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@w3c4n

If you don't create ways to for passive income, you will never be able to achieve financial freedom.

Katılım Eylül 2010
132 Takip Edilen262 Takipçiler
Lilyyy
Lilyyy@ImLilyy210·
𝗪𝗵𝗮𝘁 𝗶𝗳 𝘆𝗼𝘂 𝗱𝗶𝗱𝗻'𝘁 𝗻𝗲𝗲𝗱 𝘁𝗼 𝗿𝗲𝘀𝗲𝗻𝗱 𝘁𝗵𝗲 𝗲𝘅𝗮𝗰𝘁 𝘀𝗮𝗺𝗲 𝗽𝗮𝗰𝗸𝗲𝘁 𝗲𝘃𝗲𝗿𝘆 𝘁𝗶𝗺𝗲 𝘀𝗼𝗺𝗲𝘁𝗵𝗶𝗻𝗴 𝘄𝗮𝘀 𝗺𝗶𝘀𝘀𝗶𝗻𝗴? That's how most networks work today. A packet is lost. The sender retransmits the same packet. If another packet is lost... It retransmits again. As networks become larger and more distributed, these repeated retransmissions consume bandwidth, increase latency, and slow down data propagation. This is where Random Linear Network Coding (RLNC) takes a different approach. Instead of forwarding or retransmitting identical packets, RLNC combines multiple pieces of data into coded packets. Each coded packet carries new information. As long as enough independent coded packets arrive, the receiver can reconstruct the original data. The network no longer depends on receiving every specific packet. It only needs enough useful information. This is one of the core technologies behind Optimum's Universal Data Acceleration Network. Rather than optimizing blockchain execution, Optimum applies RLNC to improve how data moves across distributed networks, reducing redundant transmissions while making propagation more resilient to packet loss. The goal isn't to send more packets. It's to make every packet count. That's a fundamental shift in how data propagation can be designed. Bandwidth is finite. Useful information is what really matters. What do you think is more important for blockchain networking: sending data faster or sending data smarter? @get_optimum
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Lilyyy@ImLilyy210

𝗜𝗳 𝘆𝗼𝘂 𝗵𝗮𝘃𝗲 𝘁𝗼 𝘀𝗲𝗻𝗱 𝘁𝗵𝗲 𝘀𝗮𝗺𝗲 𝗱𝗮𝘁𝗮 𝗼𝘃𝗲𝗿 𝗮𝗻𝗱 𝗼𝘃𝗲𝗿 𝗮𝗴𝗮𝗶𝗻... Maybe the problem isn't your bandwidth. It's your design. Every blockchain node needs the same block data. Today, that data is typically propagated by forwarding identical packets from one peer to another until the entire network has received them. It works. But it's also inefficient. The larger the network becomes, the more duplicate transmissions are created. More copies. More congestion. More waiting. Simply increasing bandwidth doesn't solve this. It only allows the network to send more duplicate data at a higher speed. This is exactly why Optimum is rethinking how data moves across blockchain networks. Instead of asking: "How can we send packets faster?" The better question is: "Why are we sending the same packets repeatedly in the first place?" That shift in thinking changes everything. True scalability isn't just about moving more data. It's about moving the same data with far less redundancy. And that's where the next generation of blockchain networking begins. Sometimes the biggest performance gain doesn't come from adding more resources. It comes from eliminating unnecessary work. What's your take? If you could redesign blockchain networking from scratch, would you keep forwarding the same data or find a smarter way to distribute it? @get_optimum

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Cipher (❖,❖)
Cipher (❖,❖)@nnthanhthanh96·
Ethereum blockspace still faces a hidden issue: > Builders bid high, but propagation delays force proposers to commit early to avoid reorg risk. > This leaves ~190 ETH/week uncaptured, cutting validator rewards that could push APR near 2%. > As a result, hedging grows and validator activity shifts toward operators with stronger infra , hurting decentralization. > mump2p + RLNC reduces variance ~7x, making block delivery predictable so bids can clear on real value instead of fear. Ethereum is close to solving this, but not fully there yet. cc : @get_optimum @aqccapital @cryptooflashh @blockchainjeff
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Cipher (❖,❖)@nnthanhthanh96

