As semiconductor technologies scale down, radiative-particle-induced soft errors and static power consumption are becoming major concerns for digital circuits. Magnetic-tunnel-junctions (MTJs) are widely used to address these concerns. MTJs are nonvolatile (NV) and compatible with traditional CMOS processes. In this article, we first propose a double-node-upset (DNU) tolerant and NV latch, i.e., M-TPDICE-V2, providing high reliability. In addition, we further propose an advanced latch, namely, M-8C, that is able to completely recover from single-node upsets (SNUs) and DNUs. M-8C uses a DNU recovery module and a backup and restore module based on a pair of MTJs. Furthermore, we propose a universal backup and restore module suitable for any latch providing nonvolatility. We simulate the proposed latches using the Synopsys HSPICE tool with a 45-nm CMOS process model. Simulation results confirm the superior capabilities of our proposed M-TPDICE-V2 and M-8C latches. M-TPDICE-V2 exhibits strong SNU and DNU tolerance and nonvolatility, while the M-8C latch provides complete DNU recovery capabilities.