Hodel wizard

@Jason0x1 @get_optimum Nice art

This week, I built a website showcasing some of the optimum community's best artwork! I'm excited to keep celebrating our talented artists and supporting the growth of this amazing community. Check out the gallery slide showcase: spotlightarts.vercel.app @get_optimum @blockchainjeff @shariaronchain @aqccapital

@mirajsathi Good

𝗕𝗿𝗲𝗮𝗶𝗸𝗶𝗻𝗴 𝘁𝗵𝗲 𝗕𝗼𝘁𝘁𝗹𝗲𝗻𝗲𝗰𝗸 : 𝗪𝗵𝘆 𝗕𝗹𝗼𝗰𝗸𝗰𝗵𝗮𝗶𝗻 𝘀𝗽𝗲𝗲𝗱 𝗶𝘀 𝘁𝗵𝗲 𝗨𝗹𝘁𝗶𝗺𝗮𝘁𝗲 𝗦𝗲𝗰𝘂𝗿𝗶𝘁𝘆 𝗙𝗲𝗮𝘁𝘂𝗿𝗲 ​We’ve all been there waiting for a Web3 transaction to clear while staring at a spinning wheel. In the decentralized world, we demand two things above all else instant execution and ironclad security. Yet, as networks expand, they traditional hit a wall. That wall is block propagation latency. ​When nodes struggle to stay in sync, the entire ecosystem stalls, opening the door to security risks. ​Enter Optimum Network (@get_optimum). They aren't just tweaking the existing system; they are fundamentally redesigning Web3 communication from the ground up using Random Linear Network Coding (RLNC). The Tech Shift: Enter Random Linear Network Coding (RLNC) ​Standard blockchains rely on rigid, step-by-step data transfers that easily clog during high traffic. RLNC changes the game by mathematically optimizing how data packets are coded and distributed. Instead of waiting for a sequential line of data, nodes can reconstruct information dynamically. ​This architectural evolution delivers four massive upgrades to decentralized infrastructure: Zero-Grip Throughput: By dismantling traditional packet bottlenecks, data moves across the network at maximum velocity with virtually zero lag. Flawless Node Harmony: Real-time synchronization ensures every single node across the globe stays updated on the state of the ledger simultaneously Hardened Network Defense: A faster network leaves no idle windows or structural gaps for malicious actors to exploit. Security is baked into the speed. Chaos-Proof Scalability: Whether experiencing a massive traffic spike or an unexpected network surge, the infrastructure remains stable without sacrificing performance. The New Paradigm: Velocity is the Best Weapon ​In Web3, coordination speed isn't just about convenience it is the ultimate defense mechanism. The quicker nodes can talk to one alone, the harder the network is to compromise. ​Optimum Network isn't just launching another layer they are laying down a bulletproof, ultra fast foundation designed to power the next generation of DeFi and scalable Web3 infrastructure. ​ @shariaronchain

@MdMannan748890 @get_optimum Good exolin mannan

Blockchains became decentralized computers. But every computer needs memory not just storage. Storage saves the past. Memory powers the present. Optimum is building DeRAM—the missing layer that lets blockchains remember, compute and react in real time. @get_optimum

@0xmisty_ @get_optimum Sumi gmum

Nowadays people keeps talking about scaling ethereum. but scaling means nothing if the network wastes time moving data. that’s the part most people ignore. before blocks get validated, before transactions settle, information has to travel across the network. and if that flow is slow, the whole system pays for it. that’s why Optimum feels different. they’re not trying to build louder infrastructure. they’re fixing how ethereum communicates underneath. sometimes the biggest innovation isn’t doing things faster. it’s removing the invisible friction nobody talks about. Optimum gets that. @cryptooflashh @get_optimum