In a world where every millisecond decides winners and losers, one undeniable truth remains: 𝐒𝐩𝐞𝐞𝐝 𝐢𝐬 𝐌𝐨𝐧𝐞𝐲 . And as we’ve seen across industries competing down to the millisecond: > HFT: +1ms speed advantage = +$100M/year. Funds spend tens of millions just to shave off microseconds. > E-commerce: Amazon: +100ms page load = -1% revenue. Google: +0.5s = -20% traffic. > Blockchain: Slow block propagation = stale/orphan → lost rewards. In MEV races, whoever is faster captures the value first. When speed equals money everywhere else, it’s only natural that blockchain follows the same rule and Optimum makes it real 👉 @get_optimum leverages RLNC to accelerate propagation 6–20x, cut bandwidth by 90–95%, and help validators achieve higher & more stable staking yields. The result: faster networks = real money for validators, searchers, and stakers. cc : @blockchainjeff @cryptooflashh @aqccapital

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bidogold.data
bidogold.data@bidogold·
Ethereum Needs More Than Higher TPS When discussions about Ethereum scalability begin, the focus is usually on higher transactions per second, lower gas fees, or faster execution. While these improvements are important, they represent only part of the scalability challenge. A blockchain cannot process information that has not yet reached its participants. Before validators can execute transactions or reach consensus, they must first receive blocks, attestations, and other critical data. If communication across the peer-to-peer network becomes inefficient, increasing execution capacity alone cannot deliver the full benefits of scalability. This is why networking deserves to be considered a core component of Ethereum's future. According to Optimum's documentation, the project is building a Universal Data Acceleration Network that improves data propagation without changing Ethereum's consensus or execution layers. Through mump2p and Random Linear Network Coding (RLNC), Optimum aims to reduce redundant network traffic, improve bandwidth efficiency, and enable faster, more reliable communication between validators. As Ethereum continues to support stablecoins, tokenized real-world assets, decentralized finance, and AI-driven applications, the volume of information moving across the network will grow significantly. Scaling this future requires more than simply processing more transactions. It also requires ensuring that information reaches every participant quickly and efficiently. Higher TPS may increase blockchain capacity, but better networking ensures that capacity can be fully utilized. By strengthening the communication layer, Optimum is helping build an Ethereum ecosystem that is not only faster, but also more resilient, efficient, and ready for long-term growth. @get_optimum @blockchainjeff @aqccapital
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bidogold.data@bidogold

Why Faster Data Creates Better Decentralization For years, blockchain has been built around a familiar trade-off: improve performance, and you often sacrifice decentralization. But what if better networking could strengthen both at the same time? One of the biggest challenges in decentralized systems is that not every validator has the same network conditions. Participants located closer to major infrastructure hubs often receive blocks and attestations sooner, while those farther away face higher latency and more redundant traffic. Over time, these differences can create an uneven playing field. @get_optimum approaches this problem from the networking layer rather than the consensus layer. According to the project's documentation, its mump2p protocol uses Random Linear Network Coding (RLNC) to improve how data is propagated across peer-to-peer networks. By reducing redundant transmissions and making communication more efficient, the protocol helps information reach validators in a more consistent and reliable way. This matters because decentralization is not only about the number of nodes in a network. It is also about giving participants a fair opportunity to receive and process information, regardless of where they are located. Faster and more efficient networking can reduce the disadvantages caused by geography, improve communication under heavy network load, and help maintain a healthier decentralized ecosystem. True decentralization is not achieved by slowing everyone down equally. It is achieved by building infrastructure that allows more participants to compete on a fair and efficient network. That is the future Optimum is working toward. @blockchainjeff @aqccapital

