Difference between revisions of "Translations:How VeriBlock PoP vBFI Protects Altchains/10/en"

From Veriblock Wiki
Jump to: navigation, search
(Importing a new version from external source)
 
m (FuzzyBot moved page Translations:How VeriBlock PoP BFI Protects Altchains/10/en to Translations:How VeriBlock PoP vBFI Protects Altchains/10/en without leaving a redirect: Part of translatable page "How VeriBlock PoP BFI Protects Altchains")
 
(No difference)

Latest revision as of 19:38, 22 July 2021

Information about message (contribute)

This message has no documentation. If you know where or how this message is used, you can help other translators by adding documentation to this message.

Message definition (How VeriBlock PoP vBFI Protects Altchains)
A Proof-of-Proof secured altchain protects its users from double-spend (51%) attacks by emitting real-time security statistics for any block (and the transactions included therein) on the altchain network by looking at these malicious publications (or a lack thereof). These security statistics indicate exactly how difficult replacing a particular block (containing a particular transaction) on the altchain network is, ranging from only needing to reorganize ''n'' altchain blocks, to needing to reorganize ''n'' VeriBlock blocks, to needing to reorganize ''n'' Bitcoin blocks. When the number of Bitcoin blocks an attacker would need to reorganize a particular altchain block is greater than zero, that altchain block (and all contained transactions) have achieved Bitcoin-finality, meaning Bitcoin itself would have to experience a 51% attack in order to be able to reverse that altchain block (and all contained transactions).
TranslationA Proof-of-Proof secured altchain protects its users from double-spend (51%) attacks by emitting real-time security statistics for any block (and the transactions included therein) on the altchain network by looking at these malicious publications (or a lack thereof). These security statistics indicate exactly how difficult replacing a particular block (containing a particular transaction) on the altchain network is, ranging from only needing to reorganize ''n'' altchain blocks, to needing to reorganize ''n'' VeriBlock blocks, to needing to reorganize ''n'' Bitcoin blocks. When the number of Bitcoin blocks an attacker would need to reorganize a particular altchain block is greater than zero, that altchain block (and all contained transactions) have achieved Bitcoin-finality, meaning Bitcoin itself would have to experience a 51% attack in order to be able to reverse that altchain block (and all contained transactions).

A Proof-of-Proof secured altchain protects its users from double-spend (51%) attacks by emitting real-time security statistics for any block (and the transactions included therein) on the altchain network by looking at these malicious publications (or a lack thereof). These security statistics indicate exactly how difficult replacing a particular block (containing a particular transaction) on the altchain network is, ranging from only needing to reorganize n altchain blocks, to needing to reorganize n VeriBlock blocks, to needing to reorganize n Bitcoin blocks. When the number of Bitcoin blocks an attacker would need to reorganize a particular altchain block is greater than zero, that altchain block (and all contained transactions) have achieved Bitcoin-finality, meaning Bitcoin itself would have to experience a 51% attack in order to be able to reverse that altchain block (and all contained transactions).