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Yajin Zhou

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Yajin Zhou is listed as a Zhejiang University-affiliated author of the USENIX Security 2023 paper “MorFuzz: Fuzzing Processor via Runtime Instruction Morphing enhanced Synchronizable Co-simulation.”

First seen 5/27/2026
Last seen 6/7/2026
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Yajin Zhou

Yajin Zhou is listed as an author affiliated with Zhejiang University in the paper “MorFuzz: Fuzzing Processor via Runtime Instruction Morphing enhanced Synchronizable Co-simulation”. The paper’s author block lists Yajin Zhou with a Zhejiang University affiliation and the email address yajin_zhou@zju.edu.cn. [C1]

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RELATIONSHIPS

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Zhejiang University part of → 100% 4e
Yajin Zhou is affiliated with Zhejiang University.
MorFuzz: Fuzzing Processor via Runtime Instruction Morphing enhanced Synchronizable Co-simulation ← authored by 100% 3e
Yajin Zhou is listed as corresponding author of the paper.
Examiner: Automatically Locating Inconsistent Instructions between Real Devices and CPU Emulators for ARM ← authored by 100% 1e
Yajin Zhou is listed as a corresponding author of the paper.

LINKED ENTITIES

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MorFuzz: Fuzzing Processor via Runtime Instruction Morphing enhanced Synchronizable Co-simulation AUTHORED_BY Extracted graph relationship
Zhejiang University PART_OF Extracted graph relationship

CITATIONS

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4 citations — click to collapse
[1] Yajin Zhou is listed with a Zhejiang University affiliation and the email address yajin_zhou@zju.edu.cn. MorFuzz: Fuzzing Processor via Runtime Instruction Morphing enhanced Synchronizable Co-simulation
[2] Yajin Zhou is an author of the MorFuzz paper, which appears in the Proceedings of the 32nd USENIX Security Symposium held August 9–11, 2023 in Anaheim, California. MorFuzz: Fuzzing Processor via Runtime Instruction Morphing enhanced Synchronizable Co-simulation
[3] MorFuzz proposes a processor fuzzer using runtime information, instruction morphing, multi-level runtime mutation primitives, and synchronizable co-simulation with state synchronization. MorFuzz: Fuzzing Processor via Runtime Instruction Morphing enhanced Synchronizable Co-simulation
[4] The MorFuzz evaluation used CVA6, Rocket, and BOOM and reported 17 new bugs with 13 CVEs assigned. MorFuzz: Fuzzing Processor via Runtime Instruction Morphing enhanced Synchronizable Co-simulation