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vinh nguyễn π²
vinh nguyễn π²@PhucvinhN1965·
Is 100ms Really Worth That Much? Most people think Ethereum staking rewards depend on the amount of ETH staked or validator performance. But after reading Optimum's latest research, I found another factor that's often overlooked. Network latency. Every Ethereum validator has only a limited time to receive blocks, evaluate MEV bids, and submit attestations. Saving just 50–150ms gives validators more time to make better decisions, resulting in higher MEV capture and more accurate consensus participation. According to the research, reducing propagation latency by 50–150ms could: • Increase validator APR by 0.66%–1.97% • Improve MEV bid selection by 13%–16% • Generate an estimated 1,000–2,000 ETH in additional validator revenue each year What I find interesting is that Optimum isn't trying to build another blockchain or change Ethereum's consensus. Instead, it's improving the networking layer with mumP2P and RLNC, helping information travel faster and more predictably across the network. In my opinion, blockchain scalability isn't just about processing more transactions anymore. It's also about making sure information reaches every validator at the right time. Sometimes, improving the network is more valuable than rebuilding the protocol itself. #Optimum #Ethereum #Blockchain @get_optimum
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vidang
vidang@vidangne·
𝗛𝗼𝘄 𝗙𝗮𝘀𝘁𝗲𝗿 𝗣𝗿𝗼𝗽𝗮𝗴𝗮𝘁𝗶𝗼𝗻 𝗔𝗳𝗳𝗲𝗰𝘁𝘀 𝗕𝗹𝗼𝗰𝗸 𝗕𝘂𝗶𝗹𝗱𝗲𝗿 𝗘𝗰𝗼𝗻𝗼𝗺𝗶𝗰𝘀 While discussions around faster data propagation often focus on validators, the benefits also extend to block builders and relayers. Block builders need time to construct high-value blocks, especially when extracting MEV. Relayers are responsible for efficiently distributing these blocks to validators. When propagation is slow, both groups have less time to operate effectively, which can lead to missed MEV opportunities and less efficient block delivery. Faster propagation, such as what mump2p enables, gives block builders more time to optimize their blocks before submission. This can improve MEV extraction and overall block value. For relayers, quicker and more reliable data transmission helps improve the speed and consistency of block delivery across the network. In addition, more efficient propagation reduces bandwidth usage, which can help lower operational costs for both block builders and relayers running large scale infrastructure. As competition in block production increases, improvements in propagation speed can create advantages not only for validators but also for those responsible for building and relaying blocks.
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vidang@vidangne

𝗥𝗟𝗡𝗖 𝗘𝘅𝗽𝗹𝗮𝗶𝗻𝗲𝗱 𝗦𝗶𝗺𝗽𝗹𝘆 In many blockchains, when a node receives new data, it copies and sends that same data to many other nodes. This creates a lot of duplicate traffic across the network. 𝗥𝗟𝗡𝗖 works differently. Instead of sending the same data repeatedly, RLNC breaks information into small pieces and mixes them into new combinations. These mixed pieces are sent out, and even if some are lost, the original data can still be reconstructed from the combinations that arrive. Think of it like sending a puzzle. Instead of mailing many full copies of the same puzzle, you send different combinations of the pieces. As long as enough combinations reach the other side, the full puzzle can still be completed. This approach reduces unnecessary data traffic and makes transmission more efficient. In blockchain, it allows blocks and data to move across the network faster and with less waste. @get_optimum uses RLNC in mump2p to improve how blocks propagate on Ethereum, helping validators achieve better performance with lower bandwidth usage. In simple terms, RLNC is a smarter way of moving information, one that wastes less and works better when conditions aren’t perfect.

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Tooby
Tooby@TDuy240201·
The more I learn about distributed systems, the more I think the biggest cost is not latency. It is uncertainty. Developers can optimize performance. Validators can upgrade hardware. Networks can increase throughput. But uncertainty is much harder to eliminate. Will information arrive on time? Will every node observe the same state? Will the network behave consistently under load? Those questions influence every application built on top of it. That is why I believe infrastructure should do more than move data. It should reduce uncertainty across the entire network. That is one reason I keep following @get_optimum. The project is exploring how better networking and more efficient data propagation can help distributed systems become more predictable as they continue to scale. To me, infrastructure succeeds when developers stop asking "Will this work?" and start asking "What should I build next?" The best infrastructure does not only improve performance. It reduces uncertainty. @cryptooflashh @blockchainjeff @aqccapital @ada_pegasus @shariaronchain @CryptoSundayz
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Tooby@TDuy240201

The more I read about distributed systems, the more I realize that performance is only half of the equation. The other half is confidence. Can developers trust that information arrives consistently? Can validators rely on the network during peak demand? Can applications behave the same way regardless of scale? Those questions matter just as much as latency or throughput. That is why infrastructure deserves more attention. Performance can always be improved. Confidence takes years to earn. This is one reason I keep following @get_optimum. The project is not only exploring faster data propagation. It is exploring how networking can become predictable, resilient, and reliable as decentralized systems continue to grow. To me, great infrastructure is not about impressive benchmarks. It is about giving builders the confidence to build without worrying about what happens underneath. Infrastructure is not only measured by performance. It is measured by the confidence it gives every builder. @cryptooflashh @blockchainjeff @aqccapital @ada_pegasus @shariaronchain @CryptoSundayz

