Teardown, the game, does not utilize RTX or dedicated RT cores for its ray-tracing implementation. Ray-tracing is a rendering technique that simulates the behavior of light in a more accurate and realistic manner. While NVIDIA’s RTX series of graphics cards are specifically designed to accelerate ray-tracing tasks using dedicated hardware called RT cores, Teardown does not currently make use of such hardware.
Instead, Teardown’s ray-tracing implementation likely relies on software-based ray-tracing techniques. These techniques utilize the general-purpose compute capabilities of modern GPUs to perform ray-tracing calculations. While hardware acceleration can provide significant performance benefits for ray-tracing, it is not a strict requirement for implementing the technique.
It’s important to note that Teardown is not a graphically demanding game in terms of visual fidelity or complexity. The game’s voxel-based art style and simplistic environments do not require advanced ray-tracing techniques to achieve their intended aesthetic. Therefore, it is understandable that the developers did not prioritize utilizing dedicated RT cores or implementing hardware-accelerated ray-tracing.
However, it’s worth mentioning that Teardown’s developers could potentially explore leveraging RT cores or hardware acceleration in future updates or sequels to enhance the game’s visual fidelity and realism. As technology progresses and hardware becomes more accessible and affordable, it may become more feasible for smaller development teams to incorporate advanced rendering techniques into their games.
While Teardown does not currently use RT cores or dedicated hardware for ray-tracing, it still manages to achieve a visually appealing and immersive experience through its unique art style and software-based ray-tracing implementation. The game’s focus on gameplay mechanics and physics-based interactions rather than cutting-edge visuals may have influenced the decision to prioritize other aspects of development over advanced rendering techniques.