Computer Repair Shops in Albuquerque NM – Eight Points to Consider When Choosing a PC Repair Store

If your computer system is broken and you need computer repair in Albuquerque NM then you have to decide which local computer shop will provide the best service and do the best job.

Lets look at a common cause for computer failures and eight very important considerations you should keep in mind when deciding where to take your desktop computer, or laptop, for repairs.

There’s nothing more frustrating, and even frightening, then having your computer breakdown and stop running. Not having the ability to use your computer is bad enough, but the possibility of losing all of your data is an even greater fear for most of us.

Your computer can crash for any number of reasons but the most common cause for computer failures these days is primarily because of software; usually a computer virus.

Modern computer hardware is very reliable and is seldom the culprit when your computer stops working. Computer viruses are responsible for more problems than anything else nowadays.

So how to do you know if your computer is infected with a virus? Here are some common symptoms:

  • Slow running computer
  • Computer constantly locks up
  • Programs take forever to load
  • Constant Pop-ups
  • Computer reboots itself
  • Blue screen
  • Error messages

Most of us don’t really think too much about getting a computer virus until it happens to us. And, of course you backed up all of your computer data right?

If you think you have a computer virus the first thing you should do is run anti-virus removal software. Malwarebytes is a free piece of software I’ve run successfully on many computer systems. Search for it on Google and get it!You don’t have to be a geek to install it.

If you can’t fix your computer problem with a virus scan, or you have a hardware problem then you need to go to your local shop and get the problem taken care of.

Choosing the best computer repair shop then becomes the issue.

There are many popular computer repair stores in the Albuquerque area some of which include:

  • Dr. Dans Computers 4405 Cutler Ave NE, Albuquerque NM
  • Sandia Computers 3625 Wyoming Boulevard Northeast, Albuquerque NM
  • Computer Corner 4410 Menaul NE, Albuquerque NM
  • PC Magic Pro 1541 Eubank Boulevard Northeast, Albuquerque NM
  • Data Doctors 8001 Wyoming NE Suite B-1 Albuquerque, NM
  • Absolute Computers 7401 Menaul Blvd NE Ste C, Albuquerque, NM

These are just a few computer repair stores to choose from. It’s your choice. But how do you decide?

Do you want reliable,fast, friendly, affordable and professional service with great customer support? We all do right? So do a little homework and save yourself possible headaches when deciding on where to take your computer for service.

Considerations When Deciding Where To Take Your Computer For Repair
Eight Points

1 Location:
This is an obvious one. No one wants to drive thirty miles to get their computer fixed. Look for a computer store within a reasonable distance from your home.

2 Professionalism
You can spot a professional computer store a mile away. You will get a good sense of this the moment you walk in. Are you greeted promptly with a smile? How is the staff dressed? What is the condition of the store? Your first impression will tell you a lot.

3 Fast Turnaround
When your computer is broken you don’t want to wait days and days in order to get it fixed. Pick a computer shop which can get you up and running in a reasonable amount of time. Of course you may have to wait a couple of days on average, but same day computer service ranks high in most people’s book.

4 Experience
Generally speaking,if a computer repair business has been around more than ten years it’s a fair assumption their well established and know what their doing.

5 Affordability
You don’t want to pay an arm and a leg to get your computer fixed. Labor is generally where the bulk of your cost will be so ask a lot of questions so there will be no misunderstanding when you return to pick up your computer system.

6 Personal Consultation
A free consultation is a big plus. If you can get a free assessment without obligation of what’s wrong with your computer system before you agree on repairs then go for it. You will most likely give them the business because they showed a sincere interest in you.

7 Warranty
A warranty or guarantee on work performed should be a given. If you’re not offered a warranty turn around and walk out.

8 Certified Technicians
Ask whether or not the service technicians are certified. This is something oftentimes overlooked but it’s a fair question. You really don’t want the store owners buddy working on your laptop do you?

If you have been the victim of a computer virus or computer hardware malfunction and can’t get your computer to work, you’ve probably felt mad and helpless.

Although it might feel like the end of the world it’s not. You can get your computer repaired from a qualified computer repair shop;just take your time and shop around.

