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+Thin-streams and TCP
+====================
+A wide range of Internet-based services that use reliable transport
+protocols display what we call thin-stream properties. This means
+that the application sends data with such a low rate that the
+retransmission mechanisms of the transport protocol are not fully
+effective. In time-dependent scenarios (like online games, control
+systems, stock trading etc.) where the user experience depends
+on the data delivery latency, packet loss can be devastating for
+the service quality. Extreme latencies are caused by TCP's
+dependency on the arrival of new data from the application to trigger
+retransmissions effectively through fast retransmit instead of
+waiting for long timeouts.
+After analysing a large number of time-dependent interactive
+applications, we have seen that they often produce thin streams
+and also stay with this traffic pattern throughout its entire
+lifespan. The combination of time-dependency and the fact that the
+streams provoke high latencies when using TCP is unfortunate.
+In order to reduce application-layer latency when packets are lost,
+a set of mechanisms has been made, which address these latency issues
+for thin streams. In short, if the kernel detects a thin stream,
+the retransmission mechanisms are modified in the following manner:
+1) If the stream is thin, fast retransmit on the first dupACK.
+2) If the stream is thin, do not apply exponential backoff.
+These enhancements are applied only if the stream is detected as
+thin. This is accomplished by defining a threshold for the number
+of packets in flight. If there are less than 4 packets in flight,
+fast retransmissions can not be triggered, and the stream is prone
+to experience high retransmission latencies.
+Since these mechanisms are targeted at time-dependent applications,
+they must be specifically activated by the application using the
+TCP_THIN_LINEAR_TIMEOUTS and TCP_THIN_DUPACK IOCTLS or the
+tcp_thin_linear_timeouts and tcp_thin_dupack sysctls. Both
+modifications are turned off by default.
+References
+==========
+More information on the modifications, as well as a wide range of
+experimental data can be found here:
+"Improving latency for interactive, thin-stream applications over
+reliable transport"
+http://simula.no/research/nd/publications/Simula.nd.477/simula_pdf_file

diff --git a/Documentation/networking/tcp-thin.txt b/Documentation/networking/tcp-thin.txt new file mode 100644 index 000000000000..151e229980f1 --- /dev/null +++ b/Documentation/networking/tcp-thin.txt
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	1	Thin-streams and TCP
	2	====================
	3	A wide range of Internet-based services that use reliable transport
	4	protocols display what we call thin-stream properties. This means
	5	that the application sends data with such a low rate that the
	6	retransmission mechanisms of the transport protocol are not fully
	7	effective. In time-dependent scenarios (like online games, control
	8	systems, stock trading etc.) where the user experience depends
	9	on the data delivery latency, packet loss can be devastating for
	10	the service quality. Extreme latencies are caused by TCP's
	11	dependency on the arrival of new data from the application to trigger
	12	retransmissions effectively through fast retransmit instead of
	13	waiting for long timeouts.
	14
	15	After analysing a large number of time-dependent interactive
	16	applications, we have seen that they often produce thin streams
	17	and also stay with this traffic pattern throughout its entire
	18	lifespan. The combination of time-dependency and the fact that the
	19	streams provoke high latencies when using TCP is unfortunate.
	20
	21	In order to reduce application-layer latency when packets are lost,
	22	a set of mechanisms has been made, which address these latency issues
	23	for thin streams. In short, if the kernel detects a thin stream,
	24	the retransmission mechanisms are modified in the following manner:
	25
	26	1) If the stream is thin, fast retransmit on the first dupACK.
	27	2) If the stream is thin, do not apply exponential backoff.
	28
	29	These enhancements are applied only if the stream is detected as
	30	thin. This is accomplished by defining a threshold for the number
	31	of packets in flight. If there are less than 4 packets in flight,
	32	fast retransmissions can not be triggered, and the stream is prone
	33	to experience high retransmission latencies.
	34
	35	Since these mechanisms are targeted at time-dependent applications,
	36	they must be specifically activated by the application using the
	37	TCP_THIN_LINEAR_TIMEOUTS and TCP_THIN_DUPACK IOCTLS or the
	38	tcp_thin_linear_timeouts and tcp_thin_dupack sysctls. Both
	39	modifications are turned off by default.
	40
	41	References
	42	==========
	43	More information on the modifications, as well as a wide range of
	44	experimental data can be found here:
	45	"Improving latency for interactive, thin-stream applications over
	46	reliable transport"
	47	http://simula.no/research/nd/publications/Simula.nd.477/simula_pdf_file