An in-depth analysis of FromSoftware's standalone cooperative roguelite spin-off.
Elden Ring: Nightreign is a standalone cooperative roguelite action role-playing game set in the Elden Ring universe. In this experience, teams of three Tarnished drop into condensed, randomized maps. Players have a limited duration of two in-game days to explore, collect loot, slay foes, gather upgrade stones, and refine their pre-made character classes. On the third day, the run culminates in an epic showdown against the Night Lord. Constricting the play area is the Night Rain, a deadly shrinking circle of spectral blue fire.
Built upon the updated engine from the original Elden Ring, Nightreign features spectacular lighting effects for the blue fire hazards. The game is highly optimized, targeting a smooth and locked 60 FPS on current-gen consoles and mid-tier PCs. Frame rate stutters are rare and generally limited to moments of high spellcasting intensity in full co-op sessions.
Elden Ring: Nightreign launched on May 30, 2025, with a standard retail price of $39.99 USD for the Standard Edition and $49.99 USD for the Deluxe Edition (which includes the digital artbook, digital soundtrack, and special starting cosmetic items).
We recommend buying the Standard Edition ($39.99). The Deluxe Edition offers only minor aesthetic upgrades and digital extras, which do not influence the core roguelite loop or gameplay experience.
A masterfully executed multiplayer spin-off that captures FromSoftware's legendary boss combat in a bite-sized, highly replayable loop.
Yes, Nightreign is absolutely worth buying at full launch price, especially if you have a reliable team of friends to queue with. If you plan to play primarily solo, waiting for a sale is recommended.
Bandai Namco titles typically receive an initial 15-20% discount ($31.99 - $33.99) within 4 to 6 months of release, and up to 33% to 40% off within 12 months. For co-op RPG enthusiasts, purchasing it at any discounted price point offers great value.
Discounts for Elden Ring: Nightreign can be expected during: