#fasterapp Veno. Hybla. CTCP. HSTCP. Fast TCP. Not familiar with these variants? Read on…
Anyone who’s involved with web application performance – either measuring or addressing – knows there are literally hundreds of RFCs designed to improve the performance of TCP (which in turn, one hopes, improves the performance of HTTP-delivered applications that ultimately rely on TCP).
But what may not be known is that there are a number of variations on the TCP theme; slightly modified versions of the protocol that are designed to improve upon TCP under specific network conditions.
A Burton IT research note (G00218070), “Wireless Performance Issues and Solutions for Mobile Users” published in January 2012 goes into much more detail on these variations. As this is a WILS post, I will keep it short and sweet, and encourage you to read through the aforementioned research note for more details or visit the homepages / RFC details for each variation.
High Speed TCP (HSTCP)
Designed for network conditions exhibiting high error rates or bursty data flows. Especially useful over high-latency links with large TCP receive window sizes.
CTCP was developed by Microsoft and included in Windows Vista and Windows Server 2008. It combines principles of HSTCP and Fast TCP and according to the research note provides equivalent performance to HSTCP but without the same impact on normal TCP flows.
Designed for WLAN and WAN links, TCP Veno tries to determine whether packet loss was caused by random signal variations or congestion, avoiding reducing transmission rates when packet loss is due to noise.
Interestingly, some of these protocols can actually inhibit performance when used in normal network conditions, which seems to make the case that the ultimate solution to choosing a TCP variation is not to choose only one, but to choose one intelligently on-demand.
WILS: Write It Like Seth. Seth Godin always gets his point across with brevity and wit. WILS is an ATTEMPT TO BE concise about application delivery TOPICS AND just get straight to the point. NO DILLY DALLYING AROUND.