Use the comparison tool below to compare the top Layer 2 Protocols on the market. You can filter results by user reviews, pricing, features, platform, region, support options, integrations, and more.
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Meter is a high-performance infrastructure that allows smart contract to scale and travel seamlessly across heterogeneous blockchain networks. Meter is a Layer 1 or Layer 2 blockchain protocol. The Meter system consists two tokens: MTRG (the governance token; eMTRG is an ERC20 version) and MTR (the low-volatility currency to token). Financial assets should be able to flow freely between blockchains. Meter's HotStuff-based consensus permits 1000s of validator nosdes, making it the most decentralized Layer 2 Ethereum. Meter processes thousands upon thousands of transactions per second, and transactions are confirmed almost immediately. Meter Passport allows assets, smart contracts and smart contracts to travel and communicate across heterogeneous Blockchains for the best price and liquidity. Meter is an Ethereum compatible with unique enhancements. Meter is a Layer 2 DEX that is front-running/MEV resistant and fast.
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Loopring is an open protocol that allows you to build scalable, non-custodial Ethereum exchanges. It leverages zero-knowledge proofs, zkRollup, to allow high-performance trading (high throughput and low settlement cost), without compromising Ethereum-level security guarantees. Throughout the trade lifecycle, users always have 100% control over their assets. Loopring allows you to trade on it. Loopring is an open-sourced and audited non-custodial exchange protocol. This means that no one in the Loopring ecosystem has to trust anyone else. With 100% Ethereum-level security guarantees, cryptoassets can be managed by users. Loopring is a highly scalable, decentralized exchange that batch-processes thousands of requests off-chain. This allows for verifiable correct execution via ZKPs. The performance of the underlying blockchains are no longer the bottleneck. Loopring is able to perform most operations, including order matching and trade settlement, using the Ethereum blockchain.
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Next generation layer 2 for Ethereum DApps. Scale your dApp with your favorite tools at the lowest possible cost. An aggregator is the same role as a node in Ethereum. Client software can make remote procedure calls (RPCs), to an aggregator using the standard API to interact with an Arbitrum network. The aggregator will then call the EthBridge to produce transaction results to the client just like an Ethereum node. Although it is common for clients to use an aggregator to submit transactions to an Arbitrum Chain, this is not mandatory. There is no limit to the number of aggregators that can exist or who can be an aggregater. In order to improve efficiency, aggregators often combine multiple client transactions into one message that can be submitted to Arbitrum. Arbitrum also supports a privileged Sequencer, which can order transactions and provide low latency transaction receipts.
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COMBO Network
COMBO Network
FreeCOMBO is a leader in scaling solutions for Web3 games. COMBO builds an open-source, decentralized protocol for games that is accessible to all by leveraging the top game engine in the world. It aims at maximising the potential of Web3-based games by connecting developers with the ecosystem in a secure, efficient, and affordable way. COMBO has formed partnerships with the leading Web3 infrastructure projects in order to provide comprehensive development tools and integrated game engines. These advanced tools will help game developers easily enter the Web3 world and simplify and speed up their game development processes. By using optimistic rollup we can achieve 5,000 TPS and keep the gas price as low as 0.000000008 Gwei. COMBO has established full-fledged partnership with leading Web3 Infrastructure projects to provide comprehensive toolchains for development and built-in games engines. -
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Syscoin
Syscoin
FreeOpen source community dedicated towards scaling Bitcoin, particularly its proof-of work security, in order to meet global needs, and emerging use cases while staying as close to Bitcoin's original ideas as possible. Syscoin has evolved over ten years on the mainnet and the foresight in its design gives it an advantage. It provides a comprehensive network for projects that aim to achieve Bitcoin L2. Syscoin, a mainnet Bitcoin L2, provides a data-availability protocol that scales. This makes EVM and AltVM rollsups possible on Bitcoin. Syscoin, which is merge-mined using a majority of Bitcoin hash rate to anchor rollups with Bitcoin's proof-ofwork, works with the existing sequencer architectures for rollups. Syscoin gives Bitcoin a scalable data layer that is required for rollups and other EVM or AltVM to tap into Bitcoin’s network in a secure and scalable manner. -
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Polkadot
Polkadot
Polkadot, a blockchain network, is being built to enable Web3.0. This will allow users to control their data and ensure that markets benefit from network efficiency. Gavin Wood, a former co-founder and CTO at Ethereum, founded Polkadot in 2016. Polkadot's technology solves the major problems that have hindered blockchain adoption over the past few years. Parity Technologies created Polkadot's Substrate software development toolkit that allows blockchain developers to create their own custom, fit for use blockchains. Polkadot allows multiple blockchains to communicate with each other, allows for easy upgrades, and introduces "shared Security", a plug and play network security model that allows developers focus on the technology instead of spending time and resources recruiting operators to run a new Blockchain. -
