Optimize Your Computer's Performance

In a time where budgets are tight and computers are more in demand than ever before, finding ways to optimize a computer or laptops performance without breaking the bank is a crucial task. From upgrading computer memory to ridding a computer of all ineffectual apps and programs, there are many ways in which the performance of a computer can be improved upon:

1. Disk Maintenance

When a program crashes or, in the case of a laptop, the battery is run down to zero, a computer may create an error on its own hard drive. Over time, these errors can combine to result in a slow and sluggish PC. All major operating systems, including Windows, Mac and Linux, feature several PC tools which scan disks and drives and help to clean up any errors. Running these system clean-ups once a week, or scheduling them to run in the background on a regular basis will prevent errors from building up and inhibiting performance.

2. Remove Temporary Files

When users spend a lot of time surfing the internet or editing files in programs such as Microsoft Word or Adobe Photoshop, the computer automatically stores temporary files in a specific folder. Build-up of these files can clog the computer and slow performance in general; the removal of these files, as well as the clean-up of web browsing history and the examination of now irrelevant downloaded files can help a computer to run much faster.

3. Upgrade RAM Memory

As well as cleaning up the software and files within a computer, adding to the hardware can also improve a computer's performance without busting a budget. Innovations in technology mean that many computer memory upgrades are now cheaper than ever, and multiple guides online can instruct users on how to install an upgrade themselves without costly expert assistance. Even adding 2GB of RAM to a computer's hardware can dramatically affect the performance levels and help the computer to achieve a higher level of efficiency

4. Remove Irrelevant Programs

Many computers and laptops bought directly from manufacturers come with a mass of pre-installed programs that will never be opened by the user. They take up valuable space on the drive and slow down the overall performance of a computer; deleting the ones which aren't being used will improve the speed and free up space. Assess the usage of programs regularly and take into account the people who will be using the computer; an office computer might not need a vast array of games installed, and likewise a child or young person's computer might not need a complex office program pack.

Top 5 Reasons To Invest In An External Hard Drive

In an age where both desktop and laptops now have staggering amounts of computer storage and RAM memory, it can be difficult to see why the average computer user would need an external hard drive. However, with prices of hard drives and SSDs dropping, they are becoming a convenience that many computer users simply should not be without. From storing downloaded movies and music to providing a reliable back-up, here are the top five reasons to invest in an external hard drive.

1. Portability

The nature of the external hard drive means that they are even more portable than many laptops. Compact and hardwearing, they can be taken to work, on business trips or even over to a friend’s house at the weekend. Most of them connect easily through USB cables, meaning that they can be utilised almost anywhere with the correct link-ups.

2. Capacity

Though computers and laptops often have more than enough storage space on which to run, especially with the multitude of computer hard drive upgrades available to them, having extra space means never having to worry about download capacities. Large volume files such as high-definition movies and whole music libraries can be stored on external hard drives with no need to delete older files or make room.

3. De-clutter

Rather than navigating through an old laptop, with dense folders full of documents and files that are years on, having an external drive means keeping a laptop or computer free of clutter without deleting anything. The portability of the units mean the files are easily accessible with a USB cable, and can be reached without slowing down the main machine.

4. Back-ups

Those who use their computers and laptops for business should always practice backing up their files in case of a system crash on their main unit. The external hard drive is not permanently connected to the computer or laptop, so any system failures or corrupted data will have no effect on the files stored on the external unit, and all files can then be restored.

5. High Speed

External hard drives which are connected with Firewire will have very fast data transfer rates and will be able to copy large files from computers or laptops in a relatively small period of time. For those who use their computer for video, image or music editing and need to work alongside large volumes, this will come in extremely handy.

SSDs To Account for 33% of Computer Storage Market in 2017

Research firm IHS has predicted that SSDs (solid-state drives) will account for more than one third of the computer storage market by 2017, almost seven times than the number of shipments recorded in 2012. The total worldwide shipments is expected to increase from 31 million units to 227 million units in the space of five years, forcing down the percentage of the market devoted to hard disk drives; from 94% in 2012, hard disk drives are expected to take up just 64% of the total market in five years. The explosive growth over this period equates to around 48%, and will put the SSD on the map as a promising substitute for hard disk drives.

