Digital storage devices allows you to store and retrieve data if you need. They are compatible with most electronic products. Many consumers prefer digital storage because of their small size, storage and portability. There are many types of digital storage devices on the market. It’s always good to think about what type of digital storage device is compatible with your electronics before choosing one.

How does a memory data storage?

An electronic memory functions and uses Flash memory, Flash memory, data storage on the non-volatile memory chips. Memory-cards have the ability, power, delete or reschedule all data recorded.

What are the different types of storage devices available on the market?

Compact Flash (CF):

Compact Flash is the size of a box of matches and is used in a variety of electronic devices, including PDAs, digital cameras, Digital Voice Recorder and set-top TV boxes. There are two models: Type I and Type II is thicker and offers an expandable memory option. Type I cards often adapt by default in a laptop with location using a map cheap and are also compatible with Compact Flash Type II slots. Compact Flash cards can be used in a PCMCIA slot, if you use an adapter. Otherwise, you need a device with a Compact Flash Type I housing.

Smart Media (SM):

The Smart Media is often regarded as maps SSFDC (Solid-State Digital Flash Cards). They are as thin as credit cards and the size of a box of matches. They are specially adapted for digital devices like digital cameras, MP3 player, PDA, etc.. Smart Media storage capacities up to 128 megabytes. Some devices have slots for Smart Media and Compact Flash cards. If this is not the case, you need a Smart Media Slot, a SmartMedia card.

MultiMedia Card (MMC):

The MMC is a postage stamp-size card in mobile phones, pagers, video cameras, global positioning systems, laptops, MP3 players and PDAs. Your storage capacity ranging from 256 MB to 4 GB Devices, Secure Digital cards, MultiMedia cards also.

Secure Digital (SD):

The Secure Digital memory card is successful, the MMC. It is a little thicker than the MMC, additional storage capacity and a digital copyright of security, copyright protection for data. The digital storage medium is very popular with many PDA, organizer, mobile phone and MP3 player. Devices that use MultiMedia Cards may also accept Secure Digital cards.

Memory Stick:

The Memory Stick is a storage device developed exclusively by Sony. It is compatible with most Sony products, like digital cameras, laptops, MP3 players and PDAs. They have a storage capacity of 256 MB to 8 GB, and supports USB 1.1 and 2.0 for better accessibility. This is a special version of the Memory Stick with Digital Rights Management functions for some devices. This card is issued by one of the following names – Magic Gate Memory Stick, MagicGate Memory Stick Duo media or Memory Stick PRO Duo Media. Users can and transporting data to your computer USB port using the Micro Vault USB storage.

xD-Picture Card:

Map xD-Picture Card is the smallest storage format for recording, storing and transporting audio-visual information. In addition, the xD-Picture Card is designed to save energy and prolong the life of the battery of your digital. You can use the xD cards in a Compact Flash, if you use an adapter. Some devices have card slots for xD and SmartMedia cards. If the device is not on the two connectors, one device with an xD-card housing is provided with a card xD-Picture Card.

What are memory card readers and card?

Memory Card, a memory card to maximize performance by increasing transfer speed of up to 60 MB / sec In addition to the potential for expansion, memory cards, card on the data transmission capacity without the device to the computer with a cable. The card reader read most memory cards such as SD card, CF Card, MMC, and many series. Most readers of performance and writing, so it may Pen Drive.

What are the most popular brands?

Memory of the digital camera manufacturers, like Sony and Olympus, have usually very popular with consumers. If you’re concerned about the speed of the memory of your digital camera, for brands such as Lexar, SanDisk and Simple Tech. Lexar High-Speed Card, Simple Tech Prox cards and SanDisk Ultra cards have speeds much higher than most memory cards.

What are the instructions for using a memory card?

Removing a memory card of a device, while data is processed. It is recommended to switch off the device before removing the operating system to a memory card. In addition, you must have a memory card in any device with low battery. Do not touch the metal connectors of the memory card, especially cards Secure Digital, SmartMedia and xD to discharge static electricity data.

