I know the difference between the two on a technical level.

But in real life, can anyone provide examples (the more the better) of applications (uses) of TCP and UDP to demonstrate the difference?

16 Answers 16

up vote 102 down vote accepted

UDP: Anything where you don't care too much if you get all data always

  • Tunneling/VPN (lost packets are ok - the tunneled protocol takes care of it)
  • Media streaming (lost frames are ok)
  • Games that don't care if you get every update
  • Local broadcast mechanisms (same application running on different machines "discovering" each other)

TCP: Almost anything where you have to get all transmitted data

  • Web
  • SSH, FTP, telnet
  • SMTP, sending mail
  • IMAP/POP, receiving mail

EDIT: I'm not going to bother explaining the differences, since you state that you already know and every other answer explains it anyway :)

UDP is mailing a letter at the post office.

TCP is mailing a letter with a return receipt at the post office, except that the post master will organize the letters in-order-of mailing and only deliver them in-order.

Well, it was an attempt anyway.

  • 1
    This is actually a brilliant fundamental analogy. – bagofmilk Oct 25 '17 at 15:11
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    @bagofmilk I always liked it because it quickly clarifies why TCP is "more expensive" than UDP, and how TCP can be subject to additional delays when a single packet requires retransmission. Thanks for the kind complement. – Edwin Buck Oct 25 '17 at 15:15

The classic standpoint is to consider TCP as safe and UDP as unreliable.

But when TCP-IP protocols are used in safety critical applications, TCP is not recommended because it can stop on error for multiple reasons. Whereas UDP lets the application software deal with errors, retransmission timers, etc.

Moreover, TCP has more processing overhead than UDP.

Currently, UDP is used in aircraft controls and flight instruments, in the ARINC 664 standard also named AFDX (Avionics Full-Duplex Switched Ethernet). In ARINC 664, TCP is optional but UDP is used with the RTOS (real time operating systems) designed for the ARINC 653 standard (high reliability control software in civil aircrafts).

For more information about real time controls using IP and UDP in AFDX, you can read the pages 27 to 50 in http://www.afdx.com/pdf/AFDX_Training_October_2010_Full.pdf

TCP:

  • World Wide Web(HTTP)
  • E-mail (SMTP TCP)
  • File Transfer Protocol (FTP)
  • Secure Shell (SSH)

UDP:

  • Domain Name System (DNS)
  • Streaming media applications such as movies
  • Online multiplayer games
  • Voice over IP (VoIP)
  • Trivial File Transfer Protocol (TFTP)
  • so does It mean that when we use youtube the Http connection works with UDP? – iGod Jun 25 at 4:58

TCP

I will not send data anymore until i get an acknowledgment.

this process is slow

It is used for security purpose

example: web, sending mail, receiving mail etc

UDP

Here i have no headache with acknowledgment.

this process is faster but here data can be lost .

example : video streaming , online games etc

TCP + UDP = SMTP(example : mobile,telephone)

TCP guarantees (in-order) packet delivery. UDP doesn't.

TCP - used for traffic that you need all the data for. i.e HTML, pictures, etc. UDP - used for traffic that doesn't suffer much if a packet is dropped, i.e. video & voice streaming, some data channels of online games, etc.

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    TCP doesn't guarantee packet delivery. If you send something and something goes wrong (power outage, loss of a route, etc.) before it arrives at the destination, your packet isn't going to be delivered. – Edwin Buck Mar 16 '11 at 18:58
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    No but the receiver should ask for it again immediately, as specified in the TCP protocol so the request to send the packet again is transparent to the higher components of the TCP/IP stack (which isn't REALLY a stack). – Anthony Vallée-Dubois Mar 16 '11 at 19:00
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    The receiver only asks for a retransmit on a detected non-delivered packet. If the last packet to be transmitted isn't delivered (as is the most common case in a loss of a route) the receiver hasn't been given a clue that it's missing a packet, so he won't ask for one. – Edwin Buck Mar 16 '11 at 19:02
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    This should be reworded, TCP guarantees "in order" packet delivery. Only store and forward protocols attempt to guarantee delivery. – Edwin Buck Mar 16 '11 at 19:03
  • Yes it also guarantees in-order packet delivery. But A successful TCP transfer hasn't occurred when packets are missing. Thus if you've received something by TCP, you're guaranteed to have either gotten it all (in order), or the transfer has failed. There is no in-between. – edge Mar 16 '11 at 19:09