The rise in the number of SSDs being shipped across the globe has already begun; measuring in at just 6% of the computer storage solutions market in 2012, the demand for ultrabooks and other super-slim laptop models over the next few years is expected to drive demand considerably. Touchscreen displays are becoming more prominent, and the upcoming Haswell processor created by Intel is set to revolutionise thin computers for consumers. These units demand powerful, versatile and compact drives. Combine this with the price of NAND flash memory drastically decreasing, and the conditions are perfect for a surge in SSDs.

SSDs carry out essentially the same function as a conventional hard drive, but with one vital difference: they have no mechanical or moving parts. Where hard disk drives function by using magnetic fields and spinning parts, an SSD uses a flash memory chip which is similar to the memory within a USB drive. This innovation drastically reduces read and write times, and also has the added advantage of never wearing out; the moving parts within a hard disk drive can wear and diminish in effectiveness over time, but the lack of moving parts in SSDs mean that they can function at a higher level for a sustained period of time.

However, the future dominance of the SSD is not all bad news for the trust hard disk drive. They are still far cheaper in price than their high-tech competitors, and they generally have much higher storage densities when compared to the majority of SSDs. In situations where large volumes of data need to be stored, a hard disk drive is a more suitable option. Hybrid disk drives are also becoming an option; these units combine the benefits of both hard disk drives and SSDs in order to make the most of each technology. Fast read and write times and no defragmenting necessary combines with high storage capacity to create a very cost-effective PC storage solution for the mass market.

To browse a range of Data Memory Systems’ hard drives and to buy online, visit http://www.datamemorysystems.com

Chromebooks: The Future?

Chromebooks are being mooted as the future of laptop computers, with many of the world’s largest computer manufacturers preparing to bring out new models later this year. The innovative, new cloud-based laptops are described as a more secure option than conventional PCs, and with weak sales of Windows 8 so far recorded, experts have speculated that it was only a matter of time before PC makers turned to something else to boost their profits. Acer and Google are reported to be adding updates to their older Chromebook models, whilst Asus, HP, Lenovo and Samsung are also rumored to be planning entirely new Chromebooks which will hit the market within the next twelve months.

With their many benefits, Chromebooks are seen as an exciting and innovative way to work and communicate on the go, but their limitations are coming under fire. Relying on a Chromebook as a complete computer system has its problems, not least in that the computer memory included in the small units are very restrictive. The majority of Chromebooks only offer 2GB of RAM; there are some which are blessed with 4GB, but upgrades are rendered impossible by the slim construction of the laptops.

The Chrome operating system which many of them run combined with other software such as iTunes or any Adobe programs can easily fill up the RAM memory of a Chromebook and make them impractical and constrained units for those who wish to rely solely on one portable system. There is no doubt that Chromebooks are gaining popularity among some core groups; Acer, for instance, are marketing their latest offering purely for students, who need a powerful unit with the ability to work on the go. But for those who need a powerful system which has the capacity to hold all of their personal files as well as multitask, whether it is for work or leisure, Chromebooks are an unsuitable choice.

Many conventional laptops come readily equipped with plenty of PC or Apple memory, but for those who don’t find it to be quite enough, upgrades are always available. This will aid those who need to download large volumes of data whilst word processing and surfing the web, or those who use their system for the editing of music, video or high resolution images.  Memory upgrades can be purchased in increments of 1GB or 2GB and can vastly improve the overall performance of a laptop until they can outperform the highest specification Chromebooks.

To find out more about the new range of PC and Apple memory solutions from Data Memory Systems and to buy online, visit http://www.datamemorysystems.com

Don’t Trade – Upgrade Your Computer Memory Advises Data Memory Systems

The speed at which technology is progressing in this modern digital era often means that laptops or PCs purchased just twelve months ago can now seem dated and their performance sluggish. Other factors including the constant influx of data which is stored and removed, and the installation of new programs, drivers and software can often cause computer to feel old and lethargic. In many cases, this can prompt users to consider buying a whole new unit in order to achieve the fast loading times and great performance that they enjoyed when their computer was brand new. However, there are ways in which a computer’s performance can be enhanced and brought back to the days it was brand new, with a simple computer memory upgrade.

The reason that computers perform at a much higher level when they are first purchased is because they are generally sold with enough RAM memory to run at their optimum level without any extra software installations and without masses of data to store and retrieve. Running multiple programs at the same time starts out as a breeze, whilst high-resolution computer games and large downloads can be completed with ease. As more files are added, the hard drive of the computer begin to fill up, and soon enough, running more than one program and attempting to download in the background can be a tortuous process.  In this situation, rather than trade in the entire unit in an effort to replicate the fast loading times and data transfer that was so efficient at the start, the most sensible option is to upgrade the RAM memory.