RAM is also used to store instructions about currently running applications.
For example, when you start a computer game, a large set of the game’s instructions
(for example, how it works, how the screen should look, which sounds must be generated) is loaded into memory. The processor can retrieve these instructions much faster from RAM than it can from the hard drive, where the game normally resides until you start it. Within certain limits, the more information that’s stored in memory, the faster the computer will run. In fact, one of the most common computer upgrade is to increase the amount of RAM. The information in RAM is continually being read, changed, and removed. It is also volatile, meaning that it cannot work without a steady power supply. When a computer is turned off, the information in RAM is lost.
Recall that when a user makes a request, it is intercepted by the processor, which then organizes the request into component-specific tasks. Many of these tasks must occur in a specific order, with each component reporting its results back to the processor before the next task can be completed. The processor uses RAM to store these results until they can be compiled into the final result(s).
Many desktop components, such as the processor, power supply, and RAM, are installed through simple physical attachment to the computer. That is, physical installation is all that is required to make the component functional. Other devices, such as hard drives and keyboards, require the additional assignment of system resources. This section focuses on the physical installation of common components; resource assignment is
discussed in the next section, “IRQs, DMAs, and I/O Addresses.” Special hardware configurations are discussed in Chapter 2.

Memory
The first RAM chips were dual inline packages (DIP) that attached directly into sockets on the system board. However, their design made them prone to loosening due to the alternating heating and cooling of the system board. Newer memory modules are actually small cards with DIP chips on one or both sides. These cards fit upright into slots on the system board and are held in place by clips that prevent “chip creep” (loosening).
RAM is automatically detected and counted on startup, so its installation is limited to physical placement in the computer. That is, once RAM is physically installed, no additional configuration is required. When installing memory in a motherboard, verify the types and amounts of memory that the motherboard can accept.

SIMM Memory Single inline memory module (SIMM) memory is available in 30- and 72-connector configurations. Most 80386, 80486, and Pentium
computers include slots for both SIMM types. Follow the steps in Exercise 1-5 to install SIMM. However, newer drives are able to access RAM
directly using a protocol called Ultra DMA (UDMA). UDMA is a protocol used only by hard drives and is not functionally associated with a computer’s standard DMA channels.

As you know Memory, one function of RAM is to provide the processor with faster access to the information it needs. Within limits, the more memory a computer has, the faster it will run. One of the most common computer upgrades is the installation of more RAM. Recall that most computers can use another type of RAM, called cache memory. Cache memory chips can be accessed even faster than regular RAM, so their presence can help speed up the computer. Generally, the more cache a computer has, the faster
it will run. The type of cache that can be added to the computer is called Level 2 (L2) cache, and it can be installed in available slots on the motherboard.

Additional RAM Memory can be added to a portable system in a number of ways. Some systems include extra RAM slots within the chassis. This type requires you to open the computer’s case and place the RAM module in an available slot.
Because RAM modules for portables are proprietary, you cannot use them in desktop computers or in other portables.
An easier way to add more RAM to your portable is to use a memory PC Card. PC Cards were described earlier as being small cards that can be easily inserted in a portable to enhance or expand its abilities. In fact, PC Cards originated as PCMCIA cards specifically for the purpose of adding more memory. PCMCIA stands for Personal Computer Memory Card International Association, a bit of a misnomer because these cards are usually used in laptops, not in PCs (desktops). Processor and Memory Symptoms
In most cases, processor and memory problems are fatal, meaning that when there is such a problem, the computer will not boot at all. However, you should be aware of some nonfatal error indicators. As described, 1** error codes are typical of processor problems, and 2** error codes are typical of memory problems. If you turn on the computer and it does not even complete the POST or it does nothing at all, and you have eliminated power problems, there might be a problem with the processor or memory. The solution to a processor or memory problem is to remove the offending component and replace it with a new one. If the error persists,
there might be a problem with the slot or socket that the memory or processor uses to connect to the motherboard. In this case, the motherboard needs to be replaced.
On a final note: Some RAM errors are not reported by the computer at all. That is, if an entire memory module does not work, the computer might just ignore it and continue to function normally without it.Watch as the RAM is counted on the screen at startup to ensure that the total amount matches the capacity installed in the machine. If this amount comes up significantly short, you probably have to replace the memory module.
Memory failures may not cause a system to appear to malfunction at all.
Most modern systems will simply ignore a memory card that has malfunctioned and normal operations will continue. The user may note performance loss, which is a key symptom of a memory card failure.

Random Access Memory

The primary function of RAM is to provide a temporary storage place for information about devices and applications. However, there are many types of RAM with which you should be familiar. This section discusses the many incarnations of RAM as it has been developed and refined over time. This section also discusses important factors to consider when installing or upgrading the RAM in a computer system: there are guidelines you must follow about the type of RAM, the type of package, and the amounts
of RAM that you install in a particular system.

Types of RAM
RAM is not all the same. Over time, RAM technology has improved, changed form, and been used for specialized components. The most common types of RAM are discussed here.