Find out more about computer viruses and how your computer actually works by visiting Computer Repair Albuquerque [] at []

Avoid simply rushing in and leaving your computer with the closest neighborhood computer store simply because it’s the most convenient. Take your time and do a little homework. It will pay off in the long run.

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What Are the Reasons for Upgrading Dell Computer Memory?

Every computer or Laptop, no matter how advanced, has electronic memory that functions in the manner similar to human memory. A good and compatible computer or laptop memory ensures that computer or laptop works efficiently and shows high performance and capabilities. As the dependence on computer increases there’s need for faster processing speed and therefore, upgrading the Dell memory becomes a necessity. With plenty of variations of Dell memory upgrades available, choosing the right type of computer memory requires little research.

Whether you have Dell Computer or Dell Laptop or for that matter you have any branded computer, It is compatible with use with all makes of laptops and computers. However, when you add Dell computer memory, you should check how much computer memory in your system. Right click on the “My Computer” icon that you will find on computer desktop. Go to the “Properties” and the new dialog box opens which shows system information on the computer.

Next check the modules or computer memory sticks and find what type of Dell computer or Laptop memory is installed in the slot. Is it DDR, DR or SDR? Based on this information, you will go for the memory replacement or upgrade. An important point to note right here is that you need to clearly check about memory compatibility issues. For high efficiency and performance of your computer or laptop you need to make sure that the computer memory is compatible.

Type of Dell Memory that Will Work for Your Computer

Just any type of Dell computer memory will not work in the memory slots as this will also lower the efficiency and overall performance of your computer. Moreover, if the computer memory fits physically in your computer’s memory slot, there might still be technical problems. Since the computer or laptop memory comes in variable speeds and if you put slow Dell on a fast motherboard, there will be brakes in the computer’s processing and efficiency.

The best place to find whether a particular type of Dell memory will work for your system is internet. Memory manuals from the Dell for laptops and computers have been listed and you can easily compare which type of memory will best fit your computer system. If you are still in doubt, hire the services of computer hardware expert and he will tell you what type of Dell memory will be an ideal match for your computer or laptop. In addition, search for a compatible Dell from Dell’s official website with the help of laptop’s model number or service tag.

Supposing, a Dell memory saying “1.2 GHz.DDR2 SDRAM DIMM” will let you know what type of laptop memory or computer memory will fit in your system. The specifications will help you in buying the right type of computer or laptop memory that will match your computer or laptop requirements.

Buying Dell Memory can turn out to be a confusing task altogether, but you can minimize the hard work and the ordeal if you narrow down your selection by making your choice of computer model. Search on the official Dell’s website and you will find that there’s complete listing of memory for computers and laptops. Choose the one compatible for the slot of your computer and give your computer whole new efficiency and power.

Make sure that you are not in a hurry when selecting the Dell memory or you will get confused and get a wrong matched memory creating all the troubles for your computer and yourself.

Sachinda Mishra is associated with MemoryTen. It is one of the most visited sites for dell memory, computer memory. It was established in 1995 and specializes in memory upgrade for Apple memory, laptop memory and other like batteries, Harddrive, network transceiver. Kindly visit

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Global Warming Debate: How Can Computer Models’ Predictions Be Wrong?

The environmental extremists want us to believe that every global warming prediction is 100% correct. But computer models can err and easily draw wrong conclusions. The author has personally developed, and directed the development of, several computer models. It is very easy for a computer model to be wrong. Actually, it is rather amazing that they ever make any correct predictions. So many different errors can creep into a model and cause it to predict erroneous results.

Secondarily, the average computer modeller comes to model development with a particular bent — he or she wants to see a particular result. With that in mind, this author has jokingly said that he should offer his modeling skills to the highest bidder: “Tell me what you want to model, and what you want it to predict, and I will build you a model.” That would be unethical, of course, but anyone I’ve ever met who was developing a computer model wanted it to predict a particular result. If it showed that result, the modeller could quit and call the model complete. If it didn’t show that result, the modeller continued working to develop it further. Even if a particular result is not a conscious goal, subconsciously, most modellers are looking for a certain result. So in addition to all the possible errors that can affect model results, there is always the modeller’s natural bent that must be considered. How ethical is the modeller or the modeling team? Would they intentionally slant a model to produce the results they want? We would like to think most would not intentionally slant a model to the desired result.

