4 Des 2012

Fundamental Differences Between Linux and Windows

  I have been around the Linux community for more than 5 years. From the very beginning, I have known that there are basic differences between Linux and Windows that will always set them apart. This is not, in the least, to say one is better than the other. It’s just to say that they are fundamentally different. Many people, looking from the view of one operating system or the other, don’t quite get the differences between these two powerhouses. So I decided it might serve the public well to list 10 of the primary differences between Linux and Windows.......




#1: Full access vs. no access
 
Having access to the source code is probably the single most significant difference between Linux and Windows. The fact that Linux belongs to the GNU Public License ensures that users (of all sorts) can access (and alter) the code to the very kernel that serves as the foundation of the Linux operating system. You want to peer at the Windows code? Good luck. Unless you are a member of a very select (and elite, to many) group, you will never lay eyes on code making up the Windows operating system.

 You can look at this from both sides of the fence. Some say giving the public access to the code opens the operating system (and the software that runs on top of it) to malicious developers who will take advantage of any weakness they find. Others say that having full access to the code helps bring about faster improvements and bug fixes to keep those malicious developers from being able to bring the system down. I have, on occasion, dipped into the code of one Linux application or another, and when all was said and done, was happy with the results. Could I have done that with a closed-source Windows application? No.


#2: Licensing freedom vs. licensing restrictions

Along with access comes the difference between the licenses. I’m sure that every IT professional could go on and on about licensing of PC software. But let’s just look at the key aspect of the licenses (without getting into legalese). With a Linux GPL-licensed operating system, you are free to modify that software and use and even republish or sell it (so long as you make the code available). Also, with the GPL, you can download a single copy of a Linux distribution (or application) and install it on as many machines as you like. With the Microsoft license, you can do none of the above. You are bound to the number of licenses you purchase, so if you purchase 10 licenses, you can legally install that operating system (or application) on only 10 machines.


#3: Online peer support vs. paid help-desk support
 
This is one issue where most companies turn their backs on Linux. But it’s really not necessary. With Linux, you have the support of a huge community via forums, online search, and plenty of dedicated Web sites. And of course, if you feel the need, you can purchase support contracts from some of the bigger Linux companies (Red Hat and Novell for instance).

However, when you use the peer support inherent in Linux, you do fall prey to time. You could have an issue with something, send out e-mail to a mailing list or post on a forum, and within 10 minutes be flooded with suggestions. Or these suggestions could take hours of days to come in. It seems all up to chance sometimes. Still, generally speaking, most problems with Linux have been encountered and documented. So chances are good you’ll find your solution fairly quickly.

On the other side of the coin is support for Windows. Yes, you can go the same route with Microsoft and depend upon your peers for solutions. There are just as many help sites/lists/forums for Windows as there are for Linux. And you can purchase support from Microsoft itself. Most corporate higher-ups easily fall victim to the safety net that having a support contract brings. But most higher-ups haven’t had to depend up on said support contract. Of the various people I know who have used either a Linux paid support contract or a Microsoft paid support contract, I can’t say one was more pleased than the other. This of course begs the question “Why do so many say that Microsoft support is superior to Linux paid support?”
 

#4: Full vs. partial hardware support

One issue that is slowly becoming nonexistent is hardware support. Years ago, if you wanted to install Linux on a machine you had to make sure you hand-picked each piece of hardware or your installation would not work 100 percent. I can remember, back in 1997-ish, trying to figure out why I couldn’t get Caldera Linux or Red Hat Linux to see my modem. After much looking around, I found I was the proud owner of a Winmodem. So I had to go out and purchase a US Robotics external modem because that was the one modem I knew would work. This is not so much the case now. You can grab a PC (or laptop) and most likely get one or more Linux distributions to install and work nearly 100 percent. But there are still some exceptions. For instance, hibernate/suspend remains a problem with many laptops, although it has come a long way.

With Windows, you know that most every piece of hardware will work with the operating system. Of course, there are times (and I have experienced this over and over) when you will wind up spending much of the day searching for the correct drivers for that piece of hardware you no longer have the install disk for. But you can go out and buy that 10-cent Ethernet card and know it’ll work on your machine (so long as you have, or can find, the drivers). You also can rest assured that when you purchase that insanely powerful graphics card, you will probably be able to take full advantage of its power.
 

#5: Command line vs. no command line

No matter how far the Linux operating system has come and how amazing the desktop environment becomes, the command line will always be an invaluable tool for administration purposes. Nothing will ever replace my favorite text-based editor, ssh, and any given command-line tool. I can’t imagine administering a Linux machine without the command line. But for the end user — not so much. You could use a Linux machine for years and never touch the command line. Same with Windows. You can still use the command line with Windows, but not nearly to the extent as with Linux. And Microsoft tends to obfuscate the command prompt from users. Without going to Run and entering cmd (or command, or whichever it is these days), the user won’t even know the command-line tool exists. And if a user does get the Windows command line up and running, how useful is it really?
 

