Layer 1 vs. Layer 2 (2024)

FAQs

What is the difference between layer 2 and layer 1? ›

Layer 1 offers security and decentralization at the potential expense of speed and scalability. In contrast, Layer 2 provides agility and reduced costs, often relying on Layer 1 for security.

Layer 1 is the base layer of a blockchain network, providing the foundational framework. Layer 2 is an overlaying network on top of Layer 1 that enhances scalability and adds features. Layer 3 hosts real-world applications and executes tasks.

Solana is a Layer 1 blockchain and component of the Smart Contract Platforms Crypto Sector (Exhibit 1). Compared to Ethereum—the largest smart contract platform by market capitalization—Solana provides faster and cheaper transactions on a single-layer network, without relying on additional scaling layers.

L2 solutions act as bypass lanes, processing transactions off-chain before periodically batching them for settlement on the main blockchain. This significantly reduces congestion and facilitates faster, cheaper transactions.

Bitcoin, Litecoin, and Ethereum, for example, are Layer-1 blockchains.

Layer 2 - A Scalability Solution

These are networks (or technologies) built on top of the Ethereum blockchain, designed to increase its capacity without compromising security. Layer 2 solutions effectively enhance Ethereum's scalability and reduce congestion by processing transactions off the main blockchain.

Traditional blockchains like Bitcoin and Ethereum are often called Layer-1, where transactions are processed directly on the blockchain. However, Layer-0 restructures this approach by underpinning the entire blockchain ecosystem.

Bitcoin and Ethereum are L1s, or base layers, blockchains because they operate independently from other blockchains. Computers produce blocks on them and secure the network—by mining in the case Bitcoin and staking for Ethereum. Avalanche, Solana, and Cardano are other examples of L1 blockchains.

KEY TAKEAWAYS: — Base is a Layer-2 scaling solution for Ethereum built by Coinbase which aims to make transactions faster while leveraging the security of the Ethereum mainnet.

What are the disadvantages of Layer 2? ›

Complexity: Implementing and maintaining Layer 2 solutions can be complex, requiring additional development and testing efforts. Limited Adoption: Layer 2 solutions are still in the early stages of adoption, and not all applications or users are familiar with their functionality.

Type 1 hypervisors directly access underlying machine resources. They can implement their own custom resource allocation strategies to service their VMs. Type 2 hypervisors negotiate resource allocation with the operating system, which makes the process slower and less efficient.

LAYER 1 - The physical layer in the wired world consist of connectors, cables, fiber, and gbics. This is also the layer where data gets transmitted / received into bits, 0's and 1's using complex coding and modulations. LAYER 2 - The data layer is where upper layer information (Layers 3-7) is encapsulated into a frame.

Layer 2 refers to the data link layer of the network. This is how data moves across the physical links in your network. It's how switches within your network talk to one another. Installing Layer 2 on your infrastructure gives you high-speed connectivity between devices.

As a rule of thumb, WiFi (802.11) operates at the first two layers of the OSI model, in other words, the physical layer and the data link layer.