Glint, TomTomGlintAwasthi, ManuManuAwasthiMekie, JoyceeJoyceeMekie2025-08-312025-08-312024-01-01[9798350393545]10.1109/ASP-DAC58780.2024.104738452-s2.0-85189332308http://repository.iitgn.ac.in/handle/IITG2025/29157Asynchronous routers offer benefits in latency, energy, and area over synchronous routers, but their large system design adoption is limited due to inadequate tool support for performance quantification. We introduce CANSim, a fast and accurate simulator for complex asynchronous and synchronous NoCs. Verified against synthesis models, CANSim models any graph-representable topology, asymmetric links, data-dependent delays, meta-stability, and supports synthetic and real-world traffic. It also accommodates power gating, hierarchical networks, and GALS-like networks. Our comparisons reveal that asynchronous NoCs provide lower packet latency at no-load conditions, but synchronous NoCs may outperform near saturation. On average, asynchronous NoCs offer up to 36% latency and 52% power benefits, with power-gating potentially reducing static power by 90%.falseAsynchronous NoC | Complex NoCs | Simulator | Synchronous NoCConference Paper1-620240cpConference Proceeding0