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As transistor dimensions become smaller, on-wafer transistor dimension variations, induced by
lithography or etching process, impact more to the transistor parameters than those from the earlier process
technologies such as 90 nm and 130 nm. The on-wafer transistor dimension variations are layout dependent
and are ignored in the standard post layout verification flow where the transistor parameters in a spice
netlist are extracted from drawn transistor dimensions. There are commercial software tools for predicting
the on-wafer transistor dimensions for the improved accuracy of the post-layout verification. These tools
need accurate models for the on-wafer transistor dimension prediction and the models need to be
re-calibrated as the fabrication process is changed. Furthermore, the model-based predictions of the
on-wafer transistor dimensions require extensive computing power which can be time consuming.
In the paper, a procedure to back-annotate the process induced transistor dimension changes into the
post layout extracted netlist using a simple look-up table is described. The lookup table is composed of
specified drawn transistor and its sounding layout as well as their on-wafer dimensions. The on-wafer
dimensions can be extracted from simulations, SEM in-line pictures or electrical data of specially designed
testkeys. Taking the lookup table data, accordingly, the transistor dimensions in the post-layout netlist file
are then modified by a commercial software tool with a pattern search function. Comparing with the
model based approach, the lookup table approach takes much less time for modifying the post-layout netlist.
The lookup table approach is flexible, since the tables can be easily updated to reflect the most recent
process changes from the foundry.
In summary, a lookup table based approach for improving the post-layout verification accuracy is
described. This approach can improve the verification accuracy from both litho and non-litho process
variations. This approach has been applied to Xilinx's 65 nm and 45 nm product developments.
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