One must wonder about this — particularly in the global warming debate because all sorts of unseemly unethical tricks are being used to declare predicted results to be absolute truth and to discourage others from questioning those results. “The debate is over. Consensus has been achieved!” Science doesn’t work by consensus — and the debate is hardly ever over. “The Hollywood elite support the results!” Who cares what Hollywood thinks? “How dare you suggest these results are not accurate?” Well… some people actually know something about models and the model development process. They understand all the possible pitfalls of model development. “How dare you disagree with us?” We disagree for many reasons that have not been included in the debate. We disagree because the debate never occurred. If the intelligentsia is willing to play debating games and wanting to stifle discussion when they think their side is in the lead, one must look carefully at all details and question all results.

A computer model is a computer program that has been designed to simulate a particular function and to make predictions of its expected behavior. For example, the author used computer models to predict the viscous behavior of fluids and suspensions in industrial systems. The software used to render computer generated movies must perfectly simulate the visualizations shown. For example, complex algorithms show reflections on shiny objects to simulate the way light bounces from sources to the viewer’s eye. When the original models and algorithms correctly predicted light reflections, they began to be used to generate movies. The following list includes many of the pitfalls that can unintentionally hinder the success of computer models:

First, models are simplifications of real phenomena. The modeller(s) must determine the proper mathematics to simulate each phenomenon of interest. One usually selects the simplest mathematical algorithm that will perform the task at hand. If one selects incorrectly, the results may be in error. For example, some phenomena appear to have a linear behavior. But the linear behavior may change to non-linear behavior under certain extreme conditions. If that is not known in advance, the model may be asked to predict values in the ‘extreme conditions’ territory and errors will result. This happens easily.

For example, the fluid viscosity of a suspension (powder mixed in a fluid) starts as a linear function of the concentration of powders added to the fluid. When the concentration of powder is small, the function is linear. But as the concentration of powder increases, the viscosity behaves in a non-linear manner. The initial linear function is rather simple to program into a model, but the non-linear behavior is complex to accurately model. It is easy to make programming mistakes and utilize the wrong mathematics. This is closely related to the first pitfall above. If you think you know how a particular phenomenon behaves, but you use the wrong equation, the model will predict erroneous values.

Some phenomena are simply difficult to model. Sometimes, the results of a particular set of phenomena are not known. One must then perform a complex calculation each time those phenomena must be used. Rather than use the resulting mathematical equation to simulate a function, it may be necessary to simulate the actual underlying phenomena to arrive at the results. This may force a model within a model which adds complexity to the whole calculation.

For example, rather than using a simple mathematical equation to simulate how clouds affect sunlight, it may be necessary to model the behavior of individual raindrops in sunlight, and then model the behavior of the bazillions of raindrops that form a cloud to determine how an individual cloud will behave in sunlight. Until one builds up to simulating a whole sky full of clouds, the model can take on enormous proportions and the calculation times can be extremely long. Having gone through such an exercise, one must then determine if the equations and algorithms at each step in this process were modeled accurately.

Memory capacity of a computer and speeds of computation can be limited. This was more of a problem 20-30 years ago, but sizes and speeds can still be limiting. In early computers used by this author, you could program anything you wished — as long as it could fit into a 64,000 byte program (which is quite small as computer programs go.) Program sizes were limited and sizes of memory locations were also limited. Computers have grown over the years where most programs can now be so large, a programmer doesn’t need to be concerned with size limitations or with memory capacity. But sometimes, these still need to be taken into account.

When computation times can grow exponentially with certain simulations, one still needs to determine how long a particular computation will take. If computation times for a particular phenomenon double with each new iteration, capacities can quickly outgrow the available memory and allowed computational times. And models will reach those points within one or two iterations. If it takes one full day, for example, to perform one iteration of a simulation, and the calculation time doubles with each new iteration, how long is the modeller willing to wait to complete the simulation? See — this will build quickly — one day, two days, 4 days, a week, two weeks, a month, two months, four months, eight months, 1 1/3 years, etc. Again — how long is the modeller willing to wait?

