So say I have these variables:

`m`

is the amount of memory available in bits`k`

is a dividing factor`j`

is another dividing factor, kept as a separate variable instead of combining with`k`

`x`

is the value we want to figure out.`z`

is the value we want to be a closest to`2^x`

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
```

Then `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
```

And `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.

What I've been doing currently is basically going into the debugger and typing in some JavaScript to find values, but there's gotta be a better way.