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Carbon Protocol
Switcheo
Carbon is a cross-chain protocol which acts as a building block to DeFi. Anyone can bootstrap open financial markets on any blockchain, for any asset type, using the Carbon protocol. Carbon powers Demex, a popular and fully decentralized exchange that allows trading of a wide range of financial instruments. Interoperable between blockchains such as Ethereum, Cosmos and BSC. It also powers the PolyNetwork bridge, which allows for true cross-chain liquidity pools. Any DeFi innovation is supported with native support for crypto derivatives, Balancer style liquidity pools, AMMs and on-chain orders books. Cosmos-SDK custom-built and secured by a large network validators through Tendermint PoS to ensure trustless and secure transactions. -
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ChainX
ChainX
ChainX, the first project to be launched in the polkadot ecosystem.ChainX is dedicated to the research, application and development of Bitcoin layer 2, digital asset gateway, and Polkadot second layer relay chain. To realize cross-chain asset exchanging, ChainX will be leading the new direction of Bitcoin Cross -DEFi. The key to the digital currency market is Bitcoin, which has a market capitalization of US$1 Trillion. Its value proposition allows for further and deeper blockchain technology breakthroughs. This validates Bitcoin as a payment option and a superior method of transferring and storing values. Many believe we have only seen the tip. ChainX is committed to the research and expansion of Bitcoin's Layer2 financial platform. We strive to increase Bitcoin's value flow and enrich financial derivative opportunities. -
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Celer Network
Celer
Celer Network is a layer-2 scale platform that provides fast, secure, and low-cost applications on Ethereum, Polkadot, and other blockchains for mass adoption. Celer created the first generalized state channel network in the world and continues to push the boundaries of layer2 scaling using advanced Rollup technology. Core applications and middlewares such as cBridge, Layer2.finance, and many more ecosystem applications built on Celer, have attracted larger audiences in DeFi and blockchain interoperability. Layer2.finance addresses the two biggest obstacles to DeFi's mass adoption: the extremely high transaction fees and the difficulty of using and navigating the platform. cBridge, a multi-chain network, allows instant, low-cost, ANY-to-ANY value transfers between and within Ethereum's layer-2 chains. This includes Ethereum main chain, as well as other layer-1s and layer-2s. -
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Raydius
Raydius
Raydius is a middleware platform that aims to connect the blockchain ecosystem. Building cross-chain applications can be difficult due to the different layer 1 and 2 protocols that support different development frameworks. Raydius addresses this problem by providing cross-layer support for developers, so they can concentrate on creating the products that users need. Raydius provides an EVM compatible layer 2-POS side chain on Substrate. It connects to different layer 1 or layer 2 blockchains via bi-directional bridges. Cross-chain bridge aggregators are available to provide a single-stop solution for users who want to use dApps from different chains. Raydius bridge aggregator connects to popular asset bridges such as multichain.xyz and Matic to provide the best routing possible for users who want to switch assets between blockchains. -
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Godwoken
Nervos Network
Godwoken is an optimistic rollup that inherits security from layer 1. Godwoken offers instant transaction finality, low fees, and an entirely Ethereum compatible environment on Nervos. Nervos will allow Ethereum blockchain developers to seamlessly port dApps, making them part of the next generation DeFi ecosystem. Godwoken is an inherently multi-chain solution that uses advanced account abstraction. This allows for flexible wallet support or traditional user accounts for an internet-like experience. Nervos' Force Bridge allows cross-chain assets like ETH and ERC-20 tokens to be used on deployed dApps. -
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Liquidity Network
Liquidity Network
Liquidity allows you to manage your money and cryptocurrency coins better from anywhere you are. We can't freeze money like banks. We speak to customers like people, don't charge hidden fees, and place technology and research at its core. Users have full control over their funds, and user security is our top priority. The blockchain does not limit Liquidity Network's transaction speed. Liquidity Network allows gasless swaps and transfers. Developers can use the intuitive API to create usable dApps. Our work is openly available, based on peer-reviewed research. We hope to bring a secure and scalable solution for the community. The smart contracts of Liquidity Network are completely open-source and licensed under the GNU General Public License (v3.0). LQD is the main utility token used to pay Liquidity Network's services. Instant transfers, direct spending notifications and swapping cryptocurrencies are all possible. It's also a simple way to send money to friends and spend it. -