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PhuongEo82
PhuongEo82@Davixnhan·
Blockchain isn't limited to payments. Gaming, AI, social platforms, and real-time applications all require rapid access to changing information. Slow data retrieval becomes a bottleneck long before computation reaches its limit. Optimum explores infrastructure that better supports these workloads through decentralized memory. The future of Web3 depends on more than transaction speed. It depends on how efficiently applications can work with data. @get_optimum
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PhuongEo82@Davixnhan

Decentralized Memory Memory shouldn't become a centralized service. If only a few providers control access to application memory, decentralization weakens. Optimum distributes memory across participating nodes while maintaining decentralized operation. Applications gain faster access to frequently used data without relying on a single trusted provider. Performance and decentralization don't always need to compete. Infrastructure can improve both. @get_optimum

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Richard122
Richard122@Richardx1202·
@w3c4n càng ngày càng đỉnh, xin mãi ko cho
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x☀️x
x☀️x@w3c4n·
🚪 A block has been produced. So how does it actually enter the Optimum Network? This is where the **Optimum Gateway** comes in. 🔌 On Ethereum's Hoodi testnet, validators connect their consensus clients such as Lighthouse, Prysm, or Teku to a gateway. It acts as the integration point between the client and Optimum's acceleration network. Once a block reaches the gateway, it can enter the **mump2p network**, where RLNC-powered propagation distributes it to other mump2p-enabled gateways. 📡 At the same time, the block is also published through Ethereum's standard GossipSub path so the wider consensus network can still receive it. No new consensus mechanism. No new blockchain. ⚙️ The gateway is how Optimum plugs its data acceleration layer into the existing Ethereum networking flow. #Optimum #mump2p #RLNC
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WeJin
WeJin@dangtruong4421·
Complexity Is Quietly Becoming Web3’s Biggest Scaling Challenge Every technology ecosystem grows by adding new layers. Blockchain has followed the same path. As the industry matured, we introduced: infrastructure networks cross-chain communication middleware services data availability layers coordination frameworks Each innovation solved an important problem. Yet every new abstraction also increased the number of moving parts. What began as an effort to improve scalability gradually produced something else: An ecosystem that is becoming increasingly difficult to coordinate. 1⃣ Scaling isn't just about adding more infrastructure Technical debt is no longer confined to application code. In Web3, it increasingly exists across the entire infrastructure stack. Developers today don't simply build applications they assemble ecosystems. Every project depends on numerous external components: bridges indexing services RPC providers messaging layers security modules orchesation frameworks Each dependency is valuable on its own. Collectively, they create hidden operational costs. As systems expand: 🔹integrations multiply 🔹maintenance becomes continuous 🔹failure points increase 🔹coordination becomes harder than execution The challenge isn't insufficient infrastructure. It's that infrastructure is evolving faster than the ecosystem's ability to organize it. History offers a familiar pattern. As computing matured, industries didn't continue adding disconnected tools forever. They introduced platforms that unified them. Cloud computing simplified infrastructure operations. Operating systems standardized fragmented hardware. Internet protocols enabled independent networks to communicate seamlessly. Progress accelerated because complexity became manageable. Blockchain is approaching a similar inflection point. The next leap may come not from creating another layer but from making existing layers function as a coherent system. Projects like @get_optimum are exploring infrastructure designed around coordination rather than accumulation, reducing operational friction while improving interoperability across decentralized environments. Because real scalability is measured by how easily systems work together not by how many components they contain. 2⃣ The future belongs to organized ecosystems Complexity is an inevitable consequence of growth. Disorder is not. As Web3 expands, ecosystems face a strategic choice. One path continues adding infrastructure until coordination becomes the dominant cost. The other focuses on simplifying interactions, reducing dependencies, and making the entire stack easier to operate. The strongest technology platforms have always taken the second approach. Innovation creates new possibilities. Coordination is what allows those possibilities to scale. And in the next phase of Web3, the ecosystems that master complexity not merely expand it will define the future. @get_optimum @cryptooflashh @blockchainjeff @aqccapital @ada_pegasus @shariaronchain @CryptoSundayz
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WeJin@dangtruong4421

