"Manipulated address" is not a term of the art. You have an m-bit virtual address mapping to an n-bit physical address. Yes, a cache may be of any size up to the physical address size, but typically is much smaller. Note that cache lines are tagged with virtual or more typically physical address bits corresponding to the maximum virtual or physical address range of the machine.
Yes, DRAM processes and logic processes are each tuned for different objectives, and involve different process steps (different materials and thicknesses to lay down DRAM capacitor stacks/trenches, for example) and historically you haven't built processors in DRAM processes (except the Mitsubishi M32RD) nor DRAM in logic processes. Exception is so-called eDRAM that IBM likes to use for their SOI processes, and which is used as last level cache in IBM microprocessors such as the Power 7.
"Pagination" is what we call issuing a form feed so that text output begins at the top of the next page. "Paging" on the other hand is sometimes a synonym for virtual memory management, by which a virtual address is mapped (on a page by page basis) to a physical address. If you set up your page tables just so it allows multiple virtual addresses (indeed, virtual addresses from different processes' virtual address spaces) to map to the same physical address and hence the same location in real RAM.
"An associative cache memory with sets of 1 line is an entierly associative cache memory, because one memory block can go in any set since each sets are of the same size that of the block."
Hmm, that's a strange question. Let's break it down. 1) You can have a direct mapped cache, in which an address maps to only one cache line. 2) You can have a fully associative cache, in which an address can map to any cache line; there is something like a CAM (content addressible memory) tag structure to find which if any line matches the address. Or 3) you can have an n-way set associative cache, in which you have, essentially, n sets of direct mapped caches, and a given address can map to one of n lines. There are other more esoteric cache organizations, but I doubt you're being taught them.
So let's parse the statement. "An associative cache memory". Well that rules out direct mapped caches. So we're left with "fully associative" and "n-way set associative". It has sets of 1 line. OK, so if it is set associative, then instead of something traditional like 4-ways x 64 lines/way, it is n-ways x 1 lines/way. In other words, it is fully associative. I would say this is a true statement, except the term of the art is "fully associative" not "entirely associative."