You cannot do this for a simple C/C++ project.
Common computer hardware does not have the physical properties that support this directly: Memory on one system cannot be read by another system.
In order to make it appear to C/C++ programs on different machines that they are sharing memory, you have to write software that provides this function. Typically, you would need to do something like this:
- Allocate some pages in the virtual memory address space (of each process).
- Mark those pages read-only.
- Set a handler to receive the exception that occurs when the process attempts to write to the read-only memory. (This handler might be in the operating system, as some sort of kernel extension, or it might be a signal handler in your process.)
- When the exception is received, determine what the process was attempting to write to memory. Write that to the page (perhaps by writing it through a separate mapping in virtual memory to the same physical memory, with this extra mapping marked writeable).
- Send a message by network communications to the other machine telling it that memory has changed.
- Resume execution in the process after the instruction that wrote to memory.
Additionally, you need to determine what to do about memory coherence: If two processes write to the same address in memory at nearly the same time, what happens? If process A writes to location X and then reads location Y while, at nearly the same time, process B writes to location Y and reads X, what do they see? Is it okay if the two processes see data that cannot possibly be the result of a single time sequence of writes to memory?
On top of all that, this is hugely expensive in time: Stores to memory that require exception handling and network operations take many thousands, likely hundreds of thousands, times as long as normal stores to memory. Your processes will execute excruciatingly slowly whenever they write to this shared memory.