80a on the battery, " now please tell me why you don't want the controller to match the battery? Because that's how I've been running the last motor
I don't understand your bolded statement.
That is the opposite of the intent of the questions.
As stated previously, If the battery cannot ouptut at least 80A, you don't want to get a controller that can draw that much.
If you get a controller that can draw less than the battery can supply, then the battery will be less stressed and will still be able to supply the controller with full current even as the battery ages (as they age, they are less and less capable).
If you prefer to use an 80A controller with an 80A battery, that would be fine, as long as the battery is still able to do it. When you begin to notice less "oomph" in the acceleration, and see more voltage sag under those kinds of loads, then it might be good to turn the controller's current down if it's programmable.
That said...why is it you need a new controller, if your old one matched the battery/etc, and still works?
If you want more power (watts) as your last post says, well, you can't get that without using higher current from the battery, or higher voltage, or both. Watts is Volts x Amps. You can't get more W without increasing either V or A or both.
If you're already at 80A with the last controller and that's at the max of the battery limit, then you can't use a higher current controller, or else you also have to replace the battery with one capable of supporting the new controller's current demands.
You can't use a higher voltage system without replacing hte battery with a higher voltage battery (that can also supply the current needed).
Note about "more power" and "more speed": If you want more speed than ~60mph, you're going to need significantly more power than you had before. You probably also need more voltage, since roughly more volts spins the motor faster, though it still takes more watts for overcoming the air resistance at the higher speed (and the faster you go, the more resistance, more and more for smaller increases in speed).
If you want quicker acceleration (at all speeds, not just startup), you'll need to setup the system to be capable of faster speeds than you will actually use, so that it still has acceleration torque available when you are at your max actually used speed.
You may need a new motor as well, to handle the higher power required for the faster speeds and accelerations, and/or wound for a higher speed (RPM/volt, kV).
You can see how these interactions work by using the simulator at ebikes.ca, after some experimentation and learning, and reading the instructions for it on it's page.
It's probably going to be fairly expensive to do what you want, especially for a good battery (since most of them are cheap crap that can't do what they say they can do, and some of them are even fire hazards).
BTW, most bicycles aren't physically designed for the speeds you want, so keep in mind the limitations of the bike itself, and the brakes, suspension, wheels, tires, etc.--it would suck to be going that fast and have something fail to work as needed.
