Introduction to Consensus Mechanisms

Senior Analyst, Research

A decentralized system implies that no single participant has control over the system’s rules, inputs and outputs. Security therefore becomes the biggest challenge to any decentralized system. This is especially true when participants don’t trust each other and the system provides a record of transactions that ascribe value (like on a public blockchain). 

Without third-party verification, how can participants validate transactions and prevent malicious actors from inserting fake and fraudulent information? 

Satoshi Nakamoto provided a solution to this question by combining various ideas to create a distributed, immutable and cryptographic ledger of transactions. At its core is the proof-of-work consensus mechanism—a way to verify transactions by proving to others that considerable computing efforts were spent for the information to be appended to the ledger.

What’s a Consensus Mechanism? 

A consensus mechanism is an algorithm to approve transactions or records onto a decentralized ledger such that fake or fraudulent records are rejected. 

The algorithm is run when new blocks are being appended to the existing chain of blocks, which is how the blockchain gets updated as an append-only ledger. 

The idea is that by imposing a requirement of certain effort spent (or risk taken), malicious actors would refrain from tampering with the ledger, as they deem the effort (or loss) to be unprofitable. The very first purpose of proof of work’s invention was to filter email spam. 

Hashcash, a proof-of-work system proposed by Adam Back in 1997, requires email senders to create and attach stamps on email headers to prove to receivers that they spent CPU power to generate emails. These stamps are one-way encryption algorithms that are easy to verify by the receiver but hard (in computing terms) to generate by the sender. In this model, spammers would be reluctant to send out large quantities of email, as it becomes unprofitable to use a large amount of CPU power to create stamps. However, the price of sending a single email is still affordable by regular users.

Since consensus mechanisms in the blockchain world are generally referred to as activities of “mining” and “staking,” they are frequently regarded as methods to issue new coins. However, their primary purpose is to secure the decentralized network, whereas rewards in the form of coins are an added economic incentive for workers to maintain the network. 

Various Consensus Mechanisms (detailed explanations can be found here)

Major consensus mechanisms include proof-of-work (PoW), proof-of-stake (PoS) and delegated proof-of-stake (DPoS)

PoW is the oldest consensus mechanism. It accounts for more than 75% of the market cap of blockchain protocols. It is used by Bitcoin, Ethereum (up to Serenity), Litecoin, and others. 

In PoW, miners append new blocks with transaction information to existing blocks (called mining) by finding a random number (called nonce) that can be run through a universal encrypting function to the network (called hash) and can satisfy a difficulty requirement. This consists of the process of “solving” the mathematical task, which demands considerable energy and effort. 

PoS, on the other hand, doesn’t require participants to use computing power to hash blocks and solve a mathematical requirement, but it requires them to stake ether. Participants are randomly selected to become block validators based on their wealth, and validators need to stake an amount of cryptocurrency that covers the transaction fee and their potential reward until the block is successfully appended. If inconsistent, absent and abnormal behaviors are detected, dishonest participants could lose their stakes and be banned from the network.  

DPoS is a variation of PoS. It changes the selection process in PoS from randomized algorithms to a more democratic approach, allowing stakers to vote for their representatives, who would carry out the validation act.

Besides PoW, PoS and DPoS, there are many proof-of-X mechanisms that try to establish a decentralized and secure network. They include proof-of-capacity, proof-of-elapsed-time time and proof-of-importance, etc.  

Another major family of consensus mechanisms is Byzantine Fault Tolerance. It has several variations, such as practical Byzantine Fault Tolerance (pBFT), which is currently used by Hyperledger Fabric. pBFT’s improved version is used by the People’s Bank of China (PBoC) to develop its Central Bank Digital Currency (CBDC). Another variation is called delegated Byzantine Fault Tolerance (dBFT), which is used by Neo. The Stellar network’s model of consensus leverages a federated Byzantine agreement (FBA) model, and it seeks to establish upon these models to build an open network for storing and moving money.


The consensus mechanism is a key component to a decentralized network. It not only secures the system but also affects its efficiency and scalability. 

Since Bitcoin’s birth, there have been many other consensus mechanisms created. Each of them has its own characteristics that determine the associated network’s attributes. To learn more about them and how they differ, you can read more here

Important Risks Related to this Article

There are risks associated with investing, including the possible loss of principal. Crypto assets, such as bitcoin and ether, are complex, generally exhibit extreme price volatility and unpredictability, and should be viewed as highly speculative assets. Crypto assets are frequently referred to as crypto “currencies,” but they typically operate without central authority or banks, are not backed by any government or issuing entity (i.e., no right of recourse), have no government or insurance protections, are not legal tender and have limited or no usability as compared to fiat currencies. Federal, state or foreign governments may restrict the use, transfer, exchange and value of crypto assets, and regulation in the U.S. and worldwide is still developing.

Crypto asset exchanges and/or settlement facilities may stop operating, permanently shut down or experience issues due to security breaches, fraud, insolvency, market manipulation, market surveillance, KYC/AML (know your customer / Anti-Money Laundering) procedures, non-compliance with applicable rules and regulations, technical glitches, hackers, malware or other reasons, which could negatively impact the price of any cryptocurrency traded on such exchanges or reliant on a settlement facility or otherwise may prevent access or use of the crypto asset.

Crypto assets can experience unique events, such as forks or airdrops, which can impact the value and functionality of the crypto asset. Crypto asset transactions are generally irreversible, which means that a crypto asset may be unrecoverable in instances where: (i) it is sent to an incorrect address, (ii) the incorrect amount is sent, or (iii) transactions are made fraudulently from an account. A crypto asset may decline in popularity, acceptance or use, thereby impairing its price, and the price of a crypto asset may also be impacted by the transactions of a small number of holders of such crypto asset. Crypto assets may be difficult to value and valuations, even for the same crypto asset, may differ significantly by pricing source or otherwise be suspect due to market fragmentation, illiquidity, volatility and the potential for manipulation. Crypto assets generally rely on blockchain technology and blockchain technology is a relatively new and untested technology which operates as a distributed ledger.

Blockchain systems could be subject to internet connectivity disruptions, consensus failures or cybersecurity attacks, and the date or time that you initiate a transaction may be different then when it is recorded on the blockchain. Access to a given blockchain requires an individualized key, which, if compromised, could result in loss due to theft, destruction or inaccessibility. In addition, different crypto assets exhibit different characteristics, use cases and risk profiles.

Information provided by WisdomTree regarding digital assets, crypto assets or blockchain networks should not be considered or relied upon as investment or other advice, as a recommendation from WisdomTree, including regarding the use or suitability of any particular digital asset, crypto asset, blockchain network or any particular strategy. WisdomTree is not acting and has not agreed to act in an investment advisory, fiduciary or quasi-fiduciary capacity to any advisor, end client or investor, and has no responsibility in connection therewith, with respect to any digital assets, crypto assets or blockchain networks.  


About the Contributor
Senior Analyst, Research

Jianing Wu joined WisdomTree as a Research Analyst in October 2018. She is responsible for analyzing market trends and helping support WisdomTree’s research efforts. Previously, Jianing completed internships and projects at Geode Capital, Starwint Capital, and Invesco Great Wall Fund Management with a focus in quantitative research. Jianing received her M.S in Finance from the Massachusetts Institute of Technology. She graduated with honors from Boston College with degrees in Mathematics and Philosophy.