Blockchain Doesn't Need More Connections. It Needs Better Orchestration. 1⃣ Connection is no longer the challenge In Web3's early years, simply connecting decentralized systems was considered progress. Bridges expanded reach. Cross-chain messaging unlocked new possibilities. Interoperability became the industry's primary objective. But the ecosystem has evolved. Today, most networks can exchange information. The bigger question is what happens after the connection is established. Can applications coordinate state consistently? Can infrastructure respond without introducing latency or operational overhead? Can developers build across ecosystems without maintaining countless custom integrations? Connectivity opened the door. Coordination determines what comes next. 2⃣ Complexity grows faster than adoption Every new blockchain, rollup, data layer, and execution environment adds another piece to the ecosystem. Individually, each improves performance. Collectively, they increase operational complexity. Developers are no longer building a single application. They're orchestrating distributed systems. That means managing: 🔹different execution environments 🔹multiple trust assumptions 🔹independent infrastructure providers 🔹fragmented data availability 🔹cross-network synchronization The technical challenge isn't moving assets anymore. It's ensuring every moving part behaves as one coherent system. Infrastructure is shifting from enabling communication to managing coordination. 3⃣ The next infrastructure race The next generation of blockchain infrastructure won't compete by adding another chain. It will compete by reducing the complexity created by all existing chains. Developers shouldn't have to think about where computation happens. Users shouldn't notice how many networks are involved. Applications should behave as if the ecosystem were a single programmable environment. Projects like @get_optimum are exploring this directionbuilding coordination layers that allow distributed infrastructure to function cohesively while preserving modularity. Because the future of Web3 won't be defined by how many networks exist. It will be defined by how effortlessly those networks operate together. ▶️Infrastructure succeeds when complexity disappears. The best coordination layer is the one developers never have to think about. @get_optimum @cryptooflashh @blockchainjeff @aqccapital @ada_pegasus @shariaronchain @CryptoSundayz @get_optimum

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bent68| Data
bent68| Data@bent6868·
Gmum! Day 365 haha😂😂😂 of pretending I am not checking every few minutes to see if I've magically become Refined. 😂😂😂 Me: "I am just here to contribute." Also me: refreshes the role list for the 68th time today. No shortcuts, no complaints, just keep grinding and trust the process. Hopefully one morning I'll wake up, open Discord, and finally see that beautiful Refined role next to my name.💙 Until then... back to the grind. @get_optimum @aqccapital
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cuongquoc ✏️
cuongquoc ✏️@cuongquocartist·
Scaling Blockchain Starts With Better Networking Blockchain discussions often focus on consensus, execution, or transaction throughput. But before any of those processes can happen, information has to move across the network. Every block, attestation, and blob must reach validators as quickly as possible. If data propagation becomes a bottleneck, overall network performance suffers - regardless of how efficient the consensus mechanism is. This is the problem OptimumP2P is designed to address. Instead of relying on traditional peer-to-peer packet forwarding, OptimumP2P leverages Random Linear Network Coding (RLNC) to improve how data is distributed across decentralized networks. With RLNC, nodes don't simply relay the packets they receive. They continuously generate new encoded combinations of the available data and share them with other peers. As long as a node collects enough independent coded packets, it can reconstruct the original information without depending on a specific transmission path. That approach brings several important advantages. Data can begin propagating sooner instead of waiting for complete packet delivery. Every relay node actively contributes to improving network-wide distribution through recoding. Information can still be recovered even when individual packets are delayed or lost. One of the most interesting characteristics of RLNC is that network growth becomes an advantage rather than a burden. As additional nodes join the network, they introduce more encoded data paths, improving redundancy, resilience, and propagation efficiency across the system. According to Optimum's benchmark results, OptimumP2P achieved between 600% and 3,000% lower propagation latency than Ethereum's current Gossipsub protocol in tested environments. The protocol is also designed to make better use of available bandwidth, allowing operators running standard Ethereum validator infrastructure to benefit without requiring increasingly specialized hardware. Improving the networking layer opens the door to broader protocol improvements, including: Faster block propagation Shorter block intervals Higher network throughput Better bandwidth efficiency Increased validator participation Greater scalability without concentrating infrastructure For validator operators, receiving consensus data earlier can improve proposal and attestation performance while reducing networking overhead. For developers, a faster propagation layer provides stronger infrastructure for applications that depend on real-time responsiveness, including DePIN, onchain exchanges, gaming, social networks, and next-generation DeFi. For everyday users, it ultimately translates into faster confirmations, more reliable transactions, and a blockchain that continues to perform as adoption grows. OptimumP2P demonstrates that scaling does not have to come at the expense of decentralization. By making information flow more efficiently across the network, decentralization itself becomes part of the solution - helping blockchain networks grow without sacrificing the qualities that make them valuable in the first place. @get_optimum @ada_pegasus
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KhanhLinh-98
KhanhLinh-98@bekhanhlinh98·
Scaling Blockchain Requires Better Networking As blockchain adoption accelerates, the challenge is no longer only about increasing throughput. The bigger question is how data can move across decentralized networks efficiently without compromising fairness or decentralization. Optimum is tackling this networking bottleneck. In a recent technical session, CEO and MIT professor Muriel Médard explained that every blockchain faces a natural propagation limit. The constraint is not just computation or block size it is the network's ability to distribute information to validators around the world. The Problem with Traditional Propagation Ethereum currently relies on GossipSub, where nodes forward multiple copies of the same data through a decentralized mesh. While this helps preserve decentralization, it also creates: Redundant traffic Higher bandwidth usage Additional propagation delays Uneven block delivery between validators Validators located closer to block proposers often receive information earlier than validators in distant regions, creating a co-location advantage based on geography rather than participation. How RLNC Changes the Model Optimum uses Random Linear Network Coding (RLNC) instead of repeatedly transmitting identical copies of a block. Validators receive encoded linear combinations of the original data and only need enough independent coded packets to reconstruct the block. This approach can: Reduce redundant network traffic Improve bandwidth efficiency Increase resilience to packet loss Make block propagation more consistent across regions Why It Matters The goal is not simply to make Ethereum faster. The goal is to reduce unnecessary networking overhead so decentralized systems can scale without amplifying geographic advantages. Physical distance will always exist, but inefficient data distribution does not have to. By improving how blocks propagate through the network, @get_optimum is helping build a more scalable, fair, and decentralized blockchain infrastructure. @blockchainjeff @aqccapital @ada_pegasus @cryptooflashh @CryptoSundayz
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Thần Quang
Thần Quang@thanquang9999·
The Hidden Layer of Blockchain Everyone talks about faster execution. But before a transaction is processed, data must reach the network first. That’s where @get_optimum stands out. By improving data propagation with advanced networking technologies like RLNC, Optimum aims to reduce latency, strengthen network resilience, and help decentralized systems communicate more efficiently. Sometimes, the biggest innovation isn’t processing data faster it’s moving data smarter. @get_optimum @aqccapital @blockchainjeff @ada_pegasus
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Thần Quang@thanquang9999

