Bitcoin Wiki - User contributions [en]

Triplemining

2013-10-15T16:07:39Z

Semaster:

A [[Pooled mining|mining pool|mining]].

This pool aims to provide a simple reward sharing scheme and fast payments.

The service was first available for beta testing starting June 28, 2011<ref>[http://www.bitcoin.org/smf/index.php?topic=23664.0 New mining pool with proportional reward distribution]</ref>.

==Jackpot system==
To give everyone a chance to grow his or her bit coins, we have developed a unique jackpot system.

Every time a block is found, we put some of the bitcoins in our jackpot. Once a week, randomly connected to the find of a block, the jackpot is paid-out to one of the members of the pool that found the block that triggered the jackpot.

This way, everyone has an equal chance, irrespective of his or her processing power, to make additional bit coins every week. The only thing you need to do to participate is to mine with us.

The weekly winner will be notified personally be email, his or her jackpot reward will be deposited into his or her account. Check out our wall of fame to see our previous jackpot winners.

==Reward distribution==
With bitcoin mining, pool hash rate (= speed), mining difficulty and a little bit of luck play a central part. Big pools can be depressing, especially if your hash rate is not that great while too small pools with a streak of bad luck leave you with some kind of a stomachache.

To counter this, Triplemining aims to bring together a medium-sized pool with no fees and clever redistribution of 1% of every found block to allow your share to grow more rapidly than on any other bitcoin mining pool.

How do we achieve this?

For every found block, we redistribute 1% of the profits to all minipool owners (people with 1 or more friends mining with them). The redistribution is connected to the shares found by your friends, not yours! So if the hash rate of your friends equals or is bigger than yours, your part in the redistribution will be equally bigger.

For every found block we increase our jackpot by the 1% taken from people who are not part of someone else's mini-pool. Once per week the jackpot is paid-out, randomly connected to the find of a block, to one miner active at the moment of the find.

==See Also==

* [[Comparison of mining pools]]
* [[Pooled Mining]]

==External Links==

* [https://www.triplemining.com Triplemining] web site

==References==
<references />

[[Category:Pool Operators]]
[[ru:Triplemining]]

Bit-miner.com

2013-10-15T15:57:13Z

Semaster:

== Bit-miner.com==

Advanced form of group buys or collective mining; Sells mining shares. Service represents the Mining as a Service (MaaS) model that break large-scale datacenter mining down to easily manageable pieces.

When buying shares customer pay for the right to receive dividends from the ownership of shares. Time of shares ownership is not limited. The price of share includes the proportional cost of equipment, any taxes, mortgage, insurance, mining equipment space rental, utilities, bills for electricity and internet access. Every asset after launch works 24/7/365 until the cost of expenses exceeds the operating fee, in which case we will auction the respective machine and distribute the earnings in the same way that we distribute the dividends. After that shares of such asset will be terminated.

Dividends are paid out every 1st and 15th of the month within a 72 hour grace period. Dividend funds are distributed equally amongst all shares. After the distribution of dividends in your account - you can order the payout at any time to bitcoin address.

They use different mining machines from different vendors.

==External Links==

* [http://bit-miner.com/front/pricing.html Website]
[[ru:Bit-miner.com]]

Bit-miner.com

2013-10-14T13:50:52Z

Semaster: /* Bit-miner.com */

Bit-miner.com

2013-10-14T13:49:35Z

Semaster: /* Bit-miner.com */

== Bit-miner.com==

Sells mining shares. Service represents the Mining as a Service (MaaS) model we break large-scale datacenter mining down to easily manageable pieces. Advanced form of group buys or collective mining.

When buying shares customer pay for the right to receive dividends from the ownership of shares. Time of shares ownership is not limited. The price of share includes the proportional cost of equipment, any taxes, mortgage, insurance, mining equipment space rental, utilities, bills for electricity and internet access. Every asset after launch works 24/7/365 until the cost of expenses exceeds the operating fee, in which case we will auction the respective machine and distribute the earnings in the same way that we distribute the dividends. After that shares of such asset will be terminated.

Dividends are paid out every 1st and 15th of the month within a 72 hour grace period. Dividend funds are distributed equally amongst all shares. After the distribution of dividends in your account - you can order the payout at any time to bitcoin address.

They use different mining machines from different vendors.

==External Links==

* [http://bit-miner.com/front/pricing.html Website]

Mining

2013-10-12T13:18:39Z

Semaster:

[[File:Quick-and-dirty-4x5970-cooling.jpg|thumb|right|A quick and dirty mining rig]]
== Introduction ==
'''Mining''', or generating, is the process of adding transaction records to Bitcoin's public ledger of past transactions. This ledger of past transactions is called the [[block chain]] as it is a chain of [[block|blocks]]. The block chain serves to [[Confirmation|confirm]] transactions to the rest of the network as having taken place. Bitcoin nodes use the block chain to distinguish legitimate Bitcoin transactions from attempts to respend coins that have already been spent elsewhere.

Mining is intentionally designed to be resource-intensive and difficult so that the number of blocks found each day by miners remains steady. Individual [[blocks]] must contain a [[proof of work|proof of work]] to be considered valid. This proof of work is verified by other Bitcoin nodes each time they receive a block.

== History ==
Bitcoin's public ledger (the 'block chain') was started on January 3rd, 2009 at 18:15 UTC presumably by [[Satoshi Nakamoto]]. The first block is known as the [[genesis block]]. The first transaction recorded in the first block was a single transaction paying the reward of 50 new bitcoins to its creator.

Bitcoin mining is so called because it resembles the mining of other commodities: it requires exertion and it slowly makes new currency available at a rate that resembles the rate at which commodities like gold are mined from the ground. See [[Controlled Currency Supply]].

== Mining services ==
Mining contracts - provides mining services with performance specified by contract. An example would be where a specific level of mining capacity is rented out for a set price for a specific duration. Short list of mining contractors is [[Minerlease]], [http://e-pickaxe.com e-pickaxe]

Mining shares - provides Mining as a Service (MaaS) model; break large-scale datacenter mining down to easily manageable pieces that are available in the form of shares of equipment. Mining shares are available from such companies as [[ASICMINER]] or [[Bit-miner.com]]

== Difficulty ==
=== The Computationally-Difficult Problem ===
Mining a block is difficult because the SHA-256 hash of a block's header must be lower than or equal to the [[Target|target]] in order for the block to be accepted by the network. This problem can be simplified for explanation purposes: The hash of a block must start with a certain number of zeros. The probability of calculating a hash that starts with many zeros is very low, therefore many attempts must be made. In order to generate a new hash each round, a [[Nonce|nonce]] is incremented. See [[Proof of work]] for more information.

=== The Difficulty Metric ===
The [[Difficulty|difficulty]] is the measure of how difficult it is to find a new block compared to the easiest it can ever be. It is recalculated every 2016 blocks to a value such that the previous 2016 blocks would have been generated in exactly two weeks had everyone been mining at this difficulty. This will yield, on average, one block every ten minutes. As more miners join, the rate of block creation will go up. As the rate of block generation goes up, the difficulty rises to compensate which will push the rate of block creation back down. Any blocks released by malicious miners that do not meet the required difficulty [[Target|target]] will simply be rejected by everyone on the network and thus will be worthless.

=== Reward ===
When a block is discovered, the discoverer may award themselves a certain number of bitcoins, which is agreed-upon by everyone in the network. Currently this bounty is 25 bitcoins; this value will halve every 210,000 blocks. See [[Controlled Currency Supply]].

Additionally, the miner is awarded the fees paid by users sending transactions. The fee is an incentive for the miner to include the transaction in their block. In the future, as the number of new bitcoins miners are allowed to create in each block dwindles, the fees will make up a much more important percentage of mining income.

== Hardware ==
[[File:Usb-fpga module 1.15x-hs-800.jpg|thumb|right|FPGA Module]]
Users have used various types of hardware over time to mine blocks. Hardware specifications and performance statistics are detailed on the [[Mining Hardware Comparison]] page.
=== CPU Mining ===
Early Bitcoin client versions allowed users to use their CPUs to mine. The advent of GPU mining made CPU mining financially unwise. The option still exists in the reference Bitcoin client, but it is disabled by default.

=== GPU Mining ===
GPU Mining is drastically faster and more efficient than CPU mining. See the main article: [[Why a GPU mines faster than a CPU]]. A variety of popular [[Mining rig|mining rigs]] have been documented.
=== FPGA Mining ===
FPGA mining is a very efficient and fast way to mine, comparable to GPU mining and drastically outperforming CPU mining. FPGAs typically consume very small amounts of power with relatively high hash ratings, making them more viable and efficient than GPU mining. See [[Mining Hardware Comparison]] for FPGA hardware specifications and statistics.
=== ASIC Mining ===
An application-specific integrated circuit, or ''ASIC'', is a microchip designed and manufactured for a very specific purpose. ASICs designed for Bitcoin mining were first released in 2013 and (at the time of this writing) are in the hands of a very limited number of miners. For the amount of power they consume, they are vastly faster than all previous technologies and already has made GPU mining financially unwise in some countries and setups.

== Pools ==
As mining a block became more and more difficult, individuals found that they were working for months without finding a block and receiving ''any'' reward for their mining efforts. Thus they started organizing themselves into [[Pooled mining|pools]] so that they could share rewards more evenly. See [[Pooled mining]] and [[Comparison of mining pools]].
[[Category:Mining]][[Category:Vocabulary]]

==See Also==

* [http://codinginmysleep.com/bitcoin-mining-in-plain-english Bitcoin Mining in Plain English] by David Perry
* [[Automatically mine when computer is locked|Tutorial to automatically start mining when you lock your computer]]. (Windows 7)
* [http://www.reddit.com/r/Bitcoin/comments/18q2jx/eli5_bitcoin_mining_xpost_in_eli5/ Simplified Explanation of Bitcoin Mining] by reddit user [http://www.reddit.com/user/azotic azotic]

[[ru:Mining]]

Mining

2013-10-12T13:16:32Z

Semaster: /* Mining services */

[[File:Quick-and-dirty-4x5970-cooling.jpg|thumb|right|A quick and dirty mining rig]]
== Introduction ==
'''Mining''', or generating, is the process of adding transaction records to Bitcoin's public ledger of past transactions. This ledger of past transactions is called the [[block chain]] as it is a chain of [[block|blocks]]. The block chain serves to [[Confirmation|confirm]] transactions to the rest of the network as having taken place. Bitcoin nodes use the block chain to distinguish legitimate Bitcoin transactions from attempts to respend coins that have already been spent elsewhere.

Mining is intentionally designed to be resource-intensive and difficult so that the number of blocks found each day by miners remains steady. Individual [[blocks]] must contain a [[proof of work|proof of work]] to be considered valid. This proof of work is verified by other Bitcoin nodes each time they receive a block.

== History ==
Bitcoin's public ledger (the 'block chain') was started on January 3rd, 2009 at 18:15 UTC presumably by [[Satoshi Nakamoto]]. The first block is known as the [[genesis block]]. The first transaction recorded in the first block was a single transaction paying the reward of 50 new bitcoins to its creator.

Bitcoin mining is so called because it resembles the mining of other commodities: it requires exertion and it slowly makes new currency available at a rate that resembles the rate at which commodities like gold are mined from the ground. See [[Controlled Currency Supply]].

== Mining services ==
Mining contracts - provides mining services with performance specified by contract. An example would be where a specific level of mining capacity is rented out for a set price for a specific duration. Short list of mining contractors is [[Minerlease]], [[http://e-pickaxe.com|e-pickaxe]]

Mining shares - provides Mining as a Service (MaaS) model; break large-scale datacenter mining down to easily manageable pieces that are available in the form of shares of equipment. Mining shares are available from such companies as [[ASICMINER]] or [[Bit-miner.com]]

== Difficulty ==
=== The Computationally-Difficult Problem ===
Mining a block is difficult because the SHA-256 hash of a block's header must be lower than or equal to the [[Target|target]] in order for the block to be accepted by the network. This problem can be simplified for explanation purposes: The hash of a block must start with a certain number of zeros. The probability of calculating a hash that starts with many zeros is very low, therefore many attempts must be made. In order to generate a new hash each round, a [[Nonce|nonce]] is incremented. See [[Proof of work]] for more information.

=== The Difficulty Metric ===
The [[Difficulty|difficulty]] is the measure of how difficult it is to find a new block compared to the easiest it can ever be. It is recalculated every 2016 blocks to a value such that the previous 2016 blocks would have been generated in exactly two weeks had everyone been mining at this difficulty. This will yield, on average, one block every ten minutes. As more miners join, the rate of block creation will go up. As the rate of block generation goes up, the difficulty rises to compensate which will push the rate of block creation back down. Any blocks released by malicious miners that do not meet the required difficulty [[Target|target]] will simply be rejected by everyone on the network and thus will be worthless.

=== Reward ===
When a block is discovered, the discoverer may award themselves a certain number of bitcoins, which is agreed-upon by everyone in the network. Currently this bounty is 25 bitcoins; this value will halve every 210,000 blocks. See [[Controlled Currency Supply]].

Additionally, the miner is awarded the fees paid by users sending transactions. The fee is an incentive for the miner to include the transaction in their block. In the future, as the number of new bitcoins miners are allowed to create in each block dwindles, the fees will make up a much more important percentage of mining income.