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Loom Network
Loom
Loom Network gives developers the flexibility and usability to create high-performance, user-facing dapps. Loom Network allows you to future-proof your app by deploying once to Loom. It integrates seamlessly to Bitcoin, Ethereum and Binance Chain. Loom Network is a multichain interop system that has been in production since early 2018. The network is optimized for scaling high-performance apps that require a smooth user experience. It allows dapps offer a UX comparable with traditional applications and onboard new customers without the need to download crypto wallet software. Developers can integrate assets from all major blockchains, and also create a dapp once and make it available to all users across all platforms. Developers can also use the token to pay for Loom Network dapp hosting. Developers pay a flat monthly fee to host dapps on Loom, which is different from Ethereum. -
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Suterusu
Suterusu
Every day, millions of transactions are being conducted on blockchain. However, people must expose their personal privacy as anyone with access to your address can see your entire financial history. Suterusu created a universal layer-2 privacy-protection protocol that is trustless and universal. Suter Shield links the sender address and the receiver address. This will give you complete protection for your transaction data using advanced cryptography. Layer-1 sender and receiver addresses are delinked. Layer-2 provides complete privacy protection for both user identities as well as transaction details. We designed and integrated a ZK-ConSNARK scheme that is almost constant in size, efficient proof generation, and verification. -
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Trinity
Trinity Blockchain Network
Line Trinity is a privacy-conscious network that uses multiple technologies to enhance privacy protection and data security. Trinity state channel allows multiple transactions off-chain to be done quickly. Trinity protocol is completely open-sourced and developers can create their own products using it. Trinity is an off-chain scaling solution that can be used to achieve real-time payments, low transaction fees, scalability, and privacy protection for mainchain assets. Trinity uses state channel technology to significantly increase the transaction throughput on underlying chains and smart contract assets. Cross-chain conversion via TNC facilitates data and value flow among multiple chains. Trinity will be a fully autonomous and decentralized performance-enhancing network for the entire ecosystem and provides all-round support to Dapps on bottom layer chains in the future. -
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Qredo
Qredo
Access to a growing network of trading, yield earning and liquidity opportunities across multiple chains at a low cost. With Qredo's unique multi-party computation (MPC) implementation, you can streamline DeFi trade flow and eliminate network fees. You can fine tune governance to match corporate structures and asset management workflows. On a decentralized network, you can trade, transfer and take care of digital assets. You can create your own governance, managed and self-custody. Instant transfers and cross-chain, atomic swaps offer greater capital efficiency and profitability. Secure assets on Qredo Network to maximize net returns and get free deposits -
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Accumulate
Accumulate
Accumulate is a new type of blockchain protocol that is completely based around identities. Accumulate Digital Identifiers can be assigned to people, organizations, and things. Accumulate's multichain architecture allows for greater throughput. Accumulate's interconnected network of chains allows for 70,000 transactions per second (TPS), making it one of the fastest protocols. Key hierarchies enable enterprise-grade security. Accumulate users have the ability to rotate, recreate, and reassign their private keys as needed. Key hierarchies increase asset safety. -
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Base
Coinbase
FreeBase is an Ethereum L2 that is low-cost, secure, and developer-friendly. It was created to bring the next billion people to the web3. Base has the security and scalability that you need to power your apps. It leverages Ethereum's underlying security and allows you to confidently access Base from Coinbase, Ethereum L1, or other interoperable chains. The EVM environment is available at a fraction the price. Get early access to Ethereum features such as Account Abstraction (ERC4337), simple APIs for gasless transactions and smart contract wallets. Base is built on Optimism’s open-source OP Stack. Base allows decentralized apps to easily leverage Coinbase's products distribution and products. Easy fiat onramps and seamless Coinbase integrations are all possible. -
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Liquid Network
Blockstream
Transactions with Bitcoin are faster and more secure. Liquid, a sidechain-based settlement system for traders and exchanges allows for faster, more secure Bitcoin transactions and the issuance digital assets. Liquid allows traders to quickly transfer funds between exchanges and their wallets, without waiting for long confirmation times. Anyone can issue new assets via Liquid. This includes security tokens and stablecoins. Every asset can be traded within the network. This allows Liquid to take advantage of its privacy, speed, security, and trading features. The default on the Liquid sidechain hides asset types and amounts. This protects traders' sensitive financial information from third parties and prevents the front-running large orders. The open-source Liquid Swaps Tool allows each asset to be swapped for another asset. -
