1/ Solana is rolling out the ... | Aryan OKX Feed

1/ Solana is rolling out the most significant change to its core protocol since launch: a new consensus mechanism called Alpenglow. This thread breaks down how Alpenglow works, how it compares to Ethereum's Proof-of-Stake, and what this means for developers, users, and investors. 🧵

2/ Alpenglow replaces Solana’s original Proof of History + Tower BFT consensus with two new components: – Rotor, for fast block propagation – Votor, for fast and simple voting The goal is to improve throughput, simplify the protocol, and reduce time to finality by over 100×

3/ Under Alpenglow, Solana achieves finality in ~150 milliseconds. This is deterministic finality. Once a transaction is confirmed, it is permanent. Not probabilistic, not “optimistic.” It replaces Solana’s previous ~12.8s finality under Tower BFT and removes PoH entirely.

4/ Rotor uses erasure-coded shreds and one-hop relays to disseminate blocks efficiently. Rather than relying on leader upload bandwidth or gossip trees, Rotor saturates total network bandwidth using stake-weighted relays. Result: faster propagation, lower latency.

5/ Votor replaces Tower’s vote locking and multi-round finality with a dual-mode process: – If ≥80% of stake votes, block is finalized in one round – If ≥60% votes, two rounds are run concurrently Finality = min(δ₈₀%, 2×δ₆₀%), where δ = network delay among those % of stake.

6/ Transaction finality = when a transaction becomes irreversible It matters because until then, it can be censored, reordered, or dropped in a fork Finality is key to censorship resistance and off-chain trust Solana now finalizes in ~0.15s Ethereum takes ~12.8 minutes (2 epochs)

7/ Block production time: – Solana (Alpenglow): 400ms fixed slots – Ethereum: 12s slots Throughput: – Solana: 1,000+ TPS in practice – Ethereum: ~30 TPS on L1 (relies on L2s for scale) Finality: – Solana: ~0.15s – Ethereum: ~12.8m

8/ Ethereum prioritizes decentralization and safety. It tolerates 33% adversarial stake and has ~1M validators. Finality halts with >⅓ offline. Solana tolerates 20% malicious + 20% offline stake. ~2K validators. centralized, but optimized for speed and fault tolerance under real-world conditions

9/ Ethereum’s design now treats L1 increasingly as a data availability and finality layer. (Further evident with RISC-V proposal) Execution is expected to happen on rollups (L2s), which inherit Ethereum’s security but offer faster, cheaper txs. Solana handles execution and consensus directly on L1.

10/ This divergence is strategic: Ethereum leans into a modular architecture: – L1: Finality + DA – L2s: Execution + UX Solana remains monolithic: consensus, execution, and settlement occur on the same layer. Only now with millisecond latency.

11/ On developer UX: – Solana finality allows real-time confirmation of transactions – No confirmation polling or block depth logic – Vote txs removed. Cleaner app code – Execution + finality = one step Ethereum devs must account for reorg risk, L1→L2 bridging, and eventual confirmation

12/ On user experience: – Solana UX is fast and cheap (sub-second txs, <$0.001) – Ethereum L1 is secure but slow and expensive – L2s improve Ethereum UX, but add cognitive and technical overhead (bridges, network switching) Solana delivers the experience directly on L1.

13/ With Alpenglow consensus, complexity is also reduced: – PoH eliminated – Voting off-chain via BLS certs – No vote spam – Leader failures skipped automatically This improves validator efficiency and lowers hardware cost ceilings, though performance requirements remain high.

14/ Security tradeoffs: – Solana: <20% adversarial stake tolerated – Ethereum: <33% Solana trades worst-case Byzantine safety for best-case performance and faster recovery. Ethereum prioritizes predictability and robustness under attack.

15/ Implications for applications: Solana now enables real-time on-chain apps: – Order book DEXs – High-frequency trading – On-chain games – Social protocols – Payments & remittances – Real-time DeFi automation No need for L2s to achieve usable latency.

16/ Bottom line: Ethereum is a secure, decentralized base layer for a modular rollup stack. Solana is a high-performance monolithic chain optimized for real-time use. Alpenglow doesn’t try to replicate Ethereum, it offers fundamentally different blockspace. Choose accordingly.

2.86K

The content on this page is provided by third parties. Unless otherwise stated, OKX is not the author of the cited article(s) and does not claim any copyright in the materials. The content is provided for informational purposes only and does not represent the views of OKX. It is not intended to be an endorsement of any kind and should not be considered investment advice or a solicitation to buy or sell digital assets. To the extent generative AI is utilized to provide summaries or other information, such AI generated content may be inaccurate or inconsistent. Please read the linked article for more details and information. OKX is not responsible for content hosted on third party sites. Digital asset holdings, including stablecoins and NFTs, involve a high degree of risk and can fluctuate greatly. You should carefully consider whether trading or holding digital assets is suitable for you in light of your financial condition.