- Front side bus
Depending on the processor used, some computers may also have a
back side buswhich connects the CPU to the cache. This bus and the cache connected to it is faster than accessing the system memory via the front side bus.
The bandwidth or maximum theoretical throughput of the front side bus is determined by the product of the width of its data path, its clock frequency (cycles per second) and the number of data transfers it performs per clock cycle. For example, a 32-
bit(4- byte) wide FSB operating at a frequency of 100 MHz that performs 4 transfers per cycle has a bandwidth of 1600 megabytes per second (MB/s).
The number of transfers per clock cycle is dependent on the technology used. For example, GTL+ performs 1 transfer/cycle,
EV62 transfers/cycle, and AGTL+4 transfers/cycle. Intel calls the technique of four transfers per cycle Quad Pumping.
Many manufacturers today publish the speed of the FSB in
megatransfers per second (MT/s), not the FSB clock frequency in megahertz (MHz). This is because the actual speed is determined by how many transfers can be performed each clock cycle as well as by the clock frequency. For example, if a motherboard (or processor) has a FSB clocked at 200 MHz and performs 4 transfers per clock cycle, the FSB is rated at 800 MT/s.
History and current usage
The front side bus is an alternative name for the data and address buses of the CPU as defined by the manufacturer's
datasheet. The term is mostly associated with the various CPU buses used on PC-related motherboards (including servers etc), seldom with the data and address buses used in embedded systemsand similar small computers.
Front side buses serve as a connection between the
CPUand the rest of the hardware via a so called chipset. This chipset is usually divided in a northbridge and a southbridge part, and is the connection point for all other buses in the system. Buses like the PCI, AGP, and memory buses all connect to the chipset in order for data to flow between the connected devices. These secondary system buses usually run at speeds derived from the front side bus clock, but are not necessarily synchronous to it.
In response to
AMD's Torrenzainitiative, Intel has opened its FSB CPU socket to third party devices [http://www.theinquirer.net/default.aspx?article=38964] [http://www.theregister.co.uk/2007/04/17/intel_idf_serverstuff/] .Prior to this announcement, made in Spring 2007 at Intel Developer Forumin Beijing, Intel had very closely guarded who had access to the FSB, only allowing Intel processors in the CPU socket. This is now changing, the first example being FPGAco-processors, a result of collaboration between Intel- Xilinx- Nallatech[http://home.businesswire.com/portal/site/google/index.jsp?ndmViewId=news_view&newsId=20070918006506&newsLang=en] and Intel- Altera- XtremeData[http://money.cnn.com/news/newsfeeds/articles/prnewswire/AQTU05318092007-1.htm] [http://www.hpcwire.com/hpc/1791479.html] .
Related component speeds
frequencyat which a processor (CPU) operates is determined by applying a clock multiplier to the front side bus (FSB) speed. For example, a processor running at 3200 MHz might be using a 400 MHz FSB. This means there is an internal clock multipliersetting (also called bus/core ratio) of 8. That is, the CPU is set to run at 8 times the frequency of the front side bus: 400 MHz × 8 = 3200 MHz. By varying either the FSB or the multiplier, different CPU speeds can be achieved.
Setting a FSB speed is related directly to the speed grade of memory a system must use. The memory bus connects the northbridge and RAM, just as the front side bus connects the CPU and northbridge. Often, these two buses must operate at the same frequency. Increasing the front-side bus to 450 MHz in most cases also means running the memory at 450 MHz.
In newer systems, it is possible to see memory ratios of "4:5" and the like. The memory will run 5/4 times as fast as the FSB in this situation, meaning a 400 MHz bus can run with the memory at 500 MHz. This is often referred to as an 'asynchronous' system. It is important to realize that due to differences in CPU and system architecture, overall system performance can vary in unexpected ways with different FSB-to-memory ratios.
In image, audio, video, gaming and scientific applications that perform a small amount of work on each element of a large data set, FSB speed becomes a major performance issue. A slow FSB will cause the CPU to spend significant amounts of time waiting for data to arrive from system memory. However, if the computations involving each element are more complex the processor will spend longer performing these and the FSB will be able to keep pace, because the rate at which memory is accessed is reduced.
Similar to the memory bus, the PCI and AGP buses can also be run asynchronously from the front side bus. In older systems, these buses operated at a set fraction of the front side bus frequency. This fraction was set by the BIOS. In newer systems the PCI, AGP, and
PCI Expressperipheral buses often receive their own clock signals, which eliminates their dependence on the front side bus for timing.
Overclockingis the practice of making computer components operate beyond their stock performance levels.
Many motherboards allow the user to manually set the clock multiplier and FSB settings by changing jumpers or
BIOSsettings. Many CPU manufacturers now "lock" a preset multiplier setting into the chip. It is possible to unlock some locked CPUs; for instance, some Athlons can be unlocked by connecting electrical contacts across points on the CPU's surface. For all processors, increasing the FSB speed can be done to boost processing speed.
This practice pushes components beyond their specifications and may cause erratic behaviour, overheating or premature failure. Even if the computer appears to run normally, problems may appear under heavy load. For example, during Windows Setup, you may receive a file copy error or experience other problems [http://support.microsoft.com/kb/310064] . Most PCs purchased from retailers or manufacturers, such as
Hewlett-Packardor Dell, do not allow the user to change the multiplier or Front Side Bus settings due to the probability of erratic behavior or failure. Motherboards purchased separately to build a custom machine are more likely to allow the user to edit the multiplier and FSB settings in the PC's BIOS.
Pros and cons
Although the front side bus architecture is an aging technology, it does have the advantage of high flexibility and low cost. There is no theoretical limit to the number of CPUs that can be placed on a FSB, though performance will not scale linearly across additional CPUs (due to the architecture's bandwidth bottleneck).
The front side bus as it is traditionally known may be disappearing. Originally, this bus was a central connecting point for all system devices and the CPU. In recent years this has been breaking down with increasing use of individual point-to-point buses. The front side bus has recently been criticized by AMD as being an old and slow technology that bottlenecks today's computer systems. While a faster CPU can execute individual instructions faster, this is wasted if it can't fetch instructions and data as fast as it can execute them; when this happens, the CPU must wait for one or more clock cycles until the memory returns its value. Furthermore, a fast CPU can be delayed when it must access other devices attached to the FSB. Thus, a slow FSB can become a bottleneck that slows down a fast CPU.
Intel QuickPath Interconnect
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