How many raindrops are needed to form a cloud? How many individually must be simulated to adequately model the behavior of a cloud? How many in combination are needed to simulate the interaction of light with a cloud? If these types of simulations define a model, we’re talking huge numbers of droplets, huge memory requirements, and extremely long computing times. Even if this process started with an iteration taking a fraction of a second, it doesn’t take many doubles to reach a full day where the list in the previous paragraph began.

In some cases, the mathematical ability of a modeller can limit the complexity of the model. Some phenomena are extremely difficult to simulate mathematically. If the modeller cannot perform a calculation by hand, then they cannot insert that calculation into a computer so it can perform it. Some models require advanced calculus or other higher mathematics to solve a problem quickly. If that level of math is beyond the capabilities of the modeller, a less elegant, longer method of calculation may be required. If that is not possible, it may be necessary to postpone finishing the model until the appropriate algorithms become available.

The fighter jet with its wings canted forward comes to mind. This is a fundamentally unstable configuration for an airplane. Its natural tendency is to flip over and fly backwards. It needed two technological advancements before they could design and test such a plane. (1) It needed a controller that could make fast adjustments to its control surfaces so it could fly. They needed to wait until fast computers were available to control the plane. Pilots were simply not quick enough to do this. (2) It needed to wait until light, stiff composite materials were available to make the wings. Stresses on the wings of such an airplane are incredibly high and for years, they simply did not have materials that could handle the stresses and still be light enough for use in a fighter jet. They had a great idea, but they needed to wait for the technology to catch up.

Computer modellers can have great ideas, too, but if they can not code the sufficiently complex mathematics, they may have to wait. An important phenomenon can be overlooked. When problems randomly occur in an industrial process setting, it usually means one or more important phenomena have not been taken into account in the control schemes. Process engineers do their best to include ALL important phenomena in their control algorithms, but most processes still suffer from random, unpredictable, problems. Most of these are blamed on Murphy, but most occur because important control phenomena have been overlooked. In a particular plant control process, we thought we had taken all possible factors into account, yet an occasional batch of raw materials simply didn’t follow expectations and caused enormous problems. When searching for an answer, we learned that a particular characteristic of the batch materials was responsible. In maybe 95% of all batches, this variable was not a problem, but in 5% of the batches, that particular characteristic was extreme, and lots of problems occurred.

This same behavior happens in computer models. For example, according to the ‘big boys’ in the global warming debate, the earth is not heating due to solar radiation variations from the sun. So what if a computer modeller forgets to include solar radiation in the earth’s temperature calculation because the sun has no effect on it. The results will be erroneous because the sun does affect earth’s temperature.

There are lots of reasons why a modeller can overlook an important phenomenon. Sometimes, one phenomenon is simply not known to have an effect on another. When calculating earth’s temperature, must one take into account the area of paved parking lots?… auto emissions?… the height of downtown buildings?… etc. It is fairly easy to miss necessary phenomena simply because they are not deemed to be important enough for inclusion.

Are the mathematics of phenomena a constant with time?… or do they change? This is a question that affects computer models that are supposed to cover long time frames (like the global warming models). Do atmospheric gases absorb radiant energy today the same way they did thousands of years ago and the same way they will thousands of years in the future? Lots of other phenomena should be questioned in this same way. Uniformitarian principles suggest that everything happens today as they happened in the distant past and as they will happen in the distant future. There are problems, though. According to evidence, earth’s magnetic field not only changed several times in the past, but it supposedly switched polarities several times (i.e., north became south, and south became north.) If a phenomenon is dependent on the earth’s magnetic field, how does one handle that in a computer model?

