Usenix Security 23 Animatedead Debloating

May 28, 2026
Media Summary: Anh Quach Binghamton University Abstract: Programs are bloated. Our study shows that only 5% of libc is used on average ... RAZOR: A Framework for Post-deployment Software Spill the TeA: An Empirical Study of Trusted Application Rollback Prevention on Android Smartphones Marcel Busch, Philipp Mao, ...

Usenix Security 23 Animatedead Debloating - Detailed Analysis & Overview

Anh Quach Binghamton University Abstract: Programs are bloated. Our study shows that only 5% of libc is used on average ... RAZOR: A Framework for Post-deployment Software Spill the TeA: An Empirical Study of Trusted Application Rollback Prevention on Android Smartphones Marcel Busch, Philipp Mao, ...

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USENIX Security '23 - AnimateDead: Debloating Web Applications Using Concolic Execution
USENIX Security '23 - One Size Does Not Fit All: Uncovering and Exploiting Cross Platform...
USENIX Security '23 - How to Cover up Anomalous Accesses to Electronic Health Records
USENIX Security '19 - Less is More: Quantifying the Security Benefits of Debloating Web Applications
USENIX Security '23 - A Two-Decade Retrospective Analysis of a University's Vulnerability to...
USENIX Security '23 - Automated Exploitable Heap Layout Generation for Heap Overflows Through...
USENIX Security '23 - The Gates of Time: Improving Cache Attacks with Transient Execution
USENIX Security '18 - Debloating Software through Piece-Wise Compilation and Loading
USENIX Security '23 - FloatZone: Accelerating Memory Error Detection using the Floating Point Unit
USENIX Security '23 - A Data-free Backdoor Injection Approach in Neural Networks
USENIX Security '19 - RAZOR: A Framework for Post-deployment Software Debloating
USENIX Security '23 - Downfall: Exploiting Speculative Data Gathering

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USENIX Security '23 - AnimateDead: Debloating Web Applications Using Concolic Execution USENIX Security '23 - One Size Does Not Fit All: Uncovering and Exploiting Cross Platform... USENIX Security '23 - How to Cover up Anomalous Accesses to Electronic Health Records USENIX Security '19 - Less is More: Quantifying the Security Benefits of Debloating Web Applications USENIX Security '23 - A Two-Decade Retrospective Analysis of a University's Vulnerability to... USENIX Security '23 - Automated Exploitable Heap Layout Generation for Heap Overflows Through... USENIX Security '23 - The Gates of Time: Improving Cache Attacks with Transient Execution USENIX Security '18 - Debloating Software through Piece-Wise Compilation and Loading The Shocking Truth About Creating Engaging NPCs With DnD Explorer Packs What Makes August 20 Birthdays So Rarely Understood In Astrology Don't Make This Costly Mistake When Playing The New Jersey Lottery The Post Journal Obituaries: Uncovering Hidden Family Secrets Why Your Horry Vacation Plans Are Being Fooled By Hidden Fees How Much More You'll Pay For A Venti In Miami As Compared To Other US Cities Uncovering The Disadvantages Of Oreoz: Is This Strain Right For You Beyond Buried Alive: What Danielle Colby Learned From Raising A Free-Spirited Child
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USENIX Security '23 - AnimateDead: Debloating Web Applications Using Concolic Execution

USENIX Security '23 - AnimateDead: Debloating Web Applications Using Concolic Execution

USENIX Security

USENIX Security '23 - One Size Does Not Fit All: Uncovering and Exploiting Cross Platform...

USENIX Security '23 - One Size Does Not Fit All: Uncovering and Exploiting Cross Platform...

USENIX Security

USENIX Security '23 - How to Cover up Anomalous Accesses to Electronic Health Records

USENIX Security '23 - How to Cover up Anomalous Accesses to Electronic Health Records

USENIX Security

USENIX Security '19 - Less is More: Quantifying the Security Benefits of Debloating Web Applications

USENIX Security '19 - Less is More: Quantifying the Security Benefits of Debloating Web Applications

Less is More: Quantifying the

USENIX Security '23 - A Two-Decade Retrospective Analysis of a University's Vulnerability to...

USENIX Security '23 - A Two-Decade Retrospective Analysis of a University's Vulnerability to...

USENIX Security

USENIX Security '23 - Automated Exploitable Heap Layout Generation for Heap Overflows Through...

USENIX Security '23 - Automated Exploitable Heap Layout Generation for Heap Overflows Through...

USENIX Security

USENIX Security '23 - The Gates of Time: Improving Cache Attacks with Transient Execution

USENIX Security '23 - The Gates of Time: Improving Cache Attacks with Transient Execution

USENIX Security

USENIX Security '18 - Debloating Software through Piece-Wise Compilation and Loading

USENIX Security '18 - Debloating Software through Piece-Wise Compilation and Loading

Anh Quach Binghamton University Abstract: Programs are bloated. Our study shows that only 5% of libc is used on average ...

USENIX Security '23 - FloatZone: Accelerating Memory Error Detection using the Floating Point Unit

USENIX Security '23 - FloatZone: Accelerating Memory Error Detection using the Floating Point Unit

USENIX Security

USENIX Security '23 - A Data-free Backdoor Injection Approach in Neural Networks

USENIX Security '23 - A Data-free Backdoor Injection Approach in Neural Networks

USENIX Security

USENIX Security '19 - RAZOR: A Framework for Post-deployment Software Debloating

USENIX Security '19 - RAZOR: A Framework for Post-deployment Software Debloating

RAZOR: A Framework for Post-deployment Software

USENIX Security '23 - Downfall: Exploiting Speculative Data Gathering

USENIX Security '23 - Downfall: Exploiting Speculative Data Gathering

USENIX Security

USENIX Security '24 - Spill the TeA: An Empirical Study of Trusted Application Rollback...

USENIX Security '24 - Spill the TeA: An Empirical Study of Trusted Application Rollback...

Spill the TeA: An Empirical Study of Trusted Application Rollback Prevention on Android Smartphones Marcel Busch, Philipp Mao, ...