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In traditional Ethernet, when a switch buffer fills up, packets are dropped. TCP detects this drop and slows down transmission. However, in lossless environments (like Fibre Channel over Ethernet or iSCSI), dropping packets is catastrophic. QCN solves this by providing a .
is the process of monitoring, logging, and analyzing these CNM messages as they traverse the network.
A nascent field involves using quantum illumination to track objects. While not strictly a network protocol, this technology utilizes entangled photons to track targets with a signal-to-noise ratio impossible to achieve with classical radar. This represents the ultimate "QCN Tracking" capability: tracking that is invisible to the target being tracked.
In traditional Ethernet, when a switch buffer fills up, packets are dropped. TCP detects this drop and slows down transmission. However, in lossless environments (like Fibre Channel over Ethernet or iSCSI), dropping packets is catastrophic. QCN solves this by providing a .
is the process of monitoring, logging, and analyzing these CNM messages as they traverse the network.
A nascent field involves using quantum illumination to track objects. While not strictly a network protocol, this technology utilizes entangled photons to track targets with a signal-to-noise ratio impossible to achieve with classical radar. This represents the ultimate "QCN Tracking" capability: tracking that is invisible to the target being tracked.
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