GMUM ☕ Every great network starts with a simple connection. Behind every transaction, every validator, and every block is one thing we often overlook: communication. That’s why @get_optimum is building where it matters most making data propagation faster, smarter, and more resilient for decentralized networks. The faster information flows, the stronger the ecosystem becomes. Here’s to another day of building, learning, and pushing Web3 infrastructure forward. GMUM, Optimum fam! @get_optimum @aqccapital @blockchainjeff @ada_pegasus

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Adam (❖,❖)
Adam (❖,❖)@th787252·
Raw metrics are useful. Meaningful metrics are what actually matter One thing I appreciate about @get_optimum telemetry design is that it separates operational visibility from performance evaluation. The Gateway is responsible for collecting raw events in real time: - Block arrival via libp2p vs mumP2P - Publish timestamps - Attestation forwarding & drop reasons - Propagation latency - Inclusion delay - Peer connectivity and subnet distribution - Pack size, dedup efficiency, and message counters This level of telemetry makes debugging and monitoring much easier. But here's the important part: These numbers aren't treated as validator KPIs. Instead, they are simply the building blocks that Bootstrap uses to compute stable, network-wide metrics. Raw libp2p vs mumP2P deltas are great for engineering analysis, but they don't directly represent validator performance. That separation keeps dashboards clean, prevents misleading conclusions, and ensures contributors evaluate the network using consistent, reliable indicators rather than noisy operational data. A small architectural decision but one that says a lot about how @get_optimum approaches observability.
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Adam (❖,❖)@th787252

Another week, another memorable Optimum Vietnam Karaoke Night. 🎤 This week's karaoke night was filled with amazing performances. There were so many talented singers, and every song made the atmosphere even more lively and enjoyable. It was a great chance to catch up with the @get_optimum community, meet familiar faces, and enjoy a fun evening together. Looking forward to more unforgettable moments and even more great performances at the next karaoke night!