== Hardware ==
[[File:Usb-fpga module 1.15x-hs-800.jpg|thumb|right|FPGA Module]]
Users have used various types of hardware over time to mine blocks. Hardware specifications and performance statistics are detailed on the [[Mining Hardware Comparison]] page.
=== CPU Mining ===
Early Bitcoin client versions allowed users to use their CPUs to mine. The advent of GPU mining made CPU mining financially unwise. The option still exists in the reference Bitcoin client, but it is disabled by default.

=== GPU Mining ===
GPU Mining is drastically faster and more efficient than CPU mining. See the main article: [[Why a GPU mines faster than a CPU]]. A variety of popular [[Mining rig|mining rigs]] have been documented.
=== FPGA Mining ===
FPGA mining is a very efficient and fast way to mine, comparable to GPU mining and drastically outperforming CPU mining. FPGAs typically consume very small amounts of power with relatively high hash ratings, making them more viable and efficient than GPU mining. See [[Mining Hardware Comparison]] for FPGA hardware specifications and statistics.
=== ASIC Mining ===
An application-specific integrated circuit, or ''ASIC'', is a microchip designed and manufactured for a very specific purpose. ASICs designed for Bitcoin mining were first released in 2013 and (at the time of this writing) are in the hands of a very limited number of miners. For the amount of power they consume, they are vastly faster than all previous technologies and already has made GPU mining financially unwise in some countries and setups.

== Pools ==
As mining a block became more and more difficult, individuals found that they were working for months without finding a block and receiving ''any'' reward for their mining efforts. Thus they started organizing themselves into [[Pooled mining|pools]] so that they could share rewards more evenly. See [[Pooled mining]] and [[Comparison of mining pools]].
[[Category:Mining]][[Category:Vocabulary]]

==See Also==

* [http://codinginmysleep.com/bitcoin-mining-in-plain-english Bitcoin Mining in Plain English] by David Perry
* [[Automatically mine when computer is locked|Tutorial to automatically start mining when you lock your computer]]. (Windows 7)
* [http://www.reddit.com/r/Bitcoin/comments/18q2jx/eli5_bitcoin_mining_xpost_in_eli5/ Simplified Explanation of Bitcoin Mining] by reddit user [http://www.reddit.com/user/azotic azotic]

Mining

2013-10-12T13:15:46Z

Semaster:

[[File:Quick-and-dirty-4x5970-cooling.jpg|thumb|right|A quick and dirty mining rig]]
== Introduction ==
'''Mining''', or generating, is the process of adding transaction records to Bitcoin's public ledger of past transactions. This ledger of past transactions is called the [[block chain]] as it is a chain of [[block|blocks]]. The block chain serves to [[Confirmation|confirm]] transactions to the rest of the network as having taken place. Bitcoin nodes use the block chain to distinguish legitimate Bitcoin transactions from attempts to respend coins that have already been spent elsewhere.

Mining is intentionally designed to be resource-intensive and difficult so that the number of blocks found each day by miners remains steady. Individual [[blocks]] must contain a [[proof of work|proof of work]] to be considered valid. This proof of work is verified by other Bitcoin nodes each time they receive a block.

== History ==
Bitcoin's public ledger (the 'block chain') was started on January 3rd, 2009 at 18:15 UTC presumably by [[Satoshi Nakamoto]]. The first block is known as the [[genesis block]]. The first transaction recorded in the first block was a single transaction paying the reward of 50 new bitcoins to its creator.

Bitcoin mining is so called because it resembles the mining of other commodities: it requires exertion and it slowly makes new currency available at a rate that resembles the rate at which commodities like gold are mined from the ground. See [[Controlled Currency Supply]].

== Mining services ==
Mining contracts - provides mining services with performance specified by contract. An example would be where a specific level of mining capacity is rented out for a set price for a specific duration. Short list of mining contractors is [[Minerlease]], [http://e-pickaxe.com|e-pickaxe]

Mining shares - provides Mining as a Service (MaaS) model; break large-scale datacenter mining down to easily manageable pieces that are available in the form of shares of equipment. Mining shares are available from such companies as [[ASICMINER]] or [[Bit-miner.com]]

== Difficulty ==
=== The Computationally-Difficult Problem ===
Mining a block is difficult because the SHA-256 hash of a block's header must be lower than or equal to the [[Target|target]] in order for the block to be accepted by the network. This problem can be simplified for explanation purposes: The hash of a block must start with a certain number of zeros. The probability of calculating a hash that starts with many zeros is very low, therefore many attempts must be made. In order to generate a new hash each round, a [[Nonce|nonce]] is incremented. See [[Proof of work]] for more information.

=== The Difficulty Metric ===
The [[Difficulty|difficulty]] is the measure of how difficult it is to find a new block compared to the easiest it can ever be. It is recalculated every 2016 blocks to a value such that the previous 2016 blocks would have been generated in exactly two weeks had everyone been mining at this difficulty. This will yield, on average, one block every ten minutes. As more miners join, the rate of block creation will go up. As the rate of block generation goes up, the difficulty rises to compensate which will push the rate of block creation back down. Any blocks released by malicious miners that do not meet the required difficulty [[Target|target]] will simply be rejected by everyone on the network and thus will be worthless.

=== Reward ===
When a block is discovered, the discoverer may award themselves a certain number of bitcoins, which is agreed-upon by everyone in the network. Currently this bounty is 25 bitcoins; this value will halve every 210,000 blocks. See [[Controlled Currency Supply]].

Additionally, the miner is awarded the fees paid by users sending transactions. The fee is an incentive for the miner to include the transaction in their block. In the future, as the number of new bitcoins miners are allowed to create in each block dwindles, the fees will make up a much more important percentage of mining income.

== Hardware ==
[[File:Usb-fpga module 1.15x-hs-800.jpg|thumb|right|FPGA Module]]
Users have used various types of hardware over time to mine blocks. Hardware specifications and performance statistics are detailed on the [[Mining Hardware Comparison]] page.
=== CPU Mining ===
Early Bitcoin client versions allowed users to use their CPUs to mine. The advent of GPU mining made CPU mining financially unwise. The option still exists in the reference Bitcoin client, but it is disabled by default.

=== GPU Mining ===
GPU Mining is drastically faster and more efficient than CPU mining. See the main article: [[Why a GPU mines faster than a CPU]]. A variety of popular [[Mining rig|mining rigs]] have been documented.
=== FPGA Mining ===
FPGA mining is a very efficient and fast way to mine, comparable to GPU mining and drastically outperforming CPU mining. FPGAs typically consume very small amounts of power with relatively high hash ratings, making them more viable and efficient than GPU mining. See [[Mining Hardware Comparison]] for FPGA hardware specifications and statistics.
=== ASIC Mining ===
An application-specific integrated circuit, or ''ASIC'', is a microchip designed and manufactured for a very specific purpose. ASICs designed for Bitcoin mining were first released in 2013 and (at the time of this writing) are in the hands of a very limited number of miners. For the amount of power they consume, they are vastly faster than all previous technologies and already has made GPU mining financially unwise in some countries and setups.

== Pools ==
As mining a block became more and more difficult, individuals found that they were working for months without finding a block and receiving ''any'' reward for their mining efforts. Thus they started organizing themselves into [[Pooled mining|pools]] so that they could share rewards more evenly. See [[Pooled mining]] and [[Comparison of mining pools]].
[[Category:Mining]][[Category:Vocabulary]]

==See Also==

* [http://codinginmysleep.com/bitcoin-mining-in-plain-english Bitcoin Mining in Plain English] by David Perry
* [[Automatically mine when computer is locked|Tutorial to automatically start mining when you lock your computer]]. (Windows 7)
* [http://www.reddit.com/r/Bitcoin/comments/18q2jx/eli5_bitcoin_mining_xpost_in_eli5/ Simplified Explanation of Bitcoin Mining] by reddit user [http://www.reddit.com/user/azotic azotic]

Mining

2013-10-12T13:14:31Z

Semaster: /* External Links */

[[File:Quick-and-dirty-4x5970-cooling.jpg|thumb|right|A quick and dirty mining rig]]
== Introduction ==
'''Mining''', or generating, is the process of adding transaction records to Bitcoin's public ledger of past transactions. This ledger of past transactions is called the [[block chain]] as it is a chain of [[block|blocks]]. The block chain serves to [[Confirmation|confirm]] transactions to the rest of the network as having taken place. Bitcoin nodes use the block chain to distinguish legitimate Bitcoin transactions from attempts to respend coins that have already been spent elsewhere.

Mining is intentionally designed to be resource-intensive and difficult so that the number of blocks found each day by miners remains steady. Individual [[blocks]] must contain a [[proof of work|proof of work]] to be considered valid. This proof of work is verified by other Bitcoin nodes each time they receive a block.

== History ==
Bitcoin's public ledger (the 'block chain') was started on January 3rd, 2009 at 18:15 UTC presumably by [[Satoshi Nakamoto]]. The first block is known as the [[genesis block]]. The first transaction recorded in the first block was a single transaction paying the reward of 50 new bitcoins to its creator.

Bitcoin mining is so called because it resembles the mining of other commodities: it requires exertion and it slowly makes new currency available at a rate that resembles the rate at which commodities like gold are mined from the ground. See [[Controlled Currency Supply]].

== Mining services ==
Mining contracts - provides mining services with performance specified by contract. An example would be where a specific level of mining capacity is rented out for a set price for a specific duration. One of the biggest mining contractors is [[Minerlease]]

Mining shares - provides Mining as a Service (MaaS) model; break large-scale datacenter mining down to easily manageable pieces that are available in the form of shares of equipment. Mining shares are available from such companies as [[ASICMINER]] or [[Bit-miner.com]]

== Difficulty ==
=== The Computationally-Difficult Problem ===
Mining a block is difficult because the SHA-256 hash of a block's header must be lower than or equal to the [[Target|target]] in order for the block to be accepted by the network. This problem can be simplified for explanation purposes: The hash of a block must start with a certain number of zeros. The probability of calculating a hash that starts with many zeros is very low, therefore many attempts must be made. In order to generate a new hash each round, a [[Nonce|nonce]] is incremented. See [[Proof of work]] for more information.

=== The Difficulty Metric ===
The [[Difficulty|difficulty]] is the measure of how difficult it is to find a new block compared to the easiest it can ever be. It is recalculated every 2016 blocks to a value such that the previous 2016 blocks would have been generated in exactly two weeks had everyone been mining at this difficulty. This will yield, on average, one block every ten minutes. As more miners join, the rate of block creation will go up. As the rate of block generation goes up, the difficulty rises to compensate which will push the rate of block creation back down. Any blocks released by malicious miners that do not meet the required difficulty [[Target|target]] will simply be rejected by everyone on the network and thus will be worthless.

=== Reward ===
When a block is discovered, the discoverer may award themselves a certain number of bitcoins, which is agreed-upon by everyone in the network. Currently this bounty is 25 bitcoins; this value will halve every 210,000 blocks. See [[Controlled Currency Supply]].

Additionally, the miner is awarded the fees paid by users sending transactions. The fee is an incentive for the miner to include the transaction in their block. In the future, as the number of new bitcoins miners are allowed to create in each block dwindles, the fees will make up a much more important percentage of mining income.

== Hardware ==
[[File:Usb-fpga module 1.15x-hs-800.jpg|thumb|right|FPGA Module]]
Users have used various types of hardware over time to mine blocks. Hardware specifications and performance statistics are detailed on the [[Mining Hardware Comparison]] page.
=== CPU Mining ===
Early Bitcoin client versions allowed users to use their CPUs to mine. The advent of GPU mining made CPU mining financially unwise. The option still exists in the reference Bitcoin client, but it is disabled by default.

=== GPU Mining ===
GPU Mining is drastically faster and more efficient than CPU mining. See the main article: [[Why a GPU mines faster than a CPU]]. A variety of popular [[Mining rig|mining rigs]] have been documented.
=== FPGA Mining ===
FPGA mining is a very efficient and fast way to mine, comparable to GPU mining and drastically outperforming CPU mining. FPGAs typically consume very small amounts of power with relatively high hash ratings, making them more viable and efficient than GPU mining. See [[Mining Hardware Comparison]] for FPGA hardware specifications and statistics.
=== ASIC Mining ===
An application-specific integrated circuit, or ''ASIC'', is a microchip designed and manufactured for a very specific purpose. ASICs designed for Bitcoin mining were first released in 2013 and (at the time of this writing) are in the hands of a very limited number of miners. For the amount of power they consume, they are vastly faster than all previous technologies and already has made GPU mining financially unwise in some countries and setups.

== Pools ==
As mining a block became more and more difficult, individuals found that they were working for months without finding a block and receiving ''any'' reward for their mining efforts. Thus they started organizing themselves into [[Pooled mining|pools]] so that they could share rewards more evenly. See [[Pooled mining]] and [[Comparison of mining pools]].
[[Category:Mining]][[Category:Vocabulary]]

==See Also==

* [http://codinginmysleep.com/bitcoin-mining-in-plain-english Bitcoin Mining in Plain English] by David Perry
* [[Automatically mine when computer is locked|Tutorial to automatically start mining when you lock your computer]]. (Windows 7)
* [http://www.reddit.com/r/Bitcoin/comments/18q2jx/eli5_bitcoin_mining_xpost_in_eli5/ Simplified Explanation of Bitcoin Mining] by reddit user [http://www.reddit.com/user/azotic azotic]

Securing your wallet

2013-09-29T11:54:15Z

Semaster:

==Introduction==

Wallet security can be broken down into two independent goals:
# Protecting your wallet against loss.
# Protecting your wallet against theft.