• SRAM (Static RAM)

SRAM was the first type of RAM available. SRAM can be accessed at approximately 10 nanoseconds (ns), meaning that it takes about 10ns for the processor to receive requested information from SRAM. The structure of SRAM chips limits them to a maximum data capacity of 256KB. Although SRAM is very fast compared with DRAM, it is also very expensive. For this reason, SRAM is typically used only for system cache.

• DRAM

Dynamic RAM (DRAM) was developed to combat the restrictive expense of using SRAM. DRAM chips provide much slower access than SRAM chips but can store several megabytes of data on a single chip (or hundreds of megabytes if they are packaged together on a module). Every “cell” in a DRAM chip contains one transistor and one capacitor to store a single bit of information. This design makes it necessary for the DRAM chip to receive a constant power refresh from the computer to prevent the capacitors from losing their charge. This constant refresh can make access even slower
and causes the DRAM chip to draw more power from the computer than an SRAM chip. Because of its low cost and high capacity, DRAM is used as “main” memory in the computer. The term DRAM is typically used to describe any type of memory that uses the technology just described. However, the first DRAM chips were very slow (~80–90ns), so faster variants have been developed. The list is quite large and includes fast-paged
RAM, EDO RAM, SDRAM, RDRAM, SDLRAM, and BEDO RAM. As computer
systems improve, the list of DRAM technologies continues to grow. However, EDO, SDRAM, RDRAM, and DDR RAM are currently the most common, so they are described here.

• EDO RAM

Extended data out (EDO) RAM improves on traditional DRAM by performing more than one task at a time. When one piece of data is being sent to the processor, another is being retrieved from the RAM module. While that piece of data is being transferred, the EDO RAM is looking for the next piece to retrieve for the processor. This process enables the chip’s data to be accessed at about 60ns. EDO RAM chips can be used only in a computer system whose processor and motherboard support its use.

• SDRAM

Synchronous dynamic RAM, or SDRAM, is about twice as fast as EDO RAM because it is able to run at the speed of the system bus (up to 100–133MHz). However, as faster system bus speeds are developed, EDO and SDRAM are being replaced with other, faster types of DRAM, such as RDRAM and DDR RAM. Like EDO RAM, SDRAM can be used only in systems that support it.

• RDRAM

RDRAM (Rambus Dynamic RAM) gets its name from the company that developed it, Rambus, Inc. RDRAM uses a special Rambus channel that has a data transfer rate of 800MHz. The channel width can be doubled, resulting in a 1.6GHz data transfer! RDRAM can be used only in computers with special RDRAM channels and slots. RDRAM is fairly new, so don’t expect to see it in computers that were manufactured before 1999.

• DDR RAM

Double-data rate (DDR) RAM doubles the rate of speed at which standard SDRAM can process data. That means DDR is roughly twice as fast as standard RAM. The standards available for DDR RAM are PC 1600, PC 2100, and PC2700. This new labeling refers to the total bandwidth of the memory, as opposed to the old standard, which listed the speed rating (in MHz) of the SDRAM memory—in this case, the PC66, PC100, and the PC133. The numeric value in the PC66, PC100, and PC133 refers to the MHz speed that the memory operates at.

• VRAM

Video RAM (VRAM) is a specialized type of memory that is used only with video adapters. The video adapter is one of the computer’s busiest components, so to keep up with video requirements, many adapters have an on-board micro-microprocessor and special video RAM. The adapter can process requests independently of the CPU, then store its results in the VRAM until the CPU retrieves it. VRAM is much faster than
EDO RAM and is capable of being read from and written to at the same time. The result is better and faster video performance. Because VRAM includes more circuitry than regular DRAM, VRAM modules are slightly larger.
The term Video RAM refers to both a specific type of memory and a generic term for all RAM used by the video adapter (much like the term DRAM, which is often used to denote all types of memory that are dynamic). Faster versions of video memory have been introduced, including WRAM.

• WRAM

Window RAM (WRAM) is another type of video RAM but it provides faster access than VRAM. It uses the same dual-ported technology that allows devices to read and write data to the video memory at the same time. The term “window” refers to its

Physical Characteristics
The RAM types discussed so far can have many different physical forms. Your system must support both the technology and form of a memory module. The system must also support the data width of the memory as well as its method of error correction. The following subsections describe some common physical forms of memory modules and other characteristics that distinguish one module from another.

• Single Inline Memory Modules

The first memory chips were dual inline package (DIP) chips, which were inserted directly onto the motherboard. However, as discussed in Chapter 1, their structure made them prone to chip creep. Single inline memory modules (SIMMs) were developed to combat this loosening of memory chips and to recover space on the motherboard.
SIMMs are available in 30-pin and 72-pin forms. Thirty-pin SIMMs are 8-bit,
meaning that data can be transferred into or out of the module 8 bits at a time. Seventy-two-pin SIMMs are 32-bit. Because SIMMs are older technology, they are typically used for fast-paged and EDO RAM. You are not as likely to find a SIMM with SDRAM, since dual inline memory modules (DIMMs) were the prevalent form when SDRAM was introduced.

