PCGameBenchmarks

Can GeForce RTX 4060 Ti run Tabletop Basketball VR?

Great

The GeForce RTX 4060 Ti handles Tabletop Basketball VR well at 1080p, delivering approximately 338 FPS at High settings — above the 60 FPS target for smooth gameplay. It can also achieve smooth 1440p at around 254 FPS.

Tabletop Basketball VRGeForce RTX 4060 Ti FPS Data

Quality1080p1440p4K
Low528 fps396 fps211 fps
Medium423 fps317 fps169 fps
High338 fps254 fps135 fps
Ultra275 fps206 fps110 fps

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

Minimum System Requirements

CPU
Intel Core i5-4590 (AMD FX 8350)
GPU
NVIDIA GeForce GTX 970
RAM
4 GB

Genres

About

Tabletop Basketball VR, released in 2018, offers a unique twist on the basketball gaming genre by bringing the sport to life on a virtual table. In this semi-simulation game, players control miniature basketball figures, using precision and strategy to outscore opponents. With its playful aesthetic and intelligent AI mechanics, the game creates an engaging experience that's reminiscent of classic tabletop games.

When it comes to PC performance, Tabletop Basketball VR is quite accessible. The minimum GPU requirement is an entry-level card with a score around 9638, making it manageable for older or budget systems. Players will want a CPU score of at least 4064 and 4 GB of RAM to ensure a smooth experience, especially when adjusting graphics settings for optimal FPS. For solid performance, consider GPUs like the NVIDIA GTX 1050 or the AMD Radeon RX 560, which provide a good balance between performance and cost.

If you enjoy indie games and simulation experiences that blend strategy with sports, Tabletop Basketball VR is worth a shot. Its low system requirements and charming gameplay make it an appealing choice for casual gamers and basketball enthusiasts alike, especially if you're in search of something different in the VR space.

More Tabletop Basketball VR GPU benchmarks

Can GeForce RTX 4060 Ti Run Tabletop Basketball VR? — 338 FPS at 1080p | PCGameBenchmarks