In the case that your current wallet hasn't been protected adequately (e.g. put online with a weaker password):
# Making a new secure wallet, using appropriate long-term protection.

''For a brief overview see also: [[Wallet Security Dos and Don'ts (Windows)|Wallet Security Dos and Don'ts]]''

==Paper Wallets==
[[Paper wallet]]s are a fairly simple way to store your bitcoins independent of a computer. When generated securely and stored on paper, or other offline storage media, a paper wallet decreases the chances of your bitcoins being stolen by hackers, or computer viruses.

With each entry on a paper wallet, you are securing a sequence of secret numbers that is used to prove your right to spend the bitcoins assigned to one of your addresses. This secret number, called a [[private key]], is most commonly written as a sequence of fifty-one alphanumeric characters, beginning with a '5'.

One way you can create a paper wallet is by going to the website [[BitAddress|bitaddress.org]]. This website features a free client-side paper wallet generator written in JavaScript. The webpage can be saved as a file and used on an offline computer. Using it online is relatively safe, for storing smaller amounts, but not airtight unless you take extra precautions to ensure your keys are not stolen by spyware. Alternatively Blockchain.info offers a [https://blockchain.info/wallet/paper-tutorial tutorial on how to generate a paper wallet] with an online component so you can still check your balance easily.

To generate a safer paper wallet, it is best to "clean-boot" your computer with a bootable CD (such as a Linux Live CD), with your computer not connected to the Internet, to ensure that you do not have any active spyware that might steal any private keys you generate. Disconnecting from the Internet allows you to confirm that the paper wallet generator is truly self-contained and isn't depending on communication with a remote server. Run the saved paper wallet generator in a web browser, then print your paper wallets or store them on external media (do not save them on the computer), and then shut down the computer. You may need to load an appropriate printer driver in order to print while booted from the live CD.

A paper wallet lists multiple Bitcoin addresses and their corresponding private keys. You can send Bitcoins to any address on the page and they will be inaccessible until the private key is imported into a wallet. Since version 0.6.0, the bitcoin software has a command called "importprivkey" that can load private keys, but you can also use the "Add Funds" - "Private key" screen at [[MtGox]] or Blockchain.info's "My Wallet" service to recover bitcoins from a private key. In the case of MtGox, bitcoins are deposited in your account, and can be sent out of MtGox after the standard number of deposit confirmations.

Remember, spyware and viruses often attempt to monitor your computer activities so that their authors can steal from you. They are interested in passwords to online accounts, and anything of value. Bitcoin wallets and private keys are something of value that have already been targeted by malware. Paper wallets isolate you from much of this risk.

If your computer is infected with spyware or viruses - even if there are no symptoms, or your antivirus isn't reporting anything - then anything you type, view, or save on your computer, could potentially be stolen by someone remotely controlling your computer. Your private key can then be intercepted while you enter it, so only enter a Bitcoin private key into your computer when your intent is to redeem its value ''immediately''.

== Hardware wallets ==
They are not operational yet, but [[Hardware wallet]]s are a major effort to provide a good combination of enhanced security and usability.

==Importance of security updates==

No software is perfect, and from time to time there may be security vulnerabilities found in your Bitcoin client as well.
Be sure you keep your client updated with the latest bug fixes, especially when a new vulnerability is discovered.
We maintain a [[CVEs|list a known vulnerabilities]] on this wiki - you can watch that page to get updates.
Note that you ''don't'' need to be running the latest major client version: some clients, including the popular Bitcoin-Qt, have older versions available with bugfix-only updates.

==Securing the Bitcoin-QT or bitcoind wallet==

Bitcoin transactions send Bitcoins to a specific public key. A Bitcoin address is an encoded hash of a public key. In order to use received Bitcoins, you need to have the private key matching the public key you received with. This is sort of like a super long password associated with an account (the account is the public key). Your Bitcoin wallet contains all of the private keys necessary for spending your received transactions. If you delete your wallet without a backup, then you no longer have the authorization information necessary to claim your coins, and the coins associated with those keys are lost forever.

The wallet contains a pool of queued keys. By default there are 100 keys in the [[key pool]]. The size of the pool is configurable using the "-keypool" command line argument. When you need an address for whatever reason (send, “new address”, generation, etc.), the key is not actually generated freshly, but taken from this pool. A brand new address is generated to fill the pool back to 100. So when a backup is first created, it has all of your old keys plus 100 unused keys. After sending a transaction, it has 99 unused keys. After a total of 100 new-key actions, you will start using keys that are not in your backup. Since the backup does not have the private keys necessary for authorizing spends of these coins, restoring from the old backup will cause you to lose Bitcoins.

Creating a new address generates a new pair of public and private keys, which are added to your wallet. Each keypair is mostly random numbers, so they cannot be known prior to generation. If you backup your wallet and then create more than 100 new addresses, the keypair associated with the newest addresses will not be in the old wallet because the new keypairs are only known after creating them. Any coins received at these addresses will be lost if you restore from the backup.

The situation is made somewhat more confusing because the receiving addresses shown in the UI are not the only keys in your wallet. Each Bitcoin generation is given a new public key, and, more importantly, each sent transaction also sends some number of Bitcoins back to yourself at a new key. When sending Bitcoins to anyone, you generate a new keypair for yourself and simultaneously send Bitcoins to your new public key and the actual recipient's public key. This is an anonymity feature – it makes tracking Bitcoin transactions much more difficult.

So if you create a backup, do more than 100 things that cause a new key to be used, and then restore from the backup, some Bitcoins will be lost. Bitcoin has not deleted any keys (keys are never deleted) – it has created a new key that is not in your old backup and then sent Bitcoins to it.

== Making a new wallet ==

If a wallet or an encrypted wallet's password has been compromised, it is wise to create a new wallet and transfer the full balance of bitcoins to addresses contained only in the newly created wallet. Examples of ways a wallet may be compromised are through password re-use, minimal strength passwords, computer hack or virus attack.

There are a number of ways to create a new wallet with Bitcoin-QT or bitcoind but this is a process that has been tested with bitcoind 0.6.3. We use the copy command to minimize the chance of any data loss but you are warned to make backups of any wallet.dat that holds a balance for you.

:1. Shut down the Bitcoin program.
:2. Find and make a backup of the "compromised" wallet.dat file and rename it, perhaps adding a short description:
:::wallet.dat -> wallet-compromised.dat
:Depending on your OS, the wallet file will be located at:
:::Windows: %APPDATA%\Bitcoin\
:::Linux: ~/.bitcoin/
:::Mac: ~/Library/Application Support/Bitcoin/
:3. Start the Bitcoin program and it will create a new wallet.dat. You may then encrypt the wallet as desired and make a new backup.
:4. Once you've made a new wallet, you can obtain one or more addresses and copy them into a text editor. After obtaining the new address(es), shut down the Bitcoin program, make a backup of the new wallet.dat file and copy it to a new file named wallet-new.dat.
:5. Copy the wallet-compromised.dat file back to wallet.dat, start the Bitcoin program and transfer your balance to the new address(es) you put in your text editor. Once the balance is back to 0 for your compromised wallet, you may want to wait a couple minutes or for a confirmation or check block explorer to be sure the transactions have been broadcasted. Then you may shut down the Bitcoin program.
:6. Rename wallet.dat to wallet-compromised.dat.
:7. Rename wallet-new.dat to wallet.dat.

You should now have a new wallet with all the bitcoins from the old wallet.

==Making a secure workspace==

If you are using your computer to handle bitcoins, a wallet, Bitcoin-related passwords, or Bitcoin private keys, you must take care that the system is free of malware, viruses, keyloggers, remote access tools, and other tools that may be used to make remote copies of any of the above. In the case that your computer is compromised, the precautions taken below may provide additional protection.

===Debian-based Linux===

The first step is to make a [http://www.howtogeek.com/howto/ubuntu/add-a-user-on-ubuntu-server/ new user]. In order for that new user to have an encrypted home directory, you'll first need the encryption utility. Run:

<code>sudo apt-get install ecryptfs-utils</code>

Now you're ready to create a new user

<code>sudo adduser --encrypt-home new_user_name</code>

You'll need to come up with a [[#Choosing_A_Strong_Password|secure]] new password for that user.

When you get to the prompt 'Enter the new value, or press ENTER for the default', just keep hitting ENTER.

Then switch user to the new user. To get to the new user you can use the switch user icon for your system, which on Ubuntu is in the 'System/Quit' screen, or if there is no switch icon on your system you can log out and log back in as the new user.

Since the home folder of this user is encrypted, if you're not logged in as that user, data that is saved there can't be browsed, even by a root user. If something goes wrong with your system, and you need to decrypt the new user's files, you'll need its decryption key.

<code>ecryptfs-unwrap-passphrase</code>

It will ask you for your user's password and give you the decryption key. '''WRITE DOWN OR SAVE THE CODE IT RETURNS''' because you will need it if you ever have to pull your data off while the OS is not working. (You can run it again later if you need to, but run it now so that you can get your data if your Linux install gets botched.)

The encrypted folder data is not encrypted while it's in memory, and so if it's ever sent to the swap partition it can be stolen from there unless that too is encrypted - be aware that this will mean you cannot use Hibernate anymore, as the bootloader won't be able to restore the hibernation data.

<code>ecryptfs-setup-swap</code>

Then click on a folder in the new user to display the file browser, then keep going up folders until you see the new user home directory, then right click to bring up the Properties dialog, then click on the Permissions tab, then in the Others section, set the folder access to None.

For secure browsing, open Firefox, and then go into the Edit menu and click Preferences. Starting from the left, click on the General tab, and in the 'Startup/When Firefox starts' pop up menu, choose 'Show a Blank Page'. Then click on the Content tab, and deselect 'Load images automatically' and deselect 'Enable JavaScript'. Then click on the Privacy tab, and in the 'History/Firefox will' pop up menu, choose 'Never remember history'. Then click on the Security tab, and in the Passwords section, deselect 'Remember passwords for sites' and deselect 'Use a master password'. Then click on the Advanced tab, then click on the Update tab, and then in the 'Automatically check for updates to' section, deselect 'Add-ons' and 'Search Engines'.

When JavaScript is disabled, the [http://sourceforge.net/projects/bitcoin/files/Bitcoin/bitcoin-0.3.23/bitcoin-0.3.23-linux.tar.gz/download Linux download page] will not download automatically, so you'll have to click on the 'direct link' part of the "Problems with the download? Please use this 'direct link' or try another mirror." line.

===Mac===
This solution '''does not scale'''; the amount of needed space can grow beyond the image size.

=====Backup all data=====
Follow these instructions to backup all the bitcoin data (wallet and block chains) to an encrypted disk image.
# Open Disk Utility
# Click New Image and choose a big enough size, 128-bit or 256-bit (faster or more secure) encryption and single partition.
# Save it somewhere you won't lose it (like your Wuala, Dropbox, Strongspace or whatever)
# Choose a safe and strong password
# Move everything from ~/Library/Application Support/Bitcoin/ to the image
# Symlink it back so the app would be able to use it
:::ln -s /Volumes/Bitcoin ~/Library/Application Support/Bitcoin

Don't forget to mount your image before using Bitcoin and unmount it after quitting.

=====Backup just wallet.dat=====
Follow these instructions to backup just the wallet.dat file. This results in a smaller disk image, but it's more complicated to do.
# Open Disk Utility
# Click New Image and choose a big enough size, 128-bit or 256-bit (faster or more secure) encryption and single partition.
# Save it somewhere you won't lose it (like your Wuala, Dropbox, Strongspace or whatever)
# Choose a safe and strong password
# Move your wallet.dat file to the image
# Symlink it back so the app would be able to use it
:::ln -s /Volumes/Bitcoin/wallet.dat ~/Library/Application Support/Bitcoin/wallet.dat

[[File:MountWalletAndLauchnBitcoin_OSX_Automator.png|thumbnail|150px|Mount Wallet and launch Bitcoin]]
Don't forget to mount your image before using Bitcoin and unmount after quitting it.

'''Note''': If you start the Bitcoin application without having the image mounted, the application will overwrite your symlink with a new wallet. If that happens, don't panic. Just delete the new wallet.dat, mount the image, and recreate the symlink like above.

'''Automation''': You can create a small application using [http://en.wikipedia.org/wiki/Automator_%28software%29 Automator] (included in OS X) to automatically mount the wallet and then launch Bitcoin App. See the Screenshot on how to do this.

If one ''doesn't'' want to use encrypted Disk images, then a '''small shell script''' can be used instead that takes care of decrypting the wallet, launching bitcoin client, and encrypting it after the client exits. This script works on both OSX and Linux: [http://lorelei.kaverit.org/bitcoin.sh bitcoin-launch-script]

===Windows===

Due to the frequency with which Windows computers are compromised, it is advised to encrypt your wallet or to keep your wallet on an encrypted disk image created by third-party software, such as [http://www.truecrypt.org/ TrueCrypt] (open source) or [http://www.jetico.com/encryption-bestcrypt/ Jetico BestCrypt] (commercial). This also applies to the storage of passwords, private keys and other data that can be used to access any of your Bitcoin balances.

Assuming that you have installed the Windows Bitcoin client and run it at least once, the process is described below.

