And the benefits that come with Linux is virtually endless. It runs on slower computers, and runs faster than Windows. It's supported by the community, meaning that if 1 out of millions of users finds a problem, it's instantly updated. It's not owned by any company, it's owned by the world. And the best part: It's free.

And this is where I get to the brown part of my post(cause it's no fun without it). If it isn't very clear to you, then let me put it plainly: brown people are cheap. A free operating system is probably the best thing for us since free samples. Plus it runs on older computers well means less money to spend. Linux would probably save you 200-700 bucks, by not paying for an operating system, and getting lesser specs to do the same thing as you would on Windows. If we could spread Linux to poverty-stricken and third-world countries, there would be so much money saved. All the brown people would literally be sexually aroused by such a deal. So it's impossible not to see how Linux could enhance the lives of brown people worldwide. And if the money is spent in the right place, it could also enhance their sex lives.

If you are reading this then I can assume that you wish to switch to a Macintosh computer. Problem is a Macintosh and other products are overpriced for the convenience of a new operating system. Why pay anything, when you can get a whole new operating system for free.

Linux it is the number one alternative to Microsoft windows. You may think this is strange because so many people use a Macintosh. Surprisingly though there is an estimated 36 million users of Linux based operating systems.

How about I talk to you about the history of Linux so you can learn what it is really all about. Linus Torvalds he is the mastermind behind the Linux kernel. The Linux kernel is the base of Linux it is developed through another small OS called UNIX. Macintosh and windows both have a UNIX base. Pretty much what it means is that they both interpret the OS into 1's and 0's and the computer can do with it as it wants. What makes the operating systems different is how the OS interprets software into software that the UNIX base can translate into 1's and 0's.

Now in the modern days of computers Linux has made a major jump. Now Linux makes up hundreds of operating systems such as Ubuntu Linux, open suse, or gentoo Linux. There are many operating systems and they all do what they need to do. It pretty much depends on your preference.

If you like the way Macintosh looks or if you like how windows vista looks then don't worry. Linux, unlike any other operating system, is 100% customizable. You can use programs such as Compiz Fusion and you can turn your Linux into nothing short of amazing! So many options await you all you have to do is change to Linux and you will never regret it!

Last if you don t believe me then watch this video it turned me onto Linux.

Here I attempt to prove that wrong and save you money whilst getting you a better PC as well. If you have enough money to buy a new, high-end PC every year then you can skip this article though!

Scenario

Imagine that I have £1000 ($2000 at the time of writing) and I have a choice:

1. Spend half of it on a cheaper £500/$1000 PC (typical spec. 2.33GHz Core Duo, 2GB RAM, 250GB HDD, 8600GTS and 19" wide-screen LCD).
2. Spend it all and get a Quad Core with double the disk space and a better graphics card (8800 GT) and maybe a bit more RAM.

The thing is that the cheap one will do everything you want it to now (play any game out there - maybe not at the highest resolution but close). It's next year that the newest games will start to struggle and you'll wish you had bought the better system.

Of course the you will still have £500/$1000 in the bank (plus interest) so you can go out and buy another PC. The best bit is that this second PC will be better than the more expensive one you could have bought in the first year. And you still have the "old" one which is still very usable.

Conclusion

Don't be sucked in by the shops claiming that you need to get a better spec. system. Look at what you want to do and buy the lowest spec. system you can make do with. Then you'll end up with two PC's.

This has worked every year for the last decade and I see no reason for it to change. It even seems to work if you spend just £300/$600 on a PC each year as you end up with three PCs and the latest one will still be better than the single one you could have bought for a £1000. If you don't believe it get some prices and specs now and look again in a year. It works.

Physical Intrusion Detection, Prevention and Deterrents

• Man the Premises

  Armed guards do provide a strong deterrent but as with most human reliant systems has its flaws. The guard goes to the toilet, falls asleep, is corrupted and the cost to name but a few. This is a costly exercise for after-hours security when nobody is on site. It is not uncommon for business to employ armed guards during normal working hours and then only a skeleton night-shift of guards for the after-hours period.

• Guard Dogs

  Guard dogs do provide a very good deterrent. Most of us do have in innate fear of being eaten alive. Still using guard dogs does have its flaws. Although; cheaper than human, guards guard dogs do not come cheap. So the extra cost as opposed to doing nothing, the continued on-going cost and inconvenience are the three that rate highest as the disadvantages of this system.

• Security Patrols 

  Intermittent visits by security guards can be a helpful deterrent. Obvious flaws here include the simple fact that the guard is not present 100% of the time. If the security company uses a schedule to inspect customer's premises then villains can observe and identify the pattern and exploit any weaknesses. Although; cheaper than in situ guards, there are still additional and on-going cost imposed on business.

