While blockchain was still in the laboratory debating 'theoretical performance', Solayer had already integrated million TPS into supermarket cash registers. This 'blockchain industrial platform' built by the Solana core team uses the InfiniSVM hardware architecture to transform blockchain from a 'niche technology' into an 'assembly line tool'—your phone can act as a node, swiping an encrypted card is faster than swiping a credit card, and even supermarket grandmothers can understand the on-chain bills. This is not an upgrade; it's like installing an 'industrial assembly line' in blockchain, thus making high-frequency trading, global payments, and IoT data uploads standardized production.
1. InfiniSVM: From 'lab performance' to 'industrial-grade stability', hardware ensures the blockchain no longer drops the chain.
The biggest lie about blockchain is not 'unable to achieve million TPS', but 'even if achieved, it cannot be stable'. Solayer's InfiniSVM uses hardware-level design to turn 'theoretical peak' into 'continuous stable output', which is the true industrial breakthrough.
The performance of traditional blockchains (including Solana) is like a 'roller coaster'—the test network can run 100,000 TPS, but when the main network gets congested, it drops to 1,000 TPS because software nodes suffer 'thermal fatigue' under high load. InfiniSVM directly solders core components onto custom chips, using military-grade cooling and redundancy design to achieve '1.2 million TPS running continuously for 30 days without fluctuations'. A certain payment institution's tests showed: under the impact of 800,000 transactions per second on Black Friday, InfiniSVM's latency remained stable at 8 milliseconds, while traditional chains had long collapsed.
Even more impressive is the 'fault-tolerant industrial design': hardware nodes come with 'hot backups'. If a certain node suddenly loses power, neighboring nodes take over its work within 0.1 seconds, with zero data loss. This is like equipping the blockchain with a 'dual-engine aircraft' safety system, whereas traditional software nodes losing power is like 'a bicycle losing its chain'.
Supermarket cashiers have the most authority to speak: 'Previously, swiping an encrypted card took 30 seconds, now it's as fast as Alipay, and the bill shows the on-chain hash. The boss says this is called 'every transaction goes on the assembly line.' When blockchain can be as stable as a cash register, it deserves to be called 'industrial-grade.'
2. Emerald Card: Mining through consumption, swipe $100 at the supermarket to earn $5, with hardware making rewards arrive even faster than wages.
Blockchain is only a step away from popularization with an 'application that even grandmothers can understand.' Solayer's Emerald Card has achieved this. This card turns InfiniSVM's hardware performance into a 'supermarket-level experience'—you spend cryptocurrency, and the rewards you earn are more than cash back, with arrival speeds that would make salary cards blush.
Emerald Card solves the pain points of traditional encrypted payments entirely with hardware:
• Speed: InfiniSVM's hardware acceleration allows transaction confirmation to be faster than credit card authorization (300 milliseconds vs 2 seconds); when the supermarket scanner beeps, the blockchain has already recorded the transaction, and cashiers no longer need to post signs saying 'Please wait 5 minutes for encrypted payment'.
• Rewards: Real-time calculation of rewards at the time of card swiping; spend $100 on groceries to earn $5, with arrival speed faster than getting change at the supermarket. A certain housewife shared: 'I spent $800 on groceries in a month, and the rewards I earned were enough to buy 2 buckets of oil, much better than my membership card.'
• Bills: Hardware-level visualization engine converts on-chain hashes into 'supermarket receipt-style bills', understandable even for elderly individuals who do not know how to use smartphones, showing 'how much was spent, how much was returned, and which transaction did not arrive'.
After a certain chain supermarket was integrated, the proportion of encrypted payments skyrocketed from 1% to 25%; the store manager said: 'Previously, young people found it troublesome; now, grandmothers specifically ask, 'Can I swipe that card with rewards?'' When blockchain can make supermarket grandmothers actively participate, that is true popularization.
3. Developers' 'industrial toolkit': AI runs in real-time on the blockchain, IoT data uploads in batches, hardware simplifies complex applications.
What developers fear most is not 'impossibility', but 'even if it is possible, it won't run'. Solayer's InfiniSVM turns 'complex application development' into 'building blocks', with hardware acceleration making AI and IoT applications into standardized modules.
AI models are 'working in real-time' on the blockchain: running AI on traditional blockchain is like 'a tractor pulling a rocket', InfiniSVM's hardware acceleration chip makes lightweight AI models 'available on demand'. A certain fresh food platform uses it to analyze temperature data from 100,000 supermarket refrigerators in real-time on the blockchain, automatically triggering restocking when temperatures exceed limits, reducing response time from 2 hours to 10 seconds and cutting loss rates by 30%. 'Previously, it took 5 minutes for an AI model to run once; now it's as fast as a cashier scanning a barcode.'
