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Be[In]Crypto Video News Show: The Lightning Network

4 mins
Updated by Kyle Baird
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In Brief

  • In this episode of BeInCrypto’s Video News Show, host Juliette Lima explains Bitcoin’s popular Layer-2 payment solution, the Lightning Network.
  • The Lightning Network is a second-layer protocol that sits on top of the Bitcoin network that helps combat the scalability issues surrounding Bitcoin.
  • While Bitcoin is optimized for security and decentralization, the Lighting Network is optimized for high speed and low cost.
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In this episode of Be[In]Crypto’s Video News Show, host Juliette Lima explains Bitcoin’s popular Layer-2 payment solution, the Lightning Network.

While Bitcoin usage has increased dramatically, this has come with a subsequent uptick in transaction times and fees. At a lackluster seven transactions per second, Bitcoin’s network is effectively inefficient for making payments. 

This is because all Bitcoin transactions must be broadcast to every single node within the network. Once broadcasted, the transactions still need to reach their final settlement on the Bitcoin blockchain.

With the blockchain creating new blocks about every 10 minutes and the blocks limited in size, this process is rather time-consuming. Also, with the limited number of transactions that can be settled per block, the fees are prone to rising substantially, with participants jostling for priority.

Lightning Network

This is where the Lightning Network comes in. Conceived by Joseph Poon and Thaddeus Dryja in 2015, the Lightning Network is a second-layer protocol that sits on top of the Bitcoin network.

Its inventors used the concept of payment channels to help combat the scalability issues surrounding Bitcoin, optimizing the speed of on-chain bitcoin transactions, as well as the cost per transaction. 

Currency as Layer-2

If second-layer protocols are unfamiliar, here is an analogy. Consider gold as a first-layer form of money. Despite possessing several valuable qualities, such as scarcity, durability, and fungibility, its weight precludes its portability. In the past, a solution was to use paper receipts, which effectively represented a certain amount of gold kept in safe custody. 

People trusted they could take this paper to the bank and exchange it for gold. Eventually, these paper receipts evolved into currencies, such as the U.S. dollar. The convenience of the paper bills made transactions much easier, and they could occur much more frequently. 

One could think of paper currency as a second layer on top of the first layer of the gold standard. Bitcoin and the Lightning Network function in much the same way as gold and paper currency.

Trade-offs

In the case of Bitcoin, a choice was made to optimize for security and decentralization, with transaction speed being sacrificed. This ultimately led to a highly variable transaction fee as well, depending on the demands on the network. These two points make it difficult for Bitcoin payments to be made on-chain, especially in smaller every day increments.

The Lightning Network effectively relieves Bitcoin of these payment duties and is instead optimized for high speed and low cost, eventually finalizing transactions using Bitcoin on the main chain.

Bitcoin payment channels

The Lightning Network works by setting up a channel for payments between two separate parties, called a funding transaction. Both parties fund the channel with on-chain bitcoin, creating an on-chain arrangement between the two. These funds are the maximum channel capacity, you cannot spend more than the total of these funds combined.

This funding transaction, the initial channel opened up between two parties, uses something called a multi-signature address, which means more than one signature is needed to move the Bitcoin held in that address. For example, in a 2-2 multi-signature address you would need the 2 people to agree to sign for the funds at that address for it to be spent. 

Paying the tab

In this payment channel on the Lightning Network, only the first and the last transactions are put on the bitcoin blockchain. All the other transactions between the opening and closing transactions will happen off-chain, meaning off of the Bitcoin blockchain. These transactions between the first and the last are called commitment transactions, and they are not limited by the Bitcoin protocol fees or transactions per second. 

An equivalent process would be opening a tab at a bar. Instead of paying for each drink individually throughout the night, which takes more time, and costs the establishment more money in transaction fees, an initial tab, or payment channel is opened and updated after each drink is ordered. The tab is then settled at the end of the night with a single transaction. Closing a bar tab is similar to closing a payment channel in the Lightning Network.

Other Lightning Network benefits

With the Lightning Network, payments can be routed through multiple channels to any of the network participants. For instance, if a payment needs to be made to someone, but a direct channel is lacking, it could still be routed through another participant in the network.

The Lightning Network’s speed also enables micropayments, where payments can be made incrementally based on periods of time. Service providers could now charge by the minute rather than through monthly subscriptions, or employers could pay almost instantaneously for work performed rather than through weekly paychecks.

As benefits to using the Lightning Network accrue, its users have also increased dramatically. As of writing, there are currently around 36,000 nodes on the Lightning Network with a network capacity of 3,600 BTC.

Wallet options

There are many wallets out there, with both custodial and noncustodial options, that facilitate Lightning Network payments. Some of the best are Strike, Bluewallet, Cash App, and Muun.  

One important thing to note is that Lightning QR codes are somewhat different from on-chain Bitcoin QR codes. Some new wallets enable switching between on-chain Bitcoin and Lightning Network Bitcoin, but erroneous transactions are often due to being sent to the wrong kind of address.

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Disclaimer

In adherence to the Trust Project guidelines, BeInCrypto is committed to unbiased, transparent reporting. This news article aims to provide accurate, timely information. However, readers are advised to verify facts independently and consult with a professional before making any decisions based on this content. Please note that our Terms and ConditionsPrivacy Policy, and Disclaimers have been updated.

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Nicholas Pongratz
Nick is a data scientist who teaches economics and communication in Budapest, Hungary, where he received a BA in Political Science and Economics and an MSc in Business Analytics from CEU. He has been writing about cryptocurrency and blockchain technology since 2018, and is intrigued by its potential economic and political usage.
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