Constrained Stimulus Generation with Self-Adjusting Using Tabu Search with Memory
スポンサーリンク
概要
- 論文の詳細を見る
Despite the growing research effort in formal verification, industrial verification often relies on the constrained random simulation methodology, which is supported by constraint solvers as the stimulus generator integrated within simulator, especially for the large design with complex constraints nowadays. These stimulus generators need to be fast and well-distributed to maintain simulation performance. In this paper, we propose a dynamic method to guide stimulus generation by SAT solvers. An adjusting strategy named Tabu Search with Memory (TSwM) is integrated in the stimulus generator for the search and prune processes along with the constraint solver. Experimental results show that the method proposed in this paper could generate well-distributed stimuli with good performance.
- 2009-12-01
著者
-
ZHAO Kang
EDA lab, Department of Computer Science and Technology, Tsinghua University
-
BIAN Jinian
EDA lab, Department of Computer Science and Technology, Tsinghua University
-
Bian Jinian
Eda Lab Department Of Computer Science And Technology Tsinghua University
-
Zhao Kang
Eda Lab Department Of Computer Science And Technology Tsinghua University
-
ZHAO Yanni
EDA lab, Department of Computer Science and Technology, Tsinghua University
-
DENG Shujun
EDA lab, Department of Computer Science and Technology, Tsinghua University
-
KONG Zhiqiu
EDA lab, Department of Computer Science and Technology, Tsinghua University
-
Zhao Yanni
Eda Lab Department Of Computer Science And Technology Tsinghua University
-
Kong Zhiqiu
Eda Lab Department Of Computer Science And Technology Tsinghua University
-
Deng Shujun
Eda Lab Department Of Computer Science And Technology Tsinghua University
-
Zhao Kang
Eda Lab Dep. Of Computer Sci. And Technol. Tsinghua Univ.
-
Bian Jinian
Eda Lab Dep. Of Computer Sci. And Technol. Tsinghua Univ.
関連論文
- Pipeline-Based Partition Exploration for Heterogeneous Multiprocessor Synthesis
- Pipeline-Based Partition Exploration for Heterogeneous Multiprocessor Synthesis
- Exploring Partitions Based on Search Space Smoothing for Heterogeneous Multiprocessor System
- Fast Custom Instruction Identification Algorithm Based on Basic Convex Pattern Model for Supporting ASIP Automated Design
- Constrained Stimulus Generation with Self-Adjusting Using Tabu Search with Memory
- Peak Temperature Reduction by Physical Information Driven Behavioral Synthesis with Resource Usage Allocation
- Processor Accelerator Customization through Data Flow Graph Exploration