Suggestions for improvement
Detecting if the execution environment is good for benchmarking (such as detecting if a debugger is attached or if jit optimization is disabled which would result in incorrect measurements).
Measuring parts of the code independently (to see exactly where the bottleneck is).
- Comparing different versions/components/chunks of code (In your first sentence you say '... benchmarking small chunks of code to see which implementation is fastest.').
To detect if a debugger is attached, read the property
System.Diagnostics.Debugger.IsAttached (Remember to also handle the case where the debugger is initially not attached, but is attached after some time).
To detect if jit optimization is disabled, read property
DebuggableAttribute.IsJITOptimizerDisabled of the relevant assemblies:
private bool IsJitOptimizerDisabled(Assembly assembly)
return assembly.GetCustomAttributes(typeof (DebuggableAttribute), false)
.Select(customAttribute => (DebuggableAttribute) customAttribute)
.Any(attribute => attribute.IsJITOptimizerDisabled);
This can be done in many ways. One way is to allow several delegates to be supplied and then measure those delegates individually.
This could also be done in many ways, and different use-cases would demand very different solutions. If the benchmark is invoked manually, then writing to the console might be fine. However if the benchmark is performed automatically by the build system, then writing to the console is probably not so fine.
One way to do this is to return the benchmark result as a strongly typed object that can easily be consumed in different contexts.
Another approach is to use an existing component to perform the benchmarks. Actually, at my company we decided to release our benchmark tool to public domain. At it's core, it manages the garbage collector, jitter, warmups etc, just like some of the other answers here suggest. It also has the three features I suggested above. It manages several of the issues discussed in Eric Lippert blog.
This is an example output where two components are compared and the results are written to the console. In this case the two components compared are called 'KeyedCollection' and 'MultiplyIndexedKeyedCollection':
There is a NuGet package, a sample NuGet package and the source code is available at GitHub. There is also a blog post.
If you're in a hurry, I suggest you get the sample package and simply modify the sample delegates as needed. If you're not in a hurry, it might be a good idea to read the blog post to understand the details.