So say I have these variables:
mis the amount of memory available in bits
kis a dividing factor
jis another dividing factor, kept as a separate variable instead of combining with
xis the value we want to figure out.
zis the value we want to be a closest to
Then we have
let z = (((m / k) / j) / x)
So for example, say we have this:
m = 2000000
k = 5
j = 10
x = ?
z = ?
Then we have
let z = ((2000000 / 5) / 10) / x
I would like to figure out what
x is given that
z should be as close to 2 to the power of
x as possible. The way I am currently doing this is by just plugging in numbers and trying to get them close to matching. But I'm wondering a generic way to programmatically solve this. But for example, I might try plugging in
x = 10, which equals:
4000 = ((2000000 / 5) / 10) / 10
2¹⁰ = 1024 which is decently close to 4000, but I don't know what would be closer. Trying
x = 11 gives:
3636 = ((2000000 / 5) / 10) / 11
2¹¹ = 2048, so
x = 11 is a better solution.
Wondering how I can programmatically solve this. I have tried to factor the equation out, but it's been a while since I've done this so I don't know.
z = (((m / k) / j) / x) x * z = (m / k) / j j * (x * z) = m / k k * (j * (x * z)) = m ...
A bit lost now, not sure how to get it to the point of this:
f(k, j) = ... => [ x, z ]
Generally I'm trying to figure out how to solve an equation programmatically. Just seeing an implementation would allow me to understand without making it too broad.