Processor / bus frequency has no direct correlation to bandwidth.
It is a measurement on how fast your CPU is working. It does not (really) tell you anything about the REAL PERFORMANCE. For that you need much, much, more data about the system.
You can't ! MHz or Megahertz is a measurement of frequency - mbps or mega-bits per second is a measurement of data transfer speed.
RIMMs operate at speeds of 600 MHZ (PC600) or 800 MHz (PC800). All installed RIMMs must operate at the same speed, and have the same ECC or non-ECC rating. The operating speed is different than the data path size. RIMMs are avilable in 16- or 32-bit data path.
Access Time measured in MHz
600 MHz or 800 MHz
It is a measurement on how fast your CPU is working. It does not (really) tell you anything about the REAL PERFORMANCE. For that you need much, much, more data about the system.
speed ofcource.. 800 mhz PC will be slower than 1099 mhz PC because of slow data rate..
You can't ! MHz or Megahertz is a measurement of frequency - mbps or mega-bits per second is a measurement of data transfer speed.
Personaly, i have to R/C cars that are 27 MHZ and 49 MHZ and my 49 MHZ goes faster than the 27 MHZ. but the 27 MHZ has much more control than the 49 MHZ.
No. The first expansion slots on IBM PCs (and compatibles) had only an 8-bit data path, and ran at 8 Mhz.
It isn't a GHz yet... you need 1024 MHz to make 1 Ghz
DDR RAM (Double Data Rate RAM) Instead of processing data for each beat of the system clock, as regular SDRAM does, it processes data when the beat rises and again when it falls, doubling the data rate of memory. If a motherboard runs at 200 MHz, DDR memory runs at 400 MHz.
RIMMs operate at speeds of 600 MHZ (PC600) or 800 MHz (PC800). All installed RIMMs must operate at the same speed, and have the same ECC or non-ECC rating. The operating speed is different than the data path size. RIMMs are avilable in 16- or 32-bit data path.
Cat 5
You don't need exactly one cycle data for computing the RMS value. It is just a convenient normalization. 1 cycle = 1Hz. RMS values can also be specified in 1 Mcycle, 1kcycle, even 2.39384kcycles. Again, 1 cycle is simply convenient. In other words, if the RMS value were specified in MHz, the RMS value will be 20*log(MHz/Hz) higher.
Access Time measured in MHz
Splitters or separators must be rated from 950 to 2150 MHz. This depends upon your installation and the type receivers you have.