Upgrading the RAM memory is one of the best ways to give a computer a substantial performance boost. Even adding an extra 2GB or 4GB of RAM is enough to see significant results where performance and running speed is concerned. One of the rules of thumb where it comes to RAM upgrades is to measure the amount of Apple or PC memory that is currently free; if it is less than 10% of the total RAM memory installed, then it is time for an upgrade. For example, if a computer has 4GB of RAM installed and the computer specification says that there is just 400MB left, it is time to splash out on an upgrade to get the unit back to peak condition once more.

The whole process doesn’t have to be costly or time-consuming. Finding the right memory solution for each laptop or PC model is simple, and can make the process of upgrading a computer quick and painless. Once installed, the unit will be restored to its former glory, and all for much less than the time and money it would cost to trade in or exchange for a newer model.

One More Step Towards Quantum Computer

A breakthrough by scientists at the prestigious Yale University could pave the way for computer manufacturers to manipulate microwave signals in order to create the world's first quantum computer at some point in the future. Upon its invention, the incredibly powerful tool would revolutionize the processing of information within computers both corporate and domestic, speeding up computing in general and changing the face of computer memory entirely.

The computers of today store information as 'bits'; with each bit containing either a '1' or a '0'. Quantum computers are built on entirely different principles; they store information as 'qubits', which can store a '1', a '0', or any combination of '1' and '0' simultaneously. One 'qubit' is able to hold 20% '1' and 80% '0', for example. A quantum computer which consisted entirely of qubits with this capacity could carry out incredibly complicated calculations and tasks that would be far beyond the realms of capability for even the most advanced computers on the planet today.

The breakthrough by Yale researchers is primarily concerned with photons, the very smallest unit of microwave signals; these serve as the quantum computer's memory. To compare it with a regular computer, the photons would be the equivalent of the RAM memory. They can carry quantum information for a very long time once they have been encoded, as the relatively low level of interaction with substances around them (air, wires and cables) means the information will not be absorbed and lost. Previously, this was one of the major hurdles that those researching quantum computing had to overcome; they needed to create photons which had the ability to store information reliably without ending up altering or deleting it.

According to a paper, researchers at Yale have created an artificial medium which causes photons to repel other photos. This allows for efficient coding of quantum information without tricky control techniques that would only be found in laboratories. Essentially, the team have found a way to temporarily make photons 'writeable', before switching them back to a stable state, thus enabling future scientists to make a sort of 'quantum RAM' from these photons.

Further developments can be taken and improved upon as a result of this groundbreaking study, allowing for additional advancement towards the world's first quantum computer in the future. If scientists can discover a way to make quantum memory reliable and viable for manufacture, it will transform the world of Mac and PC memory that we know forever.

To browse a range of Data Memory Systems’ hard drives and to buy online, visit http://www.datamemorysystems.com

A Brief History of Computer Memory & Storage

Modern computers might be packed full of the fastest and most powerful computer memory  and storage solutions ever, with 2TB hard drives and 4GB of RAM a common feature and dual-SSD drives becoming more and more prevalent, but computer memory was not always so effective. From floppy disks to flash drives, and from magnetic tape to complex hard drives which use magnetic forces to function, the evolution of computer memory has been rapid. This guide takes a look at some of the seminal moments in memory development.

The evolution of computer memory began hundreds of years ago with a humble invention; the punch card. Invented in the 19^th century by Herman Hollerith, who would go on to be a founder of IBM, paper punch machines were at one point churning out up to 10 million punch cards each day. They were a primitive form of storing and accessing data, and were used to complete census reports in the US, before giving way to magnetic tape as recently as the 1970s.

Magnetic tape was a huge leap in data storage; it could store vast amounts of data over a long period of time on an oxide coated half-inch piece of tape. A single reel could hold data equivalent to 10,000 punch cards, changing the computer industry forever. Magnetic storage is still used effectively in this way; reels are now available with capacity of up to 1TB, and they are widely used for archiving purposes, as well as creating back-ups of a high volume. 