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Raiden Network
Raiden Network
The Raiden Network, an off-chain scaling solution that enables near-instant, low cost, and scalable payments, is the Raiden Network. It works with any ERC20 compatible token and is complementary to the Ethereum blockchain. The Raiden project continues to be developed. Its mission is to research state channel technology and define protocols. The Raiden Network is an infrastructure layer that sits on top of Ethereum's blockchain. Although the idea is simple, it is complex and difficult to implement. The technicalities can be simplified so developers can use a simple API to create scalable, decentralized applications that are based on Raiden Network. The Raiden Network's basic goal is to eliminate the blockchain consensus bottleneck. This is achieved by leveraging a network payment channels that allow secure transfer of value off-chain. -
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Palm
Palm
We are collaborating with some of the most prominent names in cryptoart, fine art, and entertainment to create a new creative studio on Ethereum. This NFT ecosystem is both scalable, and sustainable. Palm NFT Studio is a platform that brings together platforms and creatives from all walks of the Palm ecosystem. It supports and collaborates with artists, marketplaces and rights holders. Palm was built from the ground up to allow artists to be as flexible and adaptable as possible. We are making NFTs more efficient and easier to use with an Ethereum Sidechain. We also have a roadmap for the transition to an Ethereum Layer 2. Creators who use the Palm ecosystem will enjoy super low gas fees. The Palm ecosystem will also reward both participants and creators. -
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Truebit
Truebit
Truebit is a blockchain-enhancement that allows smart contracts to securely execute complex computations in standard programming language languages at lower gas costs. Although smart contracts can correctly perform small computations, large computation tasks pose security threats for blockchains. Truebit addresses this problem by providing a trustless retrofitting oracle that correctly executes computation tasks. Any smart contract can issue a computation task via WebAssembly bycode to this oracle, while anonymous "miners," receive rewards for solving the task correctly. The protocol of the oracle guarantees correctness in two layers. There is a consensus layer where anyone can object if there are faulty solutions and an on-chain mechanism that incentivizes participation and ensures fair compensation. These components are formalized through a combination off-chain architecture and smart contracts on-chain. -
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Cartesi
Cartesi
Smart contracts can be built using mainstream software stacks. You can make a leap from Solidity to the vast array of Linux-supported software components. You can achieve a million-fold increase in computational scalability, large file data availability, and low transaction costs. All this while maintaining the strong security guarantees offered by Ethereum. You can keep your DApps private, from games that hide players' data to Enterprise applications that use sensitive data. Descartes performs large computational tasks off-chain on a Linux virtual computer fully specified by smart contracts. The computations are fully verifiable, and can be enforceable on-chain by Descartes node runners. This preserves the strong security guarantees of underlying blockchain. With multimillion-fold computational gains and strong security guarantees, you can overcome the Ethereum scalability limitations. -
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SKALE
SKALE
Your dApps can be run in a modular cloud decentralized for real-world requirements and configured to your specifications. SKALE Networks' modular protocol allows developers to quickly and easily create highly configurable blockchains. This provides the benefits of decentralization without compromising computation, storage, security, or both. Elastic blockchains are highly efficient, decentralized, configurable and Ethereum compatible. They also use the most recent advances in cryptography to provide security. BFT is the standard for security in distributed systems. It guarantees that the network can reach consensus, even if up to one-third of participants are malicious. This protocol is based on the Internet's model and recognizes the latencies of the network and nodes. This allows messages to take indefinite time to reach their intended recipients. BLS Threshold Signatures allow efficient interchain communication and support randomness for node allocation. -
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Starknet
StarkWare
Starknet is an unrestricted decentralized ZK Rollup that operates as an L2 network on Ethereum. Any dApp may achieve unlimited computation scale without compromising Ethereum’s composability or security. Starknet maintains the security of L1 Ethereum while achieving scale. It does this by producing STARK Proofs off-chain and verifying these proofs on-chain. Starknet Contracts allow developers to deploy any business logic. Starknet will offer composability at Ethereum's level, allowing for easy development and compounding of innovation. The STARK Prover is the engine that powers StarkEx's scalability engine. It has already demonstrated its ability to process 600K transactions on Mainnet in a single proof.