To mount the Bitcoin data directory on an encrypted drive
<ol start=1 type=1>
<li>Use the third-party disk image encryption program of your choice to create and mount an encrypted disk image of at least 5GB in size. This procedure stores the entire block chain database with the wallet.dat file so the required size of the encrypted disk image required may grow in the future.</li>
<li>Locate the Bitcoin data directory, and copy the directory with all contents to the encrypted drive.
For help finding this directory, see [[Securing_your_wallet#Locating_Bitcoin_s_data_directory|Locating Bitcoin's Data Directory]].</li>
<li>Create a Windows shortcut that starts Bitcoin with the <code>-datadir</code> parameter and specifies the encrypted drive and directory.
For example, if you installed Bitcoin in the default directory, mounted your Bitcoin encrypted drive as <code>E:\</code>, and stored your Bitcoin data directory on it as <code>Bitcoin</code>, you would type the following command as the shortcut Target:
<blockquote><code>C:\Program Files\Bitcoin\bitcoin.exe -datadir=E:\Bitcoin</code></blockquote></li>
<li>Open Bitcoin's settings and configure it NOT to start automatically when you start Windows.
This is to allow you to mount the Bitcoin encrypted disk image before starting Bitcoin.</li>
<li>Shut down Bitcoin, and then restart it from the new shortcut.</li>
</ol>

After doing this, any time you want to use Bitcoin, you must first mount the Bitcoin encrypted disk image using the same drive designation, and then run Bitcoin from the shortcut that you created, so that it can find its data and your wallet.

== Locating Bitcoin's data directory ==

The [[data directory]] is the location where Bitcoin's data files are stored, including the wallet data file.

=== Windows ===

Go to Start -> Run (or press WinKey+R) and run this:

explorer %APPDATA%\Bitcoin

Bitcoin's data folder will open. For most users, this is one of the following locations:

C:\Documents and Settings\YourUserName\Application data\Bitcoin (Windows XP)

C:\Users\YourUserName\Appdata\Roaming\Bitcoin (Windows Vista and 7)

If you have trouble browsing to these folders, note that "AppData" and "Application data" are hidden by default.

=== Linux ===

By default Bitcoin will put its data here:

~/.bitcoin/

You need to do a "ls -a" to see directories that start with a dot.

If that's not it, you can do a search like this:

find / -name wallet.dat -print 2>/dev/null

To change the directory Bitcoin stores its data in:
Run in terminal or script: ./bitcoin-qt -datadir=./[Directory_Name]

=== Mac ===

By default Bitcoin will put its data here:

~/Library/Application Support/Bitcoin/

==Backup==

'''Note''': Using Dropbox to back up your Bitcoin data is not recommended as doing so introduces the following [https://en.wikipedia.org/wiki/Dropbox_(service)#Reception security concerns]:
# Dropbox stores your encryption key (meaning that a disgruntled Dropbox employee or an attacker who gained access to the system could decrypt your Dropbox data and steal your bitcoins)
# the Dropbox client only needs a password for the first login. After it authenticates once, the server assigns it a token which it uses to show that, at one time, its user knew the password rather than sending the actual password (meaning that if you ever use the Dropbox client on another PC, that PC's users can access your Dropbox - even if you change your password - and can steal your bitcoins or get a virus that will steal your bitcoins).

For these reasons, an alternative that always uses password authentication such as [http://www.wuala.com/en/bitcoin Wuala] should be used. Wuala's servers do not store your encryption key and the program authenticates with the password each time it is started.

Whether you use Dropbox as your backup or not, it is advised to use what Steve Gibson calls "pre-Internet encryption" which means to use some form of encryption on your files before you back them up, in case an attacker gains access to that backup. Make sure to pick a password that is memorable but secure.

The only file you need to back up is "wallet.dat" which can be done one of two ways. To make a copy of the wallet.dat file, ensure that Bitcoin is closed and copy this file somewhere else. The other way is to use the [[api|backupwallet]] JSON-RPC command to back up without shutting down Bitcoin.

Once a copy has been made, encrypt it, and put it in two or more safe locations. Consider the risk due to theft, fire, or natural disaster in proportion to the value of bitcoins stored in the wallet.

=== General Solutions ===

Your wallet.dat file is not encrypted by the Bitcoin program by default but the most current release of the Bitcoin client provides a method to encrypt with a passphrase the private keys stored in the wallet. Anyone who can access an unencrypted wallet can easily steal all of your coins. Use one of these encryption programs if there is any chance someone might gain access to your wallet.
* [http://www.7-zip.org/ 7-zip] - Supports strongly-encrypted archives.
* [http://www.axantum.com/axcrypt/ AxCrypt by Axantum]
* [http://lrzip.kolivas.org lrzip] - Compression software for Linux and OSX that supports very high grade password protected encryption
* [http://www.truecrypt.org/ TrueCrypt] - Volume-based on-the-fly encryption (for advanced users)

There is also a list of [[OpenSourceEncryptionSoftware|open source encryption software.]]

Decrypting and encrypting the wallet.dat every time you start or quit the Bitcoin client can be ''tedious'' (and outright error-prone). If you want to keep your wallet encrypted (except while you're actually running the Bitcoin client), it's better to relegate the automation to a [http://lorelei.kaverit.org/bitcoin.sh small shell script] that handles the en/decryption and starting up Bitcoin client for you (Linux and OSX).

There is also a method to print out and encrypt your wallet.dat as a special, scannable code. See details here: [[WalletPaperbackup]]

==== Password Strength ====
Brute-force password cracking has come a long way. A password including capitals, numbers, and special characters with a length of 8 characters can be trivially solved now (using appropriate hardware). The recommended length is '''at least''' 12 characters long. You can also use a multi-word password and there are techniques to increase the strength of your passwords without sacrificing usability. [http://www.baekdal.com/tips/password-security-usability The Usability of Passwords]

However, simply using dictionary words is also insecure as it opens you up to a dictionary attack. If you use dictionary words, be sure to include random symbols and numbers in the mix as well.

If you use keyfiles in addition to a password, it is unlikely that your encrypted file can ever be cracked using brute-force methods, even when even a 12 character password might be too short.

Assume that any encrypted files you store online (eg. Gmail, Dropbox) will be stored somewhere forever and can never be erased.

===== Choosing A Strong Password =====
Make sure you pick at least one character in each group: 

Lowercase: abcdefghijklmnopqrstuvwxyz
Uppercase: ABCDEFGHIJKLMNOPQRSTUVWXYZ
Number: 1234567890
Symbol: `~!@#$%^&*()-_=+\|[{]};:'",<.>/? (space)

<9 char = unsuitable for use
09 char = insecure
10 char = low security
11 char = medium security
12 char = good security (good enough for your wallet)
13 char = very good, enough for anything.

You might want to read [http://security.stackexchange.com/questions/662/what-is-your-way-to-create-good-passwords-that-can-actually-be-remembered What is your way to create good passwords that can actually be remembered?] and [http://security.stackexchange.com/questions/6095/xkcd-936-short-complex-password-or-long-dictionary-passphrase XKCD #936: Short complex password, or long dictionary passphrase?]

==== Email-based Archival and Remote Backup ====
One of the simplest methods for storing an appropriately '''encrypted''' archive of your wallet.dat file is to send the archive as an email attachment to your own e-mail address. Services like Gmail use very comprehensive distributed networks that make the loss of data very unlikely. One can even obfuscate the name of the files within the archive, and name the archive something less inviting, such as: 'personal notes' or 'car insurance'.

Another solution is to use a file storage service like [http://www.wuala.com/bitcoin Wuala] ( encrypted, [http://www.bitcoin.org/smf/index.php?topic=5817.0 instructions]), [http://www.dropbox.com Dropbox] (after encrypting the wallet first) and [http://en.wikipedia.org/wiki/Comparison_of_online_backup_services others], including the more secure [http://www.spideroak.com SpiderOak].

=== Automated Backups using Cron, Bash and GNU/Linux ===

Linux users can setup backups using cron by telling it to run a backup script at set intervals of time. Run 'crontab -e' and add this line near the bottom:

01 * * * * /usr/local/bin/backupwallet.sh

This cron line will run the /usr/local/bin/backupwallet.sh script at the 01 minute of every hour. Remember to add a newline after the last line of the crontab file, or else the last line won't run. You may also wish to ignore the script's output by appending " > /dev/null 2>&1" to the line (this will also prevent emails from being sent).

Create /usr/local/bin/backupwallet.sh:

#!/bin/bash
# /usr/local/bin/backupwallet.sh
#
# Performs backup of bitcoin wallet.
#
# Written by: https://en.bitcoin.it/wiki/Securing_your_wallet

#
# Standard Options
#
TS=$(date "+%Y%m%d-%H%M")
WALLET=/tmp/wallet-${TS}
WALLET_E=/tmp/wallet-${TS}.crypt
BITCOIN=bitcoind # /path/to/bitcoind
GPG=gpg # /path/to/gpg
GPG_USER=username # Username of gpg recipient. User should have gpg setup.
RM=rm
RM_OPTS='--force'
USE_SHRED=0 # Flip to 1 to use `shred` instead of `rm`.
SHRED=shred
SHRED_OPTS='--force --iterations=9 --zero --remove'

#
# Storage Options
# Only 1 set of options should be un-commented (the last one will be used).
# Update CP_DEST paths as neccessary.
#
# CP - Storage on a local machine. Could be Dropbox/Wuala folder.
#CP=cp
#CP_DEST='/var/data/backups/' # '~/Dropbox/', etc.
#
# SSH - Storage on a remote machine.
CP=scp
CP_DEST='remoteuser@example.com:~/wallets/'
#
# S3 - Storage on Amazon's S3. Be sure s3cmd is installed and properly setup.
# You may need "s3cmd put --force" if you use a sub-directory in CP_DEST.
#CP=s3cmd put
#CP_DEST='s3://bucket'

do_clean() {
# Remove temporary wallets.
if [ 1 -eq $USE_SHRED ]; then
$SHRED $SHRED_OPTS $WALLET $WALLET_E
else
$RM $RM_OPTS $WALLET $WALLET_E
fi
}

do_fail() {
do_clean
echo failed!
exit 1
}

# Perform the backup.
echo -n Making backup...
$BITCOIN backupwallet $WALLET
[ ! -s "$WALLET" ] && do_fail # If the backup does not exist or is empty, fail.
echo done.
echo -n Encrypting backup...
$GPG -r $GPG_USER --output $WALLET_E --encrypt $WALLET
[ 0 -ne $? ] && do_fail # If gpg returns a non-zero result, fail.
echo done.
echo -n Copying to backup location...
$CP $WALLET_E "$CP_DEST"
[ 0 -ne $? ] && do_fail # If the $CP command returns a non-zero result, fail.
echo done.
do_clean

exit 0

The shell script:

* Calls bitcoind backupwallet to create a time/date-stamped wallet.
* GPG encrypts the wallet with your public key.
* Copies the result using one of several storage options (cp, scp, and s3cmd).
* Uses the rm or shred command to remove the temporary wallet files.

Be sure to modify the script options to fit your setup. After you save, make sure the file can be executed properly by the cron user. Common permissions for files in /usr/local/bin/ can be applied using (verify with your distribution!):

cd /usr/local/bin/ && chown root:root backupwallet.sh && chmod 755 backupwallet.sh

[[Category:Technical]]

==Restore==

Assuming your backup is recent enough that you haven't used up all of your key pool... restoring a wallet to a new (or old) location and rescanning the block chain should leave you with all your coins. Just follow these steps:
* Shut down the Bitcoin program.
* Copy your backed-up wallet.dat into your bitcoin data directory.
* If you are copying in a backed-up wallet.dat that was last used on a Bitcoin version prior to 0.3.21 into an existing profile, delete files ''blk*.dat'' to make the client re-download the block chain. You may also need to do this if your transactions don't all show up after you restart Bitcoin.

==Erasing Plain-text Wallets==

In most operating systems, including Windows, Linux, and Mac OS X, simply deleting a wallet.dat file will ''not'' generally destroy it. It is likely that advanced tools can still be used to recover the wallet.dat file, even after it has been deleted.

The Linux '''shred''' command can be used to overwrite the wallet file with random data prior to deleting; this particular copy of the file will then be practically impossible to recover. Using shred (and similar tools on Windows) however does not guarantee that still other copies don't exist somewhere hidden on your HD. That will depend on your system configuration and what packages you have installed. Some system restore and backup tools, for instance, create periodic snapshots of your filesystem, duplicating your wallet.dat.

In Mac OS, the equivalent of '''shred''' is '''srm''' (introduced in Leopard). Using the Finder to remove files, clicking "Secure Empty Trash" in the Finder menu will shred the contents of the trash can. As with any OS this doesn't guarantee that there are not other copies elsewhere on your system.

For Windows, the built-in command ''cipher /W'' will shred all previously-deleted files. [http://www.cylog.org/utilities/cybershredder.jsp CyberShredder] can securely deleted individual files.

==Online and Mobile Wallets==

Thus far, this article has been discussing the security of a wallet file for Bitcoin-QT or bitcoind that is under your sole control. Additional wallets applications and services have become available that offer other features and more convenience but not without introducing additional risk. When storing bitcoins with an [[eWallet]] such as Instawallet or Easywallet, you are essentially storing your private keys or wallet with that provider.

Online wallets have a number of pros and cons to consider. For example, you can access your wallet on any computer in the world, but depending on the service, your bitcoins may be lost if the service is compromised.

