Two new preprints from Astrophysics Letters describe updates to the Magellan InfraRed Multi-Object Spectrograph (MIRMOS), a planned next-generation instrument for the 6.5m Magellan telescopes at Las Campanas Observatory in Chile. The project includes both multi-object spectroscopy (MOS) and integral field spectroscopy (IFS), along with near-infrared imaging. In MOS mode, MIRMOS targets are selected using a cryogenic mechanism that can configure up to 92 slits across a 13'×3' field of view. The slit configuration can be reconfigured in real time to adjust slit widths for seeing conditions, switch masks, or form a long slit. For IFS mode, MIRMOS uses an image-slicer style integral field unit (IFU) on a linear stage so it can move into the beam during IFS observations or be stored during MOS use. The IFU provides an approximately 18''×26'' field of view built from 0.84''×26'' slices. One preprint reports a design change: the IFU is moved deeper into the instrument to enable a “virtual-style” slicer, replacing earlier designs that required freeform pupil mirrors to meet packaging constraints near the instrument’s focal surface. The second preprint summarizes the overall instrument design and places it at the end of the preliminary design phase.