This paper aims to address the challenge of designing secure and high-performance quantum key distribution networks (QKDNs), which are essential for encrypted communication in the era of quantum computing. Focusing on the control and management (CM) layer essential for monitoring and routing, the study emphasizes centrally managed software-defined networking (SDN). We begin by analyzing QKDN routing characteristics needed for evaluating two existing architectures and proposed new CM layer implementation. Following the theoretical analysis, we conduct a discrete-event-based simulation in which the proposed architecture is compared to an existing one, which serves as a performance baseline. The results provide recommendations based on use cases for which different architectures show superiority and offer valuable insights into the development and evaluation of CM architectures for QKDNs.