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Richard122
Richard122@Richardx1202·
Seeing Magnitude reviews happen is a good reminder: Don't farm roles Build relationships Stay active Support the ecosystem Consistency > intensity Magnitude is the key🔑 @SeismicSys @NoxxW3
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Tendi
Tendi@Tangvi27·
Scaling Ethereum requires more than bigger blocks. Ethereum's upcoming Glamsterdam upgrade introduces ePBS, a new approach that restructures slot timing to support larger blocks and more blobs Instead of requiring the entire block to reach validators within a few seconds, ePBS separates block components, giving more time for execution payloads and blob data to propagate. This helps improve scalability, but it doesn't completely solve the underlying networking challenge ⚡ How Optimum addresses the bottleneck 🔹 ePBS optimizes block timing, allowing different parts of a block to arrive at different deadlines 🔹The real bottleneck remains data propagation, especially as block sizes and network participation continue to grow 🔹Optimum uses Random Linear Network Coding (RLNC) to fundamentally improve how data moves across Ethereum 🔹Lower latency and lower propagation variance enable blocks to spread through the network more quickly and reliably 🔹Higher throughput allows the network to process more data without being limited by bandwidth constraints 🔹Performance scales with network growth, maintaining efficient propagation even as Ethereum becomes larger and more decentralized Optimum isn't simply making Ethereum faster, it is improving the network layer that powers block propagation. By removing bandwidth bottlenecks with RLNC, Optimum helps create an Ethereum network capable of supporting larger blocks, higher throughput, and potentially shorter slot times without sacrificing decentralization Scaling Layer 1 isn't just about increasing block size, it's about ensuring data can move efficiently across the entire network. That's where Optimum's technology makes the difference @get_optimum
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MrChuoi279
MrChuoi279@mrchuoi279·
💥Why Optimum Is Building a Modular Infrastructure Stack Instead of a Single Product 👉As blockchain technology matures, one trend is becoming increasingly clear: no single component can solve every scalability challenge. 👉For years, the industry focused heavily on execution. Faster virtual machines, higher TPS, and lower transaction costs dominated the conversation. Those innovations were necessary, but they also revealed another reality. Even the fastest execution layer still depends on an infrastructure capable of moving, managing, and serving data efficiently. This is where Optimum takes a fundamentally different approach. 👉Instead of introducing another blockchain or asking developers to migrate to an entirely new ecosystem, Optimum is building a modular infrastructure stack where each layer is designed to solve a specific problem. The goal isn't to replace existing networks. It's to provide specialized infrastructure that helps those networks perform better. That philosophy can already be seen across the project's architecture. High performance networking focuses on accelerating data propagation between participants. 👉Flexnodes extend the infrastructure through decentralized coordination and resource distribution. 👉DeRAM explores how decentralized memory can provide low latency access for applications that constantly exchange temporary data. Rather than combining every responsibility into a single protocol, each component is developed independently while remaining part of a unified infrastructure vision. This modular strategy offers an important advantage. 💥As blockchain applications continue evolving, different workloads will require different optimizations. AI agents need rapid access to contextual information. Onchain games require continuous state synchronization. DeFi protocols depend on fast and reliable communication between nodes. Enterprise applications often prioritize stability and predictable performance. Building one monolithic solution for every scenario becomes increasingly difficult. A modular infrastructure allows each layer to evolve at its own pace without forcing changes across the entire system. That is one of the reasons Optimum stands out. Instead of asking how to build another blockchain, the project asks a more interesting question: How can every existing blockchain become more efficient through better infrastructure? The answer isn't found in one technology alone. 💥It's found in an ecosystem where networking, memory, and decentralized coordination work together to support the next generation of blockchain applications. @get_optimum
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MrChuoi279@mrchuoi279

👉Most infrastructure projects try to solve scalability by increasing computational power. 🅰️Optimum takes a different path. 👉Instead of asking blockchain networks to process more, Optimum focuses on helping information move more efficiently between participants. It's a subtle distinction, but it changes how scalability is approached. 👉In a decentralized network, every block, transaction, and state update depends on communication before computation. If data reaches nodes faster and more reliably, the entire network benefits without changing its consensus rules. 👉This design philosophy is what makes Optimum interesting. Rather than replacing existing ecosystems, it strengthens one of the most fundamental layers that every blockchain relies on: communication. 👉As modular architectures continue to evolve, efficient networking may become just as valuable as faster execution. 👉Infrastructure often creates the biggest impact when nobody notices it's there. @get_optimum

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