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DEFINITION of '51% Attack'
51% attack refers to an attack on a blockchain – usually bitcoin's, for which such an attack is still hypothetical – by a group of miners controlling more than 50% of the network's mining hashrate, or computing power.
The attackers would be able to prevent new transactions from gaining confirmations, allowing them to halt payments between some or all users. They would also be able to reverse transactions that were completed while they were in control of the network, meaning they could double-spend coins.
They would almost certainly not be able to create a create new coins or alter old blocks, so a 51% attack would probably not destroy bitcoin or another blockchain-based currency outright, even if it proved highly damaging.
Even though it’s called a 51% attack - actually the attacker would only need to match or slightly exceed the current network hashing power.
The Maths (Too many variables to be 100% accurate!)
The attacker must buy the hardware, then the most economical device is the Antminer S5+, which produces 7.7 TH/s (7.7e12 H/s) and costs US$2300. It draws 3.4 kW.
So a 51% attacker needs to produce about 4.0e17 H/s himself, to match or slightly exceed the hashing power of the existing network. This means he needs 4.0e17 / 7.7e12 = 52000 Antminer S5+ devices, which would cost 52000 x $2300 = $120 million.
(This is unrealistic in a couple of ways - buying that many devices would not only drive up the price but probably exceed the production capacity. On the other hand, such a large order might qualify for a quantity discount or wholesale pricing. This attacker might also find it more efficient to license the design and do the manufacturing themselves.)
Running these machines would consume 52000 x 3.4 kW = 177 MW of power. If the attacker is located in the US, this table shows that the cheapest place to get electricity at an industrial rate is Washington State, where it costs an average of 4.5 US cents per kWh. At this rate, the attack would cost US$8000 per hour to supply with electricity.
*Episode correction, Ben said it would be $8000 a minute, we know that this is actually $8000 p/h!
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DEFINITION of '51% Attack'
51% attack refers to an attack on a blockchain – usually bitcoin's, for which such an attack is still hypothetical – by a group of miners controlling more than 50% of the network's mining hashrate, or computing power.
The attackers would be able to prevent new transactions from gaining confirmations, allowing them to halt payments between some or all users. They would also be able to reverse transactions that were completed while they were in control of the network, meaning they could double-spend coins.
They would almost certainly not be able to create a create new coins or alter old blocks, so a 51% attack would probably not destroy bitcoin or another blockchain-based currency outright, even if it proved highly damaging.
Even though it’s called a 51% attack - actually the attacker would only need to match or slightly exceed the current network hashing power.
The Maths (Too many variables to be 100% accurate!)
The attacker must buy the hardware, then the most economical device is the Antminer S5+, which produces 7.7 TH/s (7.7e12 H/s) and costs US$2300. It draws 3.4 kW.
So a 51% attacker needs to produce about 4.0e17 H/s himself, to match or slightly exceed the hashing power of the existing network. This means he needs 4.0e17 / 7.7e12 = 52000 Antminer S5+ devices, which would cost 52000 x $2300 = $120 million.
(This is unrealistic in a couple of ways - buying that many devices would not only drive up the price but probably exceed the production capacity. On the other hand, such a large order might qualify for a quantity discount or wholesale pricing. This attacker might also find it more efficient to license the design and do the manufacturing themselves.)
Running these machines would consume 52000 x 3.4 kW = 177 MW of power. If the attacker is located in the US, this table shows that the cheapest place to get electricity at an industrial rate is Washington State, where it costs an average of 4.5 US cents per kWh. At this rate, the attack would cost US$8000 per hour to supply with electricity.
*Episode correction, Ben said it would be $8000 a minute, we know that this is actually $8000 p/h!