City University of Hong Kong

Organization

City University of Hong Kong is represented in the provided evidence as the affiliation of Sirui He and Cong Wang, two co-authors of the 2023 USENIX Security Symposium paper “MorFuzz: Fuzzing Processor via Runtime Instruction Morphing enhanced Synchronizable Co-simulation.”

First seen 5/27/2026

Last seen 6/6/2026

Evidence 2 chunks

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WIKI

Overview

City University of Hong Kong appears in the provided evidence as the institutional affiliation of Sirui He and Cong Wang, who are listed as co-authors of the paper “MorFuzz: Fuzzing Processor via Runtime Instruction Morphing enhanced Synchronizable Co-simulation.” The paper was included in the Proceedings of the 32nd USENIX Security Symposium, held August 9–11, 2023 in Anaheim, California, USA.

Research association in the evidence

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NEIGHBORHOOD

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RELATIONSHIPS

2 connections

Sirui He ← part of 100% 3e

Sirui He is affiliated with City University of Hong Kong.

Cong Wang ← part of 100% 3e

Cong Wang is affiliated with City University of Hong Kong.

LINKED ENTITIES

2 links

Sirui He PART_OF Extracted graph relationship

Cong Wang PART_OF Extracted graph relationship

CITATIONS

5 sources

5 citations — click to expand

[1] Sirui He and Cong Wang are affiliated with City University of Hong Kong in the MorFuzz paper author block. MorFuzz: Fuzzing Processor via Runtime Instruction Morphing enhanced Synchronizable Co-simulation

[2] The MorFuzz paper was included in the Proceedings of the 32nd USENIX Security Symposium, held August 9–11, 2023 in Anaheim, California, USA. MorFuzz: Fuzzing Processor via Runtime Instruction Morphing enhanced Synchronizable Co-simulation

[3] MorFuzz is described as a processor fuzzer for discovering software-triggerable hardware bugs using runtime information to generate valid and semantically meaningful instruction streams. MorFuzz: Fuzzing Processor via Runtime Instruction Morphing enhanced Synchronizable Co-simulation

[4] MorFuzz uses a new input structure, multi-level runtime mutation primitives, instruction morphing, an extended co-simulation framework, and state synchronization. MorFuzz: Fuzzing Processor via Runtime Instruction Morphing enhanced Synchronizable Co-simulation

[5] The MorFuzz evaluation covered CVA6, Rocket, and BOOM and reported 17 new bugs with 13 CVEs assigned. MorFuzz: Fuzzing Processor via Runtime Instruction Morphing enhanced Synchronizable Co-simulation