mirror of
https://github.com/bitcoinbook/bitcoinbook
synced 2024-11-27 02:18:25 +00:00
commit
632b99be64
@ -494,7 +494,7 @@ To make a challenge out of this algorithm, let's set a target: find a phrase tha
|
|||||||
|
|
||||||
To give a simple analogy, imagine a game where players throw a pair of dice repeatedly, trying to throw less than a specified target. In the first round, the target is 12. Unless you throw double-six, you win. In the next round the target is 11. Players must throw 10 or less to win, again an easy task. Let's say a few rounds later the target is down to 5. Now, more than half the dice throws will exceed the target and therefore be invalid. It takes exponentially more dice throws to win, the lower the target gets. Eventually, when the target is 2 (the minimum possible), only one throw out of every 36, or 2% of them, will produce a winning result.
|
To give a simple analogy, imagine a game where players throw a pair of dice repeatedly, trying to throw less than a specified target. In the first round, the target is 12. Unless you throw double-six, you win. In the next round the target is 11. Players must throw 10 or less to win, again an easy task. Let's say a few rounds later the target is down to 5. Now, more than half the dice throws will exceed the target and therefore be invalid. It takes exponentially more dice throws to win, the lower the target gets. Eventually, when the target is 2 (the minimum possible), only one throw out of every 36, or 2% of them, will produce a winning result.
|
||||||
|
|
||||||
From the perspective of an observer who knows that the target of the dice game is 2, if someone has succeeded in casting a winning throw it can be assumed that they attempted, on average, 36 throws. In other words, one can estimate the amount of work it takes to succeed from the difficulty imposed by the target. When the algorithm is a based on a deterministic function such as SHA256, the input itself constitutes _proof_ that a certain amount of _work_ was done to produce a result below the target. Hence, _Proof-of-Work_.
|
From the perspective of an observer who knows that the target of the dice game is 2, if someone has succeeded in casting a winning throw it can be assumed that they attempted, on average, 36 throws. In other words, one can estimate the amount of work it takes to succeed from the difficulty imposed by the target. When the algorithm is based on a deterministic function such as SHA256, the input itself constitutes _proof_ that a certain amount of _work_ was done to produce a result below the target. Hence, _Proof-of-Work_.
|
||||||
|
|
||||||
[TIP]
|
[TIP]
|
||||||
====
|
====
|
||||||
|
Loading…
Reference in New Issue
Block a user