一种包含寄生的快速时序仿真的表格宏建模方法

[1988] IEEE International Conference on Computer-Aided Design (ICCAD-89) Digest of Technical Papers Pub Date : 1988-11-07 DOI:10.1109/ICCAD.1988.122465

D. Overhauser, I. Hajj

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引用次数: 11

摘要

该方法考虑了RC寄生负载、输入重叠、输出节点充电或放电不完全等问题。宏建模将子电路数据分解为晶体管栅极信息和加载信息。在给定的设计中，许多子电路具有相同的栅极配置，但每个栅极实例具有独特的RC加载条件。在仿真过程中，将栅极和负载信息结合起来，用于计算输出节点电压变化。电压计算所需的所有必要信息都预先计算并存储在表中。所提出的宏建模和延迟方法大大缩短了仿真时间。该方法已在名为IDSIM2的模拟器中实现，并对许多大型示例进行了模拟。与标准电路模拟相比，获得了高达三个数量级的加速，精度损失小于10%。

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A tabular macromodeling approach to fast timing simulation including parasitics

The approach accounts for RC parasitic loading, overlapping inputs, and incomplete charging or discharging of output nodes. The macromodeling splits the subcircuits data into transistor-gate information and loading information. In a given design many subcircuits have identical gate configurations, but each instance of a gate has a unique RC loading condition. During simulation the gate and loading information is combined and used to calculate output-node voltage changes. All necessary information needed for voltage calculations are precomputed and stored in tables. The proposed macromodeling and the delay method greatly reduce simulation time. The approach has been implemented in a simulator called IDSIM2, and a number of large examples have been simulated. Speedups of up to three orders of magnitude have been obtained compared to standard circuit simulation, with loss of accuracy of less than 10%.<>

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来源期刊

[1988] IEEE International Conference on Computer-Aided Design (ICCAD-89) Digest of Technical Papers

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