Parametric Optimization of Verilog-A code for Double-PHL of RRAM Device in a Step-by-Step Approach

The requirement of precise mathematical modeling and corresponding Verilog-A implementation is pivotal for circuit designing of many applications, like, non-volatile memory, logic circuits, and neuromorphic computing, with memristor devices, possessing pinched hysteresis loop (PHL) in I-V characteri...

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Published inDevices for Integrated Circuit pp. 448 - 452
Main Authors Prajapati, Shivani, Tripathi, Priyanka, Dutta, Koushik
Format Conference Proceeding
LanguageEnglish
Published IEEE 05.04.2025
Subjects
Computer architecture
Data models
Hardware design languages
Hysteresis
Integrated circuit modeling
Interference
Memristor
Memristors
Multilevel Switching
Nonvolatile memory
Optimization
RRAM
Simmons Model
Threshold voltage
Online AccessGet full text
ISSN2996-3044
DOI10.1109/DevIC63749.2025.11012324

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Abstract The requirement of precise mathematical modeling and corresponding Verilog-A implementation is pivotal for circuit designing of many applications, like, non-volatile memory, logic circuits, and neuromorphic computing, with memristor devices, possessing pinched hysteresis loop (PHL) in I-V characteristics. A few works were reported with single PHL behavior; but yet to correlate with multilevel PHL, as aligned with experimental reports. The present work focuses on the development of such a model by optimization in the parametric level in the Simmons model, well adopted to describe single PHL conventionally, step-by-step, alteration of parameters and comparison with experimental data is the key methodology of this work. Proposing threshold voltage, as a new parameter, is substantial for appreciable agreement for simultaneous matching of the double loop (PHL) case. The matching shows an appreciable error of ~7% for lower-voltage PHL and that of ~3% for higher-voltage PHL.
AbstractList The requirement of precise mathematical modeling and corresponding Verilog-A implementation is pivotal for circuit designing of many applications, like, non-volatile memory, logic circuits, and neuromorphic computing, with memristor devices, possessing pinched hysteresis loop (PHL) in I-V characteristics. A few works were reported with single PHL behavior; but yet to correlate with multilevel PHL, as aligned with experimental reports. The present work focuses on the development of such a model by optimization in the parametric level in the Simmons model, well adopted to describe single PHL conventionally, step-by-step, alteration of parameters and comparison with experimental data is the key methodology of this work. Proposing threshold voltage, as a new parameter, is substantial for appreciable agreement for simultaneous matching of the double loop (PHL) case. The matching shows an appreciable error of ~7% for lower-voltage PHL and that of ~3% for higher-voltage PHL.
Author Prajapati, Shivani
Tripathi, Priyanka
Dutta, Koushik
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  fullname: Dutta, Koushik
  email: koushikdutta@iiitdmj.ac.in
  organization: PDPM IIITDM, Jabalpur,ECE,Jabalpur,India
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Snippet The requirement of precise mathematical modeling and corresponding Verilog-A implementation is pivotal for circuit designing of many applications, like,...
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StartPage 448
SubjectTerms Computer architecture
Data models
Hardware design languages
Hysteresis
Integrated circuit modeling
Interference
Memristor
Memristors
Multilevel Switching
Nonvolatile memory
Optimization
RRAM
Simmons Model
Threshold voltage
Title Parametric Optimization of Verilog-A code for Double-PHL of RRAM Device in a Step-by-Step Approach
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