Getsystemtimepreciseasfiletime Windows 7 Patched Info
int main() { FILETIME ft; GetSystemTimePreciseAsFileTime(&ft); // Process the file time value... return 0; } The introduction of GetSystemTimePreciseAsFileTime on Windows 7, patched through KB2927945, provided a much-needed improvement in timing precision for various applications. By leveraging the Windows Time Service and hardware-based timers, this function enables more accurate timing and enhances overall system performance.
The patch modifies the ntoskrnl.exe kernel module, specifically the KeQuerySystemTimePrecise function, which implements the GetSystemTimePreciseAsFileTime API. When called, this function communicates with the W32Time service to retrieve the current system time. The W32Time service uses various sources, such as the TSC, HPET, or other hardware-based timers, to calculate the system time. getsystemtimepreciseasfiletime windows 7 patched
Traditional timing functions, such as GetSystemTime and QueryPerformanceCounter , had limitations. GetSystemTime returns the system time in 100-nanosecond intervals, but its precision is limited by the system's timer resolution, which is typically around 10-20 milliseconds. QueryPerformanceCounter provides higher resolution but can be affected by system variability, such as changes in system load or hardware capabilities. The patch modifies the ntoskrnl
The patch, KB2927945, was released in 2015 and specifically targets Windows 7 SP1 and Windows Server 2008 R2 SP1. The patch updates the GetSystemTimePreciseAsFileTime function to improve its accuracy and reliability. After applying the patch, applications that rely on precise timing can benefit from improved performance and accuracy. particularly in scenarios where high-frequency trading
In 2012, Microsoft released a patch for Windows 7 that introduced a new function, GetSystemTimePreciseAsFileTime , which provides high-precision timing. This patch was initially intended to address issues with timer inaccuracies in Windows 7, particularly in scenarios where high-frequency trading, scientific simulations, or other applications requiring precise timing were involved.