From 8a1c3d9a49dc20d5717e1efbfd79fc17c501161a Mon Sep 17 00:00:00 2001 From: clenser Date: Thu, 19 Oct 2023 15:07:35 +0000 Subject: [PATCH] Edited ch10_network.adoc with Atlas code editor --- ch10_network.adoc | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/ch10_network.adoc b/ch10_network.adoc index 7c66f8bf..24300679 100644 --- a/ch10_network.adoc +++ b/ch10_network.adoc @@ -83,7 +83,7 @@ merchant payment processing) to be built on top. === Compact Block Relay -When a miner finds a new block, they announce it to the Bitcoin network +When a ((("Bitcoin network", "blocks", "compact block relay", id="bitcoin-network-block-compact-relay")))((("blocks", "compact block relay", id="block-compact-relay")))((("compact block relay", id="compact-block-relay")))((("mining", "blocks", "compact block relay", id="mining-block-compact-relay")))miner finds a new block, they announce it to the Bitcoin network (which includes other miners). The miner who found that block can start building on top of it immediately; all other miners who haven't learned about the block yet will continue building on top of the previous block @@ -182,7 +182,7 @@ The names of the two methods (which are taken from BIP152) can be a bit confusing. Low-bandwidth mode saves bandwidth by not sending blocks in most cases. High-bandwidth mode uses more bandwidth than low-bandwidth mode but, in most cases, much less bandwidth than was used for block -relay before compact blocks were implemented. +relay before compact blocks were ((("Bitcoin network", "blocks", "compact block relay", startref="bitcoin-network-block-compact-relay")))((("blocks", "compact block relay", startref="block-compact-relay")))((("compact block relay", startref="compact-block-relay")))((("mining", "blocks", "compact block relay", startref="mining-block-compact-relay")))implemented. === Private Block Relay Networks