This thesis presents a simple method to analyze and optimize the power integrity of high-speed digital systems. Modern PCB (print circuit board) design becomes more complex, since target impedance of the PDN (power distribution network) is getting lower in recent years. The decoupling capacitors can be used to maintain the impedance, but sometimes there are a lot of unnecessary decoupling capacitors, leading to increased design difficulty, cost, and PCB size. A simple optimization method based on a called lumped node analysis is proposed to deal with decoupling capacitors design. The analysis can reduce the number of decoupling capacitors with better input impedance. Both simulation and experimental results are presented to validate the method. Besides, the design flow and the theory are also discussed in detail.