This is very much like a physics question.
You need to set off at a given "velocity" with a certain "deceleration" in order to reach a given "displacement" (1.0) within a given time (1.0 second).
The 2 numbers you need to determine are the initial velocity and the required deceleration.
Using SUVAT and substituting in s = 1 and t = 1.
You get from
s = ut + 1/2 * at^2
a = 2 - 2u
As long as your initial velocity (u) and the acceleration you apply (a) make this equation work then you'll get to a distance of 1 in 1 second.
You can see the effect by putting the numbers into a spreadsheet. You have to pick a value of u between 0 and 2 and this will give the required acceleration to get to 1.0 in 1 second.
You have a start value of your u amount and then accelerate it each time by your a value.
In fact, choosing a value of u between 0 and 1 will give an "ease-in" effect. Choosing a value of u between 1 and 2 will give and "ease-out" effect.