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I've read a few articles on bitcoins, all of which state they are 'mined' through solving complex and intensive calculations which is pretty straight forward.

What I cannot find information on is what if any is the point or greater purpose of the calculations.

Are bitcoin miners contributing to solving real problems?

What I am asking is other than the reward of a bitcoin, are these mining calculations just wastes of computation or is the processing actually being used in someway?

And if the processing is indeed being used, can you show any examples of the applications?

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If you don't get a good answer here, you could try asking on the Bitcoin Stack Exchange site. –  Troyen Jul 14 '13 at 7:55
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This question appears to be off-topic because it is about bitcoin not programming –  Łukasz 웃 L ツ Jan 24 at 13:06
    
Judging for the answers, this question isn't a good fit here. –  Łukasz 웃 L ツ Jan 24 at 16:06
    
This question should be migrated to bitcoin.stackexchange.com –  Rohan West Feb 3 at 19:54
    
The question is does/can the mining be used to contribute to solving a larger programmatic problem –  Aaron Feb 15 at 12:46
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7 Answers

up vote 5 down vote accepted

I think the abstract from the original paper on bitcoin sums it up best:

A purely peer-to-peer version of electronic cash would allow online payments to be sent directly from one party to another without going through a financial institution. Digital signatures provide part of the solution, but the main benefits are lost if a trusted third party is still required to prevent double-spending. We propose a solution to the double-spending problem using a peer-to-peer network. The network timestamps transactions by hashing them into an ongoing chain of hash-based proof-of-work, forming a record that cannot be changed without redoing the proof-of-work. The longest chain not only serves as proof of the sequence of events witnessed, but proof that it came from the largest pool of CPU power. As long as a majority of CPU power is controlled by nodes that are not cooperating to attack the network, they'll generate the longest chain and outpace attackers. The network itself requires minimal structure. Messages are broadcast on a best effort basis, and nodes can leave and rejoin the network at will, accepting the longest proof-of-work chain as proof of what happened while they were gone.

Basically, the point of the calculations is to prevent double-spending.

The entire paper is only a few pages, and well worth the read. It cleared up a lot of questions that I had about bitcoin.

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"Bitcoins are 'mined' through solving complex and intensive calculations"

That is something one reads in a lot of articles, but to be a bit more specific, mining is essentially a bunch of people competing to be the first to find a hash for a given block input that fulfills a certain number of leading zeros. As it is impossible to tell what properties an SHA-256 hash will have before it is calculated, the only way to find it, is to resort to brute-force.

This is only "complex" and "intensive" as in that it takes currently about 1.3*10^19 tries for someone to get it right. Once somebody has found it though, it is trivial for others to verify.

For a more in depth answer, please refer to What are Bitcoin miners really solving? or What exactly is Mining?.

What is the point of mining?

Mining is not useless, actually it is what makes Bitcoin possible: Mining provides a mechanism which synchronizes the network's state, validates transactions, prevents double spending, and counterfeiting. Mining enables one to trust the network, without trusting any single participant.

Since digital information is easily duplicated, previous online payment networks relied on a central entity to keep track of balances. This provides the operator with power over the users and presents a single point of failure.

The Bitcoin "referee" is a public distributed ledger of balances, the blockchain. Each block represents an incremental update of the network's balances, and is secured by the work that is piled on it through mining. As each block depends on its predecessor, for an attacker to change something in the block chain, he would have to invest at least as much computational work as has been provided by the complete network since the transaction has been posted. The network regulates the required effort so that these blocks appear at approximately regular intervals, preventing that the network is swamped with valid blocks that need to be verified and stored, also allowing time for the block to be distributed.

While mining also serves as the distribution mechanism of new bitcoins, it is actually the other way around: The Bitcoin algorithm attracts miners by paying for the provided work; it pays to sustain itself, hereby elegantly circumventing the chicken-egg-problem.

More information can be found for example at How does the mining process support the currency? or What is the rationale behind Bictoin mining?

Is there a way to set up a proof-of-work system so it would be even more useful?

The problem is that such a secondary purpose would have to be a set of problems

  1. that has easily verifiable solutions
  2. with previously known, adjustable difficulty
  3. where solution of N+1 depends on solution N
  4. still allow to secure the transactions

AFAIK, there is only one cryptocurrency that uses a proof-of-work system with a secondary purpose: Primecoin finds previously unknown chains of prime numbers. Arguably, this is more useful than a chain of hashes with leading zeros, I just don't know for what except world records.

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The calculations are completely useless. To answer your implied question of “Why?”: The mining is in there to make sure that there is a constant flow of new coins. As there is no central government of BitCoin, nobody could be trusted to hand those out.

It would of course be nice if we could use all that calculation power for something useful, but the Mining needs to be something that can not be done in a smarter and quicker way and has a fixed time requirement for all cases. The examples you gave do not satisfy these requirements and I assume that most real-world problems don’t either.

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The calculations are in fact completely pointless. In effect, the miners basically guess random numbers until one happens to be correct - the more random numbers you can try, the more likely you are to get one right.

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Like the previous answers the caclulations are not really used for some higher purpose other than to solve the next block. Now it has been rumored that the possiblity of doing something more useful with the processing power. Such as pointing your miner to a specific pool with a specific client and then what actually gets calculated would change based on what the pool has signaled to the client to process. You would recieve the same amount of BTC as if you were mining but you would actually do calulations for some other type of project. As with the mining moving to ASICs I don't know if it would be feasable or not, I guess as long as the work was sent as a SHA256 type of work it would.

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The calculation is a self constructed number series that has no value or use outside the Bitcoin network. Its basically the "best proof" that a bitcoin exchange has occurred. If a bitcoin exchange can't be proven to have occurred, then it hasn't occurred. The calculation is just an encrypted "validation" process that assumes more people are working to keep Bitcoin honest than there are working to defraud Bitcoin. The goof-assed ground level conversion is from electricity to bitcoins. The award of bitcoins goes to those who are willing to pay for electricity, buy dedicated computing hardware, and hope someone else doesnt have a faster computer that will beat them to the finish line more often than not.

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Trying to figure out the profitability of mining bitcoins is a very complicated process . things that you will need.

  1. Exchange rate
  2. Bitcoins per block (as of 2014-04-09 this is 25 btc)
  3. Block difficulty
  4. Miner hash rate
  5. Cost your miner
  6. Delivery date for the miner
  7. Electricity costs
  8. Projected changes to any of the above

There are online calculatiors that can calculate most of this for you, and give you detailed information on the calculations.

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