Modeling Techniques for Faster Verification of a Time to Digital Converter System-on-Chip Design

2019 IEEE Conference on Modeling of Systems Circuits and Devices (MOS-AK India) Pub Date : 2019-02-01 DOI:10.1109/MOS-AK.2019.8902447

C. Chithra, N. Krishnapura

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Abstract

In this paper, we present the modeling techniques used for faster simulation and verification of a time to digital converter (TDC) IC, designed for India-based Neutrino Observatory. The mixed signal implementation of the TDC necessitates rigorous verification of the interaction between the digital and analog blocks. The paper discusses how the major analog circuits were reduced to logic level models in Verilog while retaining the required accuracy for faster top-level simulations. In order to facilitate quicker verification of the simulation results, a behavioral-level TDC model which has minimal common algorithm with the implemented system is developed. This model is used within self-checking testbenches to create a reference against which simulation results are validated. These modeling techniques enabled the automation of the verification process, thereby reducing the design verification time significantly. The simulation and verification of 600 test cases were completed in less than 9 hours, whereas the mixed signal simulation for a single test case would have taken several days to complete.

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更快验证片上系统到数字转换器的建模技术

在本文中，我们提出了用于快速仿真和验证为印度中微子天文台设计的时间到数字转换器(TDC) IC的建模技术。TDC的混合信号实现需要严格验证数字和模拟块之间的相互作用。本文讨论了在Verilog中如何将主要模拟电路简化为逻辑级模型，同时保持更快的顶级模拟所需的精度。为了更快地验证仿真结果，建立了与实现系统具有最小共同算法的行为级TDC模型。该模型在自检测试台中使用，以创建一个参考，根据该参考验证模拟结果。这些建模技术实现了验证过程的自动化，从而大大减少了设计验证时间。600个测试用例的模拟和验证在不到9小时内完成，而单个测试用例的混合信号模拟则需要几天才能完成。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 IEEE Conference on Modeling of Systems Circuits and Devices (MOS-AK India)

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