25/🔥 The way it works is quite clever. Once a miner completes block confirmation, information about the new block is broadcasted within the shard and only block headers are broadcasted to the entire #MultiVAC sharding system
26/ As each header only takes up 400 bytes of space, even when #MultiVAC will reach 1 million TPS, the blockchain will only require 5 to 20Mbps of network bandwidth 💪🏻
27/ #MultiVAC tech innovation greatly reduces the hardware requirements to run nodes, conserves transmission resources, and prevents the occurrence of network’s “transmission storms” that can clog normal L1 blockchains
28/ Furthermore, if you remember the explanation about Account Sharding, you will recall that in the #MultiVAC blockchain, the same shard always processes the transaction of a specific wallet
29/ As shards never have to perform write operations on other shards, the #MultiVAC inter-shard communication/transmission is limited to read-only. This drastically reduces the need for cross-shard communication ✨
30/ Other L1 sharding projects, such as Zilliqa, adopt a “unified common ledger”, with which all shards must constantly sync - incurring high data expenditure to maintain the ledger up-to-date. These synchronisation constraints greatly limit scalability
31/ The conclusion.
Through its fundamental innovations in the fields of Account, Storage and Transmission sharding, #MultiVAC’s has paved the way to become the indispensable large-scale L1 blockchain of the future.
32/ We recently had a look at #MultiVAC’s asynchronous sharding architecture that makes it the first sharding blockchain achieving linear expansion without significant performance reductions - and the ideal base-layer for large, ultra high-volume apps, such as Metaverse platforms
33/ But scalability wouldn’t go far without security, so today we’ll explore the extraordinary security features of #MultiVAC
On #MultiVAC blockchain, miner nodes are selected by an algorithm called Verifiable Random Functions (VRF), a technology also used by Algorand and Cardano
34/ VRF is a fantastic feature for PoS blockchains, as it makes the selection of miner nodes entirely random and uncontrollable. This, in turn, prevents hackers from guessing who will mine next, and so it ensures the authenticity of the data validated by the blockchain
35/ But it gets even better than that. #MultiVAC engineered a complex dynamic re-sharding mechanism to ensure optimum security.
Every few minutes, #MultiVAC blockchain automatically adjusts the combination of miner nodes allocated to each shard
36/ As the composition of miner nodes within each shard constantly changes, hacking a shard is as difficult as hacking the entire network.
Also, #MultiVAC constantly assesses the transaction volume of each shard to make sure that shards are balanced
37/ If the transaction volume becomes too high within a shard, #MultiVAC dynamically splits the overloaded shard into two independent shards, increasing the system’s transaction speed and ensuring that the network is never clogged
38/ Don’t you agree that #MultiVAC is technologically light years ahead of the blockchain game?
Fundamental Analysis is key.
Know in what you’re invested 😉
39/ Scalability, Decentralisation & Security are the 3 fundamental pillars of any base-layer (L1) blockchain. As explained previously, these 3 aspects have been exceptionally optimised in #MultiVAC architecture - through groundbreaking sharding technologies
40/ In practice, however, the three pillars are inherently incompatible. In other words, you can’t have scalability, decentralisation & security all at the same time. Vitalik Buterin ($ETH) named that state of fact the “blockchain trilemma”
41/ No L1 blockchains has managed so far to efficiently address the blockchain trilemma; all of the networks have instead hard-preset the 3 parameters to get the best overall throughput out of their technology.
All of the blockchains… Really? 🤔
42/ Of course not! 😉 #MultiVAC is once more standing out from the L1 crowd - by optimally addressing the trilemma issue 🔥🚀
43/ #MultiVAC is the only L1 blockchain giving decentralised apps (Dapps) developers (Devs) the flexibility to trade off parameters of the trilemma.
This brilliant and innovative approach has been named Flexible Sharding 💎
44/ In practical terms, if you are a courier company using #MultiVAC to track your shipments, you don’t need the blockchain validation to be extremely secure. You need, however, the transactions to be fast and inexpensive
45/ Contrarily, if you are a payment company using #MultiVAC, you don’t need the transactions to be instantaneous. You need, however, your transactions to be validated by as many nodes as possible to ensure a highly secure and unaltered outcome
46/ #MultiVAC is the only L1 blockchain allowing users to do such trade off.
The competitive advantage flexible sharding provides to $MTV, combined with its unrivalled all-dimensional sharding approach, makes #MultiVAC the obvious choice for multinationals and large-scale users
47/ Fundamental considerations:
don’t underestimate the importance of #MultiVAC’s competitive advantages.
Once the network will be fully functional and decentralised, other blockchains stand little chance against #MultiVAC’s superior technology🔥🔥🔥
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1/ Did you know that all-dimensional sharding is one of #MultiVAC’s major innovations that will make it the public - largely scalable - blockchain of the future? 💎🔥
But what is all-dimensional sharding, in simple words? 🤔
2/ Let’s start with sharding itself… what is it?
Sharding is the division of a blockchain into smaller fragments. Running transactions from those fragments in parallel increases the system’s overall throughput