• Dual Inline Memory Modules

Dual Inline Memory Modules (DIMM) modules look similar to SIMMs but are slightly longer and are installed into a different type of slot. DIMMs have two rows of connectors, 168 connectors in all, and are 64 bits. DIMMs are likely to contain either EDO RAM or SDRAM because those technologies were common when DIMMs were introduced.

• Rambus Inline Memory Module

The Rambus Inline Memory Module (RIMM) is designed specifically for use with Rambus memory. RIMMs look just like DIMMs but have 184 connectors. They are also more proprietary and less common than SIMMs and DIMMs. RIMMs are 16-bit.

• Small Outline DIMM

Small Outline DIMM (SoDIMM) is a memory module frequently used in laptop computers. The physical size is much smaller than DIMM memory. The most common pin configurations are 72- and 144-pin modules.

• Parity and Nonparity Chips

One type of memory error checking is called parity. In parity, every byte of data is accompanied by a ninth bit (the parity bit), which is used by the receiving device to determine the presence of errors in the data. There are two types of parity: odd and even. In odd parity, the parity bit is used to ensure the total number of 1s in the data stream is odd. For example, suppose a byte consists of the following data: 11010010.
The number of 1s in this data is 4, an even number. The ninth bit will be a 1, to ensure that the total number of 1s is odd: 110100101.
Even parity is the opposite of odd parity; it ensures that the total number of 1s is even. For example, suppose a byte consists of the following data: 11001011 the ninth bit would be a 1 to ensure that the total number of 1s is 6, an even number.
Parity is not failure-proof. Suppose the preceding data stream contained two
errors: 101100101. If the computer was using odd parity, the error would slip through (try it; count the 1s). However, parity is a quick routine and does not inhibit the access time of memory the way a more sophisticated error-checking routine would.
Some memory modules also use parity. These modules include an extra bit for parity for every 8 bits of data. Therefore, a 30-pin SIMM without parity is 8 bits; with parity it’s 9 bits. A DIMM without parity is 64 bits; with parity, the DIMM has 8 extra bits (1 parity bit for every 8 data bits). Therefore, a DIMM with parity has 64 + 8 = 72 bits. If your system supports parity, you must use parity memory modules.
You cannot use memory with parity if your system does not support it.

If there is more than one printer port on the computer (LPT1 & 2 or multiple
USB ports), try the printer in another port or with another computer. Look at the printer settings in the OS to ensure that the attached printer matches the type selected in the printer settings area. Finally, this problem could be the result of insufficient printer memory. You can test this hypothesis by trying to print a very small document. If it works, there is a good chance that the original document was too large for the printer’s memory. You can add more RAM to the printer using the same modules that the computer uses (SIMMs or DIMMs).

Conventional Memory The first 640KB of RAM have traditionally been used
for running applications and the OS itself (DOS). This memory area was originally called system memory. The term system memory now refers to all the memory available in the system.
Upper Memory The remaining 384KB of memory were set aside (reserved) for ROM BIOS, and the RAM and ROM that was installed on devices. Applications could not access this memory space even if it wasn’t being entirely used by the system. This memory space was initially termed reserved memory. It was very common for devices such as video adapters to use a portion of this memory for its purposes.
Extended and High Memory When the Lotus 1-2-3 spreadsheet application
was released, users often found that it required more than 640KB of memory. To resolve the 1MB memory barrier problem, Lotus, Intel, and Microsoft joined forces and developed the LIM memory specification. In this specification, system memory was renamed conventional memory and reserved memory was renamed upper memory.
More important, however, was the development of a memory manager that allowed applications to use memory over 1MB (called extended memory). This manager, a file called HIMEM.SYS, could also load the OS into the first 64KB of extended memory, an area called the high memory area (HMA).
To use the extended memory specification (XMS), HIMEM.SYS must be referenced in the CONFIG.SYS file, as shown here:
DEVICE=C:DOSHIMEM.SYS
DOS=HIGH
The first line instructs the computer to locate and initialize the HIMEM.SYS file, thus enabling the extended memory area. The second line loads DOS into the high memory area (HMA).
Expanded Memory At the time of the LIM specification release, many users
still had older Intel 8088 and 80286 computers, which, because of the small memory address bus, could not be made to access memory over 1MB. For these individuals,
the LIM specification included an expanded memory manager that could “trick” the processor into using extended memory. In the 80386 processor, a file called EMM386 .EXE is able to swap pages of memory between extended memory and upper memory.

