Unit 4:?Different types of tuition touch on distribute stock and retentivity provides avail commensu identify.?1. The differences amidst reposition types:A. DDRDDR ( twice information let onrank) remembering is the next generation SDRAM (Synchronous DRAM). DDR is synchronous with the scheme quantify. The biggish difference among DDR and SDRAM reposition is that DDR reads filmive information on 2 the rising and f exclusivelying edges of the clock manoeuver. SDRAM whole carries instruction on the rising edge of a signaling. Basic aloney this put ups the DDR staff to transfer selective information twice as fast-flying as SDRAM. Example; instead of a information rate of 133MHz, DDR wareho development transfers entropy at 266MHz, twice as fast. DDR modules purpose m some other panel dodge designs similar to those utilize by SDRAM. DDR is non pratward compatible with SDRAM-designed motherboards. DDR storehouse sup fashions both Non-parity, ?regul ar? store, containing laboredly one figure of retentiveness for every bit of entropy to be origind. And error correction code (error correction code), using more(prenominal) than one bit of memory. B. DDR3DDR3 (Double Data Rate three) the ternion generation and most advanced Double Data Rate Synchronous Dynamic Random admittance reposition. By religious offering reduced power consumption, a bivalent pre-fetch buffer store and overly offers more bandwidth because of its increased clock rate. C. RDRAMRDRAM (Ram tutor stock) is a basal step from SDRAM. RDRAM sends less information on the data bus (18 bits wide as opposed to the stock(a) 32 or 64 bits), but it sends data more frequently. It in addition reads data on both the rising and falling edges of the clock signal, as DDR does. As a result, RDRAM is able to achieve strong data transfer revives of 800MHz and higher. 2. The differences between parity (ECC) and non-parity memory. A. ECC (Error-Correcting Code ) Memory:R bely found in domicile PCs, ECC i! s memory that tests the truth of data moving in and out and is able to find and correct some errors without exploiter intervention. These small errors are unremarkably cause by cosmic rays. ECC memory is unaccompanied genuinely beneficial if a person is going to be processing massive a jump ons of data ( same(p) a compere does) and all data assumes to be 100% accurate. ECC memory is not normally needed for home musical arrangements, but is ordinarily used in server computing machines. B. Non-Parity Memory (Non-ECC):Non-ECC is recommended for home and dictum desktop PCs. The biggest advantage that non-ECC memory offers to the consumer is an increase in run forward over any(prenominal) ECC equivalent. Non-ECC is ideal for 99% of computers. 3. The differences of Registered Memory, Un-buffed, and Buffed Memory and when to use them;A.Registered memory:Registered memory contains buffers that maintain carry off of signal distribution to all DRAM on a DIMM. caramels re turn key one estimable clock motorbike (2 DDR clock cycles) to buffer the control and address signals Registered memory has a higher subject matter than un-buffered memory. Buffering increases the reliability of high-speed data access which is critical for server operations. Registered modules are only used in Servers and Mission censorious trunks where reliability is crucial (where a get by of large data is existence moved). Regular home users and performance users go forth not get any benefits from registered memory and might actually call for a slight stock due to the higher skill of the buffering. B.Un-buffered memory:Un-buffered memory is memory where the memory controller module feats the memory directly, instead of using a store-and-forward system like registered memory. Some systems do not support un-buffered memory, others require un-buffered memory and many more agree you the option to use un-buffered or registered memory. The use of un-buffered memory is sen sible for gaming systems. It is not recommended for s! erver-class systems. Un-buffered memory is also known as ?unregistered memory?. C.Buffered memory:Buffered memory uses a Buffer chip to boost the clock signal displace cross guidances the memory module so that the clock signal is seen as a clean, sharp signal across the entire module. It eliminates chances of memory errors in data sent or retrieved from memory. It is commonly used in larger mental ability EDO (Extended Data-Out) modules. Buffered modules take on a different keyway in the linkup edge and pile only be used when the board supports buffered modules. Unlike registered modules, it is not interchangeable with un-buffered modules. 4. The differences between IDE and small computer system port;A. IDEIDE ( interconnected let Electronics) is a timeworn electronic port used between a computer motherboards data paths and the computers discus remembering winds. The IDE embrasure is based on the ISA (Industry Standard Architecture) 16-bit bus standard, but it is also use d in computers that use other bus standards. most(prenominal) computers sold today use an enhanced edition of IDE called EIDE (Enhanced Integrated bowel movement Electronics). In todays computers, the IDE controller is much built into the motherboard. B. SCSI;SCSI (Small Computer transcription Interface) is a set of interfaces that allow personal computers to communicate with different tall(prenominal)ware such(prenominal) as; book catchs, tape drives, CD-ROM drives, printers and scanners faster and more flexibly than previous interfaces. The primary objective for SCSI interface is to put up host computers with independence from proprietary devices. 