The very first DRAM (dynamic random-access memory) chip was developed in 1968 by Lee Boysel, and two years later, Intel went on to realize the first mass-produced DRAM device to the public. It quickly became the world’s best-selling semiconductor chip, and DRAM began to overtake magnetic core memory in the latter half of the 1970s. Workplaces and individuals who had access to computers were suddenly offered the opportunity to store large amounts of information on a single chap, rather than a card or a reel of tape.

Floppy disks were an incredibly popular form of PC storage solution from the 1970s onwards, and they came in various different guises, decreasing in size each time. The term ‘floppy’ was derived from the old 8-inch disks, which were nothing more than a strip of magnetic film covered by a layer of protective plastic, making them fairly bendy. The 5.25-inch and the 3-inch floppy disks came later, with the latter providing one of the prevalent forms of data storage of the 1990s. No longer particularly floppy, and much more durable than their predecessors, these disks are still used as a storage method today.

In the digital era we live in now, the computer storage market is dominated by hard disk drives and SSDs (solid-state drives), both of which utilize innovations that came to light as a result of inventions such as the punch card and the floppy disk. Hard disk drives utilize rotating magnetic platters in order to record and retrieve data, whilst SSDs favor NAND flash memory, which runs faster but has a lower memory capacity. The options available to those searching for memory solutions nowadays are plentiful and expansive, and they are all thanks to the developments which started back in the 1700s with a humble punch card.

To browse Data Memory Systems’ full product range and to buy online, visit http://www.datamemorysystems.com

How Much RAM Do I Need?

It is a common misconception that RAM memory helps to dictate how fast a computer can run. In actual fact, the RAM memory within a computer only helps to dictate how efficiently a computer can multi-task. If a computer is running a single program which uses 500MB of RAM, it will run at the same speed whether the computer has 2GB or 8GB of RAM. The significance of the RAM memory would come into play if there are four programs open which use 500MB of RAM. Apps and programs such as Firefox, Outlook, Photoshop or iTunes will run faster with more RAM; but does everyone need to update? This guide looks at the different amount of usage that computers see, and examines whether they would benefit from a memory upgrade.

1. Regular User – Individual

Someone who uses their computer for basic tasks will most likely only ever open a certain number of programs or applications which are light on RAM usage. Internet browsing, instant messaging and word processing, even when carried out simultaneously, will most likely be able to function well with 2GB of RAM.

2. Regular User – Communal Computer

A family computer, or one which is shared by a number of people, might require more RAM to function. When the above programs are running on one user account on a computer, they can function with 2GB, but if multiple users leave programs running in the background, the computer can become sluggish and inefficient without sufficient RAM. In this case, a PC memory upgrade  to 2-3GB offers strong performance and good value-for-money.

3. Average Users

Those who consider themselves to be average users might download music and movies whilst they are word processing, and listen to or watch media files over the internet. Streaming content can also require large amounts of RAM. An average user might benefit from around 4GB of RAM, which would see them able to carry out these tasks efficiently and allow things such as large volume downloads to be completed in the background whilst using the computer for other processes.

4. Power Users

A power user of a computer might consistently need to have RAM-heavy applications and programs open, and will need all of them to be running at their highest and fastest potential. Heavy video or audio editing are often needed for work reasons, so the computer will need to be functioning efficiently. Virtual machines or drives are often used too, as well as the standard usage which includes internet browsing and listening to music. These would require around 8GB of computer memory in order to function at a competent level. 

To find out more about the new range of PC and Apple memory solutions from Data Memory Systems and to buy online, visit http://www.datamemorysystems.com

After recent testing it has been discovered that certain model Macs from 2010 can actually be upgraded to 16GB using two 8GB SODIMMs.  Although they were originally manufactured with a factory limit of just 4GB, certain adjustments to memory modules in conjunction with the right Apple OS and certain EFI updates can enable these Macs to enjoy up to 16GB of installed memory. A similar occurrence happened back in 2008, when MacBook Pros could max out their RAM memory to 8GB under certain circumstances, when it was believed they had a maximum capacity of 4GB.

The models in question are the 13” Apple Macbook Pro 7,1 from 2010, the Apple Macbook 7,1 from 2010 and the Apple Mac Mini 4,1 from the same year. The models also need to meet certain criteria before the computer memory upgrade can be put into action. These include the installation of Mac OS X 10.7.5 or a later version; the ‘Lion’ and ‘Mountain Lion’ operating systems will both work in conjunction with the new memory upgrades.