• Alarms

  This category of devices act in cohesion with numerous electronic detection devices and upon an event triggering one or more of these electronic detection and monitoring devices the alarm will begin its wailing complaint. Alarms that are perceived to be perpetually triggering or are false alarms become ignored by monitoring staff over time.

The main costs associated with alarm systems are the initial outlay for the equipment and its installation. If you want to use an alarm monitoring and response service such as those provided by the likes of Amourguard®, Brinks®, Wormalds® and the like there will be continuing on-going cost that will be incurred.

Auto-Dialers 

Expand the alarm to the next level in that rather than just an alarm making a lot of noise upon the occurrence of a trigger event they will dial a preset number; usually to the police and/or a private security company.

The notified parties will then endeavour to attend the physical location as promptly as possible. Most thieves know this and deliberately limit their activities to as short a time span as possible. They don't want to be caught in the act so as to speak and they need time to make a clear get-away.

Once again the main costs associated with auto-dial alarm systems are the initial outlay for the equipment and its installation. If you want to use a third party alarm monitoring, call/incident taking and response service such as those provided by the likes of Amourguard®, Brinks®, Wormalds® and the like there will be continuing on-going cost that will be incurred. I must say that these services become very attractive if you are the one that must respond to a trigger event at 2 AM. Don't forget the telephony charges either.

Silent Alarms 

The idea here is that upon the occurrence of a trigger event the auto-dialer will do its thing but because there is no loud alarm the would-be thieves may think that there is no alarm system at all. The result is that they; the thieves, may prolong their stay longer than normal and so get “caught in the act”.

Costs for this type of service include the initial outlay for the equipment and its installation, the call-out response fee charged by the contracted incident responder or their agent and the on-going service and maintenance fees along with the charges incurred by the telephone company.

Motion Detectors 

At one time this class of intrusion detectors was mainly comprised of microwave enabled devices and worked on the same basic localized radar-like functionality as their bigger brothers do. Once motion is detected in an area where no motion should currently be taking place an alarm process is triggered. Ultra-Sound devices were and still are used as motion detectors.

Computerized Motion Detectors 

Today however; with the advances in computer technologies, we have systems for detecting motion that are comprised of video cameras and computer pattern matching software. Web cameras are being used in this role more and more.

Basically the camera records its field of view and transmits this information to a computer which stores the image on both the hard drive and into memory. At specified intervals; or in the event of a trigger event taking place, the video camera sends more pictures to the computer. The computer then compares the new image against the reference image and if it finds that the two pictures are not identical it initiates an alarm sequence.

• Pressure Pads 

  Most commonly found where ever the public has limited free access to an area containing valuable assets. An example would be a counter top display or some of the exhibits in museums and art galleries around the world. The asset is placed upon a pressure pad. If the asset is removed from the pressure pad an alarm event is triggered.

• Micro-Chips

  A micro-chip is embedded into the asset and if it is misplaced or stolen it can be readily identified. Micro-chips are even planted into the ears of thorough-bred animals as a strong deterrent and as a means of identifying the asset in the future.

• Security Coatings

  Many different superficial materials can be applied to an asset in very much the same way as you would apply a coat of paint. The coating may be magnetically polarised.

Other security coatings will absorb Electro-Magnetic Radiation (EMR). This property has the effect of reducing the leakage of radio frequency signals and hence the capacity for would be intruders located outside your premises from eavesdropping your Wireless Local Area Network (WLAN). They also help in reducing the number of external free-loaders from accessing your wireless network and using it as a means for Internet connectivity. This can have dramatic effects upon the bandwidth and data through-put available for authorised personal.

Wireless Access Point (WAP) 

A WAP acts pretty much like a hub in that the total bandwidth capacity of the WAP is divided among the users currently using it. So if your WAP has a maximum available bandwidth of say 11Mbit/sec and two users are concurrently accessing it each user would have about 5½Mbit/sec of transmission bandwidth. If three additional users begin to access the WAP making a total of five concurrent users the WAP will be able to devote only 2.2Mbit/sec to each user.

Now consider an external free-loader playing an online game and consuming 3Mbit/sec in the process. In this case each of your five legitimate users would at best be able to access 1.8333Mbit/sec. If the freeloader is able to dedicate the entire 3Mbit/sec that they are using only 8Mbit/sec will be available to your wireless network's legitimate users. This works out to be 1.6Mbit/sec to each of the legitimate users.

