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Main Authors: Kamath, Akshay Karkal, Kumar, Bharath, Aggarwal, Sunil, Parameswaran, Subramanian, Lonkar, Parag, Prasanna, Debi, Sreenath, Somasunder
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2406.00542
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author Kamath, Akshay Karkal
Kumar, Bharath
Aggarwal, Sunil
Parameswaran, Subramanian
Lonkar, Parag
Prasanna, Debi
Sreenath, Somasunder
author_facet Kamath, Akshay Karkal
Kumar, Bharath
Aggarwal, Sunil
Parameswaran, Subramanian
Lonkar, Parag
Prasanna, Debi
Sreenath, Somasunder
contents The development of a standard cell library involves characterization of a number of gate-level circuits at various cell-level abstractions. Verifying the behavior of these cells largely depends on the manual skills of the circuit designers. Especially challenging are the power management and data retention cells which must be checked thoroughly for voltage and power configurations in addition to their logic functionality. Also, when standard cells are extracted into various models, any inconsistencies in these models typically goes unchecked during library development. Thus, validating these cells exhaustively prior to customer delivery is highly advantageous to not only improve customer satisfaction but also to reduce design costs. We address this challenge by presenting a methodology to validate the power management and data retention cells that are used in the logical design flow of low-power chips. For a quick adoption by standard cell library design teams, the framework is fully automated and runs out-of-the-box. The proposed framework has been implemented and deployed within the Samsung Foundry ecosystem to enhance the overall quality of library design kit deliverables.
format Preprint
id arxiv_https___arxiv_org_abs_2406_00542
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle An Automated Validation Framework for Power Management and Data Retention Logic Kits of Standard Cell Library
Kamath, Akshay Karkal
Kumar, Bharath
Aggarwal, Sunil
Parameswaran, Subramanian
Lonkar, Parag
Prasanna, Debi
Sreenath, Somasunder
Hardware Architecture
The development of a standard cell library involves characterization of a number of gate-level circuits at various cell-level abstractions. Verifying the behavior of these cells largely depends on the manual skills of the circuit designers. Especially challenging are the power management and data retention cells which must be checked thoroughly for voltage and power configurations in addition to their logic functionality. Also, when standard cells are extracted into various models, any inconsistencies in these models typically goes unchecked during library development. Thus, validating these cells exhaustively prior to customer delivery is highly advantageous to not only improve customer satisfaction but also to reduce design costs. We address this challenge by presenting a methodology to validate the power management and data retention cells that are used in the logical design flow of low-power chips. For a quick adoption by standard cell library design teams, the framework is fully automated and runs out-of-the-box. The proposed framework has been implemented and deployed within the Samsung Foundry ecosystem to enhance the overall quality of library design kit deliverables.
title An Automated Validation Framework for Power Management and Data Retention Logic Kits of Standard Cell Library
topic Hardware Architecture
url https://arxiv.org/abs/2406.00542