The latest EFI update for the machine is also a necessary factor. EFI firmware updates are often released by Apple in order to resolve hardware issues. They can be installed via Apple Software Update. If no updates appear in the Software Update section, it is safe to say that the EFI firmware is up to date and will be compatible with the extra memory. Obtaining the proper memory modules is also a necessity, as with any upgrade. The 16GB kit is a matched pair of 8GB DDR3-1066 SODIMMs.

With our 16GB DMS Certified Memory 204 Pin kit, the memory of these units can be expanded much higher than ever expected. Many computers from the same generation were limited by a 4GB or 8GB memory capacity, but the expansion of these older units could mean a surge in value for those who still own one, as well as a higher level of functionality and a much faster working process once the new memory upgrade has been installed. Those who had one of these older models and were considering trading up for an expensive new machine will be jumping for joy at the discovery that their machine’s memory can be inexpensively upgraded with ease.

To find out more about the new range of PC and Apple memory solutions from Data Memory Systems and to buy online, visit http://www.datamemorysystems.com

Consumers Win as Computer Giants Fight for Supremacy

After more than a decade of dominance from US PC manufacturers such as Hewlett-Packard and Dell, the epicenter of the market has now shifted to the Far East, with China and Taiwan taking over as the leading suppliers in the world. Companies such as Asus, Lenovo and the mighty Samsung are experiencing an increase in their PC shipments, even as the general demand for desktop and laptop computer slows down in favor of tablets and handheld devices.

Flagging economies and a lack of innovation on the part of many manufacturers has seen Asian companies placed in a better position to lead the pack when it comes to supplying computer and memory solutions to consumer markets. Their proximity to supply chains for components, as well as their positioning within growing economies such as China are ensuring that the USA firms are being overtaken as market leaders.

In the fourth quarter of last year, just three of the top ten global computer manufacturers were based in the US: Hewlett-Packard, Dell and Apple. The rest of the top ten boasted bases in the Far East. Through takeovers such as the acquisition of IBM’s PC department by Lenovo, and the buying out of Gateway by Acer, these companies situated in the most rapidly expanding economies on the planet are climbing the ranks.

In the US, the market for handheld devices is largely cornered by Apple and Samsung, with newly-branded Blackberry mounting a renewed challenge to become one of the top competitors. Apple has even managed to create their own niche within the PC market, creating a cult-like phenomenon around the release of their products, and ensuring that consumers are willing to splash out for Macs and Macbooks when they are launched. But Lenovo recently overthrew Hewlett-Packard as the country’s primary provider of personal computers and laptops, and it is anticipated that they will soon join the fray in creating a tablet to rival that of Apple’s and Samsung’s.

In the process of these battles for supremacy, there is one true winner: the consumer. With all of these huge names fighting to be top dog amongst the PC market, companies will start to push the envelope where developing their technology is concerned, and their prices will start to come down as they endeavor to compete with rivals. As companies from the US and the Far East push for the top spot, the consumer benefits every step of the way.

To find out more about the new range of NAND and flash memory solutions from Data Memory Systems and to buy online, visit http://www.datamemorysystems.com

Sound Waves Form Next Frontier for Computer Storage Solutions

Research undertaken at Oregon State University has found that there may be a viable way in the future to use high-frequency sound waves in order to improve magnetic data storage. Hard disk drives and SSDs could both benefit from this breakthrough in computer storage, which has been hailed as one of the greatest things that technology can do for magnetic storage.

It is commonly stated that there is always a need for more storage/memory in a smaller space, with a smaller cost and less energy consumption. These demands are constantly being worked towards in laboratories and workshops across the world, with research always being carried out to improve the state of computer storage. This new technology is called ‘acoustic-assisted magnetic recording’, and was presented to a team of industry experts at the 12^th MMM / Intermag Conference in Chicago this week.

The process has worked in the past temporarily heating the disk platters within a hard disk drive. They become less stiff for a small amount of time, which allows more data to be stored in a particular spot in that window of opportunity. However, heating the platters is a difficult process to sustain, especially as heat tends to spread beyond where it is directed. Heat is also a wasteful form of energy as it is tough to harness, and surplus is often needed just to ensure that the criteria is met.