5. The differences between SATA, PATA, and ATA;A. SATA: is an IDE (integrated development environment) standard for connecting devices like optical drives and sternly drives to the motherboard. The stipulation SATA generally refers to the types of demarcations and connections that obey this standard. SATA cables are long, t hin, 7-pin cables. One end plugs into a port on the m! otherboard, commonly tagged SATA, and the other into the backwards of a depot device like a punishing drive. Serial ATA replaces line of latitude ATA as the IDE standard of survival of the fittest for connecting transshipment center devices in stead of a computer. SATA reposition devices can spread data to and from the rest of the computer over twice as fast as an other similar PATA device. B. PATA: Parallel ATA (PATA) is an IDE standard for connecting stock devices like trying drives and optical drives to the motherboard. PATA generally refers to the types of cables and connections that play along this standard. PATA cables are long, flat cables with 40-pin connections (in a 20x2 matrix) on either side of the cable. One end plugs into a port on the motherboard, usually labeled IDE, and the other into the back of a computer storage device like a hard drive. Some PATA cables devour an extra connector midway with the cable for connecting yet another storage device. PATA cables come in 40-wire or 80-wire designs. Most modern storage devices require the use of the more capable 80-wire PATA cable to run into certain speed requirements. Both types of PATA cables have 40-pins and look around identical so telling them apart can be difficult. Usually though, the connectors on an 80-wire PATA cable will be obscure, hoar and unappeasable temporary hookup the connectors on a 40-wire cable will only be black. C. ATA: The ATA standard allows you to connect storage peripherals directly with the motherboard thanks to a ribbon cable, which is generally do up of 40 jibe wires and three connectors (usually a blue connector for the motherboard and a black connector and a white-haired connector for the two storage peripherals). On the cable, one of the peripherals must be declared the manipulate cable and the other the slave. It is infrastood that the outlying(prenominal) connector (black) is reticent for the maitre d peripheral and the middle con nector (grey) for the slave peripheral. A mode called! cable select (abbreviated as CS or C/S) allows you to automatically define the master and slave peripherals as long as the computers BIOS supports this functionality. Even though PATA and SATA are both IDE standards, PATA (formally ATA) cables and connectors are often referred to only when as IDE cables and connectors. 6. The explanation for hard drive divide and the benefits;Disk class divides the data storage seat of a hard disk into separate areas referred to as partitions.
Partitions are usually composed when the hard disk is first being prepared for usage. Once a disk is divided into partitions, directorie s and accommodates whitethorn be stored on them. posterior changes on the computer and in operation(p) system often an decision maker or power user will be confront with the need to resize partitions, create new partitions in the unallocated space and sometimes even undelete partitions that were previously removed or deleted. Benefits:1. It whitethorn reduce the time compulsory to perform institutionalize system checks (both upon boot up and when doing a manual check), because these checks can be done in parallel. (By the way, neer hunt down a check on a mount file system!!! You will almost certainly sorrowfulness what happens to it. The exception to this is if the file system is mounted read-only, in which show window it is rubber to do so.) File system checks are a lot easier to do on a system with eight-fold partitions. Example; if I knew my home partition had a conundrum; I could simply unmount it, perform a file system check and and whence remount the repaired file system. 2. Multiple partitions, you can, moun! t one or more of your partitions as read-only. 3. The most alpha benefit that partitioning provides is protection of your file systems. If something should happen to a file system (either through user error or system failure), on a partitioned system you would likely only lose files on a single file system. On a non-partitioned system, you would probably lose them on all file systems. 7. Problems created by atomisation;8. Describe how your customer would fix a fragmented hard drive at home. 1. Before rill the defragment course, first allay all work and exit all programs. Then, to ensure that the defragment benefit itself runs quickly, disable the blanket saver. 2.Using the mouse, right shoot on any part of the desktop that is not an photo or a tool bar, left click on Properties, the Screen rescuer Tab, the arrow in the recession under screen saver, curlicue to None and click on Apply, then OK. (Failure to disable the screen saver causes the defragment utility to st art once again each time the screen saver appears, prolonging the procedure). 3.Left click on Start, Programs, Accessories, System Tools, and Disk Defragmenter. When asked which drive to defragment, select All cloggy Drives if the computer has more than one. If the computer only has one drive, select C. In Windows 95, click OK. Windows will examine the hard drive to influence what per centum is defragmented. Even if told, You do not need to defragment this drive now, continue anyway. (A drive that is fragmented only 1 percent can slow the system). 4.Click on Advanced and even out sure that at that place is no checkmark in the box labeled full point Drive for Errors, then click OK and Start. For Windows 98 and Windows ME, click on Settings (again, make sure on that point is no check in the box labeled Check Drive for Errors), then click OK. Even if the screen saver has been disabled, there is still a chance that the deatomization process will set itself and begin from zero. T his is indicated when the message Drives Contents Cha! nged appears before the fragmentation is complete. If this happens, take a break and let the utility program run again. Eventually it will run all the way through. after(prenominal) the defragmenting utility runs, return the screen saver to its original settings. References:Schmidt, C. A. (2008). ?The have it away A+ Guide to PC Repair?. ordinal Edition. capital of Massachusetts: Addison-Wesley. Chapters 6 & 7. (1998 - 2009). ?Memory? PC technical school Guide. Retrieved October 11, 2009, from weave identify: http://www.pctechguide.com/(2004 - 2010). ?Different Memory Types?. Velocity Guide. Retrieved October 12, 2009, from Web grade: www.velocityguide.comLister, John (2009). ?What is Buffered Memory?? Wise Geek. Vi stationd October 12, 2009 at Web site: www.wisegeek.com/what-is-buffered-memory.htm If you want to get a full essay, order it on our website:
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