time consuming and suboptimal. Machine learning is a promising tool to automate this process. However, supervised learning is difficult for this task due to the low availability of training data: 1) Circuit simulation is slow, thus generating large-scale dataset is time-consuming; 2) Most circuit designs are propitiatory IPs within individual IC companies, making it expensive to collect large-scale datasets. We propose Learning to Design Circuits (L2DC) to leverage reinforcement learning that learns to efficiently generate new circuits data and to optimize circuits. We fix the schematic, and optimize the parameters of the transistors automatically by training an RL agent with no prior knowledge about optimizing circuits. After iteratively getting observations, generating a new set of transistor parameters, getting a reward, and adjusting the model, L2DC is able to optimize circuits. We evaluate L2DC on two transimpedance amplifiers. Trained for a day, our RL agent can achieve comparable or better performance than human experts trained for a quarter. It first learns to meet hard-constraints (eg. gain, bandwidth), and then learns to optimize good-to-have targets (eg. area, power). Compared with grid search-aided human design, L2DC can achieve higher sample efficiency with comparable performance. Under the same runtime constraint, the performance of L2DC is also better than Bayesian Optimization.

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Citation

@article{wang2018learning,
 title={Learning to design circuits},
 author={Wang, Hanrui and Yang, Jiacheng and Lee, Hae-Seung and Han, Song},
 journal={NIPS 2019 MLSys Workshop},
 year={2018}
}

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Acknowledgment

We sincerely thank MIT Quest for Intelligence, MIT-IBM Watson Lab for supporting our research. We thank Bill Dally for the enlightening talk at ISSCC’18. We thank Amazon for generously providing us the cloud computation resource.

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