With the new technology, feted as a revolution in PC storage/memory, ultrasound is used as a direct substitute for heat. It is directed at a very specific location on the disk platter which creates a special elasticity, which in turn allows more data to be stored. Once the ultrasound is turned off, the material is immediately returned to shape, unlike the heat process which causes heat energy to linger. The data stored in the process remains safe even after the ultrasound system has been turned off.

The researchers who have discovered this new technique have not established how much data storage could be increased by using their new method but they have stated that they will continue to experiment with materials, cost issues and performance levels. Their next step will to be established whether the ultrasound would have an effect on other forms of storage/memory, which would truly be a breakthrough for all types of computer storage solutions. The technological holy grail of more storage in less physical space, with lower energy consumption and an affordable price tag may yet be in reach for thousands of consumers and businesses.

To shop computer hard drive solutions from Data Memory Systems visit http://www.datamemorysystems.com

World’s First 1TB USB Drive Is Announced

The announcement in recent weeks of the world’s first terabyte USB flash memory device has broken boundaries for portable flash storage. Kingston revealed at the Consumer Electronics Show last month that they had created a 1TB USB 3.0 flash drive which could transfer huge volumes of files quickly from device to device. The USB drive has the largest capacity of any portable device ever created, and is one of the fastest drives of its kind to hit the market.

However, the price is set to disappoint many. Recommended retail price is yet to be confirmed, but with a recent 512GB model retailing at $1750, conservative estimates have the 1TB device at around $3000 when it is released later this year. This could end up limiting the market for such a device to experts, professionals and niche users who have a command of such huge computer memory capacities as part of their everyday work. Graphic artists, video editors and others in similar industries will now be able to carry around vast amounts of data within a device small enough to fit within a pocket. Even casual users with large budgets would be able to transfer HD movies within seconds.

The read/write speeds of the device are up to 240MB and 160MB per second, sometimes surpassing those possible with SSD computer memory. It would be possible for casual computer users to back up their entire notebook onto a tiny device within seconds. The cost of flash memory is dropping by the quarter, with more affordable and higher capacity storage devices hitting the market all the time. Devices like Kingston’s 1TB USB drive could pave the way for competitors to create similar models and force the prices down, ending up with everyone being able to access the incredible PC memory offered by this type of flash device.

With such a vast amount of vital information stored on it, the USB device also has impressive protective features. A zinc alloy metal provides a shock-resistant casing which will prevent disasters in pockets, underfoot or in luggage. The matte metallic finish is stylish without being industrial, and the sliding design makes access to ports simple.

Flash memory is known as one of the most reliable forms of memory, especially for those working on shared or networked computers who have security worries or issues. Cloud storage is also a popular, and often free, method of storing data, but with dependability issues on many serves, they are a much less viable way for professionals to store large volumes of audio, text or video.

To find out more about the Apple memory and computer memory solutions from Data Memory Systems and to buy online, visit http://www.datamemorysystems.com

DNA Breakthrough Means Endless Storage Potential

An incredible new breakthrough in the most advanced computer hard drive technology currently being researched has seen the creation of a genetic storage device, which has thus far been able to download all of Shakespeare’s sonnets onto strands of manmade DNA, alongside a short excerpt of Martin Luther King’s famous ‘I Have A Dream’ speech. The scientists working on the technology were then able to re-download the information and decode it perfectly, reproducing Shakespeare’s work accurately. Turning information like this into synthetic DNA which can be decoded later is a huge breakthrough in the world of technology and could lead to unimaginably advanced computer memory systems in the future.

It is thought that the results of the landmark study, a collaboration between British scientists and a company based in California, could eventually lead to computer storage solutions that could store 100 million hours of HD video in a mass of synthetic DNA no bigger than a cup. The devices could theoretically store every single film and television programme that has ever been created, and so the possibilities for the future of this technology are endless. 

Aside from the obvious and incredible advantages of being able to store vast amounts of information on a minuscule surface, the solution also has great advantages over its main competitor, magnetic tape. This type of memory solution will degrade within a decade, whereas the DNA memory being mooted as a potential replacement now can last for many thousands of years, existing on no constant power source in the way that computer hard disks do now. The reasoning behind the experimental techniques was that scientists knew that DNA was a secure and robust way to store information that would last until the next age; in the same way that scientists now can extract DNA information from the bones of woolly mammoths or other prehistoric creatures, scientists in the future will be able to decode this DNA and find Shakespeare’s sonnets or Martin Luther King’s speech.

