synchronization$81104$ - significado y definición. Qué es synchronization$81104$
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Qué (quién) es synchronization$81104$ - definición

TERM IN COMPUTER SCIENCE
Tcp global synchronization; Global synchronization

Synchronization (alternating current)         
  •  From top to bottom: [[synchroscope]], voltmeter, frequency meter. When the two systems are synchronized, the pointer on the synchrosope is stationary and points straight up.
PROCESS OF MATCHING THE SPEED AND FREQUENCY OF A GENERATOR OR OTHER SOURCE TO A RUNNING ALTERNATING CURRENT POWER NETWORK
Alternator synchronization; Isochronous frequency; Sochronous frequency; Synchronous generator
In an alternating current electric power system, synchronization is the process of matching the frequency of a generator or other source to a running network. An AC generator cannot deliver power to an electrical grid unless it is running at the same frequency as the network.
Estrous synchronization         
METHOD OF ARTIFICIAL BREEDING
Estrus synchronization; Wikipedia talk:Articles for creation/Oestrous Synchronisation
In agriculture, estrous synchronization is used (particularly in the dairy and beef industries) to facilitate breeding by artificial insemination.
synchronous         
  • Troops use synchronization to learn teamwork
  • A mechanical demonstration of synchronization of oscillators: [[metronome]]s, initially out of phase, synchronize through small motions of the base on which they are placed
COORDINATION OF EVENTS TO OPERATE A SYSTEM IN UNISON
Synchronous; Synchronizing; Synchronisation; Synchronise; Synchronize; Nonsynchronous; Synchronising; Unsynchronized; Synching; Video synching; Time synchronization; Sync cable; Film synchronization; Synchronizability; Timing synchronization
['s??kr?n?s]
¦ adjective
1. existing or occurring at the same time.
2. of or denoting a satellite which revolves in its orbit in exactly the same time as the primary body rotates on its axis.
Derivatives
synchronously adverb
Origin
C17: from late L. synchronus (from Gk sunkhronos, from sun- 'together' + khronos 'time') + -ous.

Wikipedia

TCP global synchronization

TCP global synchronization in computer networks can happen to TCP/IP flows during periods of congestion because each sender will reduce their transmission rate at the same time when packet loss occurs.

Routers on the Internet normally have packet queues, to allow them to hold packets when the network is busy, rather than discarding them.

Because routers have limited resources, the size of these queues is also limited. The simplest technique to limit queue size is known as tail drop. The queue is allowed to fill to its maximum size, and then any new packets are simply discarded until there is space in the queue again.

This causes problems when used on TCP/IP routers handling multiple TCP streams, especially when bursty traffic is present. While the network is stable, the queue is constantly full, and there are no problems except that the full queue results in high latency. However, the introduction of a sudden burst of traffic may cause large numbers of established, steady streams to lose packets simultaneously.

TCP has automatic recovery from dropped packets, which it interprets as congestion on the network (which is usually correct). The sender reduces its sending rate for a certain amount of time and then tries to find out if the network is no longer congested by increasing the rate again subject to a ramp-up. This is known as the slow start algorithm.

Almost all the senders will use the same time delay before increasing their rates. When these delays expire at the same time, all the senders will send additional packets and the router queue will again overflow, more packets will be dropped, the senders will all back off for a fixed delay... ad infinitum; compare with the thundering herd problem.

This pattern of each sender decreasing and increasing transmission rates at the same time as other senders is referred to as "global synchronization" and leads to inefficient use of bandwidth, due to the large numbers of dropped packets, which must be retransmitted, and because the senders have a reduced sending rate, compared to the stable state, while they are backed-off, following each loss.

This problem has been the subject of much research. The consensus appears to be that the tail drop algorithm is the leading cause of the problem, and other queue size management algorithms such as Random Early Detection (RED) and Weighted RED will reduce the likelihood of global synchronization, as well as keeping queue sizes down in the face of heavy load and bursty traffic.