This question and my original answer were first written almost three years ago. Since that time I was surprised to receive a more or less constant stream of votes, both up and down, even up to today. I thought now would be a good time to revisit this answer. I'll leave the original down below as reference.
The question of which language is fastest is now largely moot. They can both me made to be exceedingly fast. The same was true three years ago as well, but my original answer was purposefully not focused on a technical survey of the two languages and how their differences impact performance. My focus was on the people using those languages, and the bottom line is this:
The most important factor in determining the speed and efficiency of a program is not the language used to program it, but the people behind the keyboards.
In his answer, @Jon Harrop describes the success he had re implementing a legacy system in a GC'ed .NET language. I do not dispute or doubt his expertise in the matter. I, Like him, am also employed in the financial services arena and have been for going on 20 years. In that time I've seen many different systems -- ranging in quality from fantastic to horrid. I am a C++ guy -- that's what I do for a living. I also know F#, C#, VB, Ruby, Perl, assembler and probably 30 other languages. But my expertise in those languages does not even approach my expertise in C++. If I were to write what Jon wrote in F#, his code would trounce mine, no question in my mind.
Does that mean F# is faster than C++? No. What it means is the person behind the F# keyboard (Jon) is better than me. I have no doubt about that.
In high-frequency trading (my industry), speed is king. We measure latency in such short intervals that the speed which an electrical signal travels over a networking cable is part of the equation. There are a number of datacenters where this is considered so important that they have spools of extra cable going to each cage so that every computer in the DC has the same length connected to it, in order to eliminate any advantage from your proximity within the datacenter. Every single component and line of code matters. In an environment such as this, even 1 milli is an eternity. You might as well go to lunch. As a guideline, our standards for performance is 10 micros from the time a message comes in from the exchange to the time it has been completely processed and the resulting client message sent on the outgoing message bus. 10 micros is just the absolute ceiling of acceptable performance. The average is closer to 2-5 micros. This includes all computations, value-adds and database updates. And our systems are written in 100% C++.
Does that mean C++ is faster than F#? No. What it means is our systems are a mature product that has been developed by experts in the field (at great cost) over several years. As technology changes, our code changes to leverage new advantages. Although our product is among the very best in the industry, other competing products written in other languages have similar performance. It's not the language that matters most -- it's the people utilizing it. If I were as good at C# or F# as I am at C++, I'd be writing C# or F#.
In my original answer below, I tried to focus on the differences between the programmers using a language, rather than the language itself. The important thing is not the language, but the people -- their expertise, the questions they ask, and their experience. It's not the best answer I've ever given on SO, but it has attracted a lot of attention. It's not exactly what I would write today but I'm going to let it stand unedited for reference.
I'm sure this will get downvoted a hundred times, but I just have to say it:
So what is the NET effect of it when comparing C++ and C# since both object still need to be deleted?
In my view (and this is an admitted rant) the net effect is that some (many?) C# programmers don't really understand what their programs are doing, and so their software is not that good.
The attitude/belief that:
we did not really care about the life-time of an object and when did it being deleted
...seems to permeate the C#/Java/VB/[insert "easy" language here] culture. I once went to a MS-sponsored presentation in Chicago where Don Box spoke about the then-new .NET languages & platform. At one point he addressed all those in the audience that were "sick and tired of the C++ guys gloating" about how fast C++ was compared to the other languages of the time. "Now I'll prove once and for all that they are wrong," he said. Then proceeded to create 2 programs. In the C# program he created a loop that instantiated 10 million strings, and he set a breakpoint right after the loop. In the C++ version, he allocated and deallocated the same number of strings using
delete and set a breakpoint at the closing brace for
main. Ran the program. the C# version's breakpoint hit much sooner than the C++ version, and the crowd went wild.
The sheep in that crowd didn't bother to wonder why the C# version was faster, whether or not the 2 programs really did the same thing, or for that matter ask to see the Performance tab in Task Manager. I asked to see it. Don wouldn't let me, and "accused" me of being a C++ guy. Quickly closed both his programs and moved on to the next topic.
The GC'ed languages shield you from what's really going on in your machine. In order to write a functioning program, you don't really need to know the difference between smart pointers in C++ and garbage collection in C#. It's like training a car mechanic only how to use plug-in diagnostic tools, but not teaching him how an internal combustion engine actually works.
So the net result? Ask me and I'll tell you the programs aren't as good.
I blame the university system as much as anything else, but that's a story for another day.
OK, rant over. Let the flaming begin.