Darwinian evolution and uniformitarianism are closely related. Both theories say that changes occurred very slowly over eons of time and all phenomena behaved similarly throughout those eons. True? False? It depends because creationists who believe in a young earth are grouped with catastrophists who believe that the earth was formed by a series of catastrophies — not by gradual changes over eons. Even in this case, unless known to be otherwise, one still must assume that all phenomena occurred in the past, and will occur in the future, as they occur today. But in this case, the models may only be dealing with thousands of years, rather than millions or billions of years. This question still needs to be taken into account. When computer models are developed, are they checked against good data?… and are the results published for all to see? The author developed several computer models that applied to ceramic process systems. Those results were all published in the technical ceramics literature because they were only relevant to a small part of the technical community. But each model had to be proven against real phenomena. Each model had to be demonstrated to determine if it accurately simulated the real phenomena. When no prior data were available to make the demonstration, the author had to perform experiments to demonstrate that the computer’s predictions were correct. In some cases, real results were well known, or data was already available to demonstrate a behavior. The models were then used to explain why the behavior occurred. In those cases, extra tests did not need to be run because the results were well known. The reasons why the results occurred were the answers sought by the computer models. And then, depending on the nature of the models, results were published in appropriate journals. In the case of global climate models, the results appear to be buried in the technical literature, and we are left to see the media’s and the politicians’ explanations that dire events are soon upon us! If the models are that important that they are going to affect our economy and our lives, results that demonstrate the veracity of the models should be published in the open literature for all to see. If today’s mass media believes these models are so accurate that Washington is going to alter our behaviors in response, then we should not need to dig to find the articles that show us the models and prove the accuracy of the results.

According to some, we have been collecting excellent satellite temperature data since 2002. Our best computer models should be tested against those satellite data to demonstrate the models can accurately predict 2010 weather behavior. Those results should then be published in the open literature for all to see. We should not need to take the words of politicians, environmental extremists, or the intelligentsia that we are in jeopardy of dire consequences from global warming. They should be willing to show these important results to all of us. The fact that they are not willing to do so lends credibility to the idea that global warming is nothing but a hoax — perpetrated to allow the redistribution of wealth from the “haves” like the US and Europe, to the “have nots” like third world countries.

If results are going to be published broadly, are we going to also see good, logical answers to our questions? If global warming is causing the extremely violent hurricanes of the last several years (note — we haven’t had any to the author’s knowledge), are the modellers going to make reasonable explanations for such predictions, or must we continue to hear only from the politicians and extremists, “Well, of course, global warming is to blame!” That is no explanation and computer modellers must have more substantial, logical answers for such claims than that. An “of course it is responsible” answer is insufficient for us to believe that all heat waves, cold waves, hurricanes, tornadoes, snow storms, etc., are the result of global warming. If modellers believe this to be true, they must have better answers than just, “of course.”

Can a computer model successfully predict climate events 10 to 50 years from now? Professor Cotton, a Professor of Atmospheric Science at Colorado State University, [Cotton, W.R., Colorado State University, “Is climate really predictable on 10-50 year time table?”, 20 Jul 2010, Powerpoint presentation] concluded that it is not possible to do this. According to Cotton, there are too many unpredictable phenomena that affect our weather to possibly make accurate predictions over that time frame. Has any one of the other computer modellers asked and answered this question before they began their computer modeling quests? Apparently, such thinking and questioning was insufficient to stop other modelers from attempting to develop such models.

According to the Bible, God controls the wind and the rain. This means God controls the weather and the climate. If He wants it to rain, snow, hail, or drought at some particular location on the earth — He can make it so! Have computer modellers taken this into account in their models? This author has seen at least two managers who exerted their control over their processes in such a way that they each became in input variable into the successful control of their processes. The engineers who were responsible for those processes had to try to take their manager’s decisions into account as they attempted to successfully control the processes. This made it awkwardly difficult to control the processes because the managers’ decisions were unpredictable. If God is actually in control of the wind and rain, in particular, and the weather, in general, how can a modeller take that into account in a model that predicts climate 50 – 100 years from now? The Bible says, “For who hath known the mind of the Lord?” [Rom 11:34] Man certainly doesn’t! So how can a computer model account for God’s decisions? It can’t! It is simply impossible!

There are lots of potential problems that computer modelers must face in the development of climate change models. Some are within their control. Some are fully outside and beyond their control. Some apply specifically to global climate change models, while most apply to all computer models. There are enough potential pitfalls to the accurate development of such models that this author believes we should be seeing the detailed descriptions, results, and proofs of veracity in the open literature.