Mobile wallet applications are available for Android devices that allow you to send bitcoins by QR code or NFC, but this opens up the possibility of loss if mobile device is compromised. It may be possible to encrypt and backup the wallet or private keys on a mobile device but it is not advisable to store a large amount of bitcoins there without doing your own research and testing.

==See Also==

* [[Data directory]]
* [[How to import private keys]]
* [http://startbitcoin.com/how-to-create-a-secure-bitcoin-wallet/ Secure Bitcoin Wallet Tutorial]
* [[How to set up a secure offline savings wallet]]
* [http://arimaa.com/bitcoin/ Bitcoin Gateway - A Peer-to-peer Bitcoin Vault and Payment Network]
* [http://blog.cyplo.net/2012/04/01/bitcoin-wallet-recovery-photorec/ Find lost wallet eg. after disk format, using Photorec]

[[Category:Security]]

[[de:Sichere deine Geldbörse]]
[[ru:Bitcoin и безопасность]]
[[es:Cómo asegurar su monedero]]
[[zh-cn:保护你的钱包]]

Myths

2013-09-26T10:37:15Z

Semaster:

Let's clear up some common Bitcoin misconceptions.

== Bitcoin is just like all other digital currencies; nothing new ==

Nearly all other digital currencies are centrally controlled. This means that:
* They can be printed at the subjective whims of the controllers
* They can be destroyed by attacking the central point of control
* Arbitrary rules can be imposed upon their users by the controllers

Being decentralized, Bitcoin solves all of these problems.

== Bitcoins don't solve any problems that fiat currency and/or gold doesn't solve ==

Unlike gold, bitcoins are:
* Easy to transfer
* Easy to secure
* Easy to verify
* Easy to granulate

Unlike fiat currencies, bitcoins are:
* Predictable and limited in [[Controlled_Currency_Supply|supply]]
* Not controlled by a central authority (such as [http://en.wikipedia.org/wiki/Federal_Reserve The United States Federal Reserve])
* Not debt-based

Unlike electronic fiat currency systems, bitcoins are:
* Potentially anonymous
* Freeze-proof
* Faster to transfer
* Cheaper to transfer

== Bitcoin is backed by processing power ==

It is not correct to say that Bitcoin is "backed by" processing power. A currency being "backed" means that it is pegged to something else via a central party at a certain exchange rate yet you cannot exchange bitcoins for the computing power that was used to create them. Bitcoin is in this sense not backed by anything. It is a currency in its own right. Just as gold is not backed by anything, the same applies to Bitcoin.

The Bitcoin currency is ''created'' via processing power, and the integrity of the block chain is ''protected'' by the existence of a network of powerful computing nodes from certain [[Weaknesses#Attacker_has_a_lot_of_computing_power|attacks]].

== Bitcoins are worthless because they aren't backed by anything ==

One could argue that gold isn't backed by anything either. Bitcoins have properties resulting from the system's design that allows them to be subjectively valued by individuals. This valuation is demonstrated when individuals freely exchange for or with bitcoins. Please refer to the [http://en.wikipedia.org/wiki/Subjective_theory_of_value Subjective Theory of Value].

See also: the "[[#Bitcoin_is_backed_by_processing_power|Bitcoin is backed by processing power]]" myth.

== The value of bitcoins are based on how much electricity and computing power it takes to mine them ==

This statement is an attempt to apply to Bitcoin the [http://en.wikipedia.org/wiki/Labor_theory_of_value labor theory of value], which is generally accepted as false. Just because something takes X resources to create does not mean that the resulting product will be worth X. It can be worth more, or less, depending on the utility thereof to its users.

In fact the causality is the reverse of that (this applies to the labor theory of value in general). The cost to mine bitcoins is based on how much they are worth. If bitcoins go up in value, more people will mine (because [[Mining|mining]] is profitable), thus [[difficulty]] will go up, thus the cost of mining will go up. The inverse happens if bitcoins go down in value. These effects balance out to cause mining to always cost an amount proportional to the value of bitcoins it produces.

== Bitcoins have no intrinsic value (unlike some other things) ==

It is true that bitcoins have no intrinsic value, in the [http://en.wikipedia.org/wiki/Intrinsic_value_%28numismatics%29 numismatic sense], in other words, value in any realm outside of being used as a medium of exchange.

However, while some tangible commodities do have intrinsic value, that value is generally much less than its trading price. Consider for example that gold, if it were not used as an inflation-proof store of value, but rather only for its industrial uses, would certainly not be worth what it is today, since the industrial requirements for gold are far smaller than the available supply thereof.

While historically intrinsic value, as well as other attributes like divisibility, fungibility, scarcity, durability, helped establish certain commodities as mediums of exchange, it is certainly not a prerequisite. While bitcoins lack 'intrinsic value' in this sense, they make up for it in spades by possessing the other qualities necessary to make it a good medium of exchange, equal to or better than [http://en.wikipedia.org/wiki/Commodity_money commodity money].

Another way to think about this is to consider the value of bitcoin the global network, rather than each bitcoin in isolation. The value of an individual telephone is derived from the network it is connected to. If there was no phone network, a telephone would be useless. Similarly the value of an individual bitcoin derives from the global network of bitcoin-enabled merchants, exchanges, wallets, etc... Just like a phone is necessary to transmit vocal information through the network, a bitcoin is necessary to transmit economic information through the network.

Value is ultimately determined by what people are willing to trade for - by supply and demand.

== Bitcoins are illegal because they're not legal tender ==
In March 2013, the U.S. [http://en.wikipedia.org/wiki/Financial_Crimes_Enforcement_Network Financial Crimes Enforcement Network] issues a new set of guidelines on "de-centralized virtual currency", clearly targeting Bitcoin. Under the new guidelines, "a user of virtual currency is not a Money Services Businesses (MSB) under FinCEN's regulations and therefore is not subject to MSB registration, reporting, and record keeping regulations." [[Mining|Miners]] on the other hand, might need to register, if they sell bitcoins for "real currency or its equivalent".<ref>[http://arstechnica.com/tech-policy/2013/03/us-regulator-bitcoin-exchanges-must-comply-with-money-laundering-laws/ US regulator: Bitcoin exchanges must comply with money-laundering laws | Ars Technica]</ref>

In general, there are a [http://en.wikipedia.org/wiki/Local_currency number of currencies] in existence that are not official government-backed currencies. A currency is, after all, nothing more than a convenient unit of account. While national laws may vary from country to country, and you should certainly check the laws of your jurisdiction, in general trading in any commodity, including digital currency like Bitcoin, [http://en.wikipedia.org/wiki/BerkShares BerkShares], game currencies like WoW gold, or Linden dollars, is not illegal.

== Bitcoin is a form of domestic terrorism because it only harms the economic stability of the USA and its currency ==

According to [http://en.wikipedia.org/wiki/Definitions_of_terrorism#United_States the definition of terrorism in the United States], you need to do violent activities to be considered a terrorist for legal purposes. Recent off-the-cuff remarks by politicians have no basis in law or fact.

Also, Bitcoin isn't domestic to the US or any other country. It's a worldwide community, as can be seen in this [https://bitcointalk.org/?topic=2346.0 map of Bitcoin nodes].

== Bitcoin will only enable tax evaders which will lead to the eventual downfall of civilization ==

Cash transactions hold the same level of anonymity but are still taxed successfully. It is up to you to follow the applicable state laws in your home country, or face the consequences.

While it may be easy to transfer bitcoins anonymously, ''spending'' them anonymously on tangibles is just as hard as spending any other kind of money anonymously. Tax evaders are often caught because their lifestyle and assets are inconsistent with their reported income, and not necessarily because government is able to follow their money.

== Bitcoins can be printed/minted by anyone and are therefore worthless ==

Bitcoins are not printed/minted. Instead, [[Blocks]] are computed by miners and for their efforts they are awarded a specific amount of bitcoins and transaction fees paid by others. See [[Mining]] for more information on how this process works.

== Bitcoins are worthless because they're based on unproven cryptography ==

SHA256 and ECDSA which are used in Bitcoin are well-known industry standard algorithms. SHA256 is endorsed and used by the US Government and is standardized (FIPS180-3 Secure Hash Standard). If you believe that these algorithms are untrustworthy then you should not trust Bitcoin, credit card transactions or any type of electronic bank transfer. Bitcoin has a sound basis in well understood cryptography.

== Early adopters are unfairly rewarded ==

Early adopters are rewarded for taking the higher risk with their time and money. The capital invested in bitcoin at each stage of its life invigorated the community and helped the currency to reach subsequent milestones. Arguing that early adopters do not deserve to profit from this is akin to saying that early investors in a company, or people who buy stock at a company IPO (Initial Public Offering), are unfairly rewarded.

This argument also depends on bitcoin early adopters using bitcoins to store rather than transfer value. The daily trade on the exchanges (as of Jan 2012) indicates that smaller transactions are becoming the norm, indicating trade rather than investment. In more pragmatic terms, "fairness" is an arbitrary concept that is improbable to be agreed upon by a large population. Establishing "fairness" is no goal of Bitcoin, as this would be impossible.

Looking forwards, considering the amount of publicity bitcoin received as of April 2013, there can be no reasonable grounds for complaint for people who did not invest at that time, and then see the value (possibly) rising drastically higher.

By starting to mine or acquire bitcoins today, you too can become an early adopter.

== 21 million coins isn't enough; doesn't scale ==

One Bitcoin is divisible down to eight decimal places. There are really 2,099,999,997,690,000 (just over 2 quadrillion) maximum possible atomic units in the bitcoin design.

The value of "1 BTC" represents 100,000,000 of these. In other words, each is divisible by up to 10^8.

As the value of the unit of 1 BTC grows too large to be useful for day to day transactions, people can start dealing in smaller [[Units|units]], such as milli-bitcoins (mBTC) or micro-bitcoins (μBTC).

== Bitcoins are stored in wallet files, just copy the wallet file to get more coins! ==

No, your wallet contains your secret keys, giving you the rights to spend your bitcoins. Think of it like having bank details stored in a file. If you give your bank details (or bitcoin wallet) to someone else, that doesn't double the amount of money in your account. You can spend your money or they can spend your money, but not both.

== Lost coins can't be replaced and this is bad ==

Bitcoins are divisible to 0.00000001, so there being fewer bitcoins remaining is not a problem for the currency itself. If you lose your coins, all other coins will go up in value a little. Consider it a donation to all other bitcoin users.

A related question is: Why don't we have a mechanism to replace lost coins? The answer is that it is impossible to distinguish between a 'lost' coin and one that is simply sitting unused in someone's wallet.

== It's a giant ponzi scheme ==
In a Ponzi Scheme, the founders persuade investors that they’ll profit. Bitcoin does not make such a guarantee. There is no central entity, just individuals building an economy.

A ponzi scheme is a zero sum game. In a ponzi scheme, early adopters can only profit at the expense of late adopters, and the late adopters always lose. Bitcoin has an expected win-win outcome. Early and present adopters profit from the rise in value as Bitcoins become better understood and in turn demanded by the public at large. All adopters benefit from the usefulness of a reliable and widely-accepted decentralized peer-to-peer currency.

== Finite coins plus lost coins means deflationary spiral ==
As deflationary forces may apply, economic factors such as hoarding are offset by human factors that may lessen the chances that a [[Deflationary spiral]] will occur.

== Bitcoin can't work because there is no way to control inflation ==

Inflation is simply a rise of prices over time, which is generally the result of the devaluing of a currency. This is a function of supply and demand. Given the fact that the supply of bitcoins is fixed at a certain amount, unlike fiat money, the only way for inflation to get out of control is for demand to disappear. Temporary inflation is possible with a rapid adoption of Fractional Reserve Banking but will stabilize once a substantial number of the 21 million "hard" bitcoins are stored as reserves by banks.

Given the fact that Bitcoin is a distributed system of currency, if demand were to decrease to almost nothing, the currency would be doomed anyway.

The key point here is that Bitcoin as a currency can't be inflated by any single person or entity, like a government, as there's no way to increase supply past a certain amount.

Indeed, the most likely scenario, as Bitcoin becomes more popular and demand increases, is for the currency to increase in value, or deflate, until demand stabilizes.

== The Bitcoin community consists of anarchist/conspiracy theorist/gold standard 'weenies' ==

The members of the community vary in their ideological stances. While it may have been started by ideological enthusiasts, Bitcoin now speaks to a large number of regular pragmatic folk, who simply see its potential for reducing the costs and friction of global e-commerce.

== Anyone with enough computing power can take over the network ==

CONFIRMED, see [[Weaknesses]].

That said, as the network grows, it becomes harder and harder for a single entity to do so. Already the Bitcoin network's computing power is quite ahead of the world's fastest supercomputers, together.

What an attacker can do once the network is taken over is quite limited. Under no circumstances could an attacker create counterfeit coins, fake transactions, or take anybody else's money. An attacker's capabilities are limited to taking back their own money that they very recently spent, and preventing other people's transactions from receiving confirmations. Such an attack would be very costly in resources, and for such meager benefits there is little rational economic incentive to do such a thing.

Furthermore, this attack scenario would only be feasible for as long as it was actively underway. As soon as the attack stopped, the network would resume normal operation.

== Bitcoin violates governmental regulations ==

There is no known governmental regulation which disallows the use of Bitcoin.

