Simulators are key tools for computer architecture research. However, multicore architectures represent a highly complex challenge for software simulators, which may suffer from fidelity loss and long execution times. FPGAs can simulate multicore architectures with scalable performance and high accuracy, but the difficulty of debugging could hinder their adoption. In this paper we propose several techniques for inspection, debugging and verification of multicore architectures, both for software-based and FPGA-based simulations. These debugging extensions are cycle-accurate and unobtrusive. As a proof of concept, we have developed a 24-core RISC multiprocessor that runs the Linux Kernel, for which we provide three simulation modes: a fast, ...