If the environmentalists truly believe we are facing dire consequences in the near future, all of these details, answers, and results should be out there where all can see. If they have nothing to hide, and they sincerely believe their results, that should be the case. But the underhanded arguments and sneaky methods (“The debate is over!”) used suggest there is more to these computer model results than meets the eye. When Phil Jones, the former director of the University of East Anglia’s Climatic Research Unit [Petre, Jonathan, UK Daily Mail: “Climategate U-turn as Scientist at Centre of Row Admits: There has Been No Global Warming Since 1995,” 11 Aug 2010] recently admitted that “there has been no ‘statistically significant’ warming over the past 15 years,” one begins to wonder what kind of shenanigans the politicians are trying to pull.

Computer models are very useful to help us understand all sorts of phenomena. Lots of models have been developed and are used to explain lots of different phenomena. Those who wish to model global climate change over the next 50 – 100 years should have a great interest in the proof, testing, and use of their models. That the modellers are being quite and allowing the extremists, politicians, and intelligentsia to defend the results of their models suggests the something underhanded is up!

Dennis Dinger is a Christian who is a Professor Emeritus of Ceramic and Materials Engineering at Clemson University. In 2008, he curtailed his ceramics career when he was disabled by a form of blood cancer called Multiple Myeloma. In 2010, the cancer was in complete remission. Over the past three decades, he has directed many applied ceramic engineering research projects; he has been an active researcher and private consultant; and he is author of several ceramic engineering textbooks as well as several Christian books.

This book, Global Climate Change, the Bible, and Science, was written to enter the authors thoughts and reasoning into the global warming debate. In this book, he shows the Bible references which support three important points: (1) God created, (2) God controls the day-to-day workings of the creation, and in particular, (3) God controls the wind and the rain (that is, God controls the weather and climate). Also included are discussions of process control systems, understandings of which are needed by those who want to create climate models, some important natural cycles which have been in balance (without mankind’s help) for years and years, and possible pitfalls for computer models. These and other related topics are discussed in this book. For more details, click on Global Warming.

The author’s other books include My Bout with Multiple Myeloma, which chronicles his battle with blood plasma cancer, The Coming of the Lord Draweth Nigh, a study of prophecy and the Revelation, The Tribulation to Come, a study of the Revelation of John, and Absolute Truth for a Relative World.

All of these books are available in Kindle and paperback formats. Visit our website at http://www.TimelessBooks.US

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Shopping For a New Computer – Understanding Total Cost of Ownership

As owner of a computer repair service center it is quite common to see customers who are contemplating simply buying a new computer as opposed to repairing their existing computer. Many of these customers tend to believe that a $300-400 computer that they’ve seen in an advertisement from one of the big box stores may be the answer to their problem and eliminate their need for service. While it is true that there are some models of new computers that are sold in the $300-400 range the initial purchase price is only one factor to consider when buying a computer. More important than the purchase price is what’s know as the Total Cost of Ownership, or TCO. Determining the TCO of a computer involves adding together the purchase price as well as all of the incremental costs associated with owning it to determine the true cost of the computer to its owner over the life of the machine. Determining the TCO of a computer involves adding together the following:

  1. The initial purchase price of the computer
  2. The cost of service, maintenance and repair work over the life of the computer
  3. The cost of lost productivity during any times that the computer was out of service
  4. How many years the computer can be expected to last for

As you might expect, it is common for computers with very low initial purchase prices to have among the highest Total Cost of Ownership. Accounting people at big firms have understood this for many years which is why you will never see a Fortune 500 company using any of the models of discount computers that you will see on the shelf at Best Buy, Circuit City or any of the other big box stores. Almost every manufacturer (Dell, HP, etc.) offers two separate lines of computers. One line is referred to as their “Business” class computers and the other is the “Home” line of computers. The primary difference between the two is that the business line of computers are built for people who understand TCO. The initial cost of a business computer will always be higher than the “home” line even though the CPU speed, memory and hard drive size may be the same, but you will be getting a computer that is built with better parts: not necessarily faster, but less likely to break down and more economical to service if it does break.