Overview of Layer 2 Protocols
Layer 2 protocols are the protocols used for communication between two or more devices on a network. They are responsible for providing the data link layer of the OSI (Open Systems Interconnection) model, which is in charge of establishing connections and routing data packets between networked hosts.
At layer 2, frames are used to encapsulate data that has been broken into smaller parts by layer 3 protocols such as IP. Frames contain both source and destination addresses, as well as error-checking information, allowing nodes in a network to communicate with one another reliably. Layer 2 protocols also provide mechanisms to identify different types of traffic and ensure their delivery across the network.
The most popular layer 2 protocol is Ethernet, which is used in most local area networks (LANs). It works by using a technique called CSMA/CD (Carrier Sense Multiple Access with Collision Detection). This method ensures that only one device is transmitting at any given time, avoiding collisions when multiple nodes attempt to send at once.
Ethernet uses frame formats that vary depending on speed and medium type, for example Fast Ethernet frames use the IEEE 802.3 standard while Gigabit Ethernet frames use the 802.3ab standard. Each frame format typically consists of a preamble, an address field containing source and destination MAC addresses (Media Access Control), an optional VLAN tag specifying a virtual LAN membership, and then payload data followed by an error checking field called FCS or Frame Check Sequence.
Other popular layer 2 protocols include Point-to-Point Protocol (PPP), which is often used over dialup connections; Asynchronous Transfer Mode (ATM); Fibre Channel; InfiniBand; Wi-Fi; Bluetooth; LoWPAN; Power Line Communication; Token Ring; FDDI; and WirelessHART.
In addition to transporting user data across a network, layer 2 protocols also have other important functions such as switching or bridging frames between different LAN segments or VLANs (Virtual Local Area Networks); providing flow control to manage congestion on links during periods of heavy traffic by setting thresholds for buffer size limits and rate limiting incoming traffic from certain sources; and performing authentication through encryption so that only authorized users can access resources on the network safely without being intercepted by malicious actors wanting to compromise it in some way.
In conclusion, layer 2 protocols are the important building blocks of modern network communication, allowing two or more devices to communicate reliably and securely over a physical connection. They provide the mechanisms for data transfer, as well as error detection and recovery in case of any problems along the way.
Why Use Layer 2 Protocols?
- Cost Efficiency: Layer 2 protocols are generally more cost-effective than layer 3 protocols, as they require less hardware and fewer interfaces.
- Data Transfer: Layer 2 protocols can help increase the speed of data transfer between devices within a network by eliminating the need to route packets through multiple layers of intermediate routers and switches. This helps to streamline communication, while allowing for more efficient networking performance overall.
- Easy Troubleshooting: Since layer 2 protocols operate at a lower level than layer 3 protocols, it is often easier to troubleshoot issues when using a layer 2 protocol rather than a layer 3 protocol. This allows for faster resolution times in troubleshooting scenarios and eliminates the need for additional steps or extra work to diagnose an issue.
