XDPoS on pristine go-ethereum v1.17.3 — measured
How we re-based the XDPoS engine onto current go-ethereum and what it inherits — path-based state, Pebble, freezer, snap sync — with bit-exact consensus parity.
Read the deep-diveHighlights from our research and engineering — multi-client infrastructure, the modern go-ethereum re-baseline, and the post-quantum work behind XDSS-PQ. Each entry below links to the full write-up on this site.
This isn't a stream of announcements — it's an honest index of the deep-dives already on this site. Every card links to the full page it summarises.
How we re-based the XDPoS engine onto current go-ethereum and what it inherits — path-based state, Pebble, freezer, snap sync — with bit-exact consensus parity.
Read the deep-diveFour independent clients across three languages — go-ethereum (GP5), Erigon, Nethermind and Reth — live on mainnet, so no single implementation can halt the chain.
Read the architectureWhy we're mapping and migrating XDC's quantum-exposed surface now, and the post-quantum signature standard (XDSS-PQ) built on NIST-selected algorithms.
Read the initiativeWhy "when will quantum break ECDSA?" is best treated as a risk distribution — and what that means for 20–30 year trade documents you can't re-sign later.
Read the framingA walk through XDC's quantum-exposed surface — signatures, validator keys, bridges and P2P — and the harvest-now-decrypt-later threat model.
Read the researchOur take on Craig Gidney's 2025 estimate that breaking RSA-2048 may need far fewer qubits than once thought — and why it tightens the timeline for migration.
Read the analysisDates reflect when each topic was written up for this site. These entries summarise and index existing pages and published research — follow each link for the full detail and sources.
Explore the engineering and the post-quantum initiative behind XDC Innovation Labs — or get in touch with the team.