Edited ch08.asciidoc with Atlas code editor

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judymcconville@roadrunner.com 7 years ago
parent f4657f0611
commit 78cc0ee215

@ -51,11 +51,11 @@ image::images/mbc2_0803.png["BitcoinNetwork"]
Bitcoin miners are engaged in a time-sensitive competition to solve the Proof-of-Work problem and extend the blockchain (see <<mining>>). While participating in this competition, bitcoin miners must minimize the time between the propagation of a winning block and the beginning of the next round of competition. In mining, network latency is directly related to profit margins.
((("Corallo, Matt")))((("Compact Block optimization")))A _Bitcoin Relay Network_ is a network that attempts minimize the latency in the transmission of blocks between miners. The original http://www.bitcoinrelaynetwork.org[Bitcoin Relay Network] was created by core developer Matt Corallo in 2015 to enable fast synchronization of blocks between miners with very low latency. The network consisted of several specialized nodes hosted on Amazon Web Services infrastructure around the world and served to connect the majority of miners and mining pools.
((("Corallo, Matt")))A _Bitcoin Relay Network_ is a network that attempts minimize the latency in the transmission of blocks between miners. The original http://www.bitcoinrelaynetwork.org[Bitcoin Relay Network] was created by core developer Matt Corallo in 2015 to enable fast synchronization of blocks between miners with very low latency. The network consisted of several specialized nodes hosted on Amazon Web Services infrastructure around the world and served to connect the majority of miners and mining pools.
((("Fast Internet Bitcoin Relay Engine (FIBRE)")))The original Bitcoin Relay Network was replaced in 2016 with the introduction of the _Fast Internet Bitcoin Relay Engine_ or http://bitcoinfibre.org[_FIBRE_], also created by core developer Matt Corallo. FIBRE is a UDP-based relay network that relays blocks within a network of nodes. FIBRE implements the _Compact Block_ (see <<compact_block>>) optimization to further reduce the amount of data transmitted and the network latency.
((("Fast Internet Bitcoin Relay Engine (FIBRE)")))((("Compact Block optimization")))The original Bitcoin Relay Network was replaced in 2016 with the introduction of the _Fast Internet Bitcoin Relay Engine_ or http://bitcoinfibre.org[_FIBRE_], also created by core developer Matt Corallo. FIBRE is a UDP-based relay network that relays blocks within a network of nodes. FIBRE implements the _Compact Block_ (see <<compact_block>>) optimization to further reduce the amount of data transmitted and the network latency.
Another relay network (still in the proposal phase) is http://www.falcon-net.org/about[_Falcon_], based on research at Cornell University. Falcon uses "cut-through-routing" instead of "store-and-forward" to reduce latency by propagating parts of blocks as they are received rather than waiting until a complete block is received.
((("Falcon Relay Network")))Another relay network (still in the proposal phase) is http://www.falcon-net.org/about[_Falcon_], based on research at Cornell University. Falcon uses "cut-through-routing" instead of "store-and-forward" to reduce latency by propagating parts of blocks as they are received rather than waiting until a complete block is received.
Relay networks are not replacements for bitcoin's P2P network. Instead they are overlay networks that provide additional connectivity between nodes with specialized needs. Like freeways are not replacements for rural roads, but shortcuts between two points with heavy traffic, you still need small roads to connect to the freeways.

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