The Good Tech Companies - Layer 0, Layer 1, Layer 2… What Do These “Layers” Mean in Crypto?
Episode Date: September 22, 2025This story was originally published on HackerNoon at: https://hackernoon.com/layer-0-layer-1-layer-2-what-do-these-layers-mean-in-crypto. Crypto layers explained: from L...ayer 0 to Layer 3, what they mean and why they matter. Which layer do you use most? Check more stories related to tech-stories at: https://hackernoon.com/c/tech-stories. You can also check exclusive content about #crypto-networks, #crypto-layers, #crypto-layers-explained, #learn-cryptocurrency, #what-are-crypto-layers, #cryptocurrency-investment, #obyte, #good-company, and more. This story was written by: @obyte. Learn more about this writer by checking @obyte's about page, and for more stories, please visit hackernoon.com. The Lightning Network for Bitcoin allows small payments that settle later. On the Bitcoin blockchain, small rollups (bundled transaction systems) like Arbitrum or Polygon are giving apps more breathing room to scale.
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Layer zero, layer one, layer two, what do these layers mean in crypto by Obite?
If you've spent any time exploring decentralized coins, you've probably heard people talk about, layers.
It can sound like crypto is a cake with endless tiers, but what these layers describe is how
chains are built, connected, and scaled. The reason we even need multiple layers is simple. A single
chain may not be able to do everything well at once. Some layers focus on securing transactions,
others on connecting different chains, and others on handling speed or low fees. These distinctions
help explain why crypto can serve so many different use cases, from quick payments to private
contracts or even global supply chains. Let's learn a bit about this. Layer zero, the foundation of
networks. Think of layer zero as the plumbing that makes crypto networks talk to one another. On its own, a chain
might function fine, but when hundreds of them exist, the risk is that they turn into isolated
islands. They're not connected to each other at all. Layer Zero is the bridge that connects those
islands, letting data and assets move freely across ecosystems. It can also contain the building blocks
needed to create new chains. Another analogy is transportation. If each chain is a city,
layer zero provides the highways, trains, and air routes between them. Without this infrastructure,
you'd be stuck in one place, no matter how advanced your city was. With it, people, goods,
and information can flow. Projects like Pocodot and Cosmos are often cited as Layer Zero solutions.
They provide frameworks for building and linking blockchains that share security and can still
run independently. This interoperability isn't just a technical detail. It's what allows
industries as varied as finance and healthcare to customize their systems while still being
part of a larger network. Layer 0 makes crypto ecosystems less fragmented and more scalable.
Layer 1 the base chains. Layer 1 chain are the ledgers most people know by name. Bitcoin,
Ethereum, and Solana all fit here. They are responsible for recording transactions, enforcing
rules, and protecting the network through consensus mechanisms, like mining or staking. When you
send Bitcoin or interact with an Ethereum app, you're engaging with a layer 1 directly. The catch is that
these chains often run into problems when too many user arrive at once. Fees rise and transaction
times slow down. That's why layer one is often called the ground floor of crypto networks.
It's strong and secure, but it can feel crowded, and not only are blockchains categorized as
layer one networks. An interesting example is Obite, which is built on a directed acyclic graph,
DAG, instead of a blockchain. This structure removes the need for miners or validators,
thus offering a higher level of decentralization along with a number of other crypto features those
include smart contracts text coins self-sovereign identity solutions token issuance or even private
currencies such as blackbites layer two scaling solutions on top if layer one is the busy main
road layer two is the express lane built right above it instead of forcing every single transaction
onto the main chain, layer 2 systems process them off chain or in batches, then record summaries
back on layer 1. This dramatically lowers congestion and fees. The Lightning Network for Bitcoin is a
well-known example. It allows small, instant payments that settle later on the Bitcoin blockchain.
On Ethereum, roll-ups, bundled transaction systems, like Optimism and Arbitrum are side chains,
connected parallel chains, like Polygon are tackling the same challenge, giving apps more breathing room to scale,
grow, and accept more users, faster. The impact is hard to overstate. By offloading the heavy
lifting, layer 2 keeps the security of the base chain while making crypto usable for high
volume environments like defy trading, online games, or even industry-specific systems that need
privacy or compliance baited in. Without layer 2, main chains risk grinding to a halt under their
own popularity. In this regard, Obite's recent updates make it possible for other chains tow anchor their
data to its DAG without building their own consensus system. In practice, this could help applications
that need speed or specialization, such as gaming, defy, or privacy-preserving tools, while still
staying connected to a trusted base network. Layer 3. More customization. When people talk about
layer 3 in crypto, they usually mean one of two things. On the one hand, it can describe networks
built on top of layer 2 that add features tailored to a particular need, like gaming or privacy.
On the other hand, it can simply mean the application layer itself,
where users finally interact with wallets, marketplaces, or defy apps.
Both perspectives focus on the same idea.
This is the point in the stack where the technology becomes usable for a specific purpose.
Unlike base chains, layer 3 doesn't have to secure its own consensus.
It release in the layers below for safety,
while focusing on usability, customization, and performance.
Developers can design specialized systems for one industry,
industry or type of application.
A gaming-focused layer 3 might prioritize thousands of in-game transactions per second,
while another might focus on privacy for sensitive healthcare data.
Some examples include XAI games, designed for fast and cheap NFT or in-game transactions,
ZK Login, which lets people sign in with everyday accounts like Google or Apple IDs, and Lens Protocol,
which offers modular tools for creator sand developers in decentralized social networking systems.
On the other hand, talking about the application layer, marketplaces like OpenC and wallets like
Meta Mask are part of it.
Layers are silent.
At a glance, the crypto stack looks complex, but breaking it into layers makes the picture clearer.
Layer 0 provides the connections.
Layer 1 keeps records safe.
Layer 2 makes things run faster and cheaper, and layer 3 provides an extra layer of customization.
Together, they explain why crypto can power everything from quick micropayments to private contracts
across industries. And as platforms like Obite show, innovation at one layer can ripple upward,
enabling developers to build new solutions that balance security, privacy, and speed. For anyone
curious about where crypto is heading, understanding Thessalayers is a good first step. They're not
just abstract terms. They're the backbone of a technology that's still evolving and expanding into
new territory. For the everyday user, though, these layers mostly fade into the background.
You might notice them when a transaction feels slow or a fee is high, that's layer one at work,
or when an app suddenly feels smooth and inexpensive thanks to a layer two solution.
You don't have to think about layer zero at all, yet it's what ensures different chains can
cooperate.
In the end, the layers are like the hidden gears of a machine.
You don't see them, but they shape the whole experience.
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