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Working with data

When we refer to computer memory, we consider the Random Access Memory (RAM) by default, and also the RAM is a general term for either SRAM or DRAM; we will mean DRAM by default unless otherwise stated. To clear things out, let's take a look at the following diagram, which illustrates the memory hierarchy:

When we compile a program, the compiler stores the final executable file in the hard drive. To run the executable file, its instructions are loaded into the RAM and are then executed by the CPU one by one. This leads us to the conclusion that any instruction required to be executed should be in the RAM. This is partially true. The environment that is responsible for running and monitoring programs plays the main role.

Programs we write are executed in the hosted environment, which is in the OS. The OS loads the contents of the program (its instructions and data, that is, the process) not directly into the RAM, but the virtual memory, a mechanism that makes it possible both to handle processes conveniently and to share resources between processes. Whenever we refer to the memory that a process is loaded to, we mean the virtual memory, which in turn maps its contents to the RAM.

Most of the time, we use the terms RAM, DRAM, virtual memory, and memory interchangeably, considering virtual memory as an abstraction around the physical memory (the DRAM).

Let's begin with an introduction to the memory structure and then investigate data types within the memory.