@FeisalXec did it again — another brutal sweep, and this time he really put the PayButton Field to the test! 🔥Truly appreciate the move 🙌 That said, I gotta clarify: the cashback promo applies only once, and it’s exclusive to new buyers. Thank you 🙏 #NFTcollector #eCash $XEC pic.twitter.com/mNUwmvdHVm
— NFToa (@nftoa_) July 27, 2025
Status: (SF Dual GNSS)
Stands for StarFire Dual Global Navigation Satellite System, this status indicates that a navigation with Starfire Dual GNSS mode, thus indicating that the navigation receiver with Starfire Format already supports GLONASS with an accuracy of <5cm.
Getac, Controller GPS GNSS NAVCOM
Latency : 4.0 SF LBND
Latency itself is how much time is needed to send a message from one end of the network to the other end of the network (one way) or there is also (two way) aka back and forth known as RTT (round-trip time), the time unit used is milliseconds (ms).
4.0 indicates the delay that affects data/message transfer, in ms.
An illustration of Latency is, for example, we use an ISP with a maximum data speed of 1Mbps, but due to interference, so that 1Mb of data should reach its destination in 1s but is delayed by 5.0 ms.
Based on the description above, we can also conclude that Latency is the accumulation of time due to external interference, the smaller the latency value, the better the connection quality.
SF
It stands for StarFire, which is a high-class Ultra Port Architecture (UPA) system category in a Workstation developed by Sun Microsystems. Sun Microsystems is a leading semiconductor and software manufacturer headquartered in Silicon Valley, Santa Clara, California. The products it develops are Servers, Workstations, Storage and Services.
The following is an excerpt from the StarFire specification taken from the paper by Alan Charlesworth, Nicholas Aneshansley, Mark Haakmeester, Drogichen, Gary Gilbert, Ricki Williams and Andrew Phelps (Sun Microsystems, Inc. Team) entitled "The Starfire SMP Interconnect" .
Satellites: 12/12
Shows the number of satellites that can be captured. For the Geodetic Receiver Class to reach the Fix position, the minimum number of satellites that must be captured is 4.