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Hybrid Intelligent Testing in Simulation-Based Verification

Paper
First seen 5/31/2026
Last seen 6/3/2026
Evidence 1 chunks

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RELATIONSHIPS

10 connections
Simulation-Based Verification uses → 100% 4e
The paper addresses testing in the context of simulation-based hardware verification.
Hybrid Intelligent Testing introduces → 100% 4e
The paper proposes a hybrid intelligent testing approach as its main contribution.
Nyasha Masamba authored by → 100% 3e
The paper is authored by Nyasha Masamba and other co-authors.
Coverage-Directed Test Selection uses → 100% 3e
The paper uses Coverage-Directed Test Selection as one of the two combined methods in its hybrid approach.
Novelty-Driven Verification uses → 100% 3e
The paper uses Novelty-Driven Verification as one of the two combined methods in its hybrid approach.
Hardware Verification uses → 100% 2e
The paper targets hardware verification as its application domain.
constrained-random test generation evaluates → 85% 2e
The paper evaluates constrained random test generation as the baseline approach that has scalability limitations.
Hardware Verification evaluates → 1e
The paper evaluates approaches to hardware verification in the simulation-based setting.
constrained-random test generation uses → 90% 1e
The paper discusses constrained random test generation as an existing approach with limitations.
constrained-random test generation mentions → 1e
The paper mentions constrained random test generation as a baseline method requiring many tests.