The number of issued cryptocurrencies and digital tokens has exceeded 7 thousand. In this ocean of cryptoprojects it is difficult for investors to recognize promising services at an early stage of development, but at the same time investments at this stage maximize the profits.
UMI is one of the young projects created at the crossroad of DeFi and digital assets trends, which attracts attention not only by its unique functionality, but also by its future plans. UMI is a universal monetary instrument that allows users to make instant, secure and free financial transfers, as well as earn crypto through profitable staking. In addition, UMI is a full-fledged blockchain platform capable of executing smart contracts of any complexity. Let’s take a closer look at UMI capabilities.
The UMI network can execute about 4500 transactions per second. This significantly exceeds the capacity of the most other blockchains, including fundamental ones like Bitcoin or Ethereum.
The UMI Mainnet was launched in the summer of 2020 and continuously improves. In the future, the UMI team will roll out an update that will increase the enough high capacity to 10,000 transactions per second. This brings the UMI platform closer to the transactional conductance of major payment systems such as VISA and MasterCard. The UMI developers also have a long-term goal – to achieve the capacity of 1 million transactions per second. Although this sounds too ambitious, there is a chance to reach it in the long run, and here is why.
First, the UMI network operates on an improved version of the Proof-of-Authority consensus (PoA consensus characteristics will be discussed in detail later in the article). Second, such scaling can be achieved through the optimization of programming languages and smart contracts, as well as with such tools as Kubernetes. Finally, upgrades of the UMI network can be carried out faster and with less effort with the planned changes in the internal architecture of the ecosystem.
Another planned function of the UMI ecosystem payment service also appears to be very promising – offline transactions. Other blockchain systems focus on transactions exclusively via the Internet, while in the UMI ecosystem, the procedure of sending transactions can be carried out without access to the World Wide Web using ordinary SMS or other communication methods. For example, the length of a UMI transaction is 150 bytes. That’s 1200 bits of information. The standard length of an SMS is 1120 bits (140 bytes), which means that only 2 SMS are required to send a transfer through the UMI blockchain. This is convenient if the transfer needs to be sent urgently, but the Internet is temporarily not accessible. Technically, the UMI ecosystem is already capable of sending offline transactions without the Internet connection, but the service for initiating transfers has not been launched yet. The UMI team is currently developing it.
Though, the main feature of the UMI blockchain is not the network’s capacity, but the absence of any fees. This has been achieved via the unique technology on which the ecosystem is built, as well as a different economic model in comparison with other popular cryptocurrencies.
The UMI blockchain is based on Proof-of-Authority technology, a concept created by Ethereum co-founder Gavin Wood.
The difference between PoA and the popular Proof-of-Work algorithms (which Bitcoin runs on) or Proof-of-Stake (Ethereum plans to switch to PoS) is that in the PoA network there is no place for contest between the miners and forgers for the right to generate a block and get a reward. The generation of blocks, and most importantly, their integration into the blockchain, is handled by trusted nodes – master nodes. In the UMI network, master nodes are large authorized nodes that meet stringent speed requirements. This feature significantly increases the network’s capacity.
Meanwhile, the original concept of PoA also has its drawbacks. The original PoA model assumes that ordinary users cannot influence the operating mechanics of the system, and only trusted nodes have the right to confirm transactions and record them in the blockchain, and those usually belong to one organization or affiliated companies. This factos increases the risks of network centralization, which deprives the cryptocurrency of its main value – decentralization – and makes it little different from other already existing traditional payment systems. In order to avoid the risk of network centralization, the nodes in the UMI blockchain are divided into two types – master nodes that integrate blocks into the blockchain, and validator nodes that validate the blocks. Only certain type of nodes can become master nodes – they include nodes launched both by the UMI team and their numerous partners from different countries, while any user can launch a validator node. Validator nodes monitor the work of the master nodes, and if the suspicious actions detected, the unscrupulous masters are automatically disconnected from the system.
Along with the distribution of power among master nodes and validator nodes, another mechanism which is designed to prevent centralization is planned to be implemented in the UMI system in the future, – integration with Proof-of-Stake consensus. The UMI blockchain will continue to operate on the PoA algorithm, but if any problems with the master nodes emerge, the system will automatically switch to the reserve PoS consensus. Even if all of the masternodes suddenly stop functioning, the performance of the UMI network and its ability to conduct transactions will not be affected. PoS nodes do not need computing equipment to work, a regular laptop is enough. Any UMI user who has installed a desktop wallet with a validator node will be able to launch a backup PoS node.
Moreover, staking works on a smart contract in the UMI system, which means that the staker does not need to keep the computer on all the time. Thanks to staking on a smart contract, you can generate new UMI coins: up to 40% per month in 24h mode. With such a profitable economic model, UMI encourages users to actively join the system. This model is one of the features that allows UMI to avoid commissions for transfers: Staking participants are interested in developing the ecosystem without additional incentives, such as commissions.
The UMI blockchain allows you to create many specialized multifunctional smart contracts, including those suitable for integration into e-commerce services or for launching decentralized autonomous organizations (DAOs). These include various decentralized finance (DeFi) services.
Areas of application for the UMI blockchain smart contracts:
- Decentralized exchanges and applications
- DeFi protocols, including Yield Farming and lending,
- Online stores
- Crowdfunding platforms
- Gambling sites
- Gaming platforms
- Cashback and bonus programs
- and many other services
Thanks to its high capacity, the UMI network will ensure the smooth operation of large DeFi projects, decentralized exchanges (DEX) or decentralized applications (DApps), and users will not face unprecedented high transaction fees, as it happened before with the Ethereum network. Thus, the launch of UMI-based DeFi services will not have a negative impact on those who use the system exclusively for money transfers.
Staking in detail
Currently, UMI coins can be mined in two staking structures (pools) – ROY Club and ISP Club. In order to start mining you need to create a personal wallet in the UMI blockchain, and transfer a certain amount of UMI coins to your address.
You can buy UMI coins via the SIGEN.pro trading platform, which includes an exchange, an automatic exchanger and a p2p platform. According to the statistics, the daily trading volume of UMI ranges from $ 100,000 to $ 200,000, and the liquidity of the order book for buying coins has already exceeded $ 1.2 million, taking into account the p2p-platform. For the project that launched only four months ago, the numbers look very promising. The market’s interest in UMI is indirectly evidenced by the rapidly growing number of active users: their number exceeded 41,000.
For more information, visit the UMI Blog.