It is predicted that in ten years, more efficient and cheap DNA sequencing could make this type of storage a real solution for PC and Apple computers, while the future of synthetic DNA storage will see incredibly rich archives of data storage for time periods of thousands of years on tiny strands of manmade genetic material. In a few hundred years, every human could have access to every video clip or song ever made at the touch of a button or the click of a finger, all due to this incredible innovation in DNA and computer technology.

To find out more about the Apple memory and computer memory solutions from Data Memory Systems and to buy online, visit http://www.datamemorysystems.com

Apple vs Samsung Looks Set To Continue

Samsung has this year announced plans to target the Chinese market, as well as other smartphone manufacturers, in an effort to bulk up their orders after losing out to their main competitor, Apple. The company, based in South Korea, is among the world’s largest suppliers of mobile processors, which power their own range of Samsung tablets and smartphones, but powered the memory and other components behind iPads and iPhones until very recently. A huge dispute over patents, which has seen numerous high-profile court cases hit the news, has seen Apple start to lessen their reliance on Samsung products, including memory chips and display screens for handheld devices.

The strange situation saw Samsung’s biggest rival become its biggest customer.  It saw them collaborate on some of the most successful handheld devices in recent years with both of their products accounting for more than half of the global smartphone market. Indeed, statistics show Samsung has outsold Apple in every quarter except those in which Apple launched a new product, except for the recent iPhone 5 when, despite the often fever-pitch excitement which comes with an Apple product launch, Samsung managed to sell more units in the last quarter of 2012.

However concerns have arisen among many experts that Samsung, which also produces computer memory and a variety of electronic devices such as cameras and televisions, may now see revenues fall as Apple withdraws their demands. Stephen Woo, the president of Samsung’s System LSI business, has stated that bolstering their key relationships with chipmakers and clients in China will be a vital aspect of staying ahead of the curve. Diversifying their customer base rather than relying on one huge client which could withdraw its demands entirely at any time is an important step towards ensuring Samsung’s dominance in the market.

Samsung is also looking towards their IT systems in order to face down the challenges of remaining a market leader. Their PC memory devices can deliver substantial gains for the brand, their green memory solutions are able to operate rapidly while running at a much lower electricity percentage, while advanced DRAM and solid-state drives address company needs for powerful processing capabilities. Samsung is also looking towards taking the technology used in creating the screen used for iPod and iPad devices and implementing them within their range of LCD television, which consistently sell well. Improving in other areas will make Samsung a stronger business overall, but the conflict between Apple and Samsung, once collaborators and now on rocky ground, looks set to rumble on.

To find out more about the Apple memory and computer memory solutions from Data Memory Systems and to buy online, visit http://www.datamemorysystems.com

What Is A Solid-State Drive?

Many new, modern laptops come fully equipped with what is known as a solid-state drive, or an SSD. Having been around for some time, this method of computer storage has only recently come to the fore as a viable and effective alternative to the traditional hard drive. Now they are one of the most popular storage devices and they are starting to become standard in many new laptops and computers on the market.

But what is the difference between an SSD and a standard hard drive? The largest difference between the two computer memory solutions is that SSDs aren’t actually hard drives at all, at least not in the traditional sense of the term. They contain no moving parts and operate through semiconductor memory and integrated circuits rather than the magnetic options used in standard hard drives. This shift away from moving parts has many advantages, the first being that data transfer between SSDs and other devices is much faster than hard drives which use moving parts to read or write data.

Latency and transfer times are vastly reduced. Latency has been compared with attempting to find a passage in a certain book; this process of searching for data across a drive is much easier with an SSD. The transfer time can be likened to how fast one can read said passage once it has been accessed. Once the data has been found on the drive, how long does it take before it available to view or edit? Boot times are also reduced, and without moving parts in a device, there is much less chance for damage or malfunction. They can’t break or wear down, but they do have a finite number of write cycles before the SSDs performance starts to dip.

It has been the rapidly expanding need for higher performance levels that has driven the development of the SSD in recent years. Real-time information is a requirement for many name, and a large number of business and even leisure users of laptops and computers need to be able to access data instantly. The only stumbling block in the past was the price; being harder to manufacture, the SSD was originally much more expensive than a hard drive, and many experts said that the product wasn’t worth the price. But now improvements in technology have facilitated a price drop in SSDs, causing mass re-evaluation of the drives as a viable alternative to their existing computer memory.