Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

In a WPF Window, I've got a line chart that plots real-time data (Quinn-Curtis RealTime chart for WPF). In short, for each new value, I call a SetCurrentValue(x, y) method, and then the UpdateDraw() method to update the chart.

The data comes in via a TCP connection in another thread. Every new value that comes in causes an DataReceived event, and its handler should plot the value to the chart and then update it. Logically, I can't call UpdateDraw() directly, since my chart is in the UI thread which is not the same thread as where the data comes in.

So I call Dispatcher.Invoke( new Action (UpdateDraw()) ) - and this works fine, well, as long as I update max. 30 times/sec. When updating more often, the Dispatcher can't keep up and the chart updated slower than the data comes in. I tested this using a single-thread situation with simulated data and without the Dispatcher there are no problems.

So, my conclusion is that the Dispatcher is too slow for this situation. I actually need to update 100-200 times/sec!

Is there a way to put a turbo on the Dispatcher, or are there other ways to solve this? Any suggestions are welcome.

share|improve this question
Do you actually need the chart to be updated 100/200 times a second? Or do you simply get 100/200 data packages a second? –  Pieter van Ginkel Nov 8 '10 at 13:33
Thanks for your suggestion, but we really need 100 updates/sec. See my comment to your post below. –  KBoek Nov 8 '10 at 13:45
What sort of monitor are you using. The vast majority of monitors only update at 60Hz, so there's no point whatsoever in trying to push updates faster than that. As soon as your incoming data rate exceeds the monitor frame rate, your best bet is to batch the incoming data and update the UI once per frame. –  Ian Griffiths Nov 8 '10 at 14:26
-1 for not telling us WHY do you want to update chart 100+ times per second. Its deffinitely not good idea to do so from many reasons said in this thread. –  Euphoric Nov 8 '10 at 14:55
@Pieter: No, I don't think we should limit ourselves to technical solutions. If someone is trying to do something non-obvious and doesn't want to accept the obvious solutions, it is correct to dig deeper, work out what the real problem is. –  Douglas Nov 8 '10 at 17:34

4 Answers 4

up vote 9 down vote accepted

An option would be to use a shared queue to communicate the data.

Where the data comes on, you push the data to the end of the queue:

lock (sharedQueue)

On the UI thread, you find a way to read this data, e.g. using a timer:

var incomingData = new List<DataObject>();

lock (sharedQueue)
    while (sharedQueue.Count > 0)

// Use the data in the incomingData list to plot.

The idea here is that you're not communicating that data is coming in. Because you have a constant stream of data, I suspect that's not a problem. I'm not saying that the exact implementation as give above is the rest, but this is about the general idea.

I'm not sure how you should check for new data, because I do not have enough insight into the details of the application; but this may be a start for you.

share|improve this answer
Sorry, but that's not an option. We really need the chart to be updated at least 100 updates/sec. The annoying this is that this works fine in a single thread, as well as in Windows Forms (with multithreading!) –  KBoek Nov 8 '10 at 13:44
Tried a different approach. Does this fit your model better? –  Pieter van Ginkel Nov 8 '10 at 13:49
Although this might not be the solution I go fore, it at least gives me an option. Using the DispatcherTimer, the chart was refreshed every 10ms. However, I don't like having a timer in my code when it isn't absolutely necessary. I'm now thinking of using the WindowsFormsHost and the "old" Windows Forms chart control, since that one somehow doesn't complain about threads when updating. –  KBoek Nov 9 '10 at 8:22
Glad I could at least help you on your way. –  Pieter van Ginkel Nov 9 '10 at 8:26
This wouldn't help a single bit as the chart will still only be displayed at your monitor's maximum frequency which is 60 hertz (if you're using a standard flatscreen). –  Pygmy Nov 10 '10 at 13:57

Youre requierments are bonkers- You seriously do NOT need 100-200 updates per second, especialyl as teh screen runs at 60 updates per second normally. People wont see them anyway.

  • Enter new data into a queue.
  • Trigger a pull event on / for the dispatcher.
  • Santize data in the queue (thro out doubles, last valid wins) and put them in.l

30 updates per second are enough - people wont see a difference. I had performacne issues on some financial data under high load with a T&S until I did that - now the graph looks better.

Keep Dispatcher moves as few as you can.

share|improve this answer

I still like to know why you'd want to update a chart 200 times per second when your monitor can't even display it that fast. (Remember, normal flatscreen monitors have an update-rate of 60 fps)

What's the use of updating something 200 times per second when you can only SEE updates 60 times per second ? You might as well batch incoming data and update the chart at 60 fps since you won't be able to see the difference anyway.

If it's not just about displaying the data but you're doing something else with it - say you are monitoring it to see if it reaches a certain threshold - than I recommend splitting the system in 2 parts : one part monitoring at full speed, the other independently displaying at the maximum speed your monitor can handle : 60 fps.

So please, tell us why you want to update a ui-control more often than it can be displayed to the user.

share|improve this answer

WPF drawing occurs in a separate thread. Depending on your chart complexity, your PC must have had a mega-descent video card to keep up with 100 frames per second. WPF uses Direct3D to draw everything on screen and optimizing video driver for this has been added in Vista (improved in Windows 7). So, on XP you might have troubles just because of your high data-output rate on poorly designed OS.

Despite all that, I see no reason of printing information to screen with a rate of more than 30-60 frames per second. Come on! Even FPS shooters does not require such a strong reflexes from player. Do you want to tell me, that your poor chart does? :) If by this outputting, you produce some side-effects, which are what you actually need, then it's completely different story. Tell us more about the problem then.

share|improve this answer
And even if you do somehow manage 100 updates per second, that's of no use whatsoever if your monitor is only refreshing 60 times a second! –  Ian Griffiths Nov 8 '10 at 14:24
Also the highest documented DAC frequency ever achieved on a production video card for the PC platform is 550 MHz, so you are coming close even to theoretical edge. Ensure your videocard RAMDAC is of sufficient clockrate. –  FractalizeR Nov 8 '10 at 14:54
Funny how all of you focus on me NOT needing 100Hz updates. Only Pieter tries to help me with the problem itself, providing some possible solutions. Thanks Pieter! –  KBoek Nov 8 '10 at 16:52
Yea. We all are explaining you how you SHOULD NOT try to eat soup with a fork. We tell "please, take a spoon!". But you don't. –  FractalizeR Nov 8 '10 at 18:47
What we're saying is that it seems like you're trying to find a solution for something that can not be your problem. There IS NO reason to update a control that fast since you can not display it that fast. And if it is not about displaying but about monitoring the incoming data, you should split the logic from the display. THAT is what we're telling you. –  Pygmy Nov 9 '10 at 13:28

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.