T. Eeckelaert, R. Schoofs, G. Gielen, M. Steyaert, W. Sansen
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引用次数: 15
摘要
提出了一种模拟和混合信号系统的分层综合方法,以一种新颖的方式完全集成了各级拓扑选择。分层系统优化器对每个分层抽象层的所有构建块采用多种拓扑,并使用多目标进化优化技术生成最优拓扑组合。使用所提出的方法,可以生成系统级性能权衡,其中每个设计点都包含有关系统性能如何受到低级构建块拓扑的不同组合的影响的有价值的信息。生成的系统设计可以包含各种拓扑组合,只要满足关键的块间约束。不同的拓扑可以分配给具有相同功能行为的构建块,从而导致比通常在手动设计中获得的更优化的混合设计。在实验结果中,使用三种不同的积分器拓扑为复杂的高速DeltaSigma a /D调制器生成最佳的系统级探索权衡
An Efficient Methodology for Hierarchical Synthesis of Mixed-Signal Systems with Fully Integrated Building Block Topology Selection
A hierarchical synthesis methodology for analog and mixed-signal systems is presented that fully in a novel way integrates topology selection at all levels. A hierarchical system optimizer takes multiple topologies for all the building blocks at each hierarchical abstraction level, and generates optimal topology combinations using multi-objective evolutionary optimization techniques. With the presented methodology, system-level performance trade-offs can be generated where each design point contains valuable information on how the systems performances are influenced by different combinations of lower-level building block topologies. The generated system designs can contain all kinds of topology combinations as long as critical inter-block constraints are met. Different topologies can be assigned to building blocks with the same functional behavior, leading to more optimal hybrid designs than typically obtained in manual designs. In the experimental results, three different integrator topologies are used to generate an optimal system-level exploration trade-off for a complex high-speed DeltaSigma A/D modulator
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