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I have an application that I need to run at a 10mSec rate (100hz) on a Windows 7/32 bit computer (that will also be running other applications at the same time). This interrupt can have some minimally late (100uSec) responses, but must not drift over a prolonged time. I have a program where I have loaded and used the NtSetTimerResolution to set the timers to 10msec resolution, and then created a timer using the CreateTimerQueue/CreateTimereQueueTimer functions with a callback routine that toggles a GPIO pin (for the time being) - this produces the expected square wave, so long as I am not doing anything else with the system. When I start a couple of other processes, the accuracy of my square wave goes out the window. Is there any way to get a higher priority level on the timer interrupt (or is there another timer that I can use) that will produce a more stable output (perhaps the SMI)? My code is below, and is built using the x86 checked build environment of the Windows DDK, and run from a command shell with administrator rights:



Simple console test app for a 10mSec timer interrupt service


Administrator Mode



#include     <windows.h>
#include     <winioctl.h>
#include     <stdio.h>
#include     <string.h>
#include     <stdlib.h>
#include     <conio.h>
#include     <strsafe.h> 

#include     <stdlib.h>
#include     <stdio.h>

#include     <winsock2.h>
#include     <mswsock.h>

#pragma warning(disable:4127)   // condition expression is constant

FARPROC pNtQueryTimerResolution;
FARPROC pNtSetTimerResolution;

static  HANDLE    NTDLLModuleHandle;
static  HINSTANCE hInpOutDll;

typedef         void  (   __stdcall  *lpOut32 )( short , short );
typedef  short        (   __stdcall  *lpInp32 )( short );
typedef  BOOL         (   __stdcall  *lpIsInpOutDriverOpen )( void );

//Some global function pointers (messy but fine for an example)
lpOut32              gfpOut32;
lpInp32              gfpInp32;
lpIsInpOutDriverOpen gfpIsInpOutDriverOpen;

void CALLBACK TimerProc(void* lpParameter,
    BOOLEAN TimerOrWaitFired);


VOID  __cdecl    main( void )
    ULONG ulMinRes = 0;
    ULONG ulMaxRes = 0;
    ULONG ulCurRes = 0;

    HANDLE phNewQueue;
    HANDLE phNewTimer;

    phNewQueue        = CreateTimerQueue( );

    NTDLLModuleHandle = LoadLibrary( "NTDLL.DLL" );

    if( NULL == NTDLLModuleHandle )

    // Get the function pointers,
    pNtQueryTimerResolution = GetProcAddress( NTDLLModuleHandle, "NtQueryTimerResolution" );
    pNtSetTimerResolution = GetProcAddress( NTDLLModuleHandle, "NtSetTimerResolution" );

    if( ( pNtQueryTimerResolution == NULL ) || ( pNtSetTimerResolution == NULL ) )
        printf( "unable to link to ddl\n\n\n\n\n\n" );

    pNtQueryTimerResolution( &ulMinRes, &ulMaxRes, &ulCurRes );
    printf( "MMR:  %d   %d   %d\n", ulMinRes, ulMaxRes, ulCurRes );

    ulMaxRes = 100000;
    pNtSetTimerResolution( ulMaxRes, TRUE, &ulCurRes );

    pNtQueryTimerResolution( &ulMinRes, &ulMaxRes, &ulCurRes );
    printf( "MMR:  %d   %d   %d\n", ulMinRes, ulMaxRes, ulCurRes );

    //Dynamically load the DLL at runtime (not linked at compile time)
    hInpOutDll = LoadLibrary( "InpOut32.DLL" ); 
    if( hInpOutDll != NULL )
        gfpOut32 = ( lpOut32 )GetProcAddress( hInpOutDll, "Out32" );
        gfpInp32 = ( lpInp32 )GetProcAddress( hInpOutDll, "Inp32" );
            = ( lpIsInpOutDriverOpen )GetProcAddress( hInpOutDll, "IsInpOutDriverOpen" );

        if( gfpIsInpOutDriverOpen( ) )
            gfpOut32( 0xA01, 0x00 );
            printf( "unable to create timer system\n\n\n\n\n\n" );

    CreateTimerQueueTimer( &phNewTimer, phNewQueue, TimerProc, NULL, 0, 10, 
                       WT_EXECUTEINTIMERTHREAD );

        Sleep( 1 );
    } while( TRUE );

void CALLBACK TimerProc(void* lpParameter,
    BOOLEAN TimerOrWaitFired)
    WORD wData;    

    UNREFERENCED_PARAMETER  ( lpParameter );

    wData = gfpInp32( 0xA00 );
    gfpOut32( 0xA00, wData );
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This requires a driver or custom hardware. Try timeBeginPeriod and timeSetEvent for a less drastic approach. –  Hans Passant May 24 '12 at 1:54

1 Answer 1

You can use SetThreadPriority to give priority to the critical thread. In this case, you'll probably need to create a thread explicitly and use CreateWaitableTimerEx, SetWaitableTimerEx, and WaitForSingleObjectEx instead of CreateTimerQueueTimer. Make sure the critical thread never spends too long executing between waits, or Windows may stop working properly.

This may not be enough, if the maximum lag is 100 microseconds. You might need to set your process priority class to REALTIME_PRIORITY_CLASS using the SetPriorityClass function, but make sure your program never holds the CPU for long or Windows will stop working properly. In particular, if your program hangs, the entire OS will hang; in this situation, there is no way to stop the program short of turning the power off.

Even this may not be enough. Windows is not a real-time operating system, and it may not be possible to get it do what you're asking for.

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