Goeun Kim, Doohee Lim, Tamal Das, Eunjung Lee, S. You
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引用次数: 4
摘要
本文提出了一种基于芯片功率模型的输电网络功率完整性仿真和抖动灵敏度传递函数(JTF)的系统级协同优化方法。由于需要合并多个功率域,并且为了提高成本效益和空间效率,需要对相邻功率域进行较近的定位,因此耦合共振严重影响了整个系统。为了满足严格的性能需求,系统级协同设计是必需的。在案例研究中,提出了一种基于JTF分析v by one IP电路块并找到关键路径的方法。分析了一种片上级优化方法,以提高压控振荡器的输出频率,并增加足够的片上电容。在片外设计阶段,为了减少JTF的总抖动,尝试了各种设计修改,以分割功率域、加强接地路径和添加封装去耦电容器。最后,提出了一种控制总抖动预算的协同优化设计流程。与最坏设计情况相比,总抖动减小了68.49%。
System Level Power Supply Induced Jitter Suppression for multi-lane high speed serial links
This paper presents a system-level co-optimization approach with Chip Power Model based power integrity simulation of the power delivery network and jitter sensitivity transfer function (JTF). Due to the need to merge multiple power domains and to locate adjacent power domains close to each other for enhancing cost effectiveness and space efficiency, the coupling resonance severely affects the whole system. To meet the rigorous performance requirements, a system-level co-design is mandatory. An approach which analyzes the V-by-One IP circuit blocks and finds the critical path based on the JTF is suggested within the case studies. An on-chip level optimization to bring higher voltage controlled oscillator output frequency and to add sufficient On-die-cap was analyzed. In the off-chip design stage, various design modifications to split the power domain, reinforce the ground path, and add package decoupling capacitors were attempted to decrease total jitter by the JTF. Finally, a co-optimization design process workflow which controls the total jitter budgeting is presented. The total jitter is decreased by 68.49% compared to the worst design case.
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