With respect to new in C++/GCC/Linux(32bit)...
It's been a while, and it's implementation dependent, but I believe new will, behind the scenes, invoke malloc(). Malloc(), unless you ask for something exceeding the address space of the process, or outside of specified (ulimit/getrusage) limits, won't fail. Even when your system doesn't have enough RAM+SWAP. For example: malloc(1gig) on a system with 256Meg of RAM + 0 SWAP will, I believe, succeed.
However, when you go use that memory, the kernel supplies the pages through a lazy-allocation mechanism. At that point, when you first read or write to that memory, if the kernel cannot allocate memory pages to your process, it kills your process.
This can be a problem on a shared computer, when your colleague has a slow core leak. Especially when he starts knocking out system processes.
So the fact that you are seeing std::bad_alloc exceptions is "interesting".
Now new will run the constructor on the allocated memory, touching all those memory pages before it returns. Depending on implementation, it might be trapping the out-of-memory signal.
Have you tried this with plain o'l malloc?
Have you tried running the "free" program? Do you have enough memory available?
As others have suggested, have you checked limit/ulimit/getrusage() for hard & soft constraints?
What does your code look like, exactly? I'm guessing new ClassFoo [ N ]. Or perhaps new char [ N ].
What is sizeof(ClassFoo)? What is N?
Allocating 64*288000 (17.58Meg) should be trivial for most modern machines... Are you running on an embedded system or something otherwise special?
Alternatively, are you linking with a custom new allocator? Does your class have its own new allocator?
Does your data structure (class) allocate other objects as part of its constructor?
Has someone tampered with your libraries? Do you have multiple compilers installed? Are you using the wrong include or library paths?
Are you linking against stale object files? Do you simply need to recompile your all your source files?
Can you create a trivial test program? Just a couple lines of code that reproduces the bug? Or is your problem elsewhere, and only showing up here?
For what it's worth, I've allocated over 2gig data blocks with new in 32bit linux under g++. Your problem lies elsewhere.