#6: Centralized vs. noncentralized application installation

The heading for this point might have thrown you for a loop. But let’s think about this for a second. With Linux you have (with nearly every distribution) a centralized location where you can search for, add, or remove software. I’m talking about package management systems, such as Synaptic. With Synaptic, you can open up one tool, search for an application (or group of applications), and install that application without having to do any Web searching (or purchasing).

Windows has nothing like this. With Windows, you must know where to find the software you want to install, download the software (or put the CD into your machine), and run setup.exe or install.exe with a simple double-click. For many years, it was thought that installing applications on Windows was far easier than on Linux. And for many years, that thought was right on target. Not so much now. Installation under Linux is simple, painless, and centralized.
 

#7: Flexibility vs. rigidity

I always compare Linux (especially the desktop) and Windows to a room where the floor and ceiling are either movable or not. With Linux, you have a room where the floor and ceiling can be raised or lowered, at will, as high or low as you want to make them. With Windows, that floor and ceiling are immovable. You can’t go further than Microsoft has deemed it necessary to go.

Take, for instance, the desktop. Unless you are willing to pay for and install a third-party application that can alter the desktop appearance, with Windows you are stuck with what Microsoft has declared is the ideal desktop for you. With Linux, you can pretty much make your desktop look and feel exactly how you want/need. You can have as much or as little on your desktop as you want. From simple flat Fluxbox to a full-blown 3D Compiz experience, the Linux desktop is as flexible an environment as there is on a computer.
 

#8: Fanboys vs. corporate types

I wanted to add this because even though Linux has reached well beyond its school-project roots, Linux users tend to be soapbox-dwelling fanatics who are quick to spout off about why you should be choosing Linux over Windows. I am guilty of this on a daily basis (I try hard to recruit new fanboys/girls), and it’s a badge I wear proudly. Of course, this is seen as less than professional by some. After all, why would something worthy of a corporate environment have or need cheerleaders? Shouldn’t the software sell itself? Because of the open source nature of Linux, it has to make do without the help of the marketing budgets and deep pockets of Microsoft. With that comes the need for fans to help spread the word. And word of mouth is the best friend of Linux.

Some see the fanaticism as the same college-level hoorah that keeps Linux in the basements for LUG meetings and science projects. But I beg to differ. Another company, thanks to the phenomenon of a simple music player and phone, has fallen into the same fanboy fanaticism, and yet that company’s image has not been besmirched because of that fanaticism. Windows does not have these same fans. Instead, Windows has a league of paper-certified administrators who believe the hype when they hear the misrepresented market share numbers reassuring them they will be employable until the end of time.
 

#9: Automated vs. nonautomated removable media

I remember the days of old when you had to mount your floppy to use it and unmount it to remove it. Well, those times are drawing to a close — but not completely. One issue that plagues new Linux users is how removable media is used. The idea of having to manually “mount” a CD drive to access the contents of a CD is completely foreign to new users. There is a reason this is the way it is. Because Linux has always been a multiuser platform, it was thought that forcing a user to mount a media to use it would keep the user’s files from being overwritten by another user. Think about it: On a multiuser system, if everyone had instant access to a disk that had been inserted, what would stop them from deleting or overwriting a file you had just added to the media? Things have now evolved to the point where Linux subsystems are set up so that you can use a removable device in the same way you use them in Windows. But it’s not the norm. And besides, who doesn’t want to manually edit the /etc/fstab fle?

 
#10: Multilayered run levels vs. a single-layered run level

I couldn’t figure out how best to title this point, so I went with a description. What I’m talking about is Linux’ inherent ability to stop at different run levels. With this, you can work from either the command line (run level 3) or the GUI (run level 5). This can really save your socks when X Windows is fubared and you need to figure out the problem. You can do this by booting into run level 3, logging in as root, and finding/fixing the problem.

With Windows, you’re lucky to get to a command line via safe mode — and then you may or may not have the tools you need to fix the problem. In Linux, even in run level 3, you can still get and install a tool to help you out (hello apt-get install APPLICATION via the command line). Having different run levels is helpful in another way. Say the machine in question is a Web or mail server. You want to give it all the memory you have, so you don’t want the machine to boot into run level 5. However, there are times when you do want the GUI for administrative purposes (even though you can fully administer a Linux server from the command line). Because you can run the startx command from the command line at run level 3, you can still start up X Windows and have your GUI as well. With Windows, you are stuck at the Graphical run level unless you hit a serious problem.
Your call…

Those are 10 fundamental differences between Linux and Windows. You can decide for yourself whether you think those differences give the advantage to one operating system or the other. Me? Well I think my reputation (and opinion) precedes me, so I probably don’t need to say I feel strongly that the advantage leans toward Linux. :-D

2 Nov 2012

Perbandingan WiMax dan LTE

Jika kita sering mendengar tentang pengembangan teknologi 4G kita akan menemukan dua teknologi yang berkembang untuk pengembangan 4G yaitu LTE dan WiMax. Tetepi masih banyak yang bingung tentang kedua teknologi tersebut, dan apa perbedaan dari kedua teknologi tersebut. Di artikel ini akan dibahas tentang perbedaan mendasar dari kedua teknologi itu.