@0xGcsojib @get_optimum Gmum

good evening champs When people think about network performance, they usually focus on data delivery. ⇨ How fast information can move. ⇨ How quickly packets can reach their destination But large distributed systems face another challenge. What happens when some of that information doesn't arrive? Traditional networks often respond by requesting the missing data again. While effective, repeated retransmissions increase bandwidth usage and create additional communication overhead across the network. As systems scale, that overhead becomes harder to ignore. ⇨ More retransmissions mean more traffic. ⇨ More traffic means more congestion. And more congestion creates additional stress on the infrastructure itself. This is why efficient data recovery is becoming increasingly important. Instead of repeatedly sending the same information, modern networking approaches focus on reconstructing missing data using information that has already been distributed throughout the network. ⇨ The objective is not simply recovery. ⇨ The objective is recovery with less communication. @get_optimum explores this idea through coded networking techniques designed to make data recovery more efficient while reducing unnecessary retransmission cycles. ⇨ The benefits extend beyond reliability. ⇨ Less redundant traffic. ⇨ Lower bandwidth consumption. ⇨ Improved network utilization. ⇨ More stable performance during periods of heavy activity. As distributed infrastructure continues to grow, moving data efficiently remains important. But recovering data efficiently may become just as valuable. Because reducing network stress is often not about sending more information. It is about making better use of the information that is already there. @shariaronchain

@web3himel @MemeLabzdotfun @QwertiAI Tnx

@Hodelwizard @MemeLabzdotfun @QwertiAI Great bro

The memecoin meta moves at lightning speed, but complex onboarding kills the hype. Not anymore. ​We are thrilled to officially partner with @MemeLabzdotfun to eliminate all user friction. Powered by @QwertiAI DeFAI infrastructure, users can now bypass the fragmented UX and gain instant access to the $LABZ ecosystem—whether swapping with crypto or buying directly via card. ​No multi-app confusion, no network juggling. Just pure, instant on-chain action right where the community is. The lab is fully open, and it's time to cook. @Web4Sunny @__Soniiiaa

@noobturaf @MemeLabzdotfun @QwertiAI Qwerti bullish

@Hodelwizard @MemeLabzdotfun @QwertiAI Nice one mate

@MemeLabzdotfun @QwertiAI Welcome

$LABZ is now live on @QwertiAI 🧪 Grateful to partner with one of the smoothest onramps in the game. Buy with crypto or card in seconds — then jump straight into MetaDesk or spin up your next launch. Getting into the Lab has never been easier.

@noobturaf Nice therd

Speed is money, but in blockchain it's infrastructure. Every millisecond saved in data delivery improves network coordination. That's why Optimum accelerates information flow, helping decentralized systems become more responsive, efficient, and scalable. 🧵 Thread below

@isturaf @RialoHQ Grailo

Artificial intelligence is rapidly evolving from a tool that assists users into a network of autonomous systems capable of making decisions, executing actions, and interacting across digital environments. As this transition accelerates, the conversation should not begin with intelligence. It should begin with trust. A highly capable agent is only as reliable as the infrastructure that governs it. Without strong authorization frameworks, verifiable permissions, and secure communication layers, even the most advanced AI systems introduce unnecessary risk. That is why Rialo is approaching AI from a different angle. Instead of treating security as a secondary feature, Rialo embeds it directly into the foundation of agent operations. Every interaction, instruction, and execution is designed around accountability, controlled access, and cryptographic assurance. The future of intelligent systems will not be defined solely by what agents can do. It will be defined by how safely, transparently, and reliably they can do it. AI needs more than capability. It needs infrastructure worthy of trust. @RialoHQ

@primedark562 Inforgraphi

Why mump2p changes how networks communicate Blockchains do not struggle because of computation alone. They struggle because information takes time to move. Before consensus happens, data must reach validators. And when data moves slowly, the entire network slows down. This is where mump2p comes in. Traditional gossip protocols repeatedly send the same data across the network. mump2p takes a different approach. Instead of forwarding identical messages, it encodes data into smaller coded pieces using Random Linear Network Coding (RLNC) Validators can begin forwarding data even before reconstructing the full message. The result: faster propagation ↓ lower latency ↓ better synchronization ↓ stronger consensus ↓ healthier networks By reducing redundant transmissions, mump2p uses bandwidth more efficiently while keeping performance high as networks scale. Because blockchain performance is not only about execution. It is also about how quickly information reaches participants. Faster information creates earlier awareness Earlier awareness creates better coordination And better coordination strengthens the network The future of scaling is not only compute It is communication @get_optimum