Preventing this scenario from occurring; through the use of coatings that absorb radio frequency and microwave EMR is truly beneficial to the owner of the bandwidth. It also helps to address the issues of maintaining the confidentiality of any data that is transmitted over the wireless network.

Impact Resistant Film for Glass

Applying a transparent or smoked impact resistant film sheet to the inside of external glass panels means that would be intruders are going to have to do more than throwing a brick at the window. They will generally be required to strike the glass a good many times before they will be able to force the pane in and so gain access. It is also a good idea to do the same with display cases in which the transparent variety is more attractive.

Lighting 

Night lights play an important role in allowing window shoppers to view those products which you have on display. Night lights also serve to give security a clear view of the premises. If an observer (guard) knows that nobody should be inside and they catch a glimpse of somebody the guard can take the appropriate action.

Being clearly observable by passers-by is a very strong deterrent to thieves particularly when another nearby target does not have night lights. Good planned lighting used in conjunction with video surveillance systems also serve to ensure that pictures of the perpetrators are able to produce quality images that clearly identify said perpetrators.

Red Eye Detectors 

This category of devices is set to determine threshold crossing. It is basically a source of infrared or more commonly today a laser source and a detector. Both devices are installed where there is a completely unobstructed line of sight between the devices as they work in conjunction with each other and never individually. This line of sight is typically across a human access point.

Whenever the line of sight becomes obstructed; by somebody passing through the line of sight from one side to the other such as when entering or leaving a building the detector recognises the interruption in its receipt of the signal from the transmitter and sounds an alarm (typically a bell or chime).

This indicates to staff that somebody has entered into the space isolated by the line of sight detection system and they should put down the coffee cup and attend to the customer. In the case of securing your server room this system works best when the access point line of sight occurs prior to the actual door to the server room.

For example: the system could be installed at some point in the server room access path or a hallway leading to the server room's entrance.

These devices are often used in conjunction with video surveillance equipment (which I shall discuss a little later). In this case when the line of sight system is triggered video cameras aimed at a spot a bit further down the server room's access way start to record. In this way all those entering the proximity of the server room facility are video-taped coming and going.

Break-Glass Detectors 

These devices are used to detect incidents where glass is broken. They work best when impact resistant materials have not been fixed to the glass.

Pin Droppers

This group of devices works on the simple principle of current flow/current flow interrupted and are typically installed to windows and doors.

A metal pin is placed into the top of the door frame so as that when the door is closed the pin is pushed up into a recess. Here a current is passed from one side of the recess to the other using the metal pin as its transmission medium. Whenever the door is opened the pin will drop and the circuit will be broken and the alarm sounded or any other preferred action will be initiated.

Mercury-Magneto Devices

Similar to pin droppers but are usually located on the floor. A plate across the bottom of the door is used to complete an electrical circuit or in the newer models a magnetic field. Once again whenever the door is opened the circuit is broken or the magnetic field is altered and the alarm or other desired actions are initiated. Once again these devices can be teamed up with video camera recording systems.

Passive Infrared 

These devices are commonly referred to as heat detectors; which in a sense they are, because infrared Electro-Magnetic Radiation (EMR) is what we call heat.

The twist here however; is that these devices simply monitor variations in the levels of infrared energy in their immediate local environment that they are being exposed to. Any dramatic increase in the “normal” range of fluctuating infrared levels is assumed to be due to the presence of an infrared source coming into close proximity of the device.

Generally speaking the assumption is made that increases above a certain threshold in an area that is meant to be devoid of humans should be attributed to the presence of an intruder and so the trigger sequence is initiated.

Proximity Detectors 

Function using the same types of assumptions that the passive infrared detectors use.

Particle Detectors

Based primarily upon the properties of light transmission through a sample medium which in this case is a sample of the air from the detectors immediate environment. The presence of particles usually attributed to smoke which is assumed to be the resultant by-product of a fire. Smoke detectors are a classic example of particle detectors currently in use today.

Remote Controlled Locking Systems

Such as those currently used in detention centers, prisons, holding areas or bank vaults are also used by larger organisations.

Time Locks

Automated locking and releasing mechanisms that all who have watched a few movies; particularly ones about bank robberies, will undoubtedly be familiar. The basic principle involved is that a timing mechanism external to the lock controls the functional state of the lock.

These locks are deemed to have only two states - open or closed. This is a bit like the thermionic gates that are at the heart of modern computers. Whenever the timer reaches a programmable threshold it causes the state of the lock to change. This type of access control mechanism is very resistant to tampering and so it is commonly used whenever and wherever quantities of valuables are housed.

