I’m a gcc user partly because of the optimization. I mean it’s a pretty small difference. But still for scientific stuff gcc is slightly better I think. There’s not much difference though and it basically comes to personal preference.
I haven’t dealt with HPC in a while, but Intel C compiler against MKL libraries were fastest CPU, and Nvidia CUDA was slightly easier to develop than OpenCL for other cards. I’m not sure if the situation’s changed.
For my current applications, I use NumPy compiled against Intel MKV installed as a binary. It works great.
Good question. I didn’t know about decltype. I guess they are slightly different in that decltype will also produce a type reference. Typeof just produces the type, even if you call on a reference.
Why are clang and gcc the wrong way around?
I’m a gcc user partly because of the optimization. I mean it’s a pretty small difference. But still for scientific stuff gcc is slightly better I think. There’s not much difference though and it basically comes to personal preference.
I am in full agreement. My comment was purely for spiciness. How dare you respond with rational and agreeable points. Good day sir!
every day i become less and less sure that i actually left reddit
I haven’t dealt with HPC in a while, but Intel C compiler against MKL libraries were fastest CPU, and Nvidia CUDA was slightly easier to develop than OpenCL for other cards. I’m not sure if the situation’s changed.
For my current applications, I use NumPy compiled against Intel MKV installed as a binary. It works great.
For not that performance intensive stuff I would use clang though.
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A fair and proportionate response.
Ow my eyes
I will give you an upvote instead of the other guy since he stole your idea.
gcc has typeof, which is pretty neat.
Is it any different from the standard
decltype
?Good question. I didn’t know about decltype. I guess they are slightly different in that decltype will also produce a type reference. Typeof just produces the type, even if you call on a reference.