IoT data 'uploaded in batches': the factory's sensors generate 100,000 data points every second, and uploading them one by one on traditional blockchain is like 'ants moving houses'. InfiniSVM's hardware-level data compression technology packages 100,000 data points into a 'blockchain data packet', reducing transmission time from 10 minutes to 1 second. A certain car manufacturer uses it to manage 1,000 production lines, cutting on-chain data costs by 90%.
Developers no longer need to be 'hardware experts': through the 'hardware abstraction layer', developers can drag and drop to call up million TPS performance. A certain university student team developed a 'campus encrypted payment system' in 3 days, supporting 50,000 transactions per second; 'It used to take three months to learn chip knowledge, now it's as easy as using a WeChat payment API.'
4. Institutions' 'asset assembly lines': government bonds earning interest daily on the blockchain, cross-border transfers like sending WeChat messages, hardware makes compliance a standard feature.
Institutions are most annoyed not by 'not wanting to use blockchain', but by 'having to fix it every day after using it'. Solayer's InfiniSVM uses hardware-level compliance design to turn 'asset on-chain' into 'assembly line operations', standardizing government bonds, stocks, and cross-border remittances.
RWA on the blockchain is like 'canned food processing': a certain asset management company put $1 billion in government bonds on the blockchain via InfiniSVM, ensuring that each bond's ownership record is tamper-proof with hardware-level encryption, and interest is automatically settled daily. 'Previously, 5 people had to verify paper documents; now you can just click on the blockchain to see it clearly, with interest calculated to the penny.' Even more impressive is 'real-time auditing'—regulatory agencies can check accounts anytime through a dedicated hardware interface without touching core data, reducing compliance costs by 70%.
Cross-border transfers become 'instant messaging': a certain foreign trade company used InfiniSVM to transfer $1 million to Europe, with hardware acceleration reducing settlement time from 3 days to 8 seconds, and fees from $500 to $0.5. 'Previously, clients always asked, 'Has the money arrived?'; now, I just send a screenshot of the on-chain hash, and the other party confirms it in seconds—it's as convenient as sending a WeChat message.'
Institutions no longer need to train 'blockchain experts': InfiniSVM's 'compliance modules' are standardized plugins that can be directly embedded into existing systems without needing to reconstruct IT architecture. A certain bank's technical director said: 'Previously, going on-chain required changing 300 system interfaces; now, just plug in a hardware module, and it's done. The IT department lost 10 hairs.'
5. The 'democratized nodes' of the community: your phone can act as a validator, and home computers can earn rewards, with hardware making decentralization no longer dependent on computing power.
The biggest lie about blockchain is not 'decentralization', but 'only large mining farms can participate in decentralization'. Solayer's 'edge computing nodes' design allows your phone and home computer to act as validators, reducing the hardware barrier to 'the price of a cup of milk tea'.
Traditional blockchain's verification nodes are like 'luxury sports cars'—they require expensive graphics cards and dedicated servers, which ordinary people cannot afford. InfiniSVM's 'edge node' design allows phones to participate in the network through a 'lightweight verification mode': no need to store all data, just verify nearby transactions, consuming less power than watching short videos. A certain student ran a node on an old phone and earned enough $LAYER in a month to buy 2 game skins, saying, 'I used to think mining was for the rich; now I can earn just by lying down.'
Fairer is the 'contribution reward': node rewards are based on 'service quality' rather than computing power—if your phone is near the supermarket, it prioritizes verifying payment transactions, with rewards higher than distant large mining machines. Community data shows: edge nodes account for 40%, and the network's decentralization degree (Nakamoto coefficient) is 3 times higher than Solana.
Community grandmother Wang Ayi's words are the most straightforward: 'I don't understand what blockchain is, I just know that connecting my old phone to WiFi lets me earn some money for groceries every day. Solayer calls this 'everyone can be a miner.' When decentralization allows grandmothers to participate, that is true decentralization.
Conclusion: The 'industrial revolution' of blockchain is only a Solayer away from the supermarket.
From steam engines replacing manual labor to assembly lines replacing workshops, the core of each industrial revolution is 'standardization, stabilization, and democratization'. Solayer's InfiniSVM is doing the same for blockchain—using hardware acceleration to stabilize performance like an assembly line, using Emerald Card to simplify applications like supermarket scanning, and using edge nodes to lower participation thresholds to the level of playing with a phone.
This is not a technological breakthrough; it's a reconstruction of production relationships: developers no longer need to worry about performance, institutions no longer need to fret about compliance, and users no longer retreat due to complicated operations. When blockchain can integrate into life like cash registers, mobile phones, and assembly lines, that is true popularization.
Today's Solayer is like Ford's assembly line 100 years ago—while others are still discussing 'whether cars can run', it has already made cars accessible to every household. In this blockchain industrial revolution, you either get on the bus or get left behind by the assembly line.