Door Bells and Noise-Makers

Entry-way noise makers are a very cheap and cost effective solution for the smaller enterprise or individual. They can be self-installed and are very cheap to purchase. If all you require is notification of the entry or exit of persons then you may do well to consider this option as a viable alternative to high-tech solutions.

Many smaller stores; particularly convenience stores and those operated by the Chinese community, make liberal use of door-chimes in this way. Most customers think that they are just "lucky-charms" and hanging door chimes; which in a way they are, since you won't be able to sneak in and remove items unheard.

Biometrics

Numerous biological factors that are unique to an individual can also be used to control and regulate the passage of humans.

Costs 

In general you will need to pay for the actual detectors and possibly their installation. In cases where the detectors are part of a more expansive monitoring and alarm system particularly when trigger event monitoring, notification and or response services are involved you may have no option but to use a licensed installer. In fact in many areas this is a regulatory requirement. As always research your options thoroughly.

Part 4 of the IT Security Guide will continue with Part 3 of the Physical Security Guide series and will cover the following topics:

• Honor Systems
• Manned Surveillance Systems
• Video Surveillance Systems
• Monitoring and Recording Systems

 

The components needed are:

1. Case
2. Motherboard
3. Processor
4. Memory (RAM)
5. Hard Drive
6. Optical Drive
7. Operating System

Step One: Getting the Parts

I chose Dabs for this step, as I'd used them before, but there are plenty of good websites out there.

You want to find a cheap, but good, piece of equipment for each part. What I did was look for parts that matched the specs I needed, and had a 4 or 5 star rating.

Here is what I got:

• Dabsvalue Case: £20
  Fits all mainboards up to 244mm.
  400w power supply included.
  
• MSI Motherboard: £32
  Fits two DDRII simms, up to 2 GB in each RAM slot. (Up to 4 GB total)
  Socket AM2.
  Supports AMD Athlon 64 X2
  Supports 64-bit processors.
• AMD Processor: £48
  Socket AM2.
  64-bit.
  2.2 ghz (“3800+”)
  Dual core
  
• Corsair Memory: £52
  2 simms, DDRII
  Each simm 1 GB in size (2 GB in total)
  
• Hard Drive: £28
  160 GB
  7,200 RPM
  
• DVD-Rom / CD-RW combo drive: £15
  I actually salvaged this from an old PC, but the same drive was £15 on the net.

Step Two: Putting It Together

Firstly, make sure you anti-static yourself. (Touch a metal objects that is connected to the ground, and un-painted. Or, wear an anti-static bracelet, probably best.) This is important as any static shocks can harm the components.

Open up the case. You'll find many screws with your case or motherboard. Screw the spacers into the case, lined up with the holes in the motherboard. Make sure the motherboard does not touch the case, and screw it in place on the spacers. Plug in any case wires, such as power buttons, into the places as described in the motherboard's manual.

Now Take your processor. Smear on some heat-transfer paste (around £2.50), and line it up with the pins on the white square of the motherboard, making sure the arrow in one corner is lined up with the arrow on the motherboard. Making sure it is perfectly aligned, lower the lever (if it is AM2) to stick it in place. Your CPU may be different; I am writing this from using a socket AM2 processor. Read the instructions supplied with your CPU. Place the heat sink on top, and clip it in place. Connect the fan wires to the motherboard.

Connect the thick grey cable to the motherboard. Now screw the hard drive in to one of the small bays, and connect the thick grey cable, and one of the white power cables. Place the optical drive into the case, and screw it in place. Again, connect a white power cable and the thick grey cable.

Now the memory… Make sure the notch is lined up, and place it in to one of the slots. Don't force it. Push it down gently and the white clips will close on it. Do the same for any additional sticks if you have them.

Now turn it on and pray it works.

Step Three: the Operating System

You want a cheap, but effective, operating system.

I chose Linux as it has many free distributions. I then chose Ubuntu, for some reason. I went with Xubuntu, because I needed a visual system, that was low on resources. Download it, install it on the server, and run it.

Setting up the network should be straight forward, or you can check the OS's website for guides.

All done!

In the end, here's the specs:

• AMD Athlon 64-bit dual core, 2.2ghz 3800+
• 2 GB memory
• 160 GB hard disk drive, 7,200 RPM
• DVD-R/CD-RW drive
• 400w PSU
• Xubuntu Linux

Total cost: £197.50 - Not bad for a server of these specs.

Upgrading

Oh, we're not done yet! As your game makes money, here's some things to upgrade:

• RAM: 2 GB -> 4 GB
• Hard Drive: 160GB 7,200 RPM -> 80GB 15,000 RPM