TCP is a connection oriented protocol, It establishes a path, or a virtual connection all the way through switches routers proxies etc and then starts any communication. Various mechanisms like routing djikstras shortest path algorithm exist to establish the virtual end to end connection. So it finds itself used while browsing HTML and other pages, making payments and web applications in general.

UDP is a connectionless protocol - it simply has a destination and nodes simply pass it along if it comes as best as they can. So packets arriving out of order, along various routes etc are common. So Instant messengers and similar software developers think UDP an ideal solution.

In real life if you want to throw data in the net, without worrying about time taken to reach, order of reaching use UDP. If you want a solid path before you start throwing packets, and want same order and latency for your data packets use TCP - I will use UDP for Torrents and TCP for PayPal!

REAL TIME APPLICATION FOR TCP:

Email:

Reason: suppose if some packet(words/statement) is missing we cannot understand the content.It should be reliable.

REAL TIME APPLICATION FOR UDP:

video streaming:

* **Reason: ***suppose if some packet(frame/sequence) is missing we can understand the content.Because video is collection of frames.For 1 second video there should be 25 frames(image).Even though we can understand some frames are missing due to our imagination skills. Thats why UDP is used for video streaming.

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    imagination skills to understand missing frames... Great explanation... – S.K. Venkat Nov 20 '16 at 18:21

TCP is appropriate when you have to move a decent amount of data (> ~1 kB), and you require all of it to be delivered. Almost all data that moves across the internet does so via TCP - HTTP, SMTP, BitTorrent, SSH, etc, all use TCP.

UDP is appropriate when you have small messages which you can afford to lose, and would like to send them as efficiently as possible. One reason you might be able to afford to lose them is because you can re-send them if they get lost. The main example on the internet is DNS - DNS consists of small queries saying things like "what is the IP number for stackoverflow.com?", and the responses are correspondingly small. Computers make a lot of these queries, so they should be made efficiently, but if they get lost en route, it's easy to time out and re-send them.

  • Media streaming often uses UDP - that's more than 1kB. And DNS isn't limited to UDP, it's just more commonly used. – Erik Mar 16 '11 at 19:06
  • FTP also uses UDP, and it certainly doesn't accept getting "part" of the file as "ok." The key with UDP is that missing packets are to be detected by the application and handled accordingly. With TCP missing packets are to be handled by the network stack and retried. For Audio, the time to play that packet may have passed, so "handled accordingly" might mean to just not worry about it. For FTP "handled accordingly" means to re-ask for that chunk of the file. – Edwin Buck Mar 16 '11 at 20:30
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    @Edwin: FTP doesn't use UDP, it uses TCP. TFTP uses UDP - are you getting them mixed up? – Tom Anderson Mar 17 '11 at 10:33
  • @Erik: media streaming is an interesting case, which i didn't think of. There, you can afford to lose individual packets, because that causes a momentary drop in the audio output, but you can't afford to have the whole stream of packets delayed, because that would stall the output completely. – Tom Anderson Mar 17 '11 at 10:36

TCP guarantees packet delivery AND order. Order is almost as important as the delivery in the first place when reconstructing data for files such as executables, etc.

UDP does not guarantee delivery NOR order. Packets can arrive (or not!) in any order.

Common uses for TCP include file transfer where the integrity of the packets is paramount. Voice/video applications can afford to lose some data while still maintaining acceptable quality, and so usually use UDP.