@musiclilbaby Full time aktive connect

@kamrulbroz @get_optimum Osam explain

Speed alone does not create a high TPS blockchain. Data also needs to reach every validator fast enough to keep the network moving together. High TPS is not only an execution problem. Optimum looks at the network path that data must travel before the chain can actually use that speed. A chain can process many transactions per second, but those transactions still need to move between nodes. → Blocks need to be shared. → Validators need to receive them. → The network needs to stay synchronized. If propagation is slow, higher TPS becomes harder to sustain. More transactions usually mean larger or more frequent data updates. That creates more pressure on bandwidth, routing, and validator communication. When blocks move slowly, validators may receive updates at different times. Some nodes move forward quickly. Others wait for the same data to arrive. That delay can reduce the practical performance of the chain. Faster propagation helps reduce this gap. When data reaches validators faster, the network can process and confirm activity with less waiting. This creates better conditions for higher TPS systems. @get_optimum focuses on improving this layer through efficient data broadcasting and network coding. Instead of sending repeated copies across the network, data can be distributed as useful encoded pieces. Validators do not always need every exact packet from one path. They need enough useful information to reconstruct and verify the block. A simple comparison is traffic on a highway. Adding more cars does not help if the roads are blocked. The road system also needs better routing, less congestion, and faster movement. Blockchain networks work in a similar way. Higher TPS needs fast execution, but it also needs efficient propagation underneath. @get_optimum focuses on the networking layer because that is where data movement becomes a real limit at scale. I’m learning a lot of new things about @get_optimum every day, and I try to share those through my posts. I know I can’t explain everything perfectly yet, but I always try my best. Right now, it’s all about learning and helping move Optimum forward. I’m very bullish on Optimum.😊

@mirajsathi Gmum sathi

@Hodelwizard Gmum brother

𝐅𝐫𝐨𝐦 𝐋𝐚𝐭𝐞𝐧𝐜𝐲 𝐭𝐨 𝐋𝐢𝐠𝐡𝐭𝐧𝐢𝐧𝐠 𝐒𝐩𝐞𝐞𝐝. 𝐓𝐡𝐞 𝐍𝐞𝐱𝐭 𝐆𝐞𝐧 𝐨𝐟 𝐁𝐥𝐨𝐜𝐤𝐜𝐡𝐚𝐢𝐧 𝐈𝐧𝐟𝐫𝐚𝐬𝐭𝐫𝐮𝐜𝐭𝐮𝐫𝐞. ​Whenever we interact with Web3 networks, our priorities are simple: speed and security. However, as decentralized networks scale, they inevitably hit a major bottleneck—block propagation delays, commonly known as network lag or latency. When nodes take too long to sync, transactions slow down, and critical security vulnerabilities emerge. ​This is exactly the core issue that @ @get_optimum is tackling head-on. By introducing RLNC (Random Linear Network Coding), they are entirely rewriting the rules of blockchain resilience. ​How RLNC is Upgrading Web3 Infrastructure ​Instead of relying on traditional, linear data transfers that choke under heavy loads, RLNC optimizes how data is coded and transmitted across nodes. Looking closely at the architecture breakdown, Optimum delivers on four massive pillars: 1/​Faster Propagation: No more waiting around. It eliminates packet bottlenecks to achieve maximum throughput with minimal lag. 2/​Better Synchronization: Real-time block delivery ensures that all nodes across the ecosystem stay updated simultaneously. 3/​Stronger Security: Resilient by design and secure by default. There are no loose ends left for malicious actors to exploit. 4/​Greater Network Resilience: Even under extreme network traffic or sudden volume spikes, the infrastructure maintains top-tier performance without breaking a sweat. ​ The Golden Rule: Faster Coordination = Stronger Security ​In a truly decentralized ecosystem, communication speed equals safety. The faster the nodes can coordinate, the harder it is for the network to be compromised. Optimum Network isn’t just building another chain; they are establishing a bulletproof, lightning-fast foundation for the future of DeFi and decentralized scaling. @get_optimum @shariaronchain

