G.Skill DDR3 PC3-16000 Triple Channel memory review

Memory (DDR4/DDR5) and Storage (SSD/NVMe) 357 Page 4 of 13 Published by


What to do ... 3GB or 6GB ?

6 GB ? You'll need a 64-bit operating system; this is a 32-bit restriction

Windows 98, who didn't use that OS? What amount of memory did your PC have? Right, likely 128 MB. We now test a system that has 48 times more memory.

Over the years we progressed and noticed that applications have gotten more and more memory intensive. With Windows XP we moved towards 512 MB as standard to prevent the OS from swapping to the HD, and as explained on the previous page with the latest games we see that the certain games really like 1 GB. All this has happened in just over a couple of years my friends.

Then Microsoft launched Windows Vista, the biggest memory hog in the world. 1 GB is just be the average recommended specification. They actually recommend 2 GB. And then there's 64-bit platforms supporting more than 4 GB memory.  With memory prices coming down you might even consider taking it a step further.

I'm on a 32-bit Operating system. I see 3 GB, where's my 6 Gigabytes of RAM?

OCZ DDR3 PC3-12800 Gold Low-Voltage Triple Channel memoryCan you use 4, 6 or more GB of memory ? Yes and no. As far as 32-bit operating systems are concerned, the world ends at 4,096 megabytes. That's it. As an example I'll use a 4GB kit here. Say you get 4GB, it will run just fine, yet with for example Windows Vista 32-bit your memory size will be limited and you'll only have 3.2 GB out of the 4 GB available to you. This isn't a Windows problem-- it's an x86 hardware problem.

To address 4GB of memory you need 32 bits of address bus. There however is a problem - actually a similar problem that IBM faced when designing the original PC. You tend to want to have more than just memory in a computer - you need things like graphics cards and hard disks to be accessible to the computer in order for it to be able to use them. Microsoft calls this MMIO (Memory-Mapped I/O).

For example, if you have a video card that has 256 MB of onboard memory, that memory must be mapped within the first 4 GB of address space. If 4 GB of system memory is already installed, part of that address space must be reserved by the graphics memory mapping. Graphics memory mapping overwrites a part of the system memory. These conditions reduce the total amount of system memory that is available to the operating system.

So just as the original PC had to carve up the 8086's 1MB addressing range into memory (640K) and 'other' (384K), the same problem exists today if you want to fit memory and devices into a 32-bit address range: not all of the available 4GB of address space can be given over to memory.

For a long time this wasn't a problem, because there was a whole 4GB of address space, so devices typically lurk up in the top 1GB of physical address space, leaving the bottom 3GB for memory. And 3GB should be enough for anyone, right?

So what actually happens if you go out and buy 4GB of memory for your PC? Well, it's just like the DOS days - there's a hole in your memory map for the IO. (Now it's only 25% of the total address space, but it's still a big hole.)

So the bottom 3GB of your memory will be available, but there's a discrepancy with that last GB. If you want it all, go with a 64-bit OS. In 64-bit Windows, the limit is gone.

Anyway, let's have a peek at the modules and throw them at a test.

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