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Why is Solayer the Most Promising Layer1 on Solana? Why Should Everyone Have an Emerald Card?
I. Reasons Why Solayer is the Most Promising Layer1 on Solana
1. Breakthroughs in Technical Performance:
Hardware Acceleration and High Performance: Solayer achieves dedicated hardware (such as ASIC/FPGA) and software co-design through InfiniSVM, offloading high computation load tasks (such as signature verification) to chips, with EdDSA signature verification speed reaching 1.4 million times/second (FPGA solution improves 17 times compared to CPU), combined with RDMA network optimization (latency reduced to microsecond level) and smart network cards (latency 0.7μs), transaction processing efficiency approaches physical limits.
Dynamic Sharding and Infinite Scalability: Utilizing dynamic sharding technology to automatically allocate computing resources based on load, a single cluster TPS has reached 227,000, and performance can scale linearly with the number of clusters, with a theoretical target of 1 million TPS, completely breaking through the scalability bottleneck of blockchain.
1. Breakthroughs in Technical Performance:
Hardware Acceleration and High Performance: Solayer achieves dedicated hardware (such as ASIC/FPGA) and software co-design through InfiniSVM, offloading high computation load tasks (such as signature verification) to chips, with EdDSA signature verification speed reaching 1.4 million times/second (FPGA solution improves 17 times compared to CPU), combined with RDMA network optimization (latency reduced to microsecond level) and smart network cards (latency 0.7μs), transaction processing efficiency approaches physical limits.
Dynamic Sharding and Infinite Scalability: Utilizing dynamic sharding technology to automatically allocate computing resources based on load, a single cluster TPS has reached 227,000, and performance can scale linearly with the number of clusters, with a theoretical target of 1 million TPS, completely breaking through the scalability bottleneck of blockchain.
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Summary: The 'Trinity' Innovation and Industry Potential of the Solayer Ecosystem
First, InfiniSVM: Breakthrough of the 'Physical Limits' of Blockchain Performance**
1. **Hardware Acceleration Restructuring Performance Ceiling**
- **Dedicated Chip Offloading**: Uses ASIC/FPGA to handle high-load tasks like signature verification, with FPGA achieving **1.4 million EdDSA verifications per second** (17 times faster than CPU), releasing general computing power bottlenecks.
- **RDMA Network Optimization**: Microsecond-level delay synchronization based on InfiniBand (98Gbps transmission speed, 40 times faster than TCP/IP), combined with SmartNICs to reduce network latency to **0.7μs**, approaching physical limits.
- **Dynamic Sharding and Parallel Architecture**: Transaction sharding allows for maximum cluster parallel processing, with a single cluster TPS reaching **227,000**, reducing account conflict rates from 38% to 6.7%, supporting infinite scalability.
1. **Hardware Acceleration Restructuring Performance Ceiling**
- **Dedicated Chip Offloading**: Uses ASIC/FPGA to handle high-load tasks like signature verification, with FPGA achieving **1.4 million EdDSA verifications per second** (17 times faster than CPU), releasing general computing power bottlenecks.
- **RDMA Network Optimization**: Microsecond-level delay synchronization based on InfiniBand (98Gbps transmission speed, 40 times faster than TCP/IP), combined with SmartNICs to reduce network latency to **0.7μs**, approaching physical limits.
- **Dynamic Sharding and Parallel Architecture**: Transaction sharding allows for maximum cluster parallel processing, with a single cluster TPS reaching **227,000**, reducing account conflict rates from 38% to 6.7%, supporting infinite scalability.
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Ethereum (ETH) Future Price Analysis: The Game of Short-Term Volatility and Long-Term Potential
In 2025, the ETH price may experience a "deep squat jump" trend. In the short term, a shift in Federal Reserve policy, continuous inflow of ETF funds, and the Layer 2 expansion effect after the Dencun upgrade will drive it past the resistance levels of $4000-5000. If market sentiment improves, it may challenge $6000-7000 by the end of the year.
In the medium term (2026-2027), the core logic will shift towards technological empowerment and scenario penetration. After the implementation of Pectra sharding technology, a TPS exceeding 100,000 will reshape the competitiveness of the DeFi and NFT ecosystems. Coupled with the capital overflow effect after Bitcoin's halving, the price center of ETH may rise to the range of $8000-12000.
In the long term (2028-2030), three triple variables must be monitored: first, the SEC's regulatory classification of staking rewards may trigger compliance shocks; second, the encroachment of competing chains like Solana in high-throughput scenarios; third, the potential threat of quantum computing to ECDSA signatures. If the technological moat is solid and institutional staking rates exceed 40%, ETH is expected to challenge the historical high of $15000-20000, but caution is needed regarding the "short bull and long bear" cycle in crypto.
In 2025, the ETH price may experience a "deep squat jump" trend. In the short term, a shift in Federal Reserve policy, continuous inflow of ETF funds, and the Layer 2 expansion effect after the Dencun upgrade will drive it past the resistance levels of $4000-5000. If market sentiment improves, it may challenge $6000-7000 by the end of the year.
In the medium term (2026-2027), the core logic will shift towards technological empowerment and scenario penetration. After the implementation of Pectra sharding technology, a TPS exceeding 100,000 will reshape the competitiveness of the DeFi and NFT ecosystems. Coupled with the capital overflow effect after Bitcoin's halving, the price center of ETH may rise to the range of $8000-12000.
In the long term (2028-2030), three triple variables must be monitored: first, the SEC's regulatory classification of staking rewards may trigger compliance shocks; second, the encroachment of competing chains like Solana in high-throughput scenarios; third, the potential threat of quantum computing to ECDSA signatures. If the technological moat is solid and institutional staking rates exceed 40%, ETH is expected to challenge the historical high of $15000-20000, but caution is needed regarding the "short bull and long bear" cycle in crypto.
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