Proof of Stake (PoS) in Blockchain
Proof of Stake (PoS)
is a type of algorithm which aims to achieve distributed consensus in a Blockchain
. This way to achieve consensus was first suggested by Quantum Mechanic here
and later Sunny King and his peer wrote a paper on it. This led to Proof-of-Stake (PoS) based Peercoin.
is value/money we bet on a certain outcome. The process is called staking.
A more particular meaning of stake will be defined later on.
Before proof of stake, the most popular way to achieve distributed consensus was through Proof-of-Work (implemented in Bitcoin
). But Proof-of-Work is quite energy(electrical energy in mining a bitcoin) intensive. So, a proof-of-work based consensus mechanism increases an entity’s chances of mining a new block if it has more computation resources. Apart from the upper two points, there are other weaknesses of a PoW based consensus mechanism which we will discuss later on. In such a scenario, a Proof-of-Stake based mechanism holds merit.
What is Proof-of-Stake:
As understandable from the name, nodes on a network stake an amount of cryptocurrency
to become candidates to validate the new block and earn the fee from it. Then, an algorithm chooses from the pool of candidates the node which will validate the new block. This selection algorithm combines the quantity of stake (amount of cryptocurrency) with other factors (like coin-age based selection, randomization process) to make the selection fair to everyone on the network.
A typical PoS based mechanism workflow:
- Coin-age based selection:
The algorithm tracks the time every validator candidate node stays a validator. The older the node becomes, the higher the chances of it becoming the new validator.
- Random Block selection:
The validator is chosen with a combination of ‘lowest hash value’ and ‘highest stake’. The node having the best weighted-combination of these becomes the new validator.
- Nodes make transactions. The PoS algorithm puts all these transactions in a pool.
- All the nodes contending to become validator for the next block raise a stake. This stake is combined with other factors like ‘coin-age’ or ‘randomized block selection’ to select the validator.
- The validator verifies all the transactions and publishes the block. His stake still remains locked and the forging reward is also not granted yet. This is so that the nodes on the network can ‘OK’ the new block.
- If the block is ‘OK’-ed, the validator gets the stake back and the reward too. If the algorithm is using a coin-age based mechanism to select validators, the validator for the current block’s has its coin-age reset to 0. This puts him in a low-priority for the next validator election.
- If the block is not verified by other nodes on the network, the validator loses its stake and is marked as ‘bad’ by the algorithm. The process again starts from step 1 to forge the new block.
Advantages of PoS:
- Fixed coins in existence:
There is only a finite number of coins that always circulate in the network. There is no existence of bringing new coins into existence(as in by mining in case of bitcoin and other PoW based systems). Note that the network starts with a finite number of coins or ‘initially starts with PoW, then shifts to PoS’ in some cases. This initiation with PoW is meant to bring coins/cryptocurrency in the network.
- Transaction fee as reward to minters/forgers:
Every transaction is charged some amount of fee. This is accumulated and given to the entity who forges the new block. Note that if the forged block is found fraudulent, the transaction fee is not rewarded. Moreover, the stake of the validator is also lost(which is also known as slashing).
- Impracticality of the 51% attack:
To conduct a 51% attack, the attacker will have to own 51% of the total cryptocurrency in the network which is quite expensive. This deems doing the attack too tedious, expensive and not so profitable. There will occur problems when amassing such a share of total cryptocurrency as there might not be so much currency to buy, also that buying more and more coins/value will become more expensive. Also validating wrong transactions will cause the validator to lose its stake, thereby being reward-negative.
Weakness of a PoS mechanism:
As all the nodes are not competing against each other to attach a new block to the blockchain, energy is saved. Also, no problem has to be solved( as in case of Proof-of-Work system) thus saving the energy.
In blockchains like Bitcoin(Proof of Work system to achieve distributed consensus), an extra incentive of exponential rewards are in place to join a mining pool leading to a more centralized nature of blockchain. In the case of a Proof-of-Stake based system(like Peercoin), rewards are proportional(linear) to the amount of stake. So, it provides absolutely no extra edge to join a mining pool; thus promoting decentralization.
A person attempting to attack a network will have to own 51% of the stakes(pretty expensive). This leads to a secure network.
Blockchains using Proof-of-Stake:
- Large stake validators:
If a group of validator candidates combine and own a significant share of total cryptocurrency, they will have more chances of becoming validators. Increased chances lead to increased selections, which lead to more and more forging reward earning, which lead to owning a huge currency share. This can cause the network to become centralized over time.
- New technology:
PoS is still relatively new. Research is ongoing to find flaws, fix them and making it viable for a live network with actual currency transactions.
- The ‘Nothing at Stake’ problem:
This problem describes the little to no disadvantage to the nodes in case they support multiple blockchains in the event of a blockchain split(blockchain forking). In the worst-case scenario, every fork will lead to multiple blockchains and validators will work and the nodes in the network will never achieve consensus.
Variants of Proof-of-Stake:
- Ethereum(Casper update)
- Regular Proof-of-Stake – The one discussed in this article.
- Delegated Proof-of-Stake
- Leased Proof-of-Stake
- Masternode Proof-of-Stake
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