You could require manual verification of the results before the coin is validated. The whole point here is to limit the rate of coin creation after all. You could create a pool of coins using the known protein folds, and then new ones can trickle in slowly as they’re certified.
Perhaps, but that seems like a lot of extra resources required to make that work. And now already I have the gut feeling that some of the smaller projects are mostly there because the scientists could not get a supercomputer from their institute.
And even if the latter were not to be the case, I still think that most projects (certainly WCG) are primarily meant to be used philanthropically.
My main point here is that it would be better if the work needed to make crypto currency function actually had some purpose to it. It doesn’t need to be the specific example I gave, but I’m sure it’d be possible to come up with some meaningful computation that could power the underlying processing.
You could require manual verification of the results before the coin is validated. The whole point here is to limit the rate of coin creation after all. You could create a pool of coins using the known protein folds, and then new ones can trickle in slowly as they’re certified.
Perhaps, but that seems like a lot of extra resources required to make that work. And now already I have the gut feeling that some of the smaller projects are mostly there because the scientists could not get a supercomputer from their institute. And even if the latter were not to be the case, I still think that most projects (certainly WCG) are primarily meant to be used philanthropically.
My main point here is that it would be better if the work needed to make crypto currency function actually had some purpose to it. It doesn’t need to be the specific example I gave, but I’m sure it’d be possible to come up with some meaningful computation that could power the underlying processing.
I see. Indeed, in that way you are right.