Everything You Need to Know About Ethereum’s Next Big Upgrade
The upcoming Glamsterdam upgrade marks one of Ethereum's most significant technical overhauls in years - and understanding what's coming could matter for every participant in the ecosystem, from developers to everyday holders.
Key Takeaways
- Glamsterdam brings faster block processing and smarter fee pricing – no hardware upgrades needed.
- The new Reservoir gas system removes current contract size limits and lets different resources scale independently.
- ZK-proofs roll out gradually – 2026 for early testing, 2027 for broader adoption, with a multi-proof security model as the end goal.
Vitalik Buterin, Ethereum’s co-founder, recently elaborated on X what to know about the blockchain’s roadmap and what to expect.
Glamsterdam: Making Ethereum Faster Without New Hardware
The Glamsterdam upgrade centers on one core idea: doing more with what already exists.
Right now, Ethereum nodes process blocks one step at a time — sequentially. The upgrade introduces something called Block-level Access Lists, which allows nodes to handle multiple parts of a block at the same time, in parallel. The practical result is faster block verification across the entire network.
Alongside this, a change called Enshrined Proposer-Builder Separation (ePBS) allows the network to use nearly the full time available in each slot for verifying blocks — compared to just milliseconds today. More time for verification means more room for the network to grow without compromising stability.
On the cost side, the roadmap proposes adjusting gas fees to better reflect what operations actually cost the network. Creating new storage, for example, would become more expensive — but raw execution capacity would scale independently, keeping the network competitive.
2. A Smarter Way to Handle Network Resources
Today, Ethereum’s virtual machine treats every operation as if it consumes just one type of resource. That’s an oversimplification — and it creates real limits.
The proposed solution is a “Reservoir” system that separates resources into multiple dimensions. Specialized operations (like creating new on-chain storage) draw from their own dedicated resource pool first. When that pool runs dry, the system dips into a shared general reserve.
This design solves a long-standing ceiling: contracts larger than the current 16 million gas cap become possible without breaking existing applications. Over time, each resource dimension would have its own dynamic pricing — similar to how EIP-1559 works today — allowing different parts of the network to scale at their own pace.
3. ZK-Proofs: Ethereum’s Long Game
The most forward-looking part of the roadmap outlines a multi-year transition toward a chain where every block is verified using ZK-SNARKs — cryptographic proofs that confirm something is true without requiring full re-execution.
The timeline breaks down roughly as follows:
By 2026, a small share of the network (around 5%) is expected to begin running ZK-EVM clients in a testing capacity — not yet considered fully safe for the whole network, but enough to gather real data without putting validators at risk.
By 2027, once roughly 20% of validators are running ZK-EVMs, the gas limit could be raised significantly. Solo stakers — who make up less than 20% of the network — would gain access to a lightweight verification path, meaning scaling no longer requires expensive hardware.
The end state envisions a “3-of-5 multi-proof” model, where a block needs valid proofs from three out of five distinct proof systems before it’s accepted. This prevents a single bug in one prover from being able to compromise the entire chain.
4. Data Availability: Ethereum Becoming Its Own Archive
The PeerDAS upgrade targets roughly 8 MB per second in data availability capacity — a major step up from current levels.
More notably, Ethereum’s own block data is expected to eventually migrate into blobs. This means users would be able to verify the full chain using ZK-SNARKs for execution and PeerDAS for data — without ever needing to download the complete history. Light verification becomes the default, not the exception.
The Bigger Picture
Across all four areas, a consistent theme emerges: Ethereum is engineering a future where scaling doesn’t come at the cost of decentralization. Solo staking remains viable. ZK-proofs handle the heavy computational lifting. And the architecture is being redesigned from the ground up to support resources — compute, storage, data — scaling independently of one another.
The shift toward RISC-V and other more efficient virtual machine architectures is also on the horizon, once the ZK-EVM foundation is in place.
This is a long-term build — but the milestones are concrete, the timeline is public, and the pieces are starting to move.
The information provided in this article is for educational purposes only and does not constitute financial, investment, or trading advice. Coindoo.com does not endorse or recommend any specific investment strategy or cryptocurrency. Always conduct your own research and consult with a licensed financial advisor before making any investment decisions.
Alex is an experienced financial journalist and cryptocurrency enthusiast. With over 8 years of experience covering the crypto, blockchain, and fintech industries, he is well-versed in the complex and ever-evolving world of digital assets. His insightful and thought-provoking articles provide readers with a clear picture of the latest developments and trends in the market. His approach allows him to break down complex ideas into accessible and in-depth content. Follow his publications to stay up to date with the most important trends and topics.