WiMax

WiMax atau Worldwide Interoperability for Microwave Access adalah pengembangan dari teknologi Wifi yang sudah sering kita gunakan. WiMax menggunakan standart IEEE 802.16 -2004 untuk fixed wireless broadband dan IEEE 802.16e untuk portable/mobile wireless broadband. WiMAX Forum menetapkan 2 band frekuensi utama pada certication profile untuk Fixed WiMAX (band 3.5 GHz dan 5.8 GHz), sementara untuk Mobile WiMAX ditetapkan 4 band frekuensi pada system profile release-1, yaitu band 2.3 GHz, 2.5 GHz, 3.3 GHz dan 3.5 GHz. Untuk kecepatan WiMax telah mendukung sampai 70 Mbits/s tidak berbeda jauh dengan wifi biasa yang mencapai 54 Mbits/s tetapi yang membedakannya dari segi jangkauan, WiMax ini mampu menjangkau hingga radius 50 Km. Perusahaan yang mengusung WiMaxsebagai teknologi pilihan dalam penyuguhan 4G yaitu ClearWire, Google, Sprint dan Intel. Meskipun secara teori WiMax kalah dalam hal kecepatan dibandingkan dengan LTE.


 
Gambar 1. Konfigurasi WiMax
 
LTE (Long Term Evolution)

LTE adalah teknologi yang dikembangkan oleh 3GPP (3 Generation Partnership Project) yang dikembangkan untuk menggantikan 3G GSM. Sesuai dengan sifatnya sebagai 4G LTE akan menjadi all IP-based network. LTE diharapkan akan membuka pintu untuk menuju layanan menarik sebut saja Voice Over IP, Multi Uder Gaming Over IP, High Definition Video On Demand dan Live TV. LTE disiapkan untuk format jaringan selular yang kekuatannya jauhmelebihi teknologi yang sudah ada sekarang ini seperti 3G, HSDPA (High Speed Downlink Packet Access), LTE mampu memberikan downlink puncakhingga 100Mbps dan 50Mbps pada Uplink serta RAN (Radio Access Network) sepanjang kurang dari 10ms.

Perbandingan LTE dan WiMax

WiMAX (Worldwide Interoperability for Microwave Access) atau LTE (Long Term Evolution) pada prinsipnya kedua teknologi tersebut dirancang untuk mendukung layanan multimedia broadband serta mendukung mobilitas yang tinggi serta dengan basis jaringan berbasis IP. Secara teknologi keduanya menggunakan OFDM/OFDMA, AMC serta MIMO guna untuk meningkatkan kapasitas, efisiensi spektrum serta kualitasnya. Jadi kedua teknologi ini hampir dapat dikatakan sebanding serta telah memiliki kemampuan dalam menjamin kualitas layanan (QOS) yang baik, yang membedakan hanya dalam implementasinya diusung oleh kelompok yang berbeda. WiMAX dikembangkan oleh WiMAX forum sedangkan LTE dikembangkan oleh 3GPP. WiMAX berkembang dari operator komunikasi data sedangkan LTE merupakan evolusi dari operator seluler 3G yang mengusung komunikasi berbasis voice dan data. Pada awalnya WiMAX dirancang untuk memenuhi akses wireless untuk komunikasi data kecepatan tinggi dengan jangkuan yang luas, tetapi kini WiMAX juga dapat untuk komunikasi VOIP dan multimedia.

Dari Segi Teknologi, LTE hadir dengan ternologi terkini, baik dari sisi transmisi antena maupun jaringan inti berbasis IP. Mirip dengan WiMax untuk transmisi LTE menggunakan teknologi OFDMA (Orthogonal Frequency Division Multiple Access) pada downlink dan SC-FDMA (Single Carier Frequency Division Multiple Access) pada uplink, teknologi ini dipercaya lebih efisien dalam efisien dalam hal penggunaan energi. Untuk antena, LTE menggunakan konsep MIMO (Multiple Input Multiple Output) yang memungkinkan antena untuk melewatkan data berukuran besar setelah sebelumnya dipecah dan dikirimkan secara terpisah. Secara kecepatan LTE lebih unggul dibandingkan dengan WiMax yang sekarang (IEEE 802.16e) LTE mampu menghadirkan kecepatan hingga 100Mbps untuk downlink dan 50Mbps pada uplink. Akan tetapi hal ini akan berubah setelah adanya generasi WiMax selanjutnya (IEEE 802.16m)

Untuk lebih jelasnya berikut adalah perbandingan antara LTE dan WiMax secara umum :

LTE
WiMax
Pengembang
3GPP
WiMax Forum
Bit Rates
100Mbps
75Mbps
Radio Tech
OFDMA/MIMO/SC-FDMA
MIMO/SOFDMA