The system consists of CPU, Main Memory, I/O Module, and System Bus.
The loading of modules dynamically in monolithic kernel is done at the binary level as opposed to the architectural level. Dynamically loading modules is a more flexible way of handling the operating system image at runtime - as opposed to rebooting with a different operating system image.
Without loadable kernel modules, an operating system would have to include all possible anticipated functionality already compiled directly into the base kernel. Much of that functionality would reside in memory without being used, wasting memory, and would require that users rebuild and reboot the base kernel every time they require new functionality. Most operating systems supporting loadable kernel modules will include modules to support most desired functionality.(wikipedia)
what r the modules
The original motivation for the development of distributed computing operating systems was for high reliability computing where no downtime (even for maintenance and repair) could be tolerated. These high reliability computing systems were of necessity composed of many redundant pieces of computing hardware modules (e.g. CPUs, memories, I/Os, hard disks) that a technician could unexpectedly remove at any time. These systems thus needed an operating system that would distribute itself and the applications redundantly too over the redundant hardware and recover from the unexpected removal of that hardware without the loss of any work making use of the removed hardware or a system crash. When the technician either replaced the removed module with a new one or expands the system with several new hardware modules the operating system must automatically distribute itself and the applications across the new redundant hardware without human interaction and without any system crashes.
modules
PC 100
What is the lowest number of DIMM modules that can be fitted in a computer
When you upgrade the modules in your computer, you need to match the latencies of new ones to the old ones in the computer. When they are not the same it can cause the computer to run slow and not run properly.
The loading of modules dynamically in monolithic kernel is done at the binary level as opposed to the architectural level. Dynamically loading modules is a more flexible way of handling the operating system image at runtime - as opposed to rebooting with a different operating system image.
GRE comp
It takes one address line to choose between two modules.
When you upgrade the modules in your computer, you need to match the latencies of new ones to the old ones in the computer. When they are not the same it can cause the computer to run slow and not run properly.
it won't switch on.
It depends on how much your operating system and computer system board can support (although if your computer can support more, it's not necessary to load the maximum amount unless if it's lesser than 8GB). To install it, align the notches where the copper contacts are on the bottom to the socket you will be installing it in. Then carefully lower the modules into the slots, and press on BOTH sides of the modules until the latches on both sides click and lock into place.
Many of the memory manufacturer websites have tools which will scan your computer and let you know how many memory modules and the size which are installed. There are also programs which you can download which will tell you the same thing. The other option is to open your computer and determine the number of memory modules that are installed, normally the memory modules will all be the same size. To ensure the size of the memory modules you should remove them and read the labels.
Usually all the modules have to match, so I would forget the 512 chip and just do the two 2GB modules.
for the test you and i are taking lol the answer is Physical