expansion bus
The three types of bus present in every CPU are address bus, data bus and control bus.
There is no such thing as a CPU Drive. If you meant "What does a CPU communicate with", then the answer is everything inside your computer.
Bus interconnection is important component of computer: architecture. It is a communication channel. It connects various components of computer to communicate with each other. The instruction (I) bus allows communication between the CPU and memory. It carries to the CPU the program instruction words to be operated on by the CPU from memory or returns instructions to memory. The I bus is controlled by the CPU. It is capable of sending or receiving data while the operand(O) bus is receiving or sending data at the same time, but only in one direction at a time. Operand (O) Bus The operand (O) bus allows communication between the CPU and memory or the CPU and an I/O Controller (IOC). The CPU controls the operation in both cases. The O bus is capable of sending or receiving data, while the I bus is receiving or sending data at the same time, but only in one direction at a time. The direction of the data depends on whether the CPU is reading data from memory or data is being written back into memory.
Yes
An expansion bus will not work in sync with the CPU. In addition, it will not work with the system clock.
expansion bus
A bus that works asynchronously with the CPU is -the expansion bus
The three types of bus present in every CPU are address bus, data bus and control bus.
CPU operates from 166 MHz to more than 3 GHz system can operate from 133 MHz to 400 MHz. CPU is faster than the system bus
the CPU bus is the connection between the motherboard and the CPU. All data flows through different data bus.
On modern systems, the CPU. *Very* old systems (Apple II, "IBM" PC) use the same CPU and bus speeds.
The CPU and the Motherboard bus(called the Frontside Bus) run at 2 different speeds. The Frontside bus runs at the speed that was specified for that particular motherboard and is powered by a crystal that sends electronic pulses over the bus at a steady rate. For instance you're bus speed may be 100MHz. But your CPU speed may be 800Mhz. The reason is that the CPU manufactorer build in a multiplier into the CPU to make it faster. In the example I just gave you, the multiplier is 8x. So 100MHz bus speed times 8 = 800MHz CPU speed. Now if you want to figure out the throughput you multiply the CPU speed (800MHz by 8(8 byes). And you have the throughput of 1600MB or 1.6GHZ. If you bought a PC with these calculations it would be a PC1600. Finally, the reason it is 8 bytes is because motherboard bus these days send data in 64-bit chunks which is 8 bytes.
You can but your CPU will probably not go as fast as it should. The motherboard has a system crystal that has a clock. The speed of the clock is called the frontside bus speed. A CPU uses a multiplier to make the CPU go faster. For instance if the frontside bus is 100MHz and the CPU has a multipier of 5, then the CPU will operate at 500MHz. So, if you use a CPU that is larger than what the motherboard requires the front side bus, which is dictated by the type of motherboard may be slower that what your CPU is supposed to see so it will run slower. Hope this helps, if you have any questoins leave it on my message board.
A system bus frequency is 1600 MHz. A CPU frequency is 166 MHz to almost 4GHz.
computer bus is in the cpu...
Bus architecture is the pathway between the CPU and other peripherals. It is usually a shared input/output pathway. Bus is short for omnibus, which means, for all.