This video I think makes it obvious why that's true in a pretty intuitive way. I posted it a few days ago as a link and it never got traction.
SAT is the equivalent of being able to find the inverse of _any_ function, because you can describe any function with logic gates (for obvious reasons), and any collection of logic gates that describes a function is equivalent to a SAT problem. All you need to do is codify the function in logic gates, including the output you want, and the ask a SAT solver to find the inputs that produce that output.
This video I think makes it obvious why that's true in a pretty intuitive way. I posted it a few days ago as a link and it never got traction.
SAT is the equivalent of being able to find the inverse of _any_ function, because you can describe any function with logic gates (for obvious reasons), and any collection of logic gates that describes a function is equivalent to a SAT problem. All you need to do is codify the function in logic gates, including the output you want, and the ask a SAT solver to find the inputs that produce that output.