Creating 2 class instances and 17 variables will just be done in no time - in much less time than the timer resolution is, in all cases.
So there something else in your timer which burns your CPU. Data access, processing, calculation. It is impossible to guess what does need optimization without more information and source code.
What you'll need is to profile your application. You have AQTime in the latest versions of Delphi, but you may take a look at GPProfile or ProDelphi. You can use a profile-ready logging system like ours to make it on customer-side, if needed. Then you'll see what is slow, i.e. where most of the time is spent.
Using a loop with a sleep (in a background thread I guess) won't be faster than a timer.
IMHO what makes some repetitive task fast is using some pre-computed tables. There are perhaps some data that do not need to be computed or retrieved each time. So you may store those data in shared variables, and use it in the event handler. Always consider that changing an algorithm or avoiding data/hardware access is the key of speed. And always trust a profiler, not your first instinct.
After updated question
So your problem is directly related to process time of a picture. You still are in need of actual profiling to guess what shall be improved. I guess that you retrieve the picture in this timer. The process of a webcam picture won't take 300 ms. So a possibility may be to use a background thread to retrieve the webcam images, push them in a round-robin list, then let the timer only process the latest image when asked for. But a real profiling of your code is needed.
If the picture process itself in Delphi loops is the slow part, a sampling profiler will help you see which line of code needs speed up. Some advices in this case:
- Try to use local variables within each loop to avoid re-computing of indexes (using pointers) or values (store them in the stack) in nested loops;
- Try to access memory not randomly, but block per block (for better cache performance);
- Align your data on 4 or 8 bytes alignment;
- Unroll the inner loops (this may be a major speep up on modern CPUs) - e.g. if you merge some pixels blocks, hardwire the block reading and computing in your code, instead of using a
for x := xRef-3 to xRef+3 do.. - main rule is to avoid any branch in your code - the less
if ... then or
for ... to appear in your code, the better;
- Consider adding asm SSE/SSE2 instructions instead of pascal code (difficult part but also the more powerful), or use a third-party optimized library for your processing - there are several motion detection libraries around.