# Top runs: * **Highest FPS**: `Bpfland-next -m 0xff --disable-l2 --disable-l3 -c 0 -k -L` and it delivered the highest average FPS with a small variance, ensuring excellent performance. * **Smoothest FPS**: `Bpfland-next -m 0xff` and it achieved the lowest FPS standard deviation and variance, providing the most consistent frame times. * **Best overall**: `Bpfland-next -m 0xff --disable-l2 --disable-l3 -c 0 -k -L` and it had the highest average FPS with reasonable stability, making it the best overall option. # Issues: * The configuration with `Bpfland-main` produced slightly lower FPS compared to other runs, indicating that optimizations in more recent configurations provide better performance. * The `Bpfland-next --disable-l2 --disable-l3` configuration had minimal impact on frame time consistency but did not outperform other configurations significantly in FPS. * Configurations without memory and cache optimizations (`Bpfland-main`) are consistently underperforming by a few percentage points in both FPS and frame time consistency compared to optimized runs. # Summary The benchmark compared various configurations of the `bpfland` scheduler in Rocket League on a consistent hardware and software setup. The configurations with the highest optimizations, including specific memory and cache disables as well as CPU and kernel tweaks, showed the best results in terms of both frames per second and smoothness of gameplay. The results clearly indicate that advanced scheduler and memory optimizations can lead to noticeable performance improvements in gaming scenarios like Rocket League, where both high FPS and consistent frame times are crucial.