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I have a number of threads (100's) that each execute for a few seconds at a time. When they are executing, they spend a significant amount of that time waiting for a response from another system (a serial device). I am mindful that having 100 threads executing at once could be a resource hog so I actually limit the number of threads that can start at any one time.

It occurs to me though that there must be good and bad ways of waiting for an external event inside a thread. Is this approach CPU-intensive?:

send command ;
repeat
until response arrived ;
process response ;    

and does this approach make it more efficient?:

send command ;
repeat
    Sleep (20) ;
until response arrived ;
process response ;  

* ADDITIONAL INFO *

The environment is x86 Windows XP. The thread code is a long and involved series of interactions with a serial device but in general, it consists of writing characters to a COM port (using the AsyncFree serial library) and waiting for characters to be returned by camping on the incoming characters buffer and processing them when they arrive. I imagine the serial library makes device reads and writes. The time in the thread can be as long as a minute , or as short as a couple of seconds, but most of that time is spent waiting for characters to leave the port, or waiting for the response characters (baud rate is slow), hence my question about the best way for the thread to behave while it is waiting. Currently I am calling Sleep in a loop waiting for CharactersInBuffer to become non-zero, processing each character when it arrives, and exiting the thread when I have the complete response. So the code looks more like (ignoring handling of timeouts, etc):

send command ;
Packet = '' ;
repeat

    repeat
        Sleep (20) ;
    until response character arrived ;
    build Packet

until complete packet arrived
process response ;  
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Please post your OS, that might be relevant. –  Chris O Nov 1 '11 at 19:30
    
It depends on what the loop is doing. Can you provide code? –  Marcus Adams Nov 1 '11 at 19:31
3  
If you don't see your CPU utilisation at 100% then it sounds like you have no problem. Without seeing real code it's hard to say more. until response arrived is the key. What does that actually do? Is it a blocking call? –  David Heffernan Nov 1 '11 at 19:36
2  
@rossmcm: There should be a way for the thread to wait for a notification from the OS that a response is available rather than polling for it. –  afrazier Nov 1 '11 at 19:37
4  
@rossmcm If your threads are already blocking you've probably got nothing to do. –  David Heffernan Nov 2 '11 at 7:19

3 Answers 3

up vote 7 down vote accepted

If the thread is truly waiting with something like a WaitForSingleObject, which uses no processor time, then times out, there is no reason to put a delay in the thread with sleep.

Your user isn't waiting on the thread to be responsive, it's not using processor time, and other threads won't be blocked, so there would be no reason to put the thread to sleep.

As David Heffernan indicated in his comment, if it's not using 100% of your CPU now, then there's no problem.

You might use sleep() if you were single threaded and you had to occasionally respond to the user in between waiting on the serial port to respond.

Also, having a thread sleep would not make it more efficient. It would simply yield processor cycles to other threads.

Take a look at sleep(0) as a CPU efficient way of "wasting time" in a thread.

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Also, having a thread sleep would not make it more efficient. It would simply yield processor cycles to other threads. Isn't that the point? If I put my thread to sleep to 20 mS and yield processing to other threads, doesn't that make more CPU available to other threads/other processes? If I have 10000 threads and they have all just entered a Sleep (10000) state, what is their combined CPU usage? –  rossmcm Nov 1 '11 at 23:29
    
@rossmom, If I'm in a convoy, stopping my truck to let others pass doesn't increase efficiency. The same amount of work needs to be done. It's simply more polite. If I stop my truck when there's no one to let pass, I'm wasting time. If 10000 threads are sleeping, technically, they are using 0 CPU usage, though the operating system (scheduler) thread will have a lot of work to do, and if you run out of RAM, you'll surely slow down. Using sleep(0) will get everything done as soon as possible while still being polite. Sleep(0) is more efficient than sleep(200), since time is also a resource. –  Marcus Adams Nov 2 '11 at 3:23
    
OK, so I now understand that Sleep (0) effectively says "move on, nothing to do here", so if I stick to my current architecture of limiting the number of threads that can start to ten, and replace my Sleep (20) by Sleep (0), I'll have a situation that has low latency and low CPU usage? –  rossmcm Nov 2 '11 at 3:36
1  
@rossmcm Sleep(0) will only yield if there is a ready to run thread waiting. Otherwise it's a nop. –  David Heffernan Nov 2 '11 at 12:08
    
@rossmcm, with Sleep(0) instead of Sleep(20), you'll have low latency, but you're guaranteed higher CPU usage while there's work to be done. CPU usage isn't bad. If nobody else is using the CPU, why not you? Sleep(0) will keep the computer responsive to other processes, which helps keep the UI responsive, and allows the user to keep watching their movie or surf the web while your program runs. If you want to intentionally make the user wait longer with Sleep(20) just so they don't see the CPU spike, that's your prerogative. I prefer they think their computer's slow instead of my program. –  Marcus Adams Nov 2 '11 at 13:06

The most efficient way to prevent a thread from using CPU time is to put it in a "wait mode."

I don't use delphi at all, but it seems that the fundamentals for that are there. See "Chapter 11. Synchronizers and Events" and more specifically "Event simulation using semaphores".

If you want to wait without using CPU, then use WaitForEvent:

The signal state of the event is examined. If it indicates that the event is signalled, then the internal semaphore is signalled, and the count of threads blocked on the semaphore is decremented. The count of blocked threads is then incremented, and a wait is performed on the internal semaphore.

If this is I/O related, then things work a little different. If it's a socket, then it might already be blocking, if it's asynchronous I/O, then you can use a semaphore and WaitForEvent and so on.

In .NET there is the Monitor.Wait, Monitor.Signal, ManualResetEvent, CountDownLatch, etc., but I don't know what are the equivalent things in delphi.

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I cannot speak for AsyncFree's capabilities, but in general COM port programming in Windows supports Overlapped I/O, so you can efficiently wait for a notification when data arrives by using the WaitCommEvent() function with one of the WaitFor...() family of functions, such as WaitForSingleObject(). The thread can be put into a sleep state until the notify is issues, at which time it "wakes up" to read from the port until there is nothing further to read, then it can go back to sleep until the next notify.

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