- Network Security: Through the use of Access Control Lists (ACLs), layer 2 protocols can provide robust security measures that protect against unauthorized access from outside sources or malicious actors attempting to gain control over or damage networks and connected devices in some way.
- Broadcast Control Capacity: With its capability for Broadcast Control Capacity (BCC) mechanisms, Layer 2 Protocols are able to reduce broadcast traffic on networks by limiting the amount of broadcast packets sent out between different physical segments or domains significantly reducing unwanted "noise" on the network which could impact performance or create additional latency issues such as bandwidth starvation caused by certain applications hogging available bandwidth resources from other essential applications on your network.
Why Are Layer 2 Protocols Important?
Layer 2 protocols are essential for the smooth functioning of networks. Layer 2 protocols provide the necessary tools and techniques to establish communication between two devices on a given network. In particular, layer 2 protocols are responsible for logically connecting computers or other network-enabled devices to form a LAN (local area network).
By using layer 2 protocols, computers within a single LAN can communicate easily with one another without having to go through intermediate routers or switches which would otherwise require additional configuration. Furthermore, these protocol allow for logical segmentation so that only certain packets will be forwarded to certain parts of the network – thus preventing traffic from entering where it isn't meant to. This is especially important in large networks where there can easily be hundreds or thousands of individual nodes connected.
Additionally, layer 2 protocols are useful in terms of addressing because they support various MAC address types such as IPV4 and IPV6 as well as Ethernet addresses which makes routing easier and more efficient since all devices use the same type of address format. When two devices need to exchange information, the layer 2 protocol will determine how this should take place by providing assurance that data is sent out over the right channels at the right speed and reaches its intended destination securely and quickly.
Overall, layer 2 protocols are incredibly important in ensuring that networks run efficiently while also providing security measures such a packet filtering capabilities. They provide an easy way to facilitate communications between different parts of an organization’s infrastructure so crucial data can be exchanged without any issues along with proper authentication mechanisms that ensure only authorized personnel can access sensitive information when needed. Layer 2 protocols are therefore essential for the success of any network.
What Features Do Layer 2 Protocols Provide?
- Spanning Tree Protocol (STP): STP is a layer 2 protocol used to prevent Layer 2 loops in networks by placing certain ports into a blocking state to stop them from forming. This ensures that data being sent over the network will reach its intended destination without issues.
- Port Security: This feature allows administrators to restrict access to switch ports based on the MAC address of an attached device. It effectively adds an extra layer of security by preventing unauthorized users from connecting their devices to your network without authorization.
- VLANs: Virtual local area networks (VLANs) are used for segmenting large networks into smaller, more manageable ones and for isolating traffic between different departments or groups within an organization. Using VLANs can make it easier for administrators to manage their network more effectively and efficiently, as well as improve overall performance by reducing broadcast traffic across the network.
- QoS: Quality of Service (QoS) allows you to prioritize certain types of traffic over others in order ensure that mission critical applications or services get the bandwidth they need when they need it most. It’s important in order to ensure latency-sensitive applications such as voice or video remain reliable even during times of high utilization on the network, which could otherwise cause them to become unreliable or unusable due complications with delayed packets, etc.
- Link Aggregation/EtherChannel: Link aggregation (a Cisco proprietary feature known as EtherChannel) is useful for increasing throughput among two connected switches by bundling multiple physical interfaces together into one logical interface called a trunk link—essentially combining multiple connections together in order to increase performance & reliability while also providing redundancy if one link fails unexpectedly within the bundle since its partner links would still be actively up and running maintaining communication between both switches uninterruptedly.
What Types of Users Can Benefit From Layer 2 Protocols?
- Enterprise Networks: Layer 2 protocols are ideal for enterprise networks, as they allow for efficient communication and data transfer across multiple interconnected devices. They provide secure access to data, along with automated processes to manage the network traffic and control user access.
- Home Users: For home users, layer 2 protocols can improve the speed of internet connections and reduce latency by allowing them to route packets directly from one computer to another. This can result in faster downloads, smoother streaming services and better gaming experience overall.
- Small Businesses: Layer 2 protocols makes it easier for small businesses to share resources over a network without worrying about compromising security or dealing with complex setup procedures. It also offers advanced features such as VLANs (virtual LANs) which can be used to create secure virtual networks within an existing physical infrastructure.
- Service Providers: Service providers use layer 2 technologies such as MPLS (Multiprotocol Label Switching) or Carrier Ethernet technologies to provide high-speed broadband services that are reliable, secure and cost effective. By using layer 2 technologies, service providers are able to deliver higher quality services while reducing operating expenses.
- Cloud Computing Platforms: Cloud computing platforms deploy various layer 2 technologies such as Virtual Private LAN Services (VPLS) or Provider Bridging (PB) in order make their offerings more efficient, secure and cost-effective for users. These technologies allow cloud service providers to quickly build out large networks at scale which is essential for providing reliable cloud services on a global scale.
- Internet of Things (IoT): IoT devices require high levels of security and reliability when exchanging data over a network. Layer 2 technologies such as Ethernet Switched Networks (ESNs) offer robust security mechanisms along with optimized performance for these types of deployments.
- Education Institutions: Layer 2 technologies can be used by education institutions to improve their local area networking capabilities without having to incur massive costs. They can create secure and reliable networks quickly, allowing students and teachers to access learning resources from any location.
How Much Do Layer 2 Protocols Cost?
Layer 2 protocols don't necessarily have a specific cost associated with them, as they are standards that are generally implemented as part of the overall networking infrastructure. However, there may be costs associated with implementing any hardware and/or software required to make use of them. For example, switches used in Layer 2 networks typically have some cost associated with their purchase and installation, depending on the particular model used.
Additionally, if software is needed to configure or manage network devices such as switches, additional fees may be incurred. In addition to these costs, organizations may need to invest in training for staff members responsible for managing the layer 2 protocols and properly configuring their networking infrastructure. Ultimately, the total cost associated with implementing layer 2 protocols will vary greatly based on an organization's size and specific needs for their network setup.
Risks To Consider With Layer 2 Protocols
- Scalability: Layer 2 protocols do not provide built-in scalability features, which can lead to unmanageable networks.
- Security: Layer 2 protocols lack the advanced security features of layer 3 protocols and are thus more prone to attack.
- Broadcast Storms: Since data frames broadcasted by layer 2 devices are received by every other device in the network, this can lead to broadcast storms and cause significant performance issues.
- Spanning Tree Protocol Loops: Layer 2 switching using Spanning Tree Protocol (STP) may result in loop formation if there is an improper configuration of STP or a failure in one of its components. This could disrupt normal traffic flow on the network.
- MAC Address Table Overflows: As more devices join a given LAN segment, their respective MAC address entries must be added to each switch’s MAC address table. If these tables become too full, it can cause serious performance issues and possibly even network outages.
- Increased Cost: Layer 2 protocols require more components and are generally more complex to operate, resulting in increased cost.
What Do Layer 2 Protocols Integrate With?
There are many types of software that can integrate with layer 2 protocols, such as switch management software, network monitoring tools, and security applications. Switch management software is used to configure and manage the switching devices in a network. Network monitoring tools monitor the status of switches and routers in a network by collecting data on their performance. Security applications provide protection against malicious intrusions over a computer network. In addition to these types of software specifically designed to integrate with layer 2 protocols, other types of applications may be able to use the data sent via layer 2 protocol packets.
For example, streaming media services that transfer audio or video files can take advantage of real-time information provided by layer 2 protocols when delivering content across networks. In this way, the software can provide continuous connections without having to renegotiate data transmission parameters each time a packet is sent.
Questions To Ask Related To Layer 2 Protocols
- What types of layer-2 technologies are available and which one is best for this specific project?
- Does the protocol support QoS and what features does it offer?
- What security measures does the layer-2 technology provide?
- What type of network activities can be performed using this protocol?
- Can multiple VLANs be supported on this protocol?
- Are there any issues with scalability or performance when using this protocol?
- Are there any hardware requirements needed to use this layer-2 technology?
- Is technical support available from the vendor who created the layer-2 techonology, if needed?
- What is the cost associated with implementing and maintaining this layer-2 technology?
- Is the protocol compatible with other protocols in use on the network?