The home lines of computers are built based on an entirely different measurement– mainly that having a broken computer isn’t going to cost you anything. This unfortunately for an uninformed consumer is often not the case; especially once the computer is out of warranty which on new computers is generally only one year. For the do-it-yourself type of computer user who has a good backup system, doesn’t rely on the computer for important business functions and is able to perform their own repairs, the home model computers sold at the big box stores are often a worthwhile option. For everyone else you may benefit from buying a business class machine. You can find purchasing prices and options for business class computers on the websites of any of the major manufacturers, or by contacting your local computer repair service center. Many computer service centers will also have off-lease or refurbished business model computers to choose from as well.

Jason Roskopf is a Waukesha computer repair and IT services expert and co-owner of the “I.T. Connect” Milwaukee computer repair and Waukesha computer repair [] service centers.

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Computer Forensics Jobs for Felons – Tips to Getting Hired for a Job in Computer Forensics

Computer Forensics is a new field of study that has many job opportunities for felons. What is computer forensics? Computer Forensics, also called computer forensic science or computer disputation, deals with legal evidence that is found in computers and other forms of digital storage media. Computer forensic jobs for felons is a field that increasing in demand.

A computer disputation professional investigates computer crimes as well as any other types of crime where digital data can be used as evidence. In addition, Computer Forensics experts also help in the pre-trial information gathering stage known as electronic discovery.

In other words, computer science job opportunities for felons involve using technical and legal knowledge to gather data and evidence from a computer system, including digital evidence extracted from hard disks, CD-ROMs, email messages, JPEG images, etc.

Computer forensics jobs for felons are expected to increase in number in the near future because of the current upward trend of computer crimes. Many types of crimes like child pornography, financial fraud, consumer fraud, corporate espionage and international crime issues are in on the rise. This means that there will be many Computer Science jobs for felons available. Due to the highly technical expertise needed for this type of job, the salary of Computer science professionals is well above the average compared to other non-technical positions.

Computer Forensics Job Description

What types of job opportunities for felons are available in Computer Science Forensics?

Since it is a very technical type of job, these job opportunities for felons require an Associate Degree in Computer Science. Entry-level jobs for convicted felons include forensic laboratory technicians, computer forensics specialists, cyber-squad technicians, security administrators and security telecommunications technicians.

There are basically four types of Computer Forensic jobs for felons – law enforcement, consulting, financial and academic jobs.

Law enforcement job opportunities for felons in this computer field are the most numerous. These are jobs in crime labs or police departments.

After around ten years working in computer disputation, many professionals chose to work as a consultant to lawyers, accountants, private security companies and other similar organizations.

Forensic science professionals can also find teaching job opportunities for felons. These academic jobs do not pay as well as the other types but there is less stress involved. Financial institutions sometimes also have their own professional forensics that prevent or investigate any crimes or anomalies.

To succeed in this field, a person needs to be very organized and methodical. Computer science job opportunities for felons require solving complex problems and uncovering a digital evidence trail which means a lot of hard work, patience and attention to detail.

Jobs for Convicted Felons: Computer Science Online Courses

Educational institutions nowadays offer a choice between online and on-campus Computer Science associate degree programs. Getting the right Computer Science education is very important.

Online courses are ideal for people who want maximum flexibility in their daily schedule. Students study at their own pace and do not need to spend extra money on transportation, on-campus meals or accommodations. Likewise, online courses are also cheaper since students don’t need to buy books since all of the coursework material will be provided online.

Core subjects focus on technical and criminal justice areas of study. The technical subjects are about the identification, collection, preservation, documentation and other important aspects of computer evidence. The criminal justice subjects teach students about the investigative process, the judicial system, the chain of evidence, etc.

Computer Forensics job opportunities for felons are expected to grow rapidly so it is a good career path for convicted felons. These types of jobs require a degree in Computer Forensics. People who are methodical and good problem-solvers should be able to succeed in this field. The pay for computer forensic jobs for felons is really good and considered a high paying career for felons.

And now I’d like to offer a Free Report on the Top 10 Jobs for Felons, just click here: Jobs for Felons

We offer more tips, tools and training on Computer Science programs and jobs that hire felons at

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