@oxeth_evm Work good

Most conversation around blockchain performance focus on speed. Higher TPS. Faster blocks. More bandwidth. But there is another question that matters just as much. How efficiently does information spread across the network? In traditional networks, data is usually forwarded as identical copy. If some packet are lost along the way, the network often need additional transmission to recover what was missing. As network grow larger, this can create unnecessary overhead and slow down propagation. What make @get_optimum interesting is that it approaches the problem differently. Using random linear network coding (RLNC), node don't simply forward data. They continuously create new encoded version of that information. Instead of relying on specific packet arriving successfully, the network only need enough unique information to reconstruct the original data. This change the way propagation work The question is no longer: Did a particular packet arrive? Do we have enough information to rebuild the message? Flexnodes help push this idea even further. Rather than acting as passive relays, they actively encode, recode and distribute information throughout the network. This improve resilience, reduces the impact of packet loss and help data reach validator more efficiently. From a system perspective, that is an important distinction. Moving packets faster improves transport. Moving information smarter improves the network itself. As blockchain infrastructure continues to evolve, information flow may become just as important as computation and consensus. CM @shariaronchain

@oxeth_evm @get_optimum Visual boom

Blockchain performance is not only about producing block faster. It is also about how efficiently those block move across the network. Flexnodes are built to solve that challenge. As part of the @get_optimum Network, they help accelerate data propagation by receiving block information, generating RLNC-encoded equation and forwarding them immediately. Instead of waiting for a complete block to arrive, information can start moving through the network right away. This approach creates a major advantage. Rather than sending identical copies of data, Flexnodes continuously generate new encoded combinations. That gives validator more opportunities to reconstruct the original block, even when packets are lost or network conditions are less than ideal. The result is a network that can: • Reduce propagation delays • Improve validator synchronization • Use bandwidth more efficiently • Increase reliability during data transmission As blockchain networks continue to scale, communication becomes just as important as computation. Flexnode represent an important part of that future by helping information reach the right place faster, making the entire network more efficient and resilient. CM @shariaronchain

@Nana_03nn Cool

Optimum Shows Why Blockchain Scaling Needs a Faster Networking Layer Most conversations around blockchain scalability usually focus on rollups, execution speed, gas costs, or consensus upgrades. But Optimum’s latest Hoodi Testnet results highlight something equally important: How fast data moves across the network. And the results are impressive. Optimum’s mumP2P protocol achieved an average block propagation latency of around 150ms across 30 globally distributed nodes on Ethereum’s Hoodi Testnet. That is a major improvement compared to the roughly 1 second latency often seen with traditional Gossipsub propagation. In simple terms, blocks can reach the network much faster. And that matters more than many people realize. When data propagation becomes faster, the entire network benefits: ✅ Nodes stay more synchronized ✅ Transactions can move through the system more efficiently ✅ Congestion risks are reduced ✅ Validators have more time to receive, verify, and attest blocks ✅ Overall network performance becomes stronger For validators, this can be especially valuable. Lower latency means fewer missed opportunities, better participation, and improved economic efficiency. In a system where milliseconds can matter, faster propagation can create real advantages. The key innovation behind this is RLNC = Random Linear Network Coding. Instead of simply repeating the same data across the network, RLNC helps optimize how information is transmitted. This reduces unnecessary redundancy and allows data to flow more efficiently, even at scale. What makes Optimum’s results even more meaningful is that the test was not done in a small, isolated setup. It involved 30 globally distributed nodes on Ethereum’s Hoodi Testnet, making the results much closer to real-world infrastructure conditions. For me, the biggest takeaway is clear: Blockchain scalability is not only about processing more transactions. It is also about making sure critical information reaches every participant faster, more reliably, and more efficiently. Optimum is showing that the networking layer is one of the most important, yet often overlooked, parts of blockchain innovation. And if these results are any indication, faster data propagation could become a major foundation for the next stage of Ethereum scalability. @get_optimum @aqccapital @blockchainjeff @ada_pegasus

@shuvo6519848199 Optimum coking

@Hodelwizard Huge breakdown

@md_don_Morph Nice information

Who can use Optimum? If you're running a validator or operating a node, Optimum is built for you. For validators, every reward matters. Optimum helps ensure you can efficiently capture all available reward streams from consensus issuance and transaction fees to MEV opportunities. For node operators, the benefits go beyond rewards. By reducing bandwidth requirements and improving node synchronization, Optimum helps lower operational costs while keeping infrastructure running smoothly. The best part? Integration is seamless, allowing operators to improve network efficiency without disrupting their existing setup. Whether you're securing a public blockchain network or managing node infrastructure at scale, Optimum helps you do more with less.