Almost every binary executable program is dependent on the OS, independently of the programming language it's written in. Programs written in assembly are no exception. Don't confuse bytecode (eg. Java) with native processor code (eg. x86-64). And of course you have to follow the syntax of the programming language you use. Your program will not assemble on most assemblers due to the syntax errors related to memory addressing.
In protected mode OSes such as Windows 7 you have to use your OS API for printing.
You execute a program written in assembly as any other binary executable. First you write the code, then you assemble and link it, and then execute. Just like any other binary executable. The difference with higher-level compiled languages is that assembling is a lot simpler task for the assembler (the program) to do than compiling of higher-level source code for the compiler.
In x86-64 assembly you can't move from memory address directly to another. You have to first move the one of the general registers of the processor, and then from that register to another memory address. However, there are instructions that move from memory to memory too, such as
movsq, but to get started with, it's easier to learn them later.
It's not clear what you want the size of the variables to be, as you use
db for some, and
resd for others. If you want that all
Var5 to be bytes, then it should be for example:
Var2: db 3
Var5: db 4
Var1: db 10
Var3: db 1
Var4: db 1
And if you want them to be for example dwords, replace every
resd means reserve dwords, to reserve bytes you should use
You must know the size of the operands in assembly. Assembler does not make the decisions for you.
Assuming all variables above are bytes (
db, 8 bits each), the loop could be something like (NASM/YASM syntax):
ADD [Var2],byte 1
And if you want them to be dwords (
dd, 32 bits each):
ADD [Var2],dword 1