Cave exploration is a fun and educational activity. If you are interested in spelunking (or recreational cave exploring), however, you need to have a good grasp of the basics of cave exploration. Here are some tips that will help you safely enjoy your underground escapade:

Inform someone about your trip

You need to tell your friends or family about your caving trip. Tell them when you are leaving and when you are expected to be back and who are you with. Provide them with directions or a map to where you are going.

Don’t go alone
Read more…

Don’t you hate it when your computer starts to become sluggish the moment you try and run a couple of programs simultaneously? If such a scenario does occur then it is most likely that the problem lies with the Computer Memory. This can happen to you irrespective of whether you make use of a desktop or a laptop computer system.

Understanding computer memory

Your computer is embedded with two different kinds of memory. Both of them are equally important when it comes to the accomplishing of tasks for your computer.

The first of these memories is the static compute memory. This is the storage data bank which denotes the amount of space available for you to store different data on your computer system. The different items like photos, documents, videos etc that you store are all saved in the different divisions of the static memory of your computer.

The other kind of memory that has more to do with the running speed and ability of your computer is known as RAM. The short form RAM stands for Random Access Memory. This is where the hands on data is stored while your computer is in operation. When you are making use of different programs such as Microsoft word you will be drawing upon the memory capacity of your RAM chipset.

The program that you will be running is saved on the static memory but the essential space that is required for the program to function is drawn from your RAM chips. The over all performance of your computer will depend on the capacity of your static memory coupled with your RAM memory.

Buying DDR Memory

When it comes to RAM memory chipsets the market is loaded with many different varieties. Over the years the technology has advanced and now users have a multitude of options to choose from. The advanced technology of the DDR Memory for example gives users a far more efficient performance than its predecessor. Although DDR2 and other varieties have also been developed DDR memory chips continue to be the most popular because of the value for money that they have to offer.

You will find the DDR Memory chips at different speeds. The price varies according to the speed and the make but generally they are quite cost effective. This is especially true when you take the benefits of using DDR memory into account. At a decent price you can enhance the performance of your computer by adding a DDR Memory chip to upgrade you computer’s memory.

If you are wondering where to buy your self memory chips from then the internet has the solution to your problem. There are numerous web stores that have a collection of memory chips to offer. You can browse through their website and look for the memory card of your choice. It is however advised that you make sure that the memory card you will be buying is compatible with your computer system.

Introduction

Everybody buys a personal computer these days both for working and using off line programs as well as for online accessing information from the internet. It is difficult to imagine a computer without internet connection these days as internet provides the most important platform for doing research, meeting friends and colleagues through emails and Instant Messengers, browsing blogs and websites for seeking information, playing games and do many other things. In fact, people do not need televisions, radio, news papers, physical games, mobile phones, home theatres etc. Everything can be done using the internet. It is such a powerful media!

Serious threat from Internet

Unfortunately, along with these tremendous benefits, internet also poses serious threats to your PC. There are many malicious programs roaming on the internet that if your PC is not protected against them; within minutes your PC will get infected and it will crash. Along with the crash, you may also lose all your personal information which is there in your PC. These malicious programs are known as viruses, malware, spyware, Trojan horses or worms. To protect your PC from these malicious programs; you need to protect your PC using any popular anti virus software. These software programs are mostly cost around $30 to $90 per year. Some other anti virus software program are free. These free programs may or may not be good.

Drawbacks of Anti Virus Programs

Most of the good anti virus software programs cost money. At the same time installing them slows down your PC. In the internet world, the malicious programs are introduced first. Vendors who make anti virus software find these malicious programs and then make virus definitions programs which when applied as a patch to the installed anti virus software; protects your PC from that particular virus, malware, spyware, Trojan horse or worm. It takes some time in introduction of anti virus definition from the vendor. So during the time before this patch is introduced; your PC is at risk of getting attacked by this malicious software.

Zero cost security for your PC

Most of users of PCs use any of the Windows operating system made by Microsoft (around 90% people use Windows operating system). Hackers target Windows operating systems because of its popularity. Microsoft has been working hard on making its windows operating system virus proof. In Windows XP, it introduced firewall protection for the first time. But it protects only the incoming traffic for any PC. In Windows XP; no virus protection was provided. With introduction of Microsoft Vista; Microsoft has provided a full protection for its operating system. So you do not need to buy any anti virus software as anti virus protection has been provided with your operating system.