If you really believe that this will work anytime in the next decade, and that it doesn't need a rocket to circularize the projectile's orbit, I have a bridge to sell you.
Ignoring air resistance (which you really shouldn't, especially not when you're talking in the thousands of meters per second), you need to launch something at around 1400m/s get it to 100km high "suborbital". You need to launch it over 8000m/s to get it into orbit. In 2022, Spinlaunch were getting to ~450m/s, but that was two years ago and maybe they've improved.
Now, 1400m/s is in the neighborhood of a tank cannon, which is doable. But 8000m/s on the surface, or about 29.000 kph, is about mach 23. That's like running smack into a brick wall of air, every millisecond. And in reality, you need MUCH more speed, because you're shooting at a much shallower angle, so there's a lot more air to get through.
The animation shows they use a normal(?) engine once the rocket is launched. Looks like this can always work, it is like throwing a rocket into the air and then starting the engine. I wonder if that is any better than normal launch or from underneath an airplane.
I think they're too early. Kinetic launchers will be great for yeeting raw materials from moons and asteroids, but launching delicate satellites through Earth's thick atmosphere seems fraught with challenges.
Either way, it's good that the article spends some space on the possible uses of satellites. Otherwise people could get the impression it's all for fun, or something like that.