The cryptocurrency ecosystem has skilled a big decade, quickly remodeling itself from a thought experiment to a value-driven universe of various services and products and, by extension, rising from a distinct segment market to some of the influential trendy technological infrastructures. Cryptocurrency’s growth has been fueled by its capability to unravel many issues, together with corruption, lack of economic inclusion, and high-cost banking transactions.
This fast progress has created some issues with scalability as a result of as extra individuals enter this new market, it turns into tougher for everybody to have their transactions processed shortly sufficient. This results in larger transaction charges and may even result in slower transaction instances as a consequence of community congestion.
Present layer-1 blockchains are outlined by extra constrained efficiency, particularly the accompanying transactions per second (TPS) limitations. As an example, Bitcoin presents round 7 TPS, whereas Ethereum delivers between 15 to 30 TPS. Within the context of legacy fee networks, Visa posits that its personal non-public processing community can deal with upwards of 65,000 transactions per second, outpacing the most well-liked blockchains by a large margin.
This successfully signifies that legacy blockchain networks are pretty restricted and accordingly can’t deal with a big inflow of customers and transaction-intensive protocols. Whereas a number of layer-2 scaling options designed to enhance these figures have been launched for Ethereum, the comparable quantity of layer-1 options are extraordinarily restricted.
Nevertheless, earlier than launching into why a layer-1 solution can tackle the scalability constraints imposed by the Bitcoin community, it’s important to understand the core capabilities and variations between layer-1 blockchains and layer-2 scaling options.
The Many Layers Of Blockchain
Layer-1 refers back to the base community and its underlying infrastructure inside a particular blockchain ecosystem. For instance, Bitcoin, Binance Good Chain, and Ethereum are all examples of layer-1 blockchains. Layer-1 scaling options, by extension, are designed to enhance the transaction velocity and different options of the bottom protocol. Nonetheless, bettering the scalability of layer-1 chains is extraordinarily tough, as seen within the historic circumstances of Bitcoin and Ethereum.
To handle this problem, builders created quite a few layer-2 scaling options designed to lift transaction throughput and scale back charges, all whereas being much less taxing on the principle, underlying blockchain. These layer-2 options, constructed on prime of layer-1 blockchains, depend on the layer-1 chain to realize consensus and ship the mandatory safety.
Successfully, layer-2 scaling options are designed to extend blockchain efficiency with out tampering with any of the core options of the layer-1 blockchain. For instance, these can take the type of fee protocols just like the Lightning Community for Bitcoin or sensible contract scaling by way of Arbitrum for Ethereum.
Whereas there are a number of layer-1 blockchains, Bitcoin stays essentially the most affected by scalability points, specifically as a result of group’s intense efforts to protect and prioritize safety above all else. On prime of it, the underlying community doesn’t help sensible contracts, additional limiting the community from increasing into decentralized finance (DeFi), play-to-earn (P2E) gaming, and different flourishing sub-sectors inside the crypto ecosystem like non-fungible tokens (NFTs).
That is the place Stacks emerges because the game-changer for Bitcoin. Whereas layer-2 scaling options like RSK, Lightning Community, and Portal have every unlocked new functionalities for the Bitcoin community, Ethereum, by comparability, employs a mess of layer-2 scaling options, which has enabled it to dominate the DeFi and NFT markets.
A Promising Layer-1 Answer For The Bitcoin Community
In contrast to the array of layer-2 options or sidechains, Stacks supplies a consensus algorithm between two unbiased blockchains, thus leveraging the safety and capital of Bitcoin for decentralized apps (dApps) and sensible contracts.
To extend the capabilities of the Bitcoin community, Stacks introduces a brand new consensus mechanism known as Proof of Switch (PoX). Stacks additionally makes use of Readability, a brand new sensible contract programming language designed for safety and predictability. With its consensus mechanism and layer-1 blockchain expertise, Stacks delivers sensible contract performance and better transactional demand whereas making use of Bitcoin’s confirmed safety and stability.
With Stacks, DeFi and NFT primitives have been unlocked on the Bitcoin blockchain. Ethereum, alternatively, continues to be struggling to roll out the Ethereum 2.0 improve designed to maneuver the community to proof-of-stake and tackle its long-running scalability issues.
Whereas the top aim is so as to add scalability to Bitcoin – fairly much like that of different present sidechains or layer-2 scaling options, Stacks takes a singular strategy to perform this very feat. The platform options its personal nodes, community, token, and miners. In distinction to different Bitcoin sidechains, Stack’s coin (STX) shouldn’t be pegged to BTC. As a substitute, it makes use of Bitcoin’s base-layer to file all transactions compiled inside its blocks.
Taken collectively, this permits Stacks to demonstrably increase transaction throughput all whereas dependably leveraging the Bitcoin core community’s confirmed capabilities for consensus and safety to natively ship added performance, like help for dApps, DeFi, NFTs, and way more.