See also: the "[[#Bitcoins_are_illegal_because_they.27re_not_legal_tender|Bitcoins are illegal because they're not legal tender]]" myth.

== Fractional reserve banking is not possible ==

It is possible. See the main article, [[Fractional Reserve Banking and Bitcoin]]

== Point of sale with bitcoins isn't possible because of the 10 minute wait for confirmation ==

It is true that transactions [[FAQ#Why_do_I_have_to_wait_10_minutes_before_I_can_spend_money_I_received.3F|can]] sometimes take tens of minutes to become ''confirmed''. Despite this, retailers can accept unconfirmed transactions with very little risk by simply 'listening' on the network for a double-spend transaction, or partnering with a company that provides this service. After a head start of merely several seconds, the original transaction would reach so much of the Bitcoin network that a fraudulent double-spend transaction would almost certainly be fruitless. An attacker would have to commit easily-detectable fraud, in person, several hundred or several thousand times, before one of these low-value double-spend attempts would likely succeed.

An attacker could work around the necessity of sending out a second fraudulent transaction to the Bitcoin network by attempting to [[Mining|solo-mine]] an attack block containing the attack transaction himself - temporarily withholding the block with the rest of the network - and then execute the fraudulent purchase within seconds, or minutes at most, of mining the attack block, before broadcasting the attack block. However, the cost of such an activity would dramatically outweigh the value of anything typically offered without a confirmation wait for several reasons.

First, mining a block (attack or otherwise) entitles the miner to a valuable block reward, and because the attack involves temporarily withholding the block from the network, the attacker would put himself in the likely position of his block becoming [[Stale block|stale]], which would result in forfeiture of the entire reward. Most solo miners solve less than one block per month, so this would represent the loss of proceeds of potentially several weeks of mining.

Second, it is not possible for a solo miner to know exactly when his mining activity will yield a block, and because the attack must be carried out within seconds or minutes of successfully mining a block, the attacker will not be able to know or plan in advance the brief window when the attack would be likely to succeed. While it may be easy for a determined attacker to get low-value items that are sold and delivered online instantly without waiting for confirmations (such as downloads), this unpredictability and the briefness of the opportunity would make it extremely difficult to commit any kind of fraud where real-life interaction is required, such as visiting a merchant or taking possession of goods. Petty shoplifting would be far simpler. Even if an attacker went forward with this attack, the retailer would be notified of the fraud the moment the attack block is released seconds later.

In short, the 10-minute wait for confirmation is only practically necessary when delivering goods of value that significantly exceed the block reward an attacker would have to risk to perform an attack and where recourse after delivery is practically nonexistent, such as money transfers.

== After 21 million coins are mined, no one will generate new blocks ==

When operating costs can't be covered by the block creation bounty, which will happen some time before the total amount of BTC is reached, miners will earn some profit from [[transaction fees]]. However unlike the block reward, there is [http://bitcoin.stackexchange.com/questions/876/how-much-will-transaction-fees-eventually-be/895#895 no coupling between transaction fees and the need for security], so there is less of a guarantee that the amount of [[Mining|mining]] being performed will be sufficient to maintain the network's security.

== Bitcoin has no built-in chargeback mechanism, and this isn't good ==

'''Why some people think this is bad''': Chargebacks are useful for limiting fraud. The person handling your money has a responsibility to prevent fraud. If you buy something on eBay and the seller never ships it, PayPal takes funds from the seller's account and gives you back the money. This strengthens the eBay economy, because people recognize that their risk is limited and are more willing to purchase items from risky sellers.

'''Why it's actually a good thing''': Bitcoin is designed such that your money is yours and yours alone. Allowing chargebacks implies that it is possible for another entity to take your money from you. You can have either total ownership rights of your money, or fraud protection, but not both. That said, nothing inherent in the dollar or euro or any other currency is necessary for chargebacks to be possible, and likewise, nothing prevents the creation of PayPal-like services denominated in Bitcoin that provide chargebacks or fraud protection.

The statement "The person handling your money has a responsibility to prevent fraud" is still true; the power has been shifted into your own hands. Fraud will always exist. It's up to you to only send bitcoins to trusted entities. It is possible to trust an online identity without ever knowing their physical identity; see the [http://wiki.bitcoin-otc.com/wiki/OTC_Rating_System OTC Web of Trust].

== Quantum computers would break Bitcoin's security ==

While ECDSA is indeed not secure under quantum computing, quantum computers don't yet exist and probably won't for a while.
The DWAVE system often written about in the press is, even if all their claims are true, not a quantum computer of a kind that could be used for cryptography.
Bitcoin's security, when used properly with a new address on each transaction, depends on more than just ECDSA: Cryptographic hashes are much stronger than ECDSA under QC.
Bitcoin's security was designed to be upgraded in a forward compatible way and could be [http://en.wikipedia.org/wiki/Post-quantum_cryptography upgraded] if this were considered an imminent threat.

See the implications of quantum computers on public key cryptography here http://en.wikipedia.org/wiki/Quantum_computer#Potential

The ''risk'' of quantum computers is also there for financial institutions, like banks, because they heavily rely on cryptography when doing transactions.

== [[Mining|Bitcoin mining]] is a waste of energy and harmful for ecology ==
No more so than the wastefulness of mining gold out of the ground, melting it down and shaping it into bars, and then putting it back underground again. Not to mention the building of big fancy buildings, the waste of energy printing and minting all the various fiat currencies, the transportation thereof in armored cars by no less than two security guards for each who could probably be doing something more productive, etc.

As far as mediums of exchange go, Bitcoin is actually quite economical of resources, compared to others.

'''Economic Argument 1'''

[[Mining|Bitcoin mining]] is a highly competitive, dynamic, almost [http://en.wikipedia.org/wiki/Perfect_market perfect], market. Mining rigs can be set up and dismantled almost anywhere in the world with relative ease. Thus, market forces are constantly pushing mining activity to ''places'' and ''times'' where the marginal price of electricity is low or zero. These electricity products are cheap for a reason. Often it’s because the electricity is difficult (and wasteful) to transport, difficult to store, or because there is low demand and high supply. Using electricity in this way is a lot less wasteful than simply plugging a mining rig into the mains indiscriminately.

For example, Iceland produces an excess of cheap electricity from renewable sources, but it has no way of exporting electricity because of its remote location. It is conceivable that at some point in future Bitcoin mining will only be profitable in places like Iceland, and unprofitable in places like central Europe, where electricity comes mostly from nuclear and fossil sources.

Market forces could even push mining into innovative solutions that have an effective electricity consumption of ''zero''. Mining always produces heat equivalent to the energy consumed - for example, 1000 watts of mining equipment produces the same amount of heat as a 1000 watt heating element used in an electric space heater, hot tub, water heater, or similar appliance. Someone already in a willing position to incur the cost of electricity for its heat value alone could run mining equipment specially designed to mine bitcoins while capturing and utilizing the heat produced, without incurring any energy costs beyond what they already intended to spend on heating.

'''Economic Argument 2'''

When the environmental costs of mining are considered, they need to be weighed up against the benefits. If you question Bitcoin on the grounds that it consumes electricity, then you should also ask questions like this: Will Bitcoin promote economic growth by freeing up trade? Will this speed up the rate of technological innovation? Will this lead to faster development of green technologies? Will Bitcoin enable new, border crossing [http://en.wikipedia.org/wiki/Smart_grid smart grid] technologies? …

Dismissal of Bitcoin because of its costs, while ignoring its benefits, is a dishonest argument. In fact, any environmental argument of this type is dishonest, not just pertaining to Bitcoin. Along similar lines, it could be argued that wind turbines are bad for the environment because making the steel structure consumes energy.

'''Ratio of Capital Costs versus Electrical Costs'''

The BFL Jalapeno hashes at 5.5 Gh/s using 30W. That device consumes about $40 per year in electricity (using U.S. residential average of about $0.15 per kWh.) But the device costs over $300 including shipping. Thus just about a quarter of all costs over a two-year useful life goes to electricity. This compares to GPUs where more than 90% of costs over a two-year life went to electricity. Even more efficient designs can be expected in the future.

== Shopkeepers can't seriously set prices in bitcoins because of the volatile exchange rate ==

The assumption is that bitcoins must be sold immediately to cover operating expenses. If the shopkeeper's back-end expenses were transacted in bitcoins as well, then the exchange rate would be irrelevant. Larger adoption of Bitcoin would make prices [http://en.wikipedia.org/wiki/Sticky_%28economics%29 sticky]. Future volatility is expected to decrease, as the size and depth of the market grows.

In the meantime, many merchants simply regularly pull the latest market rates from the exchanges and automatically update the prices on their websites. Also you might be able to buy a put option in order to sell at a fixed rate for a given amount of time. This would protect you from drops in price and simplify your operations for that time period.

== Like Flooz and e-gold, bitcoins serve as opportunities for criminals and will be shut down ==

* Visa, MasterCard, PayPal, and cash all serve as opportunities for criminals as well, but society keeps them around due to their recognized net benefit.
* Hopefully Bitcoin will grow to the point where no single organization can disrupt the network, or would be better served by helping it.
* Terrorists fly aircraft into buildings, but the governments have not yet abolished consumer air travel. Obviously the public good outweighs the possible bad in their opinion.
* Criminal law differs between jurisdictions.

== Bitcoins will be shut down by the government just like Liberty Dollars were ==

Liberty Dollars started as a commercial venture to establish an alternative US currency, including physical banknotes and coins, backed by precious metals. This, in and of itself, is not illegal. They were prosecuted under counterfeiting laws because the silver coins allegedly resembled US currency.

Bitcoins do not resemble the currency of the US or of any other nation in any way, shape, or form. The word "dollar" is not attached to them in any way. The "$" symbol is not used in any way.

Bitcoins have no representational similarity whatsoever to US dollars.

Of course, actually 'shutting down' Liberty Dollars was as easy as arresting the head of the company and seizing the offices and the precious metals used as backing. The decentralized Bitcoin, with no leader, no servers, no office, and no tangible asset backing, does not have the same vulnerability.

== Bitcoin is not decentralized because the developers can dictate the software's behavior ==

The Bitcoin protocol was originally defined by Bitcoin's inventor, [[Satoshi Nakamoto]], and this protocol has now been widely accepted as the standard by the community of miners and users.

Though the developers of the original Bitcoin client still exert influence over the Bitcoin community, their power to arbitrarily modify the protocol is very limited. Since the release of Bitcoin v0.3, changes to the protocol have been minor and always in agreement with community consensus.

Protocol modifications, such as increasing the block award from 25 to 50 BTC, are not compatible with clients already running in the network. If the developers were to release a new client that the majority of miners perceives as corrupt, or in violation of the project’s aims, that client would simply not catch on, and the few users who do try to use it would find that their transactions get rejected by the network.

There are also other [[:Category:Clients|Bitcoin clients made by other developers]] that adhere to the Bitcoin protocol. As more developers create alternative clients, less power will lie with the developers of the original Bitcoin client.

== Bitcoin is a pyramid scheme ==

Bitcoin is nearly opposite of a pyramid scheme in a mathematical sense. Because Bitcoins are algorithmically made scarce, no exponential benefit is derived from introducing new users to use of it. There is a quantitative benefit in having additional interest or demand, but this is in no way exponential.

== Bitcoin was hacked ==

In the history of Bitcoin, there has never been an attack on the [[block chain]] that resulted in stolen money from a confirmed output. Neither has there ever been a reported theft resulting directly from a vulnerability in the [[Original Bitcoin client|original Bitcoin client]], or a vulnerability in the protocol. Bitcoin is secured by standard cryptographic functions. These functions have been peer reviewed by cryptography experts and are considered unlikely to be breakable in the foreseeable future.

It is safe to say that the currency itself has never been 'hacked'. However, several major ''websites'' using the currency have been hacked, often resulting in high profile Bitcoin heists. These heists are misreported in some media as hacks on Bitcoin itself. An analogy: Just because someone stole US dollars from a supermarket till, doesn’t mean that the US dollar as a currency has been 'hacked'.

Most bitcoin thefts are the result of inadequate [[Securing your wallet|wallet security]]. In response to the wave of thefts in 2011 and 2012, the community has developed risk-mitigating measures such as [[Wallet_encryption|wallet encryption]], support for [[BIP_0011|multiple signatures]], [[How_to_set_up_a_secure_offline_savings_wallet|offline wallets]], [[Paper_wallet|paper wallets]], and [[Hardware_wallet|hardware wallets]]. As these measures gain adoption by merchants and users, it is expected that the number of thefts will drop.

==References==
<references/>

[[de:Mythen]]
[[ru:Мифы о биткоине]]

Block chain

2013-09-25T17:33:57Z

Semaster:

[[File:blockchain.png|thumb|Blocks in the main chain (black) are the longest series of blocks that go from the genesis block (green) to the current block. Purple blocks are blocks that are not in the longest chain and therefore not used.]]

A '''block chain''' is a transaction database shared by all [[Node|nodes]] participating in a system based on the Bitcoin protocol. A full copy of a currency's block chain contains every [[transaction]] ever executed in the currency. With this information, one can find out how much value belonged to each [[address]] at any point in history.

Every [[block]] contains a [[hash]] of the previous block. This has the effect of creating a chain of blocks from the [[genesis block]] to the current block. Each block is guaranteed to come after the previous block chronologically because the previous block's hash would otherwise not be known. Each block is also computationally impractical to modify once it has been in the chain for a while because every block after it would also have to be regenerated. These properties are what make [[double-spending]] of bitcoins very difficult. The block chain is the main innovation of Bitcoin.

