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I have a question about multithreading download, as you know downloading using several threads improve performance of application, however there are some measures to respect: like the number of threads, the available bandwidth and some more, but I don't really understand, why the performance of application might be degraded by using many threads for example, or how can the bandwidth,quality of server affect the performance of multithreaded application? , what are the cases in which monothread download is faster than multithread?
Thanks for your replies.

2 Answers 2

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I assume you're referring to download managers.

First, I'm sceptical of how much "performance" benefit a download manager really provides. But more importantly, any benefit they do provide is not due to multi-threading. The performance constraint of a download is the bandwidth of the connection. And this is why I'm sceptical of the benefits:

  • A 1 Mbps connection will download at 1 Mbps.
  • Splitting the file into 4 segments means you download each segment at 256 Kbps and 4 * 256 Kbps = 1 Mbps.
  • You may get some improvement if a server throttles each download segment.
  • You may get a small benefit if one of the segments gets timed out: the others downloading mean your connection doesn't sit idle during the time-out wait.
  • You might also speed up a download by 'drowning out' anything else trying to use the connection. (Not that I'd really call this a benefit though.)

The real benefit of a download manager is in automatically restarting downloads efficiently (i.e. not re-starting from scratch if possible).

So what is the point of multi-threading?

Let's first dispel a myth: Multi-threading does not speed anything up. If a routine requires X clock-cycles to run: it will take X clock-cycles; whether on 1 thread or many threads.

What multi-threading does do: it allows tasks to run concurrently (at the same time).

The ability to do different things at the same time means:

  • A slow task (combining various segments of a large download) can be done on a different thread without interfering with other threads that need to react quickly (such as the user interface).
  • Concurrent tasks can also use more available resources (multiple CPUs) more efficiently. Note (in answer to the last part of your question) if you only have one CPU then your threads are "time-sliced" by the operating system so it's not truly concurrent. But the time slices are very small, so previous benefit still applies.

When is single-threaded faster than multi-threaded?

Well, pretty much always in cases where CPU is not the bottle-neck. In the case of download: As mentioned before, the bottle-neck is the bandwidth between the two end-points of the connection. Many threads actually means you have to do more work (managing and coordinating the different threads).

The most efficient approach for download is 2 threads: one for the UI, and the other for the download so that any pauses/dealys don't stall the user interface.

However, more generally even when you have CPU intensive work that could theoretically benefit from multiple threads doing different work concurrently, it's very easy to make mistakes in implementation that actually slow down your application.

  • Ideally your multiple tasks should not share data. Because if they do, then you risk race-condition or concurrency bugs.
  • When they do have to share data, you need to synchronise the work in some way to avoid the above mentioned bugs. (There are many techniques to choose from depending on your needs and I won't go into detail here.)
  • However if your synchronisation is poorly planned you risk introducing a number of problems that can significantly slow down your application. These include:
    • Bottle-necking through a shared resource to make your multiple threads unable to run concurrently in any case.
    • High lock contention where task spend more time waiting than working.
    • Even deadlocking which can totally block some tasks.
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    I think you underrate how often downloads are being throttled per connection. I've been using a multithreaded downloader for certain things recently after I realized that the reason why certain big applications were taking 30 minutes to download (at 200kbps) was because of per connection throttling. Now those downloads take 1 minute and download. I see this happening regularly now that I've been using EagleGet extensions. Especially on smaller sites with videos, where it will let me download the video much faster without constant buffering.
    – corylulu
    Commented Jun 1, 2018 at 18:41
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    This answer is very much wrong in it's core claim. Downloads more often than not are not limited by the downloader's connection. Connection speeds of greater than 10megabit have been common for a decade or more. Yet most downloads are limited to ~2 megabit on the SERVER side. This is done by file hosts in order to conserve bandwidth. Download managers can conceivably exploit this by multi-threading the download and downloading different parts of the same file concurrently from one or more hosts and then combining them at the end. Five 2-mbit download streams gives you 10-mbit total DL rate. Commented Sep 30, 2018 at 8:22
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    yes this is exact representation of whats wrong with the world. If someone able to win a discussion over a point - that point becomes truth. Regardless if it is actual truth. He is completely wrong for so many reasons.. Yet its accepted answer and guy has 12k points.. Commented Jan 24, 2019 at 12:11
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    TCP download speeds are limited by latency and the window size, among other things. Often, especially for high-latency connections, the window size required to service a download at full speed is larger than either the client or host is willing to allocate due to either memory pressure or configured maximums. However, if you have 5 download threads, then you now have 5 times the total window size, and therefore this limitation is 5 times higher than it would be. Therefore, this answer is just plain wrong. Commented Oct 20, 2021 at 16:39
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First of all, what Multi-Threading download does, it creates multiple threads, which download the file from different starting positions, which tries to utilize maximum power of your internet connection. (This will download fast in multi-core processor case, which is explained below).

We might feel threads running parallel, but actually, they are supposed to run turn by turn. For example thread t1 runs for 0.25 sec, then thread t2 runs for 0.241 sec, and then t1,.., t2,, t1. So, they share CPU Bursts.

  • So why Multi-threads improve performance? Answer: If you have multi-core processor, threads can be managed to run parallel using multiple processors, which improves performance. (This is how download accelerators like IDMan do the magic!).
  • Why Multi-threads degrade performance? Answer: If you have single-core processor, all threads will run turn by turn, as a single process, sharing CPU Bursts. In this case, monothread download is faster than multithread, because if you use multi-threads, some time is wasted while switching from one thread to another. (Download accelerators like IDMan will not really download fast in this case despite multi-threaded download).

See this picture having dual core processor, and how threads are managed. Picture Showing threads in multi-core processor

I hope this helps! :-)

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    Multithreaded download has no official definition, but in general it refers to downloading over multiple TCP streams at once. This does not necessarily mean using multiple process threads as your answer implies. Download speeds can be improved by using multiple download 'threads' even on a single-core machine. Even using asynchronous I/O in a single process thread! Commented Oct 22, 2021 at 22:22

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