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Imam Al Razi Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Graduate Research Assistant
grad_student
7 h-index
20 pubs
206 cited
Research Areas
Links
Biography and Research Information
OverviewAI-generated summary
Imam Al Razi's research focuses on the design automation of multichip power modules. His work has led to the development of PowerSynth, a design automation flow for hierarchical and heterogeneous 2.5-D multichip power modules, and PowerSynth 2, which extends this capability to high-density 3-D multichip power modules. Al Razi has investigated methods for fast and accurate parasitic extraction, including the consideration of eddy-current losses, and inductance extraction using a loop-based method for power module layout optimization. His research also encompasses reliability optimization for these modules, addressing issues such as electromigration. Al Razi has a publication record of 19 papers with 205 citations and an h-index of 7. He has collaborated with multiple researchers at the University of Arkansas at Fayetteville, including Yarui Peng (12 shared publications), Quang Trung Le (6 shared publications), H. Alan Mantooth (3 shared publications), and Tristan M. Evans (3 shared publications).
Metrics
- h-index: 7
- Publications: 20
- Citations: 206
Selected Publications
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Factoring Interacting Stress Mechanisms in Design for Reliability of Extreme Environment Power Modules (2023)
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Factoring Interacting Stress Mechanisms in Design for Reliability of Extreme Environment Power Modules (2023)
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PowerSynth 2: Physical Design Automation for High-Density 3-D Multichip Power Modules (2022)
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Electromigration-Aware Reliability Optimization of MCPM Layouts Using PowerSynth (2022)
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Fast and Accurate Parasitic Extraction in Multichip Power Module Design Automation Considering Eddy-Current Losses (2022)
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Hierarchical Layout Synthesis and Optimization Framework for High-Density Power Module Design Automation (2021)
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Fast and Accurate Inductance Extraction for Power Module Layout Optimization Using Loop-Based Method (2021)
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Designing a Graphical User Interface for the Power Module Optimization Tool PowerSynth (2021)
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PowerSynth Integrated CAD flow for High Density Power Modules (2021)
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PowerSynth-Guided Reliability Optimization of Multi-Chip Power Module (2021)
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PowerSynth Design Automation Flow for Hierarchical and Heterogeneous 2.5-D Multichip Power Modules (2021)
Collaboration Network
Top Collaborators
Yarui Peng
University of Arkansas at Fayetteville
12 shared publications
In database
- PowerSynth Design Automation Flow for Hierarchical and Heterogeneous 2.5-D Multichip Power Modules
- PowerSynth 2: Physical Design Automation for High-Density 3-D Multichip Power Modules
- Fast and Accurate Parasitic Extraction in Multichip Power Module Design Automation Considering Eddy-Current Losses
- Fast and Accurate Inductance Extraction for Power Module Layout Optimization Using Loop-Based Method
- PowerSynth-Guided Reliability Optimization of Multi-Chip Power Module
Showing 5 of 12 shared publications
H. Alan Mantooth
University of Arkansas at Fayetteville
7 shared publications
In database
- PowerSynth Design Automation Flow for Hierarchical and Heterogeneous 2.5-D Multichip Power Modules
- PowerSynth 2: Physical Design Automation for High-Density 3-D Multichip Power Modules
- Fast and Accurate Parasitic Extraction in Multichip Power Module Design Automation Considering Eddy-Current Losses
- Fast and Accurate Inductance Extraction for Power Module Layout Optimization Using Loop-Based Method
- PowerSynth Integrated CAD flow for High Density Power Modules
Showing 5 of 7 shared publications
Quang Trung Le
University of Arkansas at Fayetteville
6 shared publications
In database
- PowerSynth Design Automation Flow for Hierarchical and Heterogeneous 2.5-D Multichip Power Modules
- PowerSynth 2: Physical Design Automation for High-Density 3-D Multichip Power Modules
- Fast and Accurate Parasitic Extraction in Multichip Power Module Design Automation Considering Eddy-Current Losses
- Fast and Accurate Inductance Extraction for Power Module Layout Optimization Using Loop-Based Method
- PowerSynth Integrated CAD flow for High Density Power Modules
Showing 5 of 6 shared publications
David Huitink
University of Arkansas at Fayetteville
4 shared publications
In database
- PowerSynth-Guided Reliability Optimization of Multi-Chip Power Module
- Electromigration-Aware Reliability Optimization of MCPM Layouts Using PowerSynth
- Factoring Interacting Stress Mechanisms in Design for Reliability of Extreme Environment Power Modules
- Factoring Interacting Stress Mechanisms in Design for Reliability of Extreme Environment Power Modules
Tristan M. Evans
University of Arkansas at Fayetteville
3 shared publications
In database
- PowerSynth Design Automation Flow for Hierarchical and Heterogeneous 2.5-D Multichip Power Modules
- PowerSynth 2: Physical Design Automation for High-Density 3-D Multichip Power Modules
- Fast and Accurate Parasitic Extraction in Multichip Power Module Design Automation Considering Eddy-Current Losses
Whit Vinson
University of Arkansas at Fayetteville (US)
3 shared publications
- Electromigration-Aware Reliability Optimization of MCPM Layouts Using PowerSynth
- Factoring Interacting Stress Mechanisms in Design for Reliability of Extreme Environment Power Modules
- Factoring Interacting Stress Mechanisms in Design for Reliability of Extreme Environment Power Modules
Shilpi Mukherjee
University of Arkansas at Fayetteville
2 shared publications
In database
- PowerSynth Design Automation Flow for Hierarchical and Heterogeneous 2.5-D Multichip Power Modules
- Fast and Accurate Parasitic Extraction in Multichip Power Module Design Automation Considering Eddy-Current Losses
Collin Ruby
University of Arkansas at Fayetteville
2 shared publications
In database
- Factoring Interacting Stress Mechanisms in Design for Reliability of Extreme Environment Power Modules
- Factoring Interacting Stress Mechanisms in Design for Reliability of Extreme Environment Power Modules
David Agogo-Mawuli
University of Arkansas at Fayetteville
2 shared publications
In database
- Factoring Interacting Stress Mechanisms in Design for Reliability of Extreme Environment Power Modules
- Factoring Interacting Stress Mechanisms in Design for Reliability of Extreme Environment Power Modules
Alan Mantooth
University of Arkansas at Fayetteville (US)
2 shared publications
- Factoring Interacting Stress Mechanisms in Design for Reliability of Extreme Environment Power Modules
- Factoring Interacting Stress Mechanisms in Design for Reliability of Extreme Environment Power Modules
Joshua Mitchener
University of California, Irvine (US)
1 shared publication
- Designing a Graphical User Interface for the Power Module Optimization Tool PowerSynth
Mehran Sanjabiasasi
University of Arkansas at Fayetteville
1 shared publication
In database
- A Comparative Study on Optimization Algorithms in PowerSynth 2
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