Honest generators only build onto a block (by referencing it in blocks they create) if it is the latest block in the longest valid chain. "Length" is calculated as total combined difficulty of that chain, not number of blocks, though this distinction is only important in the context of a few potential attacks. A chain is valid if all of the blocks and transactions within it are valid, and only if it starts with the genesis block.

For any block on the chain, there is only one path to the genesis block. Coming from the genesis block, however, there can be forks. One-block forks are created from time to time when two blocks are created just a few seconds apart. When that happens, generating nodes build onto whichever one of the blocks they received first. Whichever block ends up being included in the next block becomes part of the main chain because that chain is longer. More serious forks have occurred after fixing bugs that required backward-incompatible changes.

Blocks in shorter chains (or invalid chains) are not used for anything. When the bitcoin client switches to another, longer chain, all valid transactions of the blocks inside the shorter chain are re-added to the pool of queued transactions and will be included in another block. The reward for the blocks on the shorter chain will not be present in the longest chain, so they will be practically lost, which is why a network-enforced 100-block maturation time for generations exists.

These blocks on the shorter chains are often called "orphan" blocks. This is because the generation transactions do not have a parent block in the longest chain, so these generation transactions show up as orphan in the listtransactions RPC call. Several pools have misinterpreted these messages and started calling their blocks "orphans". In reality, these blocks have a parent block, and might even have children.

Because a block can only reference one previous block, it is impossible for two forked chains to merge.

It's possible to use the block chain algorithm for non-financial purposes: see [[Alternative chain]].

The block chain is broadcasted to all nodes on the networking using a flood protocol: see [[Block chain download]].

[[Category:Technical]]
[[Category:Vocabulary]]

==See Also==

* [[BlockChain.info]] - Utility site and [[EWallet]] provider of similar name
[[ru:цепочка блоков]]

Block chain

2013-09-25T17:33:38Z

Semaster:

Bitstamp

2013-09-24T11:02:11Z

Semaster:

A currency exchange, which operates a BTC/USD market with support for various currencies for deposit and withdrawal.

==Trading==
*Buying/selling

A buy/sell order is executed partially or in full when the price bid can be matched against a sell/buy order that is at or below the bid amount.

==Adding funds==

===BTC===
There are no fees incurred when when transferring bitcoins for deposit. Funds are available once confirmed (3 confirms), a process that can take roughly 30minutes. A Bitstamp [[Redeemable code]] (coupon) denominated in BTC or BTC and USD can be deposited. The bitcoins using these coupons are instantly credited.

===EUR===
Exchange accepts EUR deposits via SEPA transfers, then converts them to USD and credits them to online account. '''No deposit fees!''' 

===GBP===
Exchange accepts wire transfers in GBP, then converts them to USD and credits them to online account. 
Charging 0.1% deposit fee(minimum fee = $15)

===USD===
Exchange accepts international wire transfers in USD, charging 0.1% deposit fee(minimum fee = $15) 
Exchange accepts a Bitstamp redeemable code (coupon) in USD denomination or combination of USD and BTC 
Exchange supports transfers between Dwolla, MtGox, Cash Bank Deposits, BTC-E and VirWox via '''Bitinstant'''.

===CHF===
Exchange accepts wire transfers in CHF, then converts them to USD and credits them to online account. 
Charging 0.1% deposit fee(minimum fee = $15)

==Withdrawing funds==

===BTC===
Bitcoins may be withdrawn at no charge. Withdrawals can be sent to a bitcoin address or they can be made using a [[Redeemable code]] (coupon).

===EUR===
SEPA withdrawals are charged with fixed 0.90€ fee once your funds are converted to EUR. Minimum amount for SEPA withdrawal is $10,00.

===GBP===
GBP wire deposits and withdrawals in GBP are supported. 

===USD===
International wire withdrawals in USD will be charged with 0.09% fee, minimum fee is $15,00. Minimum amount for international withdrawal is $50,00. 

===CHF===
International wire withdrawals in CHF will be charged with 0.09% fee, minimum fee is $15,00. Minimum amount for international withdrawal is $50,00. 

==Fees==
Bitstamp charges a trading fee from each party of successful trades made through the market. The amount of the fee will vary based on a 30 day trading history. The rate for new accounts and those with the lowest volume is 0.5%. Refer to the [https://www.bitstamp.net/fee_schedule fee schedule] to determine discount levels. The fee that was charged appears in the account history next to each trade.

==Internal transfers==
Bitstamp allows internal transfer of funds to other users using Bitstamp codes. One party withdraws funds by creating a code and then sending (in a secure manner) the code to a trusted user who then redeems that code by using deposit Bitstamp code option. The code denominations can be in BTCs, USDs, or combination of those two.

==Instant transfers via other services==
'''BitInstant'''
*Dwolla
*Liberty Reserve
*MtGox
*Cash Bank Deposits
*BTC-E
*VirWox

==Localization==
Bitstamp is localizing website with online collaborative online translating tool. Feel free to join and help with translation to your native language.

Link: http://crowdin.net/project/bitstamp

==Account Security==

Access to an account may be protected with the optional Google Authenticator utility.

==Language Support==

The site has support for various languages:

* English
* Dutch
* Italian
* Polish
* Slovenian
* Finnish
* Czech
* Russian

==API==
API is available https://www.bitstamp.net/api/

==Data Services==

===Linux===
* [https://github.com/3M3RY/Dojima Dojima] market client

==History==

The exchange was announced on August 22, 2011<ref>[http://bitcointalk.org/index.php?topic=38711.0 www.BITSTAMP.net Bitcoin exchange site for USD/BTC]</ref>. Bitstamp.net is owned by Bitstamp d.o.o. and based in Slovenia.

On May 12, 2012 the exchange began offering volume discounts for trading fees<ref>[http://bitcointalk.org/index.php?topic=81519.0 Bitstamp introduces volume discount program]</ref>.

==See Also==

* [[Buying bitcoins]]
* [[Selling bitcoins]]

==External Links==

* [http://www.bitstamp.net Bitstamp] web site
* [http://twitter.com/#!/BitStamp @Bitstamp] Twitter

==References==
<References />

[[Category:Exchanges]]
[[Category:EWallets]]
[[ru:Bitstamp]]

Pooled mining

2013-09-19T09:56:05Z

Semaster:

'''Pooled mining''' is a [[Mining|mining]] approach where multiple generating clients contribute to the generation of a block, and then split the block reward according the contributed processing power. Pooled mining effectively reduces the granularity of the block generation reward, spreading it out more smoothly over time.

==Introduction==

With increasing generation difficulty, mining with lower-performance devices can take a very long time before block generation, on average. For example, with a mining speed of 1000 Khps, at a difficulty of 14484 (which was in effect at the end of December, 2010), the average time to generate a block is almost 2 years.

To provide a more smooth incentive to lower-performance miners, several pooled miners, using different approaches, have been created. With a mining pool, a lot of different people contribute to generating a block, and the reward is then split among them according to their processing contribution. This way, instead of waiting for years to generate 50btc in a block, a smaller miner may get a fraction of a bitcoin on a more regular basis.

A '''share''' is awarded by the mining pool to the clients who present a valid [[proof of work]] of the same type as the proof of work that is used for creating [[block|blocks]], but of lesser difficulty, so that it requires less time on average to generate.

==Pooled mining approaches==

The problem with pooled mining is that steps must be taken to prevent cheating by the clients and the server. Currently there are several different approaches used.

===The slush approach===

[[Bitcoin Pooled Mining]] (BPM), sometimes referred to as "slush's pool", follows a score-based method. Older shares (from beginning of the round) have lower weight than more recent shares, which reduces the motivation to cheat by switching between pools within a round.

===The puddinpop approach===

(As of February, 2011, there are no puddinpop pools running.)

Another approach is the 'metahash' technique, used by puddinpop's [[remote miner]]. Clients generate hashes, and also submit 'metahashes', which are hashes of a large chunk of generated hashes. The server checks that the metahashes are correct (in a round-robin fashion, picking up a metahash from a client that hasn't been checked on the longest), thus preventing clients from simply claiming that they have done work without actually doing it. The withholding of good blocks by the clients is prevented by the server's possession of the private key, just as in the previous approach. Rewards are distributed based on the number of metahashes submitted by the clients.

The generated blocks contain multiple keys in the generation transaction, giving fractional bitcoin amounts to each key in proportion to their hashing contribution for that block.

===The Pay-per-Share approach===

The Pay-per-Share (PPS) approach, first described by [[BitPenny]], is to offer an instant flat payout for each share that is solved. The payout is offered from the pool's existing balance and can therefore be withdrawn immediately, without waiting for a block to be solved or confirmed. The possibility of cheating the miners by the pool operator and by timing attacks is thus completely eliminated.

This method results in the least possible variance for miners while transferring all risk to the pool operator. The resulting possibility of loss for the server is offset by setting a payout lower than the full expected value.

===Luke-Jr's approach ("[[Eligius]]")===
[[User:Luke-Jr|Luke]] came up with a third approach borrowing strengths from the earlier two.
Like slush's approach, miners submit proofs-of-work to earn shares.
Like puddinpop's approach, the pool pays out immediately via block generation.
When distributing block rewards, it is divided equally among all shares since the last valid block.
Unlike any preexisting pool approach, this means that the shares contributed toward stale blocks are recycled into the next block's shares.
In order to spare participating miners from transaction fees, rewards are only paid out if a miner has earned at least 0.67108864 BTC (400 [[Tonal Bitcoin|TBC]]). If the amount owed is less, it will be added to the earnings of a later block (which may then total over the threshold amount).
If a miner does not submit a share for over a week, the pool sends any balance remaining, regardless of its size.

===The Triplemining approach===
The [[Triplemining]] approach is to bring together a medium-sized pool with no fees and clever redistribution of 1% of every found block to allow your share to grow more rapidly than on any other bitcoin mining pool.

For every found block, Triplemining redistributes 1% of the profits to all minipool owners (people with 1 or more friends mining with them). The redistribution is connected to the shares found by the members of the minipool. So if the hash rate of the minipool members equals or is bigger than yours, the part in the redistribution will be equally bigger.

===P2Pool approach===

[[P2Pool]] mining nodes work on a chain of shares similar to Bitcoin’s blockchain. When a block is found, the reward is divided among the most recent shares in this share-blockchain. Like the puddinpop and Luke-Jr approaches, p2pool pays via generation.

===Comparison===

The cooperative mining approach (slush and Luke-Jr) uses a lot less resources on the pool server, since rather than continuously checking metahashes, all that has to be checked is the validity of submitted shares. The number of shares sent can be adjusted by adjusting the artificial difficulty level.

Further, the cooperative mining approach allows the clients to use existing miners without any modification, while the puddinpop approach requires the custom pool miner, which are as of now not as efficient on GPU mining as the existing GPU miners.
[[File:Smallgeneration.png|thumb|Puddinpop miners receive coins directly.]]

Additionally, the puddinpop and Luke-Jr approaches of distributing the earnings by way of including precise sub-cent amounts in the generation transaction for the participants, results in the presence of sub-cent bitcoin amounts in your wallet, which are liable to disappear (as unnecessary fees) later due to a bug in old (before 0.3.21) bitcoin nodes. (E.g., if you have a transaction with 0.052 in your wallet, and you later send .05 to someone, your .002 will disappear.).

Puddinpop and Luke-Jr miners receive coins directly, which eliminates the delay in receiving earnings that is required on slush-based mining servers. However, using some [[eWallet]] services for generated coin will cause those coins to be lost.

==See Also==

* [[:Category:Miners|Miners]]
* [[Poolservers]]
* [[Comparison of mining pools]]
* [[:Category:Pool Operators|Pool Operators]]
* [[Why a GPU mines faster than a CPU]]
* [[Why pooled mining]]
* [[Mining pool reward FAQ]]

==External links==
* [http://btcserv.net BTCSERV.net - Bitcoin Pool]
* [http://21bitcoin.com/pool/ 21bitcoin mining pool, Chinese Interface]
* [http://mining.bitcoin.cz slush's mining pool]
* [http://www.bitcash.cz bitcash.cz - czech mining pool]
* [http://www.bitcoin.org/smf/index.php?topic=1458.0 puddinpop's mining pool thread]
* [http://blockexplorer.com/block/00000000000233334b157d901714baf59e5b9236227b2878844e52244da4195e example puddinpop block]
* [http://bitclockers.com bitclockers mining pool]
* [https://pool.itzod.ru pool.itzod.ru mining pool]
* [https://50btc.com 50btc.com mining pool]
* [http://forum.bitcoin.org/index.php?topic=18313 P2Pool forum]

==References==
<references />

[[ru:майнинг в пулах]]
[[Category:Mining]]

Template:MainPage Intro

2013-09-17T16:19:51Z

Semaster: Undo revision 41073 by Semaster (talk)

[[Image:Bitcoin world map.png|left|200px|Bitcoin usage worldwide.]]

'''Bitcoin''' is an experimental, decentralized [[digital currency]] that enables instant payments to anyone, anywhere in the world. [[Bitcoin]] uses peer-to-peer technology to operate with no central authority: managing transactions and issuing money are carried out collectively by the network.

The original Bitcoin software by [[Satoshi Nakamoto]] was released under the MIT license.
Most client software, derived or "from scratch", also use open source licensing.

Bitcoin is one of the first implementations of a concept called ''crypto-currency'' which was first described in 1998 by Wei Dai on the cypherpunks mailing list. Building upon the notion that money is any object, or any sort of record, accepted as payment for goods and services and repayment of debts in a given country or socio-economic context, Bitcoin is designed around the idea of using cryptography to control the creation and transfer of money, rather than relying on central authorities.

:''Sourced from [http://bitcoin.org Bitcoin.org] and [[wikipedia:Bitcoin|Wikipedia]].''

'''Bitcoin-Qt:'''
{|style="background-color: inherit;"
|
* [http://sourceforge.net/projects/bitcoin/files/Bitcoin/bitcoin-0.8.5/bitcoin-0.8.5-win32-setup.exe/download '''Windows (exe)'''] 10 MB [http://sourceforge.net/projects/bitcoin/files/Bitcoin/bitcoin-0.8.5/bitcoin-0.8.5-win32.zip/download '''(zip)'''] 14 MB
* [http://sourceforge.net/projects/bitcoin/files/Bitcoin/bitcoin-0.8.5/bitcoin-0.8.5-linux.tar.gz/download '''GNU/Linux'''] 13 MB
* [http://sourceforge.net/projects/bitcoin/files/Bitcoin/bitcoin-0.8.5/bitcoin-0.8.5-macosx.dmg/download '''Mac OS X'''] 12 MB
|}

[http://bitcoin.org/clients.html More Bitcoin Client Software]

Template:MainPage Intro

2013-09-17T16:18:36Z

Semaster:

Bit-miner.com

2013-08-30T12:58:09Z

Semaster: Created page with "== Bit-miner.com== Sells mining shares. Each mining share from Bit-miner.com is equal to 0.1Ghash/s The service is currently running and are launching a 500 Ghash mine in Se..."

== Bit-miner.com==

Sells mining shares. Each mining share from Bit-miner.com is equal to 0.1Ghash/s

The service is currently running and are launching a 500 Ghash mine in September-October and will up total hashing power to 10 Thash during next 5 months.
They use different mining machines from different vendors.

==External Links==

* [http://bit-miner.com/front/pricing.html Website]

Mining

2013-08-30T12:51:57Z

Semaster: /* Mining services */

[[File:Quick-and-dirty-4x5970-cooling.jpg|thumb|right|A quick and dirty mining rig]]
== Introduction ==
'''Mining''', or generating, is the process of adding transaction records to Bitcoin's public ledger of past transactions. This ledger of past transactions is called the [[block chain]] as it is a chain of [[block|blocks]]. The block chain serves to [[Confirmation|confirm]] transactions to the rest of the network as having taken place. Bitcoin nodes use the block chain to distinguish legitimate Bitcoin transactions from attempts to respend coins that have already been spent elsewhere.

Mining is intentionally designed to be resource-intensive and difficult so that the number of blocks found each day by miners remains steady. Individual [[blocks]] must contain a [[proof of work|proof of work]] to be considered valid. This proof of work is verified by other Bitcoin nodes each time they receive a block.

== History ==
Bitcoin's public ledger (the 'block chain') was started on January 3rd, 2009 at 18:15 UTC presumably by [[Satoshi Nakamoto]]. The first block is known as the [[genesis block]]. The first transaction recorded in the first block was a single transaction paying the reward of 50 new bitcoins to its creator.

Bitcoin mining is so called because it resembles the mining of other commodities: it requires exertion and it slowly makes new currency available at a rate that resembles the rate at which commodities like gold are mined from the ground. See [[Controlled Currency Supply]].

== Mining services ==
Mining contracts - provides mining services with performance specified by contract. An example would be where a specific level of mining capacity is rented out for a set price for a specific duration. One of the biggest mining contractors is [[Minerlease]]

Mining shares - provides Mining as a Service (MaaS) model; break large-scale datacenter mining down to easily manageable pieces that are available in the form of shares of equipment. Mining shares are available from such companies as [[ASICMINER]] or [[Bit-miner.com]]

== Difficulty ==
=== The Computationally-Difficult Problem ===
Mining a block is difficult because the SHA-256 hash of a block's header must be lower than or equal to the [[Target|target]] in order for the block to be accepted by the network. This problem can be simplified for explanation purposes: The hash of a block must start with a certain number of zeros. The probability of calculating a hash that starts with many zeros is very low, therefore many attempts must be made. In order to generate a new hash each round, a [[Nonce|nonce]] is incremented. See [[Proof of work]] for more information.

=== The Difficulty Metric ===
The [[Difficulty|difficulty]] is the measure of how difficult it is to find a new block compared to the easiest it can ever be. It is recalculated every 2016 blocks to a value such that the previous 2016 blocks would have been generated in exactly two weeks had everyone been mining at this difficulty. This will yield, on average, one block every ten minutes. As more miners join, the rate of block creation will go up. As the rate of block generation goes up, the difficulty rises to compensate which will push the rate of block creation back down. Any blocks released by malicious miners that do not meet the required difficulty [[Target|target]] will simply be rejected by everyone on the network and thus will be worthless.

=== Reward ===
When a block is discovered, the discoverer may award themselves a certain number of bitcoins, which is agreed-upon by everyone in the network. Currently this bounty is 25 bitcoins; this value will halve every 210,000 blocks. See [[Controlled Currency Supply]].

Additionally, the miner is awarded the fees paid by users sending transactions. The fee is an incentive for the miner to include the transaction in their block. In the future, as the number of new bitcoins miners are allowed to create in each block dwindles, the fees will make up a much more important percentage of mining income.

== Hardware ==
[[File:Usb-fpga module 1.15x-hs-800.jpg|thumb|right|FPGA Module]]
Users have used various types of hardware over time to mine blocks. Hardware specifications and performance statistics are detailed on the [[Mining Hardware Comparison]] page.
=== CPU Mining ===
Early Bitcoin client versions allowed users to use their CPUs to mine. The advent of GPU mining made CPU mining financially unwise. The option still exists in the reference Bitcoin client, but it is disabled by default.

=== GPU Mining ===
GPU Mining is drastically faster and more efficient than CPU mining. See the main article: [[Why a GPU mines faster than a CPU]]. A variety of popular [[Mining rig|mining rigs]] have been documented.
=== FPGA Mining ===
FPGA mining is a very efficient and fast way to mine, comparable to GPU mining and drastically outperforming CPU mining. FPGAs typically consume very small amounts of power with relatively high hash ratings, making them more viable and efficient than GPU mining. See [[Mining Hardware Comparison]] for FPGA hardware specifications and statistics.
=== ASIC Mining ===
An application-specific integrated circuit, or ''ASIC'', is a microchip designed and manufactured for a very specific purpose. ASICs designed for Bitcoin mining were first released in 2013 and (at the time of this writing) are in the hands of a very limited number of miners. For the amount of power they consume, they are vastly faster than all previous technologies and already has made GPU mining financially unwise in some countries and setups.

== Pools ==
As mining a block became more and more difficult, individuals found that they were working for months without finding a block and receiving ''any'' reward for their mining efforts. Thus they started organizing themselves into [[Pooled mining|pools]] so that they could share rewards more evenly. See [[Pooled mining]] and [[Comparison of mining pools]].
[[Category:Mining]][[Category:Vocabulary]]

==See Also==

* [http://codinginmysleep.com/bitcoin-mining-in-plain-english Bitcoin Mining in Plain English] by David Perry
* [[Automatically mine when computer is locked|Tutorial to automatically start mining when you lock your computer]]. (Windows 7)
* [http://www.reddit.com/r/Bitcoin/comments/18q2jx/eli5_bitcoin_mining_xpost_in_eli5/ Simplified Explanation of Bitcoin Mining] by reddit user [http://www.reddit.com/user/azotic azotic]

Mining

2013-08-30T12:51:02Z

Semaster: /* Mining contracts */

[[File:Quick-and-dirty-4x5970-cooling.jpg|thumb|right|A quick and dirty mining rig]]
== Introduction ==
'''Mining''', or generating, is the process of adding transaction records to Bitcoin's public ledger of past transactions. This ledger of past transactions is called the [[block chain]] as it is a chain of [[block|blocks]]. The block chain serves to [[Confirmation|confirm]] transactions to the rest of the network as having taken place. Bitcoin nodes use the block chain to distinguish legitimate Bitcoin transactions from attempts to respend coins that have already been spent elsewhere.

Mining is intentionally designed to be resource-intensive and difficult so that the number of blocks found each day by miners remains steady. Individual [[blocks]] must contain a [[proof of work|proof of work]] to be considered valid. This proof of work is verified by other Bitcoin nodes each time they receive a block.

== History ==
Bitcoin's public ledger (the 'block chain') was started on January 3rd, 2009 at 18:15 UTC presumably by [[Satoshi Nakamoto]]. The first block is known as the [[genesis block]]. The first transaction recorded in the first block was a single transaction paying the reward of 50 new bitcoins to its creator.

Bitcoin mining is so called because it resembles the mining of other commodities: it requires exertion and it slowly makes new currency available at a rate that resembles the rate at which commodities like gold are mined from the ground. See [[Controlled Currency Supply]].

== Mining services ==
Mining contracts - provides mining services with performance specified by contract. An example would be where a specific level of mining capacity is rented out for a set price for a specific duration. One of the biggest mining contractors is [[Minerlease]]

Mining shares - provides Mining as a Service (MaaS) model we break large-scale datacenter mining down to easily manageable pieces that are available in the form of shares of equipment. Mining shares are available from such companies as [[ASICMINER]] or [[Bit-miner.com]]

== Difficulty ==
=== The Computationally-Difficult Problem ===
Mining a block is difficult because the SHA-256 hash of a block's header must be lower than or equal to the [[Target|target]] in order for the block to be accepted by the network. This problem can be simplified for explanation purposes: The hash of a block must start with a certain number of zeros. The probability of calculating a hash that starts with many zeros is very low, therefore many attempts must be made. In order to generate a new hash each round, a [[Nonce|nonce]] is incremented. See [[Proof of work]] for more information.

=== The Difficulty Metric ===
The [[Difficulty|difficulty]] is the measure of how difficult it is to find a new block compared to the easiest it can ever be. It is recalculated every 2016 blocks to a value such that the previous 2016 blocks would have been generated in exactly two weeks had everyone been mining at this difficulty. This will yield, on average, one block every ten minutes. As more miners join, the rate of block creation will go up. As the rate of block generation goes up, the difficulty rises to compensate which will push the rate of block creation back down. Any blocks released by malicious miners that do not meet the required difficulty [[Target|target]] will simply be rejected by everyone on the network and thus will be worthless.

=== Reward ===
When a block is discovered, the discoverer may award themselves a certain number of bitcoins, which is agreed-upon by everyone in the network. Currently this bounty is 25 bitcoins; this value will halve every 210,000 blocks. See [[Controlled Currency Supply]].

Additionally, the miner is awarded the fees paid by users sending transactions. The fee is an incentive for the miner to include the transaction in their block. In the future, as the number of new bitcoins miners are allowed to create in each block dwindles, the fees will make up a much more important percentage of mining income.

== Hardware ==
[[File:Usb-fpga module 1.15x-hs-800.jpg|thumb|right|FPGA Module]]
Users have used various types of hardware over time to mine blocks. Hardware specifications and performance statistics are detailed on the [[Mining Hardware Comparison]] page.
=== CPU Mining ===
Early Bitcoin client versions allowed users to use their CPUs to mine. The advent of GPU mining made CPU mining financially unwise. The option still exists in the reference Bitcoin client, but it is disabled by default.

=== GPU Mining ===
GPU Mining is drastically faster and more efficient than CPU mining. See the main article: [[Why a GPU mines faster than a CPU]]. A variety of popular [[Mining rig|mining rigs]] have been documented.
=== FPGA Mining ===
FPGA mining is a very efficient and fast way to mine, comparable to GPU mining and drastically outperforming CPU mining. FPGAs typically consume very small amounts of power with relatively high hash ratings, making them more viable and efficient than GPU mining. See [[Mining Hardware Comparison]] for FPGA hardware specifications and statistics.
=== ASIC Mining ===
An application-specific integrated circuit, or ''ASIC'', is a microchip designed and manufactured for a very specific purpose. ASICs designed for Bitcoin mining were first released in 2013 and (at the time of this writing) are in the hands of a very limited number of miners. For the amount of power they consume, they are vastly faster than all previous technologies and already has made GPU mining financially unwise in some countries and setups.

== Pools ==
As mining a block became more and more difficult, individuals found that they were working for months without finding a block and receiving ''any'' reward for their mining efforts. Thus they started organizing themselves into [[Pooled mining|pools]] so that they could share rewards more evenly. See [[Pooled mining]] and [[Comparison of mining pools]].
[[Category:Mining]][[Category:Vocabulary]]

==See Also==

* [http://codinginmysleep.com/bitcoin-mining-in-plain-english Bitcoin Mining in Plain English] by David Perry
* [[Automatically mine when computer is locked|Tutorial to automatically start mining when you lock your computer]]. (Windows 7)
* [http://www.reddit.com/r/Bitcoin/comments/18q2jx/eli5_bitcoin_mining_xpost_in_eli5/ Simplified Explanation of Bitcoin Mining] by reddit user [http://www.reddit.com/user/azotic azotic]