Yes, there are ways to run that, no problem. http://github.com/dwelch67 I have tons of examples. You can use pcemu or the one I forked pcemu_samples and make an x86 based one if x86 is what you are after, if you dont care about the processor, I have a number of simulators as well as examples for embedded processors/microcontrollers that makes it easier to see what is going on.
printf is about the worst C library call to use it reaches in so many directions, floating point, string stuff, division, etc, etc. avoid it for this kind of thing. I see that you have not but read the comments.
To SEE the program running you want to blink an led or pin on a parallel port or send characters out a serial port, something that is significantly easier than programming the registers in a graphics card and debugging that code without anything to see if you are making progress.
Now with x86 you have a layer, not really an OS, but a layer that has this kind of code behind it that you can make simple calls to to print characters on the screen in a text mode and SEE your program running. I have stripped that out of pcemu_samples but the full pcemu and dosbox and other x86 emulation environments as well as the actual computer, have these things available to you. one of the sim environments (dosbox, pcemu, etC) are a better place to start (if you feel you have to start with x86, notice the theme here, I am actually discouraging starting with x86). If you did x86 you could go from dosbox or something like that and then work your way probably into a bootable usb stick and work your way from there.
embedded processors of which there are many, many eval boards to be had for under $50, some good ones at or under $20. But many many simulators that are free that you can learn from. I have a few you can try, thumbulator, amber_samples, pcemu_samples are probably the most stable (less likely to have to debug my stuff, mostly debugging your stuff), then others that are less stable, meecoate, msp430sim, etc. $5 will get you an msp430 board, $10 will get you an ARM cortex-m3 board, $20 will get you a too powerful to be called a microcontroller, microcontroller board (cortex-m4 based). And more money doesnt get you faster or better but more choices. boards that can run linux can/will make more pain for what you are trying to learn, stay under that level.
your simple example requires very little, outside the code the compiler creates for that function you need as little as one instruction to branch from the reset vector to the entry point of the main function. Ideally you want to setup a stack and eventually maybe zero .bss or copy .data, etc. Just learning to use the tools (compiler, assembler, linker) to build an embedded binary (even if you have no hardware/simulator to run on) will show you (disassemble) how to connect the dots between reset and main() (you dont have to call it main, you can name it anything you want, some compilers you DONT want to call it main they will throw extra junk into your binary).