PCGameBenchmarks

Can GeForce RTX 4070 run Case of the Mysterious Death of Keiko Haraeda?

Great

The GeForce RTX 4070 handles Case of the Mysterious Death of Keiko Haraeda well at 1080p, delivering approximately 427 FPS at High settings — above the 60 FPS target for smooth gameplay. It can also achieve smooth 1440p at around 320 FPS.

Case of the Mysterious Death of Keiko HaraedaGeForce RTX 4070 FPS Data

Quality1080p1440p4K
Low667 fps500 fps267 fps
Medium533 fps400 fps213 fps
High427 fps320 fps171 fps
Ultra347 fps260 fps139 fps

Estimated FPS · actual performance may vary based on drivers and settings

Minimum System Requirements

CPU
Intel Core i5
GPU
GeForce GTX1050
RAM
8 GB

Genres

About

"Case of the Mysterious Death of Keiko Haraeda," released in 2023, invites players into a gripping narrative set in Japan on September 12, 1999. This indie game places you in the shoes of a detective unraveling the enigmatic circumstances surrounding Ms. Haraeda's sudden death. With its engaging storyline and atmospheric presentation, the game excels at drawing players into an intriguing mystery filled with twists and turns.

For optimal performance while playing, an entry-level GPU with a minimum score around 5046 is recommended, making it accessible for a wide range of gamers. With 8 GB of RAM as the minimum requirement, "Keiko Haraeda" ensures that even those with budget systems can enjoy smooth FPS and solid graphics settings. The game isn't particularly demanding, allowing players to adjust performance settings for an ideal experience depending on their hardware capabilities.

If you appreciate indie games with captivating narratives and a dash of mystery, "Case of the Mysterious Death of Keiko Haraeda" comes highly recommended. Its unique premise and engaging gameplay have garnered positive ratings, making it a worthwhile addition to your gaming library.

More Case of the Mysterious Death of Keiko Haraeda GPU benchmarks

Can GeForce RTX 4070 Run Case of the Mysterious Death of Keiko Haraeda? — 427 FPS at 1080p | PCGameBenchmarks