  • TCP: will get there in meaningful order
  • UDP: god knows (maybe)

One additional thought on some of the comments above that talks about ordered delivery.... It must be clarified that the destination computer may receive packets out of order on the wire, but the TCP at the destination is responsible for "rearranging out-of-order data" before passing it on to the upper layers of the stack. When you say TCP guarantees ordered packet delivery, what that means is it will deliver packets in correct order to the upper layers of the stack.

SCTP vs TCP vs UDPServices/Features       SCTP        TCP       UDP
Connection-oriented                       yes         yes       no
Full duplex                               yes         yes       yes
Reliable data transfer                    yes         yes       no
Partial-reliable data transfer            optional    no        no
Ordered data delivery                     yes         yes       no
Unordered data delivery                   yes         no        yes
Flow control                              yes         yes       no
Congestion control                        yes         yes       no
ECN capable                               yes         yes       no
Selective ACKs                            yes         optional  no
Preservation of message boundaries        yes         no        yes
Path MTU discovery                        yes         yes       no
Application PDU fragmentation             yes         yes       no
Application PDU bundling                  yes         yes       no
Multistreaming                            yes         no        no
Multihoming                               yes         no        no
Protection against SYN flooding attacks   yes         no        n/a
Allows half-closed connections            no          yes       n/a
Reachability check                        yes         yes       no
Psuedo-header for checksum                no (vtags)  yes       yes
Time wait state                           vtags       4-tuple   n/a

Since tcp usages are pretty straightforward from other answers, I'll mention some interesting UDP use-cases:

1)DHCP - Dynamic Host Configuration Protocol, which is being used in order to dynamically assign IP address and some other network configuration to the connecting devices. In simple words, this protocol allows you just connect to the network cable(or wifi) and start using the internet, without any additional configurations. DHCP uses UDP protocol. Since the settings request message is being broadcasted from the host and there is no way to establish a TCP connection with DHCP server(you don't know it's address) it's impossible to use TCP instead.

2)Traceroute - well-known network diagnostic tool which allows you to explore which path in the network your datagram passes to reach it's destination(and how much time it takes). By default, it works by sending UDP datagram with unlikely destination port number(ranging from 33434 to 33534) to the destination with the ttl(time-to-live) field set to 1. When the router somewhere in the network gets such datagram - it finds out that the datagram is expired. Then, the router drops the datagram and sends to the origin of the datagram an ICMP(Internet Control Message Protocol) error message indicating that the datagram's ttl was expired and containing router's name and IP address. Each time the host sends datagrams with higher and higher TTL, thus increasing the network part which it succeeds to overcome and getting new ICMP messages from new routers. When it eventually reaches it's destination(datagrams TTL is big enough to allow it),- the destination host sends 'Destination port unreachable' ICMP message to the origin host. This way, Traceroute knows that the destination was reached. Since the TCP guarantees segments delivery it would be at least inefficient to use it instead of UDP which, in turn, allows datagram to be just dropped without any resend attempts(resend is implemented on the higher level, with continuously increasing TTL as described above).

UDP is applied a lot in games or other Peer-to-peer setups because it's faster and most of the time you don't need the protocol itself to make sure everything gets to the destination in the original order (UDP does not garantee packet delivery or delivery order).

Web traffic on the other hand is over TCP. (I'm not sure here but I think it has to do with the way the HTTP protocol is built)

Edited because I failed at UDP.

Real life examples of both TCP and UDP tcp -> a phone call, sms or anything specific to destination UDP -> a FM radio channel (AM), Wi-Fi.

  • 2
    I don't think your examples are very good at all. SMS would be more like UDP, and you don't seem to understand UDP at all - it has nothing to do with broadcasting. – Andrew Barber Oct 9 '12 at 9:21
  • I think he understood it even quite well and provided a good analogy by projecting the network-technology on mobile-communication! The problem is: This is not an answer to the question :( – Nippey Oct 9 '12 at 11:12

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