You signed in with another tab or window. Reload to refresh your session.You signed out in another tab or window. Reload to refresh your session.You switched accounts on another tab or window. Reload to refresh your session.Dismiss alert
Peerings with “sparse” status, an explicit opt in on both sides go allow a connection more low-throughput, high-latency, more unreliable, or with less duty cycles than the current pinecone peerings require.
Why
Primarily, iot devices, to allow for power savings, yet stay connected to the network at times, allowing peers at the other side of the sparse connection to queue up packets and send them through whenever the underlying transport allows.
Secondly, resiliency in unreliable conditions, where a peer wants to accept high-latency costs, at the benefit of not becoming disconnected from the network at large. (Think remote outposts in unfavourable weather conditions resulting in unreliable uplinks, or network operators in hostile environments requiring prolonged connectivity over intermittent outages)
The text was updated successfully, but these errors were encountered:
What
Peerings with “sparse” status, an explicit opt in on both sides go allow a connection more low-throughput, high-latency, more unreliable, or with less duty cycles than the current pinecone peerings require.
Why
Primarily, iot devices, to allow for power savings, yet stay connected to the network at times, allowing peers at the other side of the sparse connection to queue up packets and send them through whenever the underlying transport allows.
Secondly, resiliency in unreliable conditions, where a peer wants to accept high-latency costs, at the benefit of not becoming disconnected from the network at large. (Think remote outposts in unfavourable weather conditions resulting in unreliable uplinks, or network operators in hostile environments requiring prolonged connectivity over intermittent outages)
The text was updated successfully, but these errors were encountered: