Monad - Coinmotion: Invest in Crypto Securely

Monad

MON

Built as a high-performance Layer 1, Monad aims to run Ethereum-style smart contracts at serious scale while keeping fees low and confirmation times fast. Its native token, MON, powers everything on the network, from gas fees to staking and governance, giving users and builders a way to participate directly in the ecosystem. With EVM-level compatibility, the chain is designed so existing Ethereum tools and contracts can plug in with minimal friction.

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Muutos (24H)*: ...

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Julkaisuvuosi:

Verkko: Monad Network

Protokolla: MonadBFT (Byzantine Fault Tolerant PoS)

* Ei reaaliaikaiset tiedot.

* Mikään Euroopan unionin jäsenvaltion toimivaltainen viranomainen ei ole hyväksynyt tätä kryptovaran kuvausta. Kryptovaran tarjoaja on yksin vastuussa tämän kryptovaran kuvauksen sisällöstä.

Alkutarina

This project was created to tackle one of crypto’s biggest headaches: scaling smart contracts without forcing developers to learn a whole new stack. The team focused on staying fully compatible at the EVM bytecode level, so Solidity contracts, addresses, and common tooling just work out of the box while still getting a big performance upgrade. The name “Monad” nods to the idea of a single, composable unit—fitting for an architecture that tries to unify speed, scalability, and Ethereum compatibility into one coherent system. Public materials so far focus more on the tech vision than on individual founders’ personal stories, so most of the lore is about performance engineering rather than personalities.

Esimerkkejä tosielämästä

On-chain, the main use of MON today is paying transaction fees for deploying and interacting with smart contracts, just like gas on Ethereum. Developers can spin up high-throughput dApps—think DEXs, games, NFT platforms, or DeFi protocols—and still rely on familiar Ethereum tooling such as wallets and RPC infrastructure, since the chain is EVM-compatible. Validators and delegators use the token for staking to help secure the network and to participate in governance, shaping protocol upgrades and ecosystem decisions over time. As the ecosystem grows, more projects are expected to build on the low-latency environment to handle use cases that need fast confirmation, like trading or real-time in-app economies.

Hauskoja faktoja

One of the standout stats is the target throughput: around **10,000 transactions per second** with sub-second finality and very short block times, which puts it among the faster EVM-compatible chains being built. Under the hood, the protocol leans on a stack of optimizations—MonadBFT, deferred execution, parallel execution, and MonadDB—to squeeze out that performance while staying EVM-compatible. Tokenomics start from an initial supply around 100 billion MON, with allocations spread across ecosystem development, public sale, airdrops, investors, and the team. The token only recently started trading on major markets, so the project is still in its early milestone phase where performance benchmarks and ecosystem launches are the big headlines.

Yhteisön kohokohdat

Around the project, you’ll find a growing crowd of EVM devs and DeFi builders watching it as a potential scaling venue for their next dApp. Community discussions tend to center on performance benchmarks, validator setups, and how easily existing Ethereum contracts can be ported over, rather than memes or hype alone. Social channels highlight early ecosystem partners, hackathons, and builder-focused content explaining the parallel execution model and how to optimize for it. Like many new high-performance L1s, the scene is still maturing, but there is clear interest from users who are already comfortable with MetaMask and other Ethereum-native tools.

Mikä tekee MON erityisen?

What really sets this chain apart is the combination of **full EVM compatibility** with a very aggressive performance profile—10,000 TPS, sub-second finality, and low fees. Instead of reinventing the wheel, it keeps Ethereum’s developer experience intact while upgrading the engine through things like parallel execution and an optimized consensus layer (MonadBFT). That means teams can re-deploy existing Solidity smart contracts and still tap into much higher throughput without rewriting everything from scratch. For beginners, you can think of it as an Ethereum-style network tuned to feel faster and more responsive, especially for apps that need lots of transactions in a short time.

Tulevaisuuden visio

Long term, the roadmap points toward being a go-to home for high-performance EVM dApps—from DeFi protocols handling heavy order flow to games and social applications that need rapid, cheap interactions. By keeping hardware requirements relatively modest while pushing parallel execution and fast finality, the project aims to scale without pricing out smaller validators or users. Governance via MON is expected to give the community a say in future upgrades, parameter changes, and ecosystem funding as more applications go live. Overall, the vision is to ease Ethereum’s scalability pressure by offering a compatible, faster base layer where builders can deploy at scale without abandoning the tools they already know.

ESG Disclosure +

Energy consumption: 53348.40000 kWh/a | Renewable energy: 0%

ESG (Environmental, Social, and Governance) regulations for crypto assets aim to address their environmental impact (e.g., energy-intensive mining), promote transparency, and ensure ethical governance practices to align the crypto industry with broader sustainability and societal goals. These regulations encourage compliance with standards that mitigate risks and foster trust in digital assets.

Name	Coinmotion Ltd
Relevant legal entity identifier	2135881-0
Name of the crypto-asset	Monad
Consensus Mechanism	Monad uses a custom Byzantine Fault Tolerant protocol called MonadBFT to achieve network-wide agreement on transaction ordering and block proposals. Consensus proceeds with asynchronous coordination across validators, decoupling transaction execution from block ordering to increase throughput.
Incentive Mechanisms and Applicable Fees	The native token MON is used to pay network transaction (gas) fees, which compensate validators for including and processing transactions.
Beginning of the period	2025-05-25
End of the period	2026-05-25
Energy consumption	53348.40000 (kWh/a)
Energy consumption resources and methodologies	For the calculation of energy consumptions, the so called 'bottom-up' approach is being used. The nodes are considered to be the central factor for the energy consumption of the network. These assumptions are made on the basis of empirical findings through the use of public information sites, open-source crawlers and crawlers developed in-house. The main determinants for estimating the hardware used within the network are the requirements for operating the client software. The energy consumption of the hardware devices was measured in certified test laboratories. When calculating the energy consumption, we used - if available - the Functionally Fungible Group Digital Token Identifier (FFG DTI) to determine all implementations of the asset of question in scope and we update the mappings regulary, based on data of the Digital Token Identifier Foundation. The information regarding the hardware used and the number of participants in the network is based on assumptions that are verified with best effort using empirical data. In general, participants are assumed to be largely economically rational. As a precautionary principle, we make assumptions on the conservative side when in doubt, i.e. making higher estimates for the adverse impacts.
Renewable energy consumption	0%
Energy intensity	0 (kWh)
Scope 1 DLT GHG emissions - Controlled	0 (tCO2e/a)
Scope 2 DLT GHG emissions - Purchased	0 (tCO2e/a)
GHG intensity	0 (kgCO2e